Injuries

A story in a recent edition of this newspaper reported on a disturbing, but not surprising, study by a third-year pediatric resident at the University of California, Davis, School of Medicine. Looking at just the Preparticipaton Physical Evaluations (PPEs) she could find at her institution, Tammy Ng, MD, found that only slightly more than a quarter “addressed all the criteria” on the American Academy of Pediatrics (AAP) standardized form. Although more than half included inquiries about respiratory symptoms, less than half contained questions about a cardiovascular history. The lack of consistency across all the forms reviewed was the most dramatic finding.

Having participated in more than my share of PPEs as a school physician, a primary care pediatrician, and a multi-sport high school and college athlete, I was not surprised by Dr. Ng’s findings. In high school my teammates and I considered our trip to see Old Doctor Hinds (not his real name) in the second week of August “a joke.” A few of us with “white coat” hypertension, like myself, had to be settled down and have our blood pressure retaken. But other than that wrinkle, we all passed. The football coach had his own eyeball screening tool and wouldn’t allow kids he thought were too small to play football.

Wilkoff_William_G_2_web.jpg

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

A story in a recent edition of this newspaper reported on a disturbing, but not surprising, study by a third-year pediatric resident at the University of California, Davis, School of Medicine. Looking at just the Preparticipaton Physical Evaluations (PPEs) she could find at her institution, Tammy Ng, MD, found that only slightly more than a quarter “addressed all the criteria” on the American Academy of Pediatrics (AAP) standardized form. Although more than half included inquiries about respiratory symptoms, less than half contained questions about a cardiovascular history. The lack of consistency across all the forms reviewed was the most dramatic finding.

Having participated in more than my share of PPEs as a school physician, a primary care pediatrician, and a multi-sport high school and college athlete, I was not surprised by Dr. Ng’s findings. In high school my teammates and I considered our trip to see Old Doctor Hinds (not his real name) in the second week of August “a joke.” A few of us with “white coat” hypertension, like myself, had to be settled down and have our blood pressure retaken. But other than that wrinkle, we all passed. The football coach had his own eyeball screening tool and wouldn’t allow kids he thought were too small to play football.

Wilkoff_William_G_2_web.jpg

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

A story in a recent edition of this newspaper reported on a disturbing, but not surprising, study by a third-year pediatric resident at the University of California, Davis, School of Medicine. Looking at just the Preparticipaton Physical Evaluations (PPEs) she could find at her institution, Tammy Ng, MD, found that only slightly more than a quarter “addressed all the criteria” on the American Academy of Pediatrics (AAP) standardized form. Although more than half included inquiries about respiratory symptoms, less than half contained questions about a cardiovascular history. The lack of consistency across all the forms reviewed was the most dramatic finding.

Having participated in more than my share of PPEs as a school physician, a primary care pediatrician, and a multi-sport high school and college athlete, I was not surprised by Dr. Ng’s findings. In high school my teammates and I considered our trip to see Old Doctor Hinds (not his real name) in the second week of August “a joke.” A few of us with “white coat” hypertension, like myself, had to be settled down and have our blood pressure retaken. But other than that wrinkle, we all passed. The football coach had his own eyeball screening tool and wouldn’t allow kids he thought were too small to play football.

Wilkoff_William_G_2_web.jpg

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

TORONTO — There is little consistency in the elements and types of information captured in preparticipation physical evaluations (PPE) for sports among school-aged children, which is complicating efforts to determine if they have value, according to a study presented at the Pediatric Academic Societies annual meeting.

The study concept developed when Tammy Ng, MD, a third-year resident in pediatrics at the University of California, Davis, School of Medicine in Sacramento, was surprised to learn that the American Academy of Pediatrics (AAP) had been issuing a standard-of-care PPE for decades.

Dr. Ng had a long-standing interest in pediatric sports medicine and thought that if she was unfamiliar with this form, which was first developed by the AAP in the 1990s in collaboration with other professional organizations, there must be others who were unaware of this resource.

Assuming that this collaborative effort led by the AAP could serve as a standard of care, Dr. Ng evaluated whether PPEs at her own institution were capturing similar information.

In the most recent (5th) edition of the PPE, which was released in 2019 and is available online, medical history is elicited for numerous organ systems relevant to risk. The questions are not directed to any specific sport; the form does not even provide a question about which sports are being considered.
 

Little Consistency

In evaluating whether PPEs completed at her institution in the previous year elicited similar information, Dr. Ng sought to match 25 elements of patient history from the AAP form to questions posed in the PPEs completed at her institution, some of which had been supplied by school or sports organizations.

Of the 365 PPE forms completed at Dr. Ng’s institution that met study criteria, only 28.6% addressed all 25 elements in the AAP form (range, 0%-78%). Although more than half asked specifically about a history of respiratory symptoms, fewer than half included inquiries about cardiovascular history. There was also little consistency in the capture of information about other relevant medical history.

According to Dr. Ng, these low percentages were observed even when liberally awarding credit. For one example, she said forms that asked any question about syncope with exercise were credited with seeking information about cardiovascular health even though a yes-or-no response might not be helpful.

“We did not distinguish between syncope before or after exercise and this is relevant,” Dr. Ng said. “Syncope during exercise is more likely to be a predictor of sudden cardiac death, whereas syncope after exercise is more likely to be a vasovagal response to exertion.”

Of the 365 PPEs evaluated, about half were completed by pediatricians and half by family medicine clinicians. The average age of the children was about 14 years. Sixty-three percent were male. Only one third of the forms documented the sport for which a pre-participation screen was being submitted.

While almost all states now require PPEs for children considering participation in sports, few specify what information should be elicited, according to Dr. Ng. She further noted that no major study has shown that PPEs have any role in preventing morbidity or mortality related to sports participation.
 

Does Heterogeneity Negate Worth?

With such diversity across PPEs, evaluating their role is difficult. For example, with such heterogeneity among forms for the information elicited, there is no reasonable approach for testing their sensitivity in predicting medical complications.

Dr. Ng noted that school-created forms were just as likely as forms from other sources to diverge from the AAP-endorsed PPE and ignore organ systems relevant to risk of medical complications. Yet, if the answer is to use the AAP form, Dr. Ng noted that the first sentence on the form reads, “This form should be placed in the athlete’s medical file and should not be shared with schools or sports organizations.”

Although Dr. Ng acknowledged that providing completed PPEs to third parties raises questions about privacy, she questioned how the information should be used by children, parents, and sports organization administrators for discussing risks if not shared.

This concern was seconded in the discussion following Dr. Ng’s presentation.

“You might be signing off on sports participation, but is this for cheerleading or for football?” asked Daniel C. Worthington, MD, a pediatrician in private practice who has a clinical appointment at Case Western Reserve University School of Medicine, Cleveland. “This makes a huge difference when evaluating if participation is safe.”

He has no issue with completing PPEs for the goal of keeping children safe, but he focused on the inconsistency of how information is collected and distributed.

“The major question is: Does it make any difference?” said Dr. Worthington, referring to the completion of PPEs.

Another participant in the discussion that followed Dr. Ng’s presentation pointed out that the urgent care office in a mall near to his office offers a completed PPE form for a price of $20. In their recommendations, the AAP suggests PPEs be completed by the individual’s primary care physician during a well visit, according to Dr. Ng.

Dr. Ng indicated that PPEs and their purpose deserve a closer look. Based on her data, it is reasonable to assume that the priority for some – whether those requiring or those completing the form — is completing the task rather than meaningful screening of risk.

Dr. Ng and Dr. Worthington report no potential conflicts of interest.

TORONTO — There is little consistency in the elements and types of information captured in preparticipation physical evaluations (PPE) for sports among school-aged children, which is complicating efforts to determine if they have value, according to a study presented at the Pediatric Academic Societies annual meeting.

The study concept developed when Tammy Ng, MD, a third-year resident in pediatrics at the University of California, Davis, School of Medicine in Sacramento, was surprised to learn that the American Academy of Pediatrics (AAP) had been issuing a standard-of-care PPE for decades.

Dr. Ng had a long-standing interest in pediatric sports medicine and thought that if she was unfamiliar with this form, which was first developed by the AAP in the 1990s in collaboration with other professional organizations, there must be others who were unaware of this resource.

Assuming that this collaborative effort led by the AAP could serve as a standard of care, Dr. Ng evaluated whether PPEs at her own institution were capturing similar information.

In the most recent (5th) edition of the PPE, which was released in 2019 and is available online, medical history is elicited for numerous organ systems relevant to risk. The questions are not directed to any specific sport; the form does not even provide a question about which sports are being considered.
 

Little Consistency

In evaluating whether PPEs completed at her institution in the previous year elicited similar information, Dr. Ng sought to match 25 elements of patient history from the AAP form to questions posed in the PPEs completed at her institution, some of which had been supplied by school or sports organizations.

Of the 365 PPE forms completed at Dr. Ng’s institution that met study criteria, only 28.6% addressed all 25 elements in the AAP form (range, 0%-78%). Although more than half asked specifically about a history of respiratory symptoms, fewer than half included inquiries about cardiovascular history. There was also little consistency in the capture of information about other relevant medical history.

According to Dr. Ng, these low percentages were observed even when liberally awarding credit. For one example, she said forms that asked any question about syncope with exercise were credited with seeking information about cardiovascular health even though a yes-or-no response might not be helpful.

“We did not distinguish between syncope before or after exercise and this is relevant,” Dr. Ng said. “Syncope during exercise is more likely to be a predictor of sudden cardiac death, whereas syncope after exercise is more likely to be a vasovagal response to exertion.”

Of the 365 PPEs evaluated, about half were completed by pediatricians and half by family medicine clinicians. The average age of the children was about 14 years. Sixty-three percent were male. Only one third of the forms documented the sport for which a pre-participation screen was being submitted.

While almost all states now require PPEs for children considering participation in sports, few specify what information should be elicited, according to Dr. Ng. She further noted that no major study has shown that PPEs have any role in preventing morbidity or mortality related to sports participation.
 

Does Heterogeneity Negate Worth?

With such diversity across PPEs, evaluating their role is difficult. For example, with such heterogeneity among forms for the information elicited, there is no reasonable approach for testing their sensitivity in predicting medical complications.

Dr. Ng noted that school-created forms were just as likely as forms from other sources to diverge from the AAP-endorsed PPE and ignore organ systems relevant to risk of medical complications. Yet, if the answer is to use the AAP form, Dr. Ng noted that the first sentence on the form reads, “This form should be placed in the athlete’s medical file and should not be shared with schools or sports organizations.”

Although Dr. Ng acknowledged that providing completed PPEs to third parties raises questions about privacy, she questioned how the information should be used by children, parents, and sports organization administrators for discussing risks if not shared.

This concern was seconded in the discussion following Dr. Ng’s presentation.

“You might be signing off on sports participation, but is this for cheerleading or for football?” asked Daniel C. Worthington, MD, a pediatrician in private practice who has a clinical appointment at Case Western Reserve University School of Medicine, Cleveland. “This makes a huge difference when evaluating if participation is safe.”

