Anne Linker, MD

Case

A 35-year-old woman with opioid use disorder (OUD) presents with fever, left arm redness, and swelling. She is admitted to the hospital for cellulitis treatment. On the day after admission she becomes agitated and develops nausea, diarrhea, and generalized pain. Opioid withdrawal is suspected. How should her opioid use be addressed while in the hospital?

Linker_Anne_NY_web.jpg

Brief overview of the issue

Since 1999, there have been more than 800,000 deaths related to drug overdose in the United States, and in 2019 more than 70% of drug overdose deaths involved an opioid.^1,2 Although effective treatments for OUD exist, less than 20% of those with OUD are engaged in treatment.³

Herscher_Michael_NY_2020_web.jpg

In America, 4%-11% of hospitalized patients have OUD. Hospitalized patients with OUD often experience stigma surrounding their disease, and many inpatient clinicians lack knowledge regarding the care of patients with OUD. As a result, withdrawal symptoms may go untreated, which can erode trust in the medical system and contribute to patients’ leaving the hospital before their primary medical issue is fully addressed. Therefore, it is essential that inpatient clinicians be familiar with the management of this complex and vulnerable patient population. Initiating treatment for OUD in the hospital setting is feasible and effective, and can lead to increased engagement in OUD treatment even after the hospital stay.
 

Overview of the data

Assessing patients with suspected OUD

Assessment for OUD starts with an in-depth opioid use history including frequency, amount, and method of administration. Clinicians should gather information regarding use of other substances or nonprescribed medications, and take thorough psychiatric and social histories. A formal diagnosis of OUD can be made using the Fifth Edition Diagnostic and Statistical Manual for Mental Disorders (DSM-5) diagnostic criteria.

Recognizing and managing opioid withdrawal

OUD in hospitalized patients often becomes apparent when patients develop signs and symptoms of withdrawal. Decreasing physical discomfort related to withdrawal can allow inpatient clinicians to address the condition for which the patient was hospitalized, help to strengthen the patient-clinician relationship, and provide an opportunity to discuss long-term OUD treatment.

Signs and symptoms of opioid withdrawal include anxiety, restlessness, irritability, generalized pain, rhinorrhea, yawning, lacrimation, piloerection, anorexia, and nausea. Withdrawal can last days to weeks, depending on the half-life of the opioid that was used. Opioids with shorter half-lives, such as heroin or oxycodone, cause withdrawal with earlier onset and shorter duration than do opioids with longer half-lives, such as methadone. The degree of withdrawal can be quantified with validated tools, such as the Clinical Opiate Withdrawal Scale (COWS).

Treatment of opioid withdrawal should generally include the use of an opioid agonist such as methadone or buprenorphine. A 2017 Cochrane meta-analysis found methadone or buprenorphine to be more effective than clonidine in alleviating symptoms of withdrawal and in retaining patients in treatment.⁴ Clonidine, an alpha2-adrenergic agonist that binds to receptors in the locus coeruleus, does not alleviate opioid cravings, but may be used as an adjunctive treatment for associated autonomic withdrawal symptoms. Other adjunctive medications include analgesics, antiemetics, antidiarrheals, and antihistamines.

154919_Figure 1_web.jpg

Opioid agonist treatment for opioid use disorder

Opioid agonist treatment (OAT) with methadone or buprenorphine is associated with decreased mortality, opioid use, and infectious complications, but remains underutilized.⁵ Hospitalized patients with OUD are frequently managed with a rapid opioid detoxification and then discharged without continued OUD treatment. Detoxification alone can lead to a relapse rate as high as 90%.⁶ Patients are at increased risk for overdose after withdrawal due to loss of tolerance. Inpatient clinicians can close this OUD treatment gap by familiarizing themselves with OAT and offering to initiate OAT for maintenance treatment in interested patients. In one study, patients started on buprenorphine while hospitalized were more likely to be engaged in treatment and less likely to report drug use at follow-up, compared to patients who were referred without starting the medication.⁷

Buprenorphine

Buprenorphine is a partial agonist at the mu opioid receptor that can be ordered in the inpatient setting by any clinician. In the outpatient setting only DATA 2000 waivered clinicians can prescribe buprenorphine.⁸ Buprenorphine is most commonly coformulated with naloxone, an opioid antagonist, and is available in sublingual films or tablets. The naloxone component is not bioavailable when taken sublingually but becomes bioavailable if the drug is injected intravenously, leading to acute withdrawal.

Buprenorphine has a higher affinity for the mu opioid receptor than most opioids. If administered while other opioids are still present, it will displace the other opioid from the receptor but only partially stimulate the receptor, which can cause precipitated withdrawal. Buprenorphine initiation can start when the COWS score reflects moderate withdrawal. Many institutions use a threshold of 8-12 on the COWS scale. Typical dosing is 2-4 mg of buprenorphine at intervals of 1-2 hours as needed until the COWS score is less than 8, up to a maximum of 16 mg on day 1. The total dose from day 1 may be given as a daily dose beginning on day 2, up to a maximum total daily dose of 24 mg.

In recent years, a method of initiating buprenorphine called “micro-dosing” has gained traction. Very small doses of buprenorphine are given while a patient is receiving other opioids, thereby reducing the risk of precipitated withdrawal. This method can be helpful for patients who cannot tolerate withdrawal or who have recently taken long-acting opioids such as methadone. Such protocols should be utilized only at centers where consultation with an addiction specialist or experienced clinician is possible.

Despite evidence of buprenorphine’s efficacy, there are