He has no issue with completing PPEs for the goal of keeping children safe, but he focused on the inconsistency of how information is collected and distributed.

“The major question is: Does it make any difference?” said Dr. Worthington, referring to the completion of PPEs.

Another participant in the discussion that followed Dr. Ng’s presentation pointed out that the urgent care office in a mall near to his office offers a completed PPE form for a price of $20. In their recommendations, the AAP suggests PPEs be completed by the individual’s primary care physician during a well visit, according to Dr. Ng.

Dr. Ng indicated that PPEs and their purpose deserve a closer look. Based on her data, it is reasonable to assume that the priority for some – whether those requiring or those completing the form — is completing the task rather than meaningful screening of risk.

Dr. Ng and Dr. Worthington report no potential conflicts of interest.

TORONTO — There is little consistency in the elements and types of information captured in preparticipation physical evaluations (PPE) for sports among school-aged children, which is complicating efforts to determine if they have value, according to a study presented at the Pediatric Academic Societies annual meeting.

The study concept developed when Tammy Ng, MD, a third-year resident in pediatrics at the University of California, Davis, School of Medicine in Sacramento, was surprised to learn that the American Academy of Pediatrics (AAP) had been issuing a standard-of-care PPE for decades.

Dr. Ng had a long-standing interest in pediatric sports medicine and thought that if she was unfamiliar with this form, which was first developed by the AAP in the 1990s in collaboration with other professional organizations, there must be others who were unaware of this resource.

Assuming that this collaborative effort led by the AAP could serve as a standard of care, Dr. Ng evaluated whether PPEs at her own institution were capturing similar information.

In the most recent (5th) edition of the PPE, which was released in 2019 and is available online, medical history is elicited for numerous organ systems relevant to risk. The questions are not directed to any specific sport; the form does not even provide a question about which sports are being considered.
 

Little Consistency

In evaluating whether PPEs completed at her institution in the previous year elicited similar information, Dr. Ng sought to match 25 elements of patient history from the AAP form to questions posed in the PPEs completed at her institution, some of which had been supplied by school or sports organizations.

Of the 365 PPE forms completed at Dr. Ng’s institution that met study criteria, only 28.6% addressed all 25 elements in the AAP form (range, 0%-78%). Although more than half asked specifically about a history of respiratory symptoms, fewer than half included inquiries about cardiovascular history. There was also little consistency in the capture of information about other relevant medical history.

According to Dr. Ng, these low percentages were observed even when liberally awarding credit. For one example, she said forms that asked any question about syncope with exercise were credited with seeking information about cardiovascular health even though a yes-or-no response might not be helpful.

“We did not distinguish between syncope before or after exercise and this is relevant,” Dr. Ng said. “Syncope during exercise is more likely to be a predictor of sudden cardiac death, whereas syncope after exercise is more likely to be a vasovagal response to exertion.”

Of the 365 PPEs evaluated, about half were completed by pediatricians and half by family medicine clinicians. The average age of the children was about 14 years. Sixty-three percent were male. Only one third of the forms documented the sport for which a pre-participation screen was being submitted.

While almost all states now require PPEs for children considering participation in sports, few specify what information should be elicited, according to Dr. Ng. She further noted that no major study has shown that PPEs have any role in preventing morbidity or mortality related to sports participation.
 

Does Heterogeneity Negate Worth?

With such diversity across PPEs, evaluating their role is difficult. For example, with such heterogeneity among forms for the information elicited, there is no reasonable approach for testing their sensitivity in predicting medical complications.

Dr. Ng noted that school-created forms were just as likely as forms from other sources to diverge from the AAP-endorsed PPE and ignore organ systems relevant to risk of medical complications. Yet, if the answer is to use the AAP form, Dr. Ng noted that the first sentence on the form reads, “This form should be placed in the athlete’s medical file and should not be shared with schools or sports organizations.”

Although Dr. Ng acknowledged that providing completed PPEs to third parties raises questions about privacy, she questioned how the information should be used by children, parents, and sports organization administrators for discussing risks if not shared.

This concern was seconded in the discussion following Dr. Ng’s presentation.

“You might be signing off on sports participation, but is this for cheerleading or for football?” asked Daniel C. Worthington, MD, a pediatrician in private practice who has a clinical appointment at Case Western Reserve University School of Medicine, Cleveland. “This makes a huge difference when evaluating if participation is safe.”

He has no issue with completing PPEs for the goal of keeping children safe, but he focused on the inconsistency of how information is collected and distributed.

“The major question is: Does it make any difference?” said Dr. Worthington, referring to the completion of PPEs.

Another participant in the discussion that followed Dr. Ng’s presentation pointed out that the urgent care office in a mall near to his office offers a completed PPE form for a price of $20. In their recommendations, the AAP suggests PPEs be completed by the individual’s primary care physician during a well visit, according to Dr. Ng.

Dr. Ng indicated that PPEs and their purpose deserve a closer look. Based on her data, it is reasonable to assume that the priority for some – whether those requiring or those completing the form — is completing the task rather than meaningful screening of risk.

Dr. Ng and Dr. Worthington report no potential conflicts of interest.

TOPLINE:

The Injury Prevention Program (TIPP), supported by pediatric residents and equipped with parent-focused tools, effectively reduced reported childhood injuries over the first 2 years of life.

METHODOLOGY:

• The American Academy of Pediatrics designed TIPP in 1983 to aid pediatricians in preventing unintentional injuries among children. TIPP’s effectiveness in reducing childhood injuries had not been formally evaluated in a randomized trial prior to this study.
• TIPP implementation included developmentally based safety counseling and distribution of age-appropriate safety materials to parents.
• A total of 781 parent-infant dyads participated, with the study population primarily consisting of low-income, Hispanic, and non-Hispanic Black families.
• Parent-reported injuries were tracked at each well-child check from 2 to 24 months, with the study adjusting for baseline child, parent, and household factors.

TAKEAWAY:

• TIPP led to a significant reduction in reported childhood injuries over 2 years with adjusted odds ratios of 0.77 (0.66-0.91), 0.60 (0.44-0.82), 0.32 (0.16-0.62), 0.26 (0.12-0.53), and 0.27 (0.14-0.52) at 4, 6, 12, 18, and 24 months, respectively.
• The study highlights the need for further research to explore TIPP’s impact on serious injuries and to identify optimal implementation strategies in busy clinical settings.
• IN PRACTICE:

“This program includes a developmentally based safety counseling schedule that guides what materials (safety sheets and an age-appropriate Framingham safety survey) to ask about risk behaviors. For the age group relevant here, there are pediatric patient handouts for parents of children who are aged 0 to 6 months, 6 to 12 months, and 1 to 2 years, and they review safety for falls, motor vehicles, firearms, drowning, poisoning, choking, and burns”, wrote the authors of the study.

SOURCE:

The study was led by Eliana M. Perrin, MD, MPH, Department of Pediatrics, Johns Hopkins University Schools of Medicine and Nursing, Baltimore, Maryland. It was published online in Pediatrics.

LIMITATIONS:

Further research is necessary to assess TIPP’s effect on serious injuries and to determine effective implementation strategies in various clinical settings.

DISCLOSURES:

The study was supported by grants from the Eunice Kennedy Shriver Institute of Child Health and Development, with supplemental funding from the Centers for Disease Control and Prevention, and the Office of Behavioral and Social Sciences Research.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TOPLINE:

The Injury Prevention Program (TIPP), supported by pediatric residents and equipped with parent-focused tools, effectively reduced reported childhood injuries over the first 2 years of life.

METHODOLOGY:

• The American Academy of Pediatrics designed TIPP in 1983 to aid pediatricians in preventing unintentional injuries among children. TIPP’s effectiveness in reducing childhood injuries had not been formally evaluated in a randomized trial prior to this study.
• TIPP implementation included developmentally based safety counseling and distribution of age-appropriate safety materials to parents.
• A total of 781 parent-infant dyads participated, with the study population primarily consisting of low-income, Hispanic, and non-Hispanic Black families.
• Parent-reported injuries were tracked at each well-child check from 2 to 24 months, with the study adjusting for baseline child, parent, and household factors.

TAKEAWAY:

• TIPP led to a significant reduction in reported childhood injuries over 2 years with adjusted odds ratios of 0.77 (0.66-0.91), 0.60 (0.44-0.82), 0.32 (0.16-0.62), 0.26 (0.12-0.53), and 0.27 (0.14-0.52) at 4, 6, 12, 18, and 24 months, respectively.
• The study highlights the need for further research to explore TIPP’s impact on serious injuries and to identify optimal implementation strategies in busy clinical settings.
• IN PRACTICE:

“This program includes a developmentally based safety counseling schedule that guides what materials (safety sheets and an age-appropriate Framingham safety survey) to ask about risk behaviors. For the age group relevant here, there are pediatric patient handouts for parents of children who are aged 0 to 6 months, 6 to 12 months, and 1 to 2 years, and they review safety for falls, motor vehicles, firearms, drowning, poisoning, choking, and burns”, wrote the authors of the study.

SOURCE:

The study was led by Eliana M. Perrin, MD, MPH, Department of Pediatrics, Johns Hopkins University Schools of Medicine and Nursing, Baltimore, Maryland. It was published online in Pediatrics.

LIMITATIONS:

Further research is necessary to assess TIPP’s effect on serious injuries and to determine effective implementation strategies in various clinical settings.

DISCLOSURES:

The study was supported by grants from the Eunice Kennedy Shriver Institute of Child Health and Development, with supplemental funding from the Centers for Disease Control and Prevention, and the Office of Behavioral and Social Sciences Research.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

TOPLINE:

The Injury Prevention Program (TIPP), supported by pediatric residents and equipped with parent-focused tools, effectively reduced reported childhood injuries over the first 2 years of life.

METHODOLOGY:

• The American Academy of Pediatrics designed TIPP in 1983 to aid pediatricians in preventing unintentional injuries among children. TIPP’s effectiveness in reducing childhood injuries had not been formally evaluated in a randomized trial prior to this study.
• TIPP implementation included developmentally based safety counseling and distribution of age-appropriate safety materials to parents.
• A total of 781 parent-infant dyads participated, with the study population primarily consisting of low-income, Hispanic, and non-Hispanic Black families.
• Parent-reported injuries were tracked at each well-child check from 2 to 24 months, with the study adjusting for baseline child, parent, and household factors.

TAKEAWAY:

• TIPP led to a significant reduction in reported childhood injuries over 2 years with adjusted odds ratios of 0.77 (0.66-0.91), 0.60 (0.44-0.82), 0.32 (0.16-0.62), 0.26 (0.12-0.53), and 0.27 (0.14-0.52) at 4, 6, 12, 18, and 24 months, respectively.
• The study highlights the need for further research to explore TIPP’s impact on serious injuries and to identify optimal implementation strategies in busy clinical settings.
• IN PRACTICE:

“This program includes a developmentally based safety counseling schedule that guides what materials (safety sheets and an age-appropriate Framingham safety survey) to ask about risk behaviors. For the age group relevant here, there are pediatric patient handouts for parents of children who are aged 0 to 6 months, 6 to 12 months, and 1 to 2 years, and they review safety for falls, motor vehicles, firearms, drowning, poisoning, choking, and burns”, wrote the authors of the study.

SOURCE:

The study was led by Eliana M. Perrin, MD, MPH, Department of Pediatrics, Johns Hopkins University Schools of Medicine and Nursing, Baltimore, Maryland. It was published online in Pediatrics.

LIMITATIONS:

Further research is necessary to assess TIPP’s effect on serious injuries and to determine effective implementation strategies in various clinical settings.

DISCLOSURES:

The study was supported by grants from the Eunice Kennedy Shriver Institute of Child Health and Development, with supplemental funding from the Centers for Disease Control and Prevention, and the Office of Behavioral and Social Sciences Research.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

While primary care physicians are uniquely positioned to identify mistreated minors, there is insufficient evidence of benefits and harms to support primary care interventions to prevent maltreatment in children who have no indicative signs or symptoms. That is the conclusion of the US Preventive Services Task Force (USPSTF) in an update of its 2018 statement published in JAMA Network Open.

This gap, however, might be partially filled by addressing in young patients the known social determinants of health such as economic stability, food, shelter, and healthcare access. The USPSTF statement is based on a simultaneously published evidence review and synthesis compiled by Meera Viswanathan, PhD, of the RTI International-University of North Carolina at Chapel Hill Evidence-Based Practice Center in Triangle Park, NC, and colleagues.

Viswanathan_Meera_NC_web.jpg

Barry_Michael_J_MA_web.jpg

A Common and Costly Problem

Child abuse or neglect is widespread and has long-lasting adverse effects. In 2021, the statement noted, Child Protective Services identified 600,000 children as abused or neglected, with 1821 related deaths. Most (76%) experienced neglect, but many were subjected to physical abuse (16%), sexual abuse (10%), and sex trafficking (0.2%). Of the 1820 who died, 78% experienced neglect and 43% experienced physical abuse alone or combined with maltreatment such as neglect and psychological abuse.

Benefits aside, among the potential harms of intervention, the USPSTF noted, is family stigma and bias toward non-White and low-income groups. There may be a greater probability of clinicians’ disproportionately reporting abuse for the children of Black, Hispanic, indigenous, and one-parent households. Some studies indicate that more cases of maltreatment are missed in White children, the review authors noted.

“Additional evidence is needed to clarify potential linkages between improvements in social determinants of health and child maltreatment prevention,” the USPSTF panelists concluded. They acknowledged that their recommendation does not address the effectiveness of interventions such as home visits to improve family well-being.

In an accompanying editorial Samantha Schilling, MD, MSHP, of the Department of Pediatrics at the University of North Carolina at Chapel Hill, and colleagues from the Children’s Hospital of Philadelphia in Pennsylvania admitted they were “disheartened, but not surprised” at the USPSTF’s conclusions and urged that prevention measures be continued. “It is not yet time to wave the white flag of surrender and abandon primary care–based efforts to mitigate risks for child abuse and neglect.

Schilling_Samantha_NC_web.jpg

While primary care physicians are uniquely positioned to identify mistreated minors, there is insufficient evidence of benefits and harms to support primary care interventions to prevent maltreatment in children who have no indicative signs or symptoms. That is the conclusion of the US Preventive Services Task Force (USPSTF) in an update of its 2018 statement published in JAMA Network Open.

This gap, however, might be partially filled by addressing in young patients the known social determinants of health such as economic stability, food, shelter, and healthcare access. The USPSTF statement is based on a simultaneously published evidence review and synthesis compiled by Meera Viswanathan, PhD, of the RTI International-University of North Carolina at Chapel Hill Evidence-Based Practice Center in Triangle Park, NC, and colleagues.

Viswanathan_Meera_NC_web.jpg

Barry_Michael_J_MA_web.jpg

A Common and Costly Problem

Child abuse or neglect is widespread and has long-lasting adverse effects. In 2021, the statement noted, Child Protective Services identified 600,000 children as abused or neglected, with 1821 related deaths. Most (76%) experienced neglect, but many were subjected to physical abuse (16%), sexual abuse (10%), and sex trafficking (0.2%). Of the 1820 who died, 78% experienced neglect and 43% experienced physical abuse alone or combined with maltreatment such as neglect and psychological abuse.

Benefits aside, among the potential harms of intervention, the USPSTF noted, is family stigma and bias toward non-White and low-income groups. There may be a greater probability of clinicians’ disproportionately reporting abuse for the children of Black, Hispanic, indigenous, and one-parent households. Some studies indicate that more cases of maltreatment are missed in White children, the review authors noted.

“Additional evidence is needed to clarify potential linkages between improvements in social determinants of health and child maltreatment prevention,” the USPSTF panelists concluded. They acknowledged that their recommendation does not address the effectiveness of interventions such as home visits to improve family well-being.

In an accompanying editorial Samantha Schilling, MD, MSHP, of the Department of Pediatrics at the University of North Carolina at Chapel Hill, and colleagues from the Children’s Hospital of Philadelphia in Pennsylvania admitted they were “disheartened, but not surprised” at the USPSTF’s conclusions and urged that prevention measures be continued. “It is not yet time to wave the white flag of surrender and abandon primary care–based efforts to mitigate risks for child abuse and neglect.

Schilling_Samantha_NC_web.jpg

While primary care physicians are uniquely positioned to identify mistreated minors, there is insufficient evidence of benefits and harms to support primary care interventions to prevent maltreatment in children who have no indicative signs or symptoms. That is the conclusion of the US Preventive Services Task Force (USPSTF) in an update of its 2018 statement published in JAMA Network Open.

This gap, however, might be partially filled by addressing in young patients the known social determinants of health such as economic stability, food, shelter, and healthcare access. The USPSTF statement is based on a simultaneously published evidence review and synthesis compiled by Meera Viswanathan, PhD, of the RTI International-University of North Carolina at Chapel Hill Evidence-Based Practice Center in Triangle Park, NC, and colleagues.

Viswanathan_Meera_NC_web.jpg

Barry_Michael_J_MA_web.jpg

A Common and Costly Problem

Child abuse or neglect is widespread and has long-lasting adverse effects. In 2021, the statement noted, Child Protective Services identified 600,000 children as abused or neglected, with 1821 related deaths. Most (76%) experienced neglect, but many were subjected to physical abuse (16%), sexual abuse (10%), and sex trafficking (0.2%). Of the 1820 who died, 78% experienced neglect and 43% experienced physical abuse alone or combined with maltreatment such as neglect and psychological abuse.

Benefits aside, among the potential harms of intervention, the USPSTF noted, is family stigma and bias toward non-White and low-income groups. There may be a greater probability of clinicians’ disproportionately reporting abuse for the children of Black, Hispanic, indigenous, and one-parent households. Some studies indicate that more cases of maltreatment are missed in White children, the review authors noted.

“Additional evidence is needed to clarify potential linkages between improvements in social determinants of health and child maltreatment prevention,” the USPSTF panelists concluded. They acknowledged that their recommendation does not address the effectiveness of interventions such as home visits to improve family well-being.

In an accompanying editorial Samantha Schilling, MD, MSHP, of the Department of Pediatrics at the University of North Carolina at Chapel Hill, and colleagues from the Children’s Hospital of Philadelphia in Pennsylvania admitted they were “disheartened, but not surprised” at the USPSTF’s conclusions and urged that prevention measures be continued. “It is not yet time to wave the white flag of surrender and abandon primary care–based efforts to mitigate risks for child abuse and neglect.

Schilling_Samantha_NC_web.jpg

I suspect that, like me, you were saddened, but maybe not shocked, to learn that firearm-related fatalities have recently surpassed motor vehicle–related fatalities as the leading cause of death among children. For those of us living in Maine, this revelation came at a particularly difficult time. The body of the presumed shooter in the Lewiston massacre was found less than 10 miles from where I am writing you this letter. There is a good chance he may have been a former patient of mine, but I no longer have access to my records to confirm that.

This reshuffling at the top of the list of mortality causes is just one example of the shifting trends that have occurred in pediatric fatality statistics. In a recent analysis of the Centers for Disease Control and Prevention statistics published in Pediatrics investigators discovered that while, in general, fatal injuries have increased over the study period (2011-2021) nonfatal injuries have decreased.

Wilkoff_William_G_2_web.jpg

We should no longer be surprised to learn that firearm-related deaths increased more than 87%. Fatal drug poisoning was up 133% and suffocation-related deaths increased 12.5% over that 10-year period. Given this profile of fatalities, it shouldn’t surprise us that nonfatal injuries due to firearms, poisoning, and self-harm also increased.

However, nonfatal injuries in other broad categories decreased: falls were down 52.8%, overexertion 63%, struck by [something or someone] 47.3%, motor vehicle occupant 36.7%, and cut pierce 36.7%. Nonfatal drownings were unchanged.
 

Diverging trends

Fatal injuries are up and nonfatal injuries are down. What are we to make of these diverging trends? I suspect that when it comes to both firearms and drug poisonings, both fatal and nonfatal, children are now living in an environment in which the sheer volume of guns and drugs have grown the point, and will continue to grow, that contact and its consequences will continue to increase until we reach a saturation point at some unpredictable point in the future. There still may be some opportunities to curb the flow of drugs. But, I am afraid when it comes to firearms, that ship has sailed. We may have a chance to curb assault weapons, but hand guns have become ubiquitous to the point that they will continue to be a threat to children.

The increase in self-harm injuries is clearly a reflection of the increase in pediatric and adolescent mental health disturbances, which in turn is a reflection of the gloom hanging over the population in general.

But, what’s going on with the decrease in nonfatal injuries caused by falls, overexertion, struck by, and cut pierce? Is this a bit of sunshine in an otherwise cloudy picture? The authors of the paper see it as a reflection of our “public health interventions targeting pediatric safety partnered with technological advancement and legislative requirements.” Maybe when we are talking about booster seats and other automotive safety advancements. But I’m not so sure we should be too vigorous as we pat ourselves on the back.

On the other hand, aren’t these decreases in injuries related to activity just more evidence of our increasingly sedentary pediatric population? Falling off the couch seldom creates an injury that generates an ED statistic. Myopia and obesity related to excess screen time doesn’t trigger data points in this study. Overexertion injuries are down. We already know the consequences of underexertion are up.

I’m not sure we need to cut back on our efforts at injury prevention but I worry that we may run the risk of discouraging healthy activity if we aren’t careful with our voices of caution.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

I suspect that, like me, you were saddened, but maybe not shocked, to learn that firearm-related fatalities have recently surpassed motor vehicle–related fatalities as the leading cause of death among children. For those of us living in Maine, this revelation came at a particularly difficult time. The body of the presumed shooter in the Lewiston massacre was found less than 10 miles from where I am writing you this letter. There is a good chance he may have been a former patient of mine, but I no longer have access to my records to confirm that.

This reshuffling at the top of the list of mortality causes is just one example of the shifting trends that have occurred in pediatric fatality statistics. In a recent analysis of the Centers for Disease Control and Prevention statistics published in Pediatrics investigators discovered that while, in general, fatal injuries have increased over the study period (2011-2021) nonfatal injuries have decreased.

Wilkoff_William_G_2_web.jpg

We should no longer be surprised to learn that firearm-related deaths increased more than 87%. Fatal drug poisoning was up 133% and suffocation-related deaths increased 12.5% over that 10-year period. Given this profile of fatalities, it shouldn’t surprise us that nonfatal injuries due to firearms, poisoning, and self-harm also increased.

However, nonfatal injuries in other broad categories decreased: falls were down 52.8%, overexertion 63%, struck by [something or someone] 47.3%, motor vehicle occupant 36.7%, and cut pierce 36.7%. Nonfatal drownings were unchanged.
 

Diverging trends

Fatal injuries are up and nonfatal injuries are down. What are we to make of these diverging trends? I suspect that when it comes to both firearms and drug poisonings, both fatal and nonfatal, children are now living in an environment in which the sheer volume of guns and drugs have grown the point, and will continue to grow, that contact and its consequences will continue to increase until we reach a saturation point at some unpredictable point in the future. There still may be some opportunities to curb the flow of drugs. But, I am afraid when it comes to firearms, that ship has sailed. We may have a chance to curb assault weapons, but hand guns have become ubiquitous to the point that they will continue to be a threat to children.

The increase in self-harm injuries is clearly a reflection of the increase in pediatric and adolescent mental health disturbances, which in turn is a reflection of the gloom hanging over the population in general.

But, what’s going on with the decrease in nonfatal injuries caused by falls, overexertion, struck by, and cut pierce? Is this a bit of sunshine in an otherwise cloudy picture? The authors of the paper see it as a reflection of our “public health interventions targeting pediatric safety partnered with technological advancement and legislative requirements.” Maybe when we are talking about booster seats and other automotive safety advancements. But I’m not so sure we should be too vigorous as we pat ourselves on the back.

On the other hand, aren’t these decreases in injuries related to activity just more evidence of our increasingly sedentary pediatric population? Falling off the couch seldom creates an injury that generates an ED statistic. Myopia and obesity related to excess screen time doesn’t trigger data points in this study. Overexertion injuries are down. We already know the consequences of underexertion are up.

I’m not sure we need to cut back on our efforts at injury prevention but I worry that we may run the risk of discouraging healthy activity if we aren’t careful with our voices of caution.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

I suspect that, like me, you were saddened, but maybe not shocked, to learn that firearm-related fatalities have recently surpassed motor vehicle–related fatalities as the leading cause of death among children. For those of us living in Maine, this revelation came at a particularly difficult time. The body of the presumed shooter in the Lewiston massacre was found less than 10 miles from where I am writing you this letter. There is a good chance he may have been a former patient of mine, but I no longer have access to my records to confirm that.

This reshuffling at the top of the list of mortality causes is just one example of the shifting trends that have occurred in pediatric fatality statistics. In a recent analysis of the Centers for Disease Control and Prevention statistics published in Pediatrics investigators discovered that while, in general, fatal injuries have increased over the study period (2011-2021) nonfatal injuries have decreased.

Wilkoff_William_G_2_web.jpg

We should no longer be surprised to learn that firearm-related deaths increased more than 87%. Fatal drug poisoning was up 133% and suffocation-related deaths increased 12.5% over that 10-year period. Given this profile of fatalities, it shouldn’t surprise us that nonfatal injuries due to firearms, poisoning, and self-harm also increased.

However, nonfatal injuries in other broad categories decreased: falls were down 52.8%, overexertion 63%, struck by [something or someone] 47.3%, motor vehicle occupant 36.7%, and cut pierce 36.7%. Nonfatal drownings were unchanged.
 

Diverging trends

Fatal injuries are up and nonfatal injuries are down. What are we to make of these diverging trends? I suspect that when it comes to both firearms and drug poisonings, both fatal and nonfatal, children are now living in an environment in which the sheer volume of guns and drugs have grown the point, and will continue to grow, that contact and its consequences will continue to increase until we reach a saturation point at some unpredictable point in the future. There still may be some opportunities to curb the flow of drugs. But, I am afraid when it comes to firearms, that ship has sailed. We may have a chance to curb assault weapons, but hand guns have become ubiquitous to the point that they will continue to be a threat to children.

The increase in self-harm injuries is clearly a reflection of the increase in pediatric and adolescent mental health disturbances, which in turn is a reflection of the gloom hanging over the population in general.

But, what’s going on with the decrease in nonfatal injuries caused by falls, overexertion, struck by, and cut pierce? Is this a bit of sunshine in an otherwise cloudy picture? The authors of the paper see it as a reflection of our “public health interventions targeting pediatric safety partnered with technological advancement and legislative requirements.” Maybe when we are talking about booster seats and other automotive safety advancements. But I’m not so sure we should be too vigorous as we pat ourselves on the back.

On the other hand, aren’t these decreases in injuries related to activity just more evidence of our increasingly sedentary pediatric population? Falling off the couch seldom creates an injury that generates an ED statistic. Myopia and obesity related to excess screen time doesn’t trigger data points in this study. Overexertion injuries are down. We already know the consequences of underexertion are up.

I’m not sure we need to cut back on our efforts at injury prevention but I worry that we may run the risk of discouraging healthy activity if we aren’t careful with our voices of caution.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

TOPLINE:

Ultrasonography may serve as an alternative to radiography for diagnosing pediatric forearm fractures, thus reducing the number of children undergoing radiography at initial emergency department presentation, as well as their waiting time in ED.

METHODOLOGY:

• After the World Health Organization reported a lack of access to any diagnostic imaging in approximately two-thirds of the world population in 2010, ultrasonography has gained popularity in low- and middle-income countries.
• The initial use of ultrasonography is in accordance with the principle of maintaining radiation levels as low as reasonably achievable.
• The BUCKLED trial was conducted, including 270 pediatric patients (age, 5-15 years) who presented to the ED with isolated, acute, clinically nondeformed distal forearm fractures.
• The participants were randomly assigned to receive initial point-of-care ultrasonography (n = 135) or radiography (n = 135) in the ED.
• The primary outcome was the physical function of the affected arm at 4 weeks evaluated using the Pediatric Upper Extremity Short Patient-Reported Outcomes Measurement Information System (PROMIS) tool.

TAKEAWAY:

• At 4 weeks, mean PROMIS scores were 36.4 and 36.3 points in ultrasonography and radiography groups, respectively (mean difference, 0.1 point; 95% confidence interval, − 1.3 to 1.4), indicating noninferiority of ultrasonography over radiography.
• Ultrasonography and radiography groups showed similar efficacy in terms of PROMIS scores at 1 week (MD, 0.7 points; 95% CI, − 1.4 to 2.8) and 8 weeks (MD, 0.1 points; 95% CI, − 0.5 to 0.7).
• Participants in the ultrasonography group had a shorter length of stay in the ED (median difference, 15 minutes; 95% CI, 1-29) and a shorter treatment time (median difference, 28 minutes; 95% CI, 17-40) than those in the radiography group.
• No important fractures were missed with ultrasonography, and no significant difference was observed in the frequency of adverse events or unplanned returns to the ED between the two groups.

IN PRACTICE:

Noting the benefit-risk profile of an ultrasound-first approach in an ED setting, the lead author, Peter J. Snelling, MB, BS, MPH&TM, from Menzies Health Institute Queensland, Gold Coast, Australia, said: “It is highly unlikely that any important fractures would be missed using the protocol that we trained clinicians. The risk is low and the benefit is moderate, such as reducing length of stay and increased level of patient satisfaction.”

He further added that, “with an ultrasound-first approach, clinicians can scan the patient at time of review and may even be able to discharge them immediately (two-thirds of instances in our NEJM trial). This places the patient at the center of care being provided.”
 

SOURCE: 

Authors from the BUCKLED Trial Group published their study in the New England Journal of Medicine.

LIMITATIONS:

PROMIS scores may have been affected by variations in subsequent therapeutic interventions rather than the initial diagnostic method. PROMIS tool was not validated in children younger than 5 years of age.

DISCLOSURES:

The study was funded by the Emergency Medicine Foundation and others. The authors have declared no relevant interests to disclose.

A version of this article first appeared on Medscape.com.

TOPLINE:

Ultrasonography may serve as an alternative to radiography for diagnosing pediatric forearm fractures, thus reducing the number of children undergoing radiography at initial emergency department presentation, as well as their waiting time in ED.

METHODOLOGY:

• After the World Health Organization reported a lack of access to any diagnostic imaging in approximately two-thirds of the world population in 2010, ultrasonography has gained popularity in low- and middle-income countries.
• The initial use of ultrasonography is in accordance with the principle of maintaining radiation levels as low as reasonably achievable.
• The BUCKLED trial was conducted, including 270 pediatric patients (age, 5-15 years) who presented to the ED with isolated, acute, clinically nondeformed distal forearm fractures.
• The participants were randomly assigned to receive initial point-of-care ultrasonography (n = 135) or radiography (n = 135) in the ED.
• The primary outcome was the physical function of the affected arm at 4 weeks evaluated using the Pediatric Upper Extremity Short Patient-Reported Outcomes Measurement Information System (PROMIS) tool.

TAKEAWAY:

• At 4 weeks, mean PROMIS scores were 36.4 and 36.3 points in ultrasonography and radiography groups, respectively (mean difference, 0.1 point; 95% confidence interval, − 1.3 to 1.4), indicating noninferiority of ultrasonography over radiography.
• Ultrasonography and radiography groups showed similar efficacy in terms of PROMIS scores at 1 week (MD, 0.7 points; 95% CI, − 1.4 to 2.8) and 8 weeks (MD, 0.1 points; 95% CI, − 0.5 to 0.7).
• Participants in the ultrasonography group had a shorter length of stay in the ED (median difference, 15 minutes; 95% CI, 1-29) and a shorter treatment time (median difference, 28 minutes; 95% CI, 17-40) than those in the radiography group.
• No important fractures were missed with ultrasonography, and no significant difference was observed in the frequency of adverse events or unplanned returns to the ED between the two groups.

IN PRACTICE:

Noting the benefit-risk profile of an ultrasound-first approach in an ED setting, the lead author, Peter J. Snelling, MB, BS, MPH&TM, from Menzies Health Institute Queensland, Gold Coast, Australia, said: “It is highly unlikely that any important fractures would be missed using the protocol that we trained clinicians. The risk is low and the benefit is moderate, such as reducing length of stay and increased level of patient satisfaction.”

He further added that, “with an ultrasound-first approach, clinicians can scan the patient at time of review and may even be able to discharge them immediately (two-thirds of instances in our NEJM trial). This places the patient at the center of care being provided.”
 

SOURCE: 

Authors from the BUCKLED Trial Group published their study in the New England Journal of Medicine.

LIMITATIONS:

PROMIS scores may have been affected by variations in subsequent therapeutic interventions rather than the initial diagnostic method. PROMIS tool was not validated in children younger than 5 years of age.

DISCLOSURES:

The study was funded by the Emergency Medicine Foundation and others. The authors have declared no relevant interests to disclose.

A version of this article first appeared on Medscape.com.

TOPLINE:

Ultrasonography may serve as an alternative to radiography for diagnosing pediatric forearm fractures, thus reducing the number of children undergoing radiography at initial emergency department presentation, as well as their waiting time in ED.

METHODOLOGY:

• After the World Health Organization reported a lack of access to any diagnostic imaging in approximately two-thirds of the world population in 2010, ultrasonography has gained popularity in low- and middle-income countries.
• The initial use of ultrasonography is in accordance with the principle of maintaining radiation levels as low as reasonably achievable.
• The BUCKLED trial was conducted, including 270 pediatric patients (age, 5-15 years) who presented to the ED with isolated, acute, clinically nondeformed distal forearm fractures.
• The participants were randomly assigned to receive initial point-of-care ultrasonography (n = 135) or radiography (n = 135) in the ED.
• The primary outcome was the physical function of the affected arm at 4 weeks evaluated using the Pediatric Upper Extremity Short Patient-Reported Outcomes Measurement Information System (PROMIS) tool.

TAKEAWAY:

• At 4 weeks, mean PROMIS scores were 36.4 and 36.3 points in ultrasonography and radiography groups, respectively (mean difference, 0.1 point; 95% confidence interval, − 1.3 to 1.4), indicating noninferiority of ultrasonography over radiography.
• Ultrasonography and radiography groups showed similar efficacy in terms of PROMIS scores at 1 week (MD, 0.7 points; 95% CI, − 1.4 to 2.8) and 8 weeks (MD, 0.1 points; 95% CI, − 0.5 to 0.7).
• Participants in the ultrasonography group had a shorter length of stay in the ED (median difference, 15 minutes; 95% CI, 1-29) and a shorter treatment time (median difference, 28 minutes; 95% CI, 17-40) than those in the radiography group.
• No important fractures were missed with ultrasonography, and no significant difference was observed in the frequency of adverse events or unplanned returns to the ED between the two groups.

IN PRACTICE:

Noting the benefit-risk profile of an ultrasound-first approach in an ED setting, the lead author, Peter J. Snelling, MB, BS, MPH&TM, from Menzies Health Institute Queensland, Gold Coast, Australia, said: “It is highly unlikely that any important fractures would be missed using the protocol that we trained clinicians. The risk is low and the benefit is moderate, such as reducing length of stay and increased level of patient satisfaction.”

He further added that, “with an ultrasound-first approach, clinicians can scan the patient at time of review and may even be able to discharge them immediately (two-thirds of instances in our NEJM trial). This places the patient at the center of care being provided.”
 

SOURCE: 

Authors from the BUCKLED Trial Group published their study in the New England Journal of Medicine.

LIMITATIONS:

PROMIS scores may have been affected by variations in subsequent therapeutic interventions rather than the initial diagnostic method. PROMIS tool was not validated in children younger than 5 years of age.

DISCLOSURES:

The study was funded by the Emergency Medicine Foundation and others. The authors have declared no relevant interests to disclose.

A version of this article first appeared on Medscape.com.

Pediatric concussion is one of those rare phenomena in which we may be witnessing its emergence and clarification in a generation. When I was serving as the game doctor for our local high school football team in the 1970s, I and many other physicians had a very simplistic view of concussion. If the patient never lost conscious and had a reasonably intact short-term memory, we didn’t seriously entertain concussion as a diagnosis. “What’s the score and who is the president?” Were my favorite screening questions.

Obviously, we were underdiagnosing and mismanaging concussion. In part thanks to some high-profile athletes who suffered multiple concussions and eventually chronic traumatic encephalopathy (CTE) physicians began to realize that they should be looking more closely at children who sustained a head injury. The diagnostic criteria were expanded to include any injury that even temporarily effected brain function.

Wilkoff_William_G_2_web.jpg

With the new appreciation for the risk of multiple concussions, the focus broadened to include the question of when is it safe for the athlete to return to competition. What signs or symptoms can the patient offer us so we can be sure his or her brain is sufficiently recovered? Here we stepped off into a deep abyss of ignorance. Fortunately, it became obvious fairly quickly that imaging studies weren’t going to help us, as they were invariably normal or at least didn’t tell us anything that wasn’t obvious on a physical exam.

If the patient had a headache, complained of dizziness, or manifested amnesia, monitoring the patient was fairly straightforward. But, in the absence of symptoms and no obvious way to determine the pace of recovery of an organ we couldn’t visualize, clinicians were pulling criteria and time tables out of thin air. Guessing that the concussed brain was in some ways like a torn muscle or overstretched tendon, “brain rest” was often suggested. So no TV, no reading, and certainly none of the cerebral challenging activity of school. Fortunately, we don’t hear much about the notion of brain rest anymore and there is at least one study that suggests that patients kept home from school recover more slowly.

But there remains a significant number of patients who have persistent symptoms and are unable to resume their usual activities, including school and sports. Sometimes they describe headache or dizziness but often they complain of a vague mental unwellness. “Brain fog,” a term that has emerged in the wake of the COVID pandemic, might be an apt descriptor. Management of these slow recoverers has been a challenge.

However, two recent articles in the journal Pediatrics may provide some clarity and offer guidance in their management. In a study coming from the psychology department at Georgia State University, researchers reported that they have been able to find “no evidence of clinical meaningful differences in IQ after pediatric concussion.” In their words there is “strong evidence against reduced intelligence in the first few weeks to month after pediatric concussion.”

While their findings may simply toss the IQ onto the pile of worthless measures of healing, a companion commentary by Talin Babikian, PhD, a psychologist at the Semel Institute for Neuroscience and Human Behavior at UCLA, provides a more nuanced interpretation. He writes that if we are looking for an explanation when a patient’s recovery is taking longer than we might expect we need to look beyond some structural damage. Maybe the patient has a previously undiagnosed premorbid condition effecting his or her intellectual, cognitive, or learning abilities. Could the stall in improvement be the result of other symptoms? Here fatigue and sleep deprivation may be the culprits. Could some underlying emotional factor such as anxiety or depression be the problem? For example, I have seen patients whose fear of re-injury has prevented their return to full function. And, finally, the patient may be avoiding a “nonpreferred or challenging situation” unrelated to the injury.

In other words, the concussion may simply be the most obvious rip in a fabric that was already frayed and under stress. This kind of broad holistic (a word I usually like to avoid) thinking may be what is lacking as we struggle to understand other mysterious and chronic conditions such as Lyme disease and chronic fatigue syndrome.

While these two papers help provide some clarity in the management of pediatric concussion, what they fail to address is the bigger question of the relationship between head injury and CTE. The answers to that conundrum are enshrouded in a mix of politics and publicity that I doubt will clear in the near future.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

Pediatric concussion is one of those rare phenomena in which we may be witnessing its emergence and clarification in a generation. When I was serving as the game doctor for our local high school football team in the 1970s, I and many other physicians had a very simplistic view of concussion. If the patient never lost conscious and had a reasonably intact short-term memory, we didn’t seriously entertain concussion as a diagnosis. “What’s the score and who is the president?” Were my favorite screening questions.

Obviously, we were underdiagnosing and mismanaging concussion. In part thanks to some high-profile athletes who suffered multiple concussions and eventually chronic traumatic encephalopathy (CTE) physicians began to realize that they should be looking more closely at children who sustained a head injury. The diagnostic criteria were expanded to include any injury that even temporarily effected brain function.

Wilkoff_William_G_2_web.jpg

With the new appreciation for the risk of multiple concussions, the focus broadened to include the question of when is it safe for the athlete to return to competition. What signs or symptoms can the patient offer us so we can be sure his or her brain is sufficiently recovered? Here we stepped off into a deep abyss of ignorance. Fortunately, it became obvious fairly quickly that imaging studies weren’t going to help us, as they were invariably normal or at least didn’t tell us anything that wasn’t obvious on a physical exam.

If the patient had a headache, complained of dizziness, or manifested amnesia, monitoring the patient was fairly straightforward. But, in the absence of symptoms and no obvious way to determine the pace of recovery of an organ we couldn’t visualize, clinicians were pulling criteria and time tables out of thin air. Guessing that the concussed brain was in some ways like a torn muscle or overstretched tendon, “brain rest” was often suggested. So no TV, no reading, and certainly none of the cerebral challenging activity of school. Fortunately, we don’t hear much about the notion of brain rest anymore and there is at least one study that suggests that patients kept home from school recover more slowly.

But there remains a significant number of patients who have persistent symptoms and are unable to resume their usual activities, including school and sports. Sometimes they describe headache or dizziness but often they complain of a vague mental unwellness. “Brain fog,” a term that has emerged in the wake of the COVID pandemic, might be an apt descriptor. Management of these slow recoverers has been a challenge.

However, two recent articles in the journal Pediatrics may provide some clarity and offer guidance in their management. In a study coming from the psychology department at Georgia State University, researchers reported that they have been able to find “no evidence of clinical meaningful differences in IQ after pediatric concussion.” In their words there is “strong evidence against reduced intelligence in the first few weeks to month after pediatric concussion.”

While their findings may simply toss the IQ onto the pile of worthless measures of healing, a companion commentary by Talin Babikian, PhD, a psychologist at the Semel Institute for Neuroscience and Human Behavior at UCLA, provides a more nuanced interpretation. He writes that if we are looking for an explanation when a patient’s recovery is taking longer than we might expect we need to look beyond some structural damage. Maybe the patient has a previously undiagnosed premorbid condition effecting his or her intellectual, cognitive, or learning abilities. Could the stall in improvement be the result of other symptoms? Here fatigue and sleep deprivation may be the culprits. Could some underlying emotional factor such as anxiety or depression be the problem? For example, I have seen patients whose fear of re-injury has prevented their return to full function. And, finally, the patient may be avoiding a “nonpreferred or challenging situation” unrelated to the injury.

In other words, the concussion may simply be the most obvious rip in a fabric that was already frayed and under stress. This kind of broad holistic (a word I usually like to avoid) thinking may be what is lacking as we struggle to understand other mysterious and chronic conditions such as Lyme disease and chronic fatigue syndrome.

While these two papers help provide some clarity in the management of pediatric concussion, what they fail to address is the bigger question of the relationship between head injury and CTE. The answers to that conundrum are enshrouded in a mix of politics and publicity that I doubt will clear in the near future.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

Pediatric concussion is one of those rare phenomena in which we may be witnessing its emergence and clarification in a generation. When I was serving as the game doctor for our local high school football team in the 1970s, I and many other physicians had a very simplistic view of concussion. If the patient never lost conscious and had a reasonably intact short-term memory, we didn’t seriously entertain concussion as a diagnosis. “What’s the score and who is the president?” Were my favorite screening questions.

Obviously, we were underdiagnosing and mismanaging concussion. In part thanks to some high-profile athletes who suffered multiple concussions and eventually chronic traumatic encephalopathy (CTE) physicians began to realize that they should be looking more closely at children who sustained a head injury. The diagnostic criteria were expanded to include any injury that even temporarily effected brain function.

Wilkoff_William_G_2_web.jpg

With the new appreciation for the risk of multiple concussions, the focus broadened to include the question of when is it safe for the athlete to return to competition. What signs or symptoms can the patient offer us so we can be sure his or her brain is sufficiently recovered? Here we stepped off into a deep abyss of ignorance. Fortunately, it became obvious fairly quickly that imaging studies weren’t going to help us, as they were invariably normal or at least didn’t tell us anything that wasn’t obvious on a physical exam.

If the patient had a headache, complained of dizziness, or manifested amnesia, monitoring the patient was fairly straightforward. But, in the absence of symptoms and no obvious way to determine the pace of recovery of an organ we couldn’t visualize, clinicians were pulling criteria and time tables out of thin air. Guessing that the concussed brain was in some ways like a torn muscle or overstretched tendon, “brain rest” was often suggested. So no TV, no reading, and certainly none of the cerebral challenging activity of school. Fortunately, we don’t hear much about the notion of brain rest anymore and there is at least one study that suggests that patients kept home from school recover more slowly.

But there remains a significant number of patients who have persistent symptoms and are unable to resume their usual activities, including school and sports. Sometimes they describe headache or dizziness but often they complain of a vague mental unwellness. “Brain fog,” a term that has emerged in the wake of the COVID pandemic, might be an apt descriptor. Management of these slow recoverers has been a challenge.

However, two recent articles in the journal Pediatrics may provide some clarity and offer guidance in their management. In a study coming from the psychology department at Georgia State University, researchers reported that they have been able to find “no evidence of clinical meaningful differences in IQ after pediatric concussion.” In their words there is “strong evidence against reduced intelligence in the first few weeks to month after pediatric concussion.”

While their findings may simply toss the IQ onto the pile of worthless measures of healing, a companion commentary by Talin Babikian, PhD, a psychologist at the Semel Institute for Neuroscience and Human Behavior at UCLA, provides a more nuanced interpretation. He writes that if we are looking for an explanation when a patient’s recovery is taking longer than we might expect we need to look beyond some structural damage. Maybe the patient has a previously undiagnosed premorbid condition effecting his or her intellectual, cognitive, or learning abilities. Could the stall in improvement be the result of other symptoms? Here fatigue and sleep deprivation may be the culprits. Could some underlying emotional factor such as anxiety or depression be the problem? For example, I have seen patients whose fear of re-injury has prevented their return to full function. And, finally, the patient may be avoiding a “nonpreferred or challenging situation” unrelated to the injury.

In other words, the concussion may simply be the most obvious rip in a fabric that was already frayed and under stress. This kind of broad holistic (a word I usually like to avoid) thinking may be what is lacking as we struggle to understand other mysterious and chronic conditions such as Lyme disease and chronic fatigue syndrome.

While these two papers help provide some clarity in the management of pediatric concussion, what they fail to address is the bigger question of the relationship between head injury and CTE. The answers to that conundrum are enshrouded in a mix of politics and publicity that I doubt will clear in the near future.

Dr. Wilkoff practiced primary care pediatrics in Brunswick, Maine, for nearly 40 years. He has authored several books on behavioral pediatrics, including “How to Say No to Your Toddler.” Other than a Littman stethoscope he accepted as a first-year medical student in 1966, Dr. Wilkoff reports having nothing to disclose. Email him at pdnews@mdedge.com.

This transcript has been edited for clarity.
 

F. Perry Wilson, MD, MSCE: I am joined today by Dr. Ohad Einav. He’s a staff surgeon in orthopedics at Hadassah Medical Center in Jerusalem. He’s with me to talk about an absolutely incredible surgical case, something that is terrifying to most non–orthopedic surgeons and I imagine is fairly scary for spine surgeons like him as well. It’s a case of internal decapitation that has generated a lot of news around the world because it happened to a young boy. But what we don’t have is information about how this works from a medical perspective. So, first of all, Dr. Einav, thank you for taking time to speak with me today.

Ohad Einav, MD: Thank you for having me.

Dr. Wilson: Can you tell us about Suleiman Hassan and what happened to him before he came into your care?

Dr. Einav: Hassan is a 12-year-old child who was riding his bicycle on the West Bank, about 40 minutes from here. Unfortunately, he was involved in a motor vehicle accident and he suffered injuries to his abdomen and cervical spine. He was transported to our service by helicopter from the scene of the accident.

164959_pho1_web.JPG

164959_pho2_web.JPG

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.
 

F. Perry Wilson, MD, MSCE: I am joined today by Dr. Ohad Einav. He’s a staff surgeon in orthopedics at Hadassah Medical Center in Jerusalem. He’s with me to talk about an absolutely incredible surgical case, something that is terrifying to most non–orthopedic surgeons and I imagine is fairly scary for spine surgeons like him as well. It’s a case of internal decapitation that has generated a lot of news around the world because it happened to a young boy. But what we don’t have is information about how this works from a medical perspective. So, first of all, Dr. Einav, thank you for taking time to speak with me today.

Ohad Einav, MD: Thank you for having me.

Dr. Wilson: Can you tell us about Suleiman Hassan and what happened to him before he came into your care?

Dr. Einav: Hassan is a 12-year-old child who was riding his bicycle on the West Bank, about 40 minutes from here. Unfortunately, he was involved in a motor vehicle accident and he suffered injuries to his abdomen and cervical spine. He was transported to our service by helicopter from the scene of the accident.

164959_pho1_web.JPG

164959_pho2_web.JPG

A version of this article first appeared on Medscape.com.

This transcript has been edited for clarity.
 

F. Perry Wilson, MD, MSCE: I am joined today by Dr. Ohad Einav. He’s a staff surgeon in orthopedics at Hadassah Medical Center in Jerusalem. He’s with me to talk about an absolutely incredible surgical case, something that is terrifying to most non–orthopedic surgeons and I imagine is fairly scary for spine surgeons like him as well. It’s a case of internal decapitation that has generated a lot of news around the world because it happened to a young boy. But what we don’t have is information about how this works from a medical perspective. So, first of all, Dr. Einav, thank you for taking time to speak with me today.

Ohad Einav, MD: Thank you for having me.

Dr. Wilson: Can you tell us about Suleiman Hassan and what happened to him before he came into your care?

Dr. Einav: Hassan is a 12-year-old child who was riding his bicycle on the West Bank, about 40 minutes from here. Unfortunately, he was involved in a motor vehicle accident and he suffered injuries to his abdomen and cervical spine. He was transported to our service by helicopter from the scene of the accident.

164959_pho1_web.JPG

164959_pho2_web.JPG

A version of this article first appeared on Medscape.com.

Nonsteroidal anti-inflammatory drugs (NSAIDs), acetaminophen, or both medications together can effectively manage a child’s toothache as a stopgap until definitive treatment is available, according to a new guideline.

The guideline, published in the September issue of the Journal of the American Dental Association, does not recommend opioids for a toothache or after tooth extraction in this population.

Opioid prescriptions for children entail risk for hospitalization and death. Yet, some dentists continued to prescribe contraindicated opioids to young children after a Food and Drug Administration warning in 2017 about the use of tramadol and codeine in this population, the guideline notes.

Opioid prescribing to children also continued after the American Academy of Pediatric Dentistry in 2018 recommended acetaminophen and NSAIDs as first-line medications for pain management and said that the use of opioids should be “rare.”

Although the new guidance, which also covers pain management after tooth extraction, is geared toward general dentists, it could help emergency clinicians and primary care providers manage children’s pain when definitive treatment is not immediately available, the authors noted.

Definitive treatment could include pulpectomy, nonsurgical root canal, incision for drainage of an abscess, or tooth extraction.

If definitive care in 2-3 days is not possible, parents should let the health care team know, the guideline says.

“These pharmacologic strategies will alleviate dental pain temporarily until a referral for definitive dental treatment is in place,” the authors wrote.

The American Dental Association (ADA) endorsed the new guideline, which was developed by researchers with the ADA Science & Research Institute, the University of Pittsburgh School of Dental Medicine, and the Center for Integrative Global Oral Health at the University of Pennsylvania School of Dental Medicine in Philadelphia.

The guideline recommends ibuprofen and, for children older than 2 years, naproxen as NSAID options. The use of naproxen in children younger than 12 years for this purpose is off label, they noted.

The guideline suggests doses of acetaminophen and NSAIDs on the basis of age and weight that may differ from those on medication packaging.

“When acetaminophen or NSAIDs are administered as directed, the risk of harm to children from either medication is low,” the guideline states.

“While prescribing opioids to children has become less frequent overall, this guideline ensures that both dentists and parents have evidence-based recommendations to determine the most appropriate treatment for dental pain,” senior guideline author Paul Moore, DMD, PhD, MPH, professor emeritus at the University of Pittsburgh’s School of Dental Medicine, said in a news release from the ADA. “Parents and caregivers can take comfort that widely available medications that have no abuse potential, such as acetaminophen or ibuprofen, are safe and effective for helping their children find relief from short-term dental pain.”

A 2018 review by Dr. Moore and coauthors found that NSAIDs, with or without acetaminophen, were effective and minimized adverse events, relative to opioids, for acute dental pain across ages.

The new recommendations for children will “allow for better treatment of this kind of pain” and “will help prevent unnecessary prescribing of medications with abuse potential, including opioids,” Patrizia Cavazzoni, MD, director of the FDA Center for Drug Evaluation and Research, said in the news release.

The report stems from a 3-year, $1.5 million grant awarded by the FDA in 2020 to the University of Pittsburgh and the ADA Science & Research Institute to develop a clinical practice guideline for the management of acute pain in dentistry in children, adolescents, and adults. The recommendations for adolescents and adults are still in development.

The report was supported by an FDA grant, and the guideline authors received technical and methodologic support from the agency. Some authors disclosed ties to pharmaceutical companies.

A version of this article appeared on Medscape.com.

Nonsteroidal anti-inflammatory drugs (NSAIDs), acetaminophen, or both medications together can effectively manage a child’s toothache as a stopgap until definitive treatment is available, according to a new guideline.

The guideline, published in the September issue of the Journal of the American Dental Association, does not recommend opioids for a toothache or after tooth extraction in this population.

Opioid prescriptions for children entail risk for hospitalization and death. Yet, some dentists continued to prescribe contraindicated opioids to young children after a Food and Drug Administration warning in 2017 about the use of tramadol and codeine in this population, the guideline notes.

Opioid prescribing to children also continued after the American Academy of Pediatric Dentistry in 2018 recommended acetaminophen and NSAIDs as first-line medications for pain management and said that the use of opioids should be “rare.”

Although the new guidance, which also covers pain management after tooth extraction, is geared toward general dentists, it could help emergency clinicians and primary care providers manage children’s pain when definitive treatment is not immediately available, the authors noted.

Definitive treatment could include pulpectomy, nonsurgical root canal, incision for drainage of an abscess, or tooth extraction.

If definitive care in 2-3 days is not possible, parents should let the health care team know, the guideline says.

“These pharmacologic strategies will alleviate dental pain temporarily until a referral for definitive dental treatment is in place,” the authors wrote.

The American Dental Association (ADA) endorsed the new guideline, which was developed by researchers with the ADA Science & Research Institute, the University of Pittsburgh School of Dental Medicine, and the Center for Integrative Global Oral Health at the University of Pennsylvania School of Dental Medicine in Philadelphia.

The guideline recommends ibuprofen and, for children older than 2 years, naproxen as NSAID options. The use of naproxen in children younger than 12 years for this purpose is off label, they noted.

The guideline suggests doses of acetaminophen and NSAIDs on the basis of age and weight that may differ from those on medication packaging.

“When acetaminophen or NSAIDs are administered as directed, the risk of harm to children from either medication is low,” the guideline states.

“While prescribing opioids to children has become less frequent overall, this guideline ensures that both dentists and parents have evidence-based recommendations to determine the most appropriate treatment for dental pain,” senior guideline author Paul Moore, DMD, PhD, MPH, professor emeritus at the University of Pittsburgh’s School of Dental Medicine, said in a news release from the ADA. “Parents and caregivers can take comfort that widely available medications that have no abuse potential, such as acetaminophen or ibuprofen, are safe and effective for helping their children find relief from short-term dental pain.”

A 2018 review by Dr. Moore and coauthors found that NSAIDs, with or without acetaminophen, were effective and minimized adverse events, relative to opioids, for acute dental pain across ages.

The new recommendations for children will “allow for better treatment of this kind of pain” and “will help prevent unnecessary prescribing of medications with abuse potential, including opioids,” Patrizia Cavazzoni, MD, director of the FDA Center for Drug Evaluation and Research, said in the news release.

The report stems from a 3-year, $1.5 million grant awarded by the FDA in 2020 to the University of Pittsburgh and the ADA Science & Research Institute to develop a clinical practice guideline for the management of acute pain in dentistry in children, adolescents, and adults. The recommendations for adolescents and adults are still in development.

The report was supported by an FDA grant, and the guideline authors received technical and methodologic support from the agency. Some authors disclosed ties to pharmaceutical companies.

A version of this article appeared on Medscape.com.

Nonsteroidal anti-inflammatory drugs (NSAIDs), acetaminophen, or both medications together can effectively manage a child’s toothache as a stopgap until definitive treatment is available, according to a new guideline.

The guideline, published in the September issue of the Journal of the American Dental Association, does not recommend opioids for a toothache or after tooth extraction in this population.

Opioid prescriptions for children entail risk for hospitalization and death. Yet, some dentists continued to prescribe contraindicated opioids to young children after a Food and Drug Administration warning in 2017 about the use of tramadol and codeine in this population, the guideline notes.

Opioid prescribing to children also continued after the American Academy of Pediatric Dentistry in 2018 recommended acetaminophen and NSAIDs as first-line medications for pain management and said that the use of opioids should be “rare.”

Although the new guidance, which also covers pain management after tooth extraction, is geared toward general dentists, it could help emergency clinicians and primary care providers manage children’s pain when definitive treatment is not immediately available, the authors noted.

Definitive treatment could include pulpectomy, nonsurgical root canal, incision for drainage of an abscess, or tooth extraction.

If definitive care in 2-3 days is not possible, parents should let the health care team know, the guideline says.

“These pharmacologic strategies will alleviate dental pain temporarily until a referral for definitive dental treatment is in place,” the authors wrote.

The American Dental Association (ADA) endorsed the new guideline, which was developed by researchers with the ADA Science & Research Institute, the University of Pittsburgh School of Dental Medicine, and the Center for Integrative Global Oral Health at the University of Pennsylvania School of Dental Medicine in Philadelphia.

The guideline recommends ibuprofen and, for children older than 2 years, naproxen as NSAID options. The use of naproxen in children younger than 12 years for this purpose is off label, they noted.

The guideline suggests doses of acetaminophen and NSAIDs on the basis of age and weight that may differ from those on medication packaging.

“When acetaminophen or NSAIDs are administered as directed, the risk of harm to children from either medication is low,” the guideline states.

“While prescribing opioids to children has become less frequent overall, this guideline ensures that both dentists and parents have evidence-based recommendations to determine the most appropriate treatment for dental pain,” senior guideline author Paul Moore, DMD, PhD, MPH, professor emeritus at the University of Pittsburgh’s School of Dental Medicine, said in a news release from the ADA. “Parents and caregivers can take comfort that widely available medications that have no abuse potential, such as acetaminophen or ibuprofen, are safe and effective for helping their children find relief from short-term dental pain.”

A 2018 review by Dr. Moore and coauthors found that NSAIDs, with or without acetaminophen, were effective and minimized adverse events, relative to opioids, for acute dental pain across ages.

The new recommendations for children will “allow for better treatment of this kind of pain” and “will help prevent unnecessary prescribing of medications with abuse potential, including opioids,” Patrizia Cavazzoni, MD, director of the FDA Center for Drug Evaluation and Research, said in the news release.

The report stems from a 3-year, $1.5 million grant awarded by the FDA in 2020 to the University of Pittsburgh and the ADA Science & Research Institute to develop a clinical practice guideline for the management of acute pain in dentistry in children, adolescents, and adults. The recommendations for adolescents and adults are still in development.

The report was supported by an FDA grant, and the guideline authors received technical and methodologic support from the agency. Some authors disclosed ties to pharmaceutical companies.

A version of this article appeared on Medscape.com.

At the new Walnut Creek Clinic in the East Bay of the San Francisco Bay area, kids get a “Comfort Promise.”

The clinic extends the work of the Stad Center for Pediatric Pain, Palliative & Integrative Medicine beyond the locations in University of California San Francisco Benioff Children’s Hospitals in San Francisco and Oakland.

At Walnut Creek, clinical acupuncturists, massage therapists, and specialists in hypnosis complement advanced medical care with integrative techniques.

The “Comfort Promise” program, which is being rolled out at that clinic and other UCSF pediatric clinics through the end of 2024, is the clinicians’ pledge to do everything in their power to make tests, infusions, and vaccinations “practically pain free.”

Needle sticks, for example, can be a common source of pain and anxiety for kids. Techniques to minimize pain vary by age. Among the ways the clinicians minimize needle pain for a child 6- to 12-years-old are:

• Giving the child control options to pick which arm; and watch the injection, pause it, or stop it with a communication sign.
• Introducing memory shaping by asking the child about the experience afterward and presenting it in a positive way by praising the acts of sitting still, breathing deeply, or being brave.
• Using distractors such as asking the child to hold a favorite item from home, storytelling, coloring, singing, or using breathing exercises.

Stefan Friedrichsdorf, MD, chief of the UCSF division of pediatric pain, palliative & integrative medicine, said in a statement: “For kids with chronic pain, complex pain medications can cause more harm than benefit. Our goal is to combine exercise and physical therapy with integrative medicine and skills-based psychotherapy to help them become pain free in their everyday life.”
 

Bundling appointments for early impact

At Lurie Children’s Hospital of Chicago, the chronic pain treatment program bundles visits with experts in several disciplines, include social workers, psychologists, and physical therapists, in addition to the medical team, so that patients can complete a first round of visits with multiple specialists in a short period, as opposed to several months.

Natalie Weatherred, APRN-NP, CPNP-PC, a pediatric nurse practitioner in anesthesiology and the pain clinic coordinator, said in an interview that the up-front visits involve between four and eight follow-up sessions in a short period with everybody in the multidisciplinary team “to really help jump-start their pain treatment.”

She pointed out that many families come from distant parts of the state or beyond so the bundled appointments are also important for easing burden on families.

Sarah Duggan, APRN-NP, CPNP-PC, also a pediatric nurse practitioner in anesthesiology at Lurie’s, pointed out that patients at their clinic often have other chronic conditions as well, such as such as postural orthostatic tachycardia syndrome so the care integration is particularly important.

“We can get them the appropriate care that they need and the resources they need, much sooner than we would have been able to do 5 or 10 years ago,” Ms. Duggan said.
 

Virtual reality distraction instead of sedation

Henry Huang, MD, anesthesiologist and pain physician at Texas Children’s Hospital, Houston, said a special team there collaborates with the Chariot Program at Stanford (Calif.) University and incorporates virtual reality to distract children from pain and anxiety and harness their imaginations during induction for anesthesia, intravenous placement, and vaccinations.

“At our institution we’ve been recruiting patients to do a proof of concept to do virtual reality distraction for pain procedures, such as nerve blocks or steroid injections,” Dr. Huang said.

Traditionally, kids would have received oral or intravenous sedation to help them cope with the fear and pain.

“We’ve been successful in several cases without relying on any sedation,” he said. “The next target is to expand that to the chronic pain population.”

The distraction techniques are promising for a wide range of ages, he said, and the programming is tailored to the child’s ability to interact with the technology.

He said he is also part of a group promoting use of ultrasound instead of x-rays to guide injections to the spine and chest to reduce children’s exposure to radiation. His group is helping teach these methods to other clinicians nationally.

Dr. Huang said the most important development in chronic pediatric pain has been the growth of rehab centers that include the medical team, and practitioners from psychology as well as occupational and physical therapy.

“More and more hospitals are recognizing the importance of these pain rehab centers,” he said.

The problem, Dr. Huang said, is that these programs have always been resource intensive and involve highly specialized clinicians. The cost and the limited number of specialists make it difficult for widespread rollout.

“That’s always been the challenge from the pediatric pain world,” he said.
 

Recognizing the complexity of kids’ chronic pain

Angela Garcia, MD, a consulting physician for pediatric rehabilitation medicine at UPMC Children’s Hospital of Pittsburgh said recognizing the validity and complexity of pediatric pain has led to multidisciplinary approaches and specialty clinics for chronic pain instead of primarily pharmaceutical solutions.

Techniques such as biofeedback and acupuncture are becoming more mainstream in pediatric chronic care, she said.

At the UPMC clinic, children and their families talk with a care team about their values and what they want to accomplish in managing the child’s pain. They ask what the pain is preventing the child from doing.

“Their goals really are our goals,” she said.

She said she also refers almost all patients to one of the center’s pain psychologists.

“Pain is biopsychosocial,” she said. “We want to make sure we’re addressing how to cope with pain.”

Dr. Garcia said she hopes nutritional therapy is one of the next approaches the clinic will incorporate, particularly surrounding how dietary changes can reduce inflammation “and heal the body from the inside out.”

She said the hospital is also looking at developing an inpatient pain program for kids whose functioning has changed so drastically that they need more intensive therapies.

Whatever the treatment approach, she said, addressing the pain early is critical.

“There is an increased risk of a child with chronic pain becoming an adult with chronic pain,” Dr. Garcia pointed out, “and that can lead to a decrease in the ability to participate in society.”

Ms. Weatherred, Ms. Duggan, Dr. Huang, and Dr. Garcia reported no relevant financial relationships.

At the new Walnut Creek Clinic in the East Bay of the San Francisco Bay area, kids get a “Comfort Promise.”

The clinic extends the work of the Stad Center for Pediatric Pain, Palliative & Integrative Medicine beyond the locations in University of California San Francisco Benioff Children’s Hospitals in San Francisco and Oakland.

At Walnut Creek, clinical acupuncturists, massage therapists, and specialists in hypnosis complement advanced medical care with integrative techniques.

The “Comfort Promise” program, which is being rolled out at that clinic and other UCSF pediatric clinics through the end of 2024, is the clinicians’ pledge to do everything in their power to make tests, infusions, and vaccinations “practically pain free.”

Needle sticks, for example, can be a common source of pain and anxiety for kids. Techniques to minimize pain vary by age. Among the ways the clinicians minimize needle pain for a child 6- to 12-years-old are:

• Giving the child control options to pick which arm; and watch the injection, pause it, or stop it with a communication sign.
• Introducing memory shaping by asking the child about the experience afterward and presenting it in a positive way by praising the acts of sitting still, breathing deeply, or being brave.
• Using distractors such as asking the child to hold a favorite item from home, storytelling, coloring, singing, or using breathing exercises.

Stefan Friedrichsdorf, MD, chief of the UCSF division of pediatric pain, palliative & integrative medicine, said in a statement: “For kids with chronic pain, complex pain medications can cause more harm than benefit. Our goal is to combine exercise and physical therapy with integrative medicine and skills-based psychotherapy to help them become pain free in their everyday life.”
 

Bundling appointments for early impact

At Lurie Children’s Hospital of Chicago, the chronic pain treatment program bundles visits with experts in several disciplines, include social workers, psychologists, and physical therapists, in addition to the medical team, so that patients can complete a first round of visits with multiple specialists in a short period, as opposed to several months.

Natalie Weatherred, APRN-NP, CPNP-PC, a pediatric nurse practitioner in anesthesiology and the pain clinic coordinator, said in an interview that the up-front visits involve between four and eight follow-up sessions in a short period with everybody in the multidisciplinary team “to really help jump-start their pain treatment.”

She pointed out that many families come from distant parts of the state or beyond so the bundled appointments are also important for easing burden on families.

Sarah Duggan, APRN-NP, CPNP-PC, also a pediatric nurse practitioner in anesthesiology at Lurie’s, pointed out that patients at their clinic often have other chronic conditions as well, such as such as postural orthostatic tachycardia syndrome so the care integration is particularly important.

“We can get them the appropriate care that they need and the resources they need, much sooner than we would have been able to do 5 or 10 years ago,” Ms. Duggan said.
 

Virtual reality distraction instead of sedation

Henry Huang, MD, anesthesiologist and pain physician at Texas Children’s Hospital, Houston, said a special team there collaborates with the Chariot Program at Stanford (Calif.) University and incorporates virtual reality to distract children from pain and anxiety and harness their imaginations during induction for anesthesia, intravenous placement, and vaccinations.

“At our institution we’ve been recruiting patients to do a proof of concept to do virtual reality distraction for pain procedures, such as nerve blocks or steroid injections,” Dr. Huang said.

Traditionally, kids would have received oral or intravenous sedation to help them cope with the fear and pain.

“We’ve been successful in several cases without relying on any sedation,” he said. “The next target is to expand that to the chronic pain population.”

The distraction techniques are promising for a wide range of ages, he said, and the programming is tailored to the child’s ability to interact with the technology.

He said he is also part of a group promoting use of ultrasound instead of x-rays to guide injections to the spine and chest to reduce children’s exposure to radiation. His group is helping teach these methods to other clinicians nationally.

Dr. Huang said the most important development in chronic pediatric pain has been the growth of rehab centers that include the medical team, and practitioners from psychology as well as occupational and physical therapy.

“More and more hospitals are recognizing the importance of these pain rehab centers,” he said.

The problem, Dr. Huang said, is that these programs have always been resource intensive and involve highly specialized clinicians. The cost and the limited number of specialists make it difficult for widespread rollout.

“That’s always been the challenge from the pediatric pain world,” he said.
 

Recognizing the complexity of kids’ chronic pain

Angela Garcia, MD, a consulting physician for pediatric rehabilitation medicine at UPMC Children’s Hospital of Pittsburgh said recognizing the validity and complexity of pediatric pain has led to multidisciplinary approaches and specialty clinics for chronic pain instead of primarily pharmaceutical solutions.

Techniques such as biofeedback and acupuncture are becoming more mainstream in pediatric chronic care, she said.

At the UPMC clinic, children and their families talk with a care team about their values and what they want to accomplish in managing the child’s pain. They ask what the pain is preventing the child from doing.

“Their goals really are our goals,” she said.

She said she also refers almost all patients to one of the center’s pain psychologists.

“Pain is biopsychosocial,” she said. “We want to make sure we’re addressing how to cope with pain.”

Dr. Garcia said she hopes nutritional therapy is one of the next approaches the clinic will incorporate, particularly surrounding how dietary changes can reduce inflammation “and heal the body from the inside out.”

She said the hospital is also looking at developing an inpatient pain program for kids whose functioning has changed so drastically that they need more intensive therapies.

Whatever the treatment approach, she said, addressing the pain early is critical.

“There is an increased risk of a child with chronic pain becoming an adult with chronic pain,” Dr. Garcia pointed out, “and that can lead to a decrease in the ability to participate in society.”

Ms. Weatherred, Ms. Duggan, Dr. Huang, and Dr. Garcia reported no relevant financial relationships.

At the new Walnut Creek Clinic in the East Bay of the San Francisco Bay area, kids get a “Comfort Promise.”

The clinic extends the work of the Stad Center for Pediatric Pain, Palliative & Integrative Medicine beyond the locations in University of California San Francisco Benioff Children’s Hospitals in San Francisco and Oakland.

At Walnut Creek, clinical acupuncturists, massage therapists, and specialists in hypnosis complement advanced medical care with integrative techniques.

The “Comfort Promise” program, which is being rolled out at that clinic and other UCSF pediatric clinics through the end of 2024, is the clinicians’ pledge to do everything in their power to make tests, infusions, and vaccinations “practically pain free.”

Needle sticks, for example, can be a common source of pain and anxiety for kids. Techniques to minimize pain vary by age. Among the ways the clinicians minimize needle pain for a child 6- to 12-years-old are:

• Giving the child control options to pick which arm; and watch the injection, pause it, or stop it with a communication sign.
• Introducing memory shaping by asking the child about the experience afterward and presenting it in a positive way by praising the acts of sitting still, breathing deeply, or being brave.
• Using distractors such as asking the child to hold a favorite item from home, storytelling, coloring, singing, or using breathing exercises.

Stefan Friedrichsdorf, MD, chief of the UCSF division of pediatric pain, palliative & integrative medicine, said in a statement: “For kids with chronic pain, complex pain medications can cause more harm than benefit. Our goal is to combine exercise and physical therapy with integrative medicine and skills-based psychotherapy to help them become pain free in their everyday life.”
 

Bundling appointments for early impact

At Lurie Children’s Hospital of Chicago, the chronic pain treatment program bundles visits with experts in several disciplines, include social workers, psychologists, and physical therapists, in addition to the medical team, so that patients can complete a first round of visits with multiple specialists in a short period, as opposed to several months.

Natalie Weatherred, APRN-NP, CPNP-PC, a pediatric nurse practitioner in anesthesiology and the pain clinic coordinator, said in an interview that the up-front visits involve between four and eight follow-up sessions in a short period with everybody in the multidisciplinary team “to really help jump-start their pain treatment.”

She pointed out that many families come from distant parts of the state or beyond so the bundled appointments are also important for easing burden on families.

Sarah Duggan, APRN-NP, CPNP-PC, also a pediatric nurse practitioner in anesthesiology at Lurie’s, pointed out that patients at their clinic often have other chronic conditions as well, such as such as postural orthostatic tachycardia syndrome so the care integration is particularly important.

“We can get them the appropriate care that they need and the resources they need, much sooner than we would have been able to do 5 or 10 years ago,” Ms. Duggan said.
 

Virtual reality distraction instead of sedation

Henry Huang, MD, anesthesiologist and pain physician at Texas Children’s Hospital, Houston, said a special team there collaborates with the Chariot Program at Stanford (Calif.) University and incorporates virtual reality to distract children from pain and anxiety and harness their imaginations during induction for anesthesia, intravenous placement, and vaccinations.

“At our institution we’ve been recruiting patients to do a proof of concept to do virtual reality distraction for pain procedures, such as nerve blocks or steroid injections,” Dr. Huang said.

Traditionally, kids would have received oral or intravenous sedation to help them cope with the fear and pain.

“We’ve been successful in several cases without relying on any sedation,” he said. “The next target is to expand that to the chronic pain population.”

The distraction techniques are promising for a wide range of ages, he said, and the programming is tailored to the child’s ability to interact with the technology.

He said he is also part of a group promoting use of ultrasound instead of x-rays to guide injections to the spine and chest to reduce children’s exposure to radiation. His group is helping teach these methods to other clinicians nationally.

Dr. Huang said the most important development in chronic pediatric pain has been the growth of rehab centers that include the medical team, and practitioners from psychology as well as occupational and physical therapy.

“More and more hospitals are recognizing the importance of these pain rehab centers,” he said.

The problem, Dr. Huang said, is that these programs have always been resource intensive and involve highly specialized clinicians. The cost and the limited number of specialists make it difficult for widespread rollout.

“That’s always been the challenge from the pediatric pain world,” he said.
 

Recognizing the complexity of kids’ chronic pain

Angela Garcia, MD, a consulting physician for pediatric rehabilitation medicine at UPMC Children’s Hospital of Pittsburgh said recognizing the validity and complexity of pediatric pain has led to multidisciplinary approaches and specialty clinics for chronic pain instead of primarily pharmaceutical solutions.

Techniques such as biofeedback and acupuncture are becoming more mainstream in pediatric chronic care, she said.

At the UPMC clinic, children and their families talk with a care team about their values and what they want to accomplish in managing the child’s pain. They ask what the pain is preventing the child from doing.

“Their goals really are our goals,” she said.

She said she also refers almost all patients to one of the center’s pain psychologists.

“Pain is biopsychosocial,” she said. “We want to make sure we’re addressing how to cope with pain.”

Dr. Garcia said she hopes nutritional therapy is one of the next approaches the clinic will incorporate, particularly surrounding how dietary changes can reduce inflammation “and heal the body from the inside out.”

She said the hospital is also looking at developing an inpatient pain program for kids whose functioning has changed so drastically that they need more intensive therapies.

Whatever the treatment approach, she said, addressing the pain early is critical.

“There is an increased risk of a child with chronic pain becoming an adult with chronic pain,” Dr. Garcia pointed out, “and that can lead to a decrease in the ability to participate in society.”

Ms. Weatherred, Ms. Duggan, Dr. Huang, and Dr. Garcia reported no relevant financial relationships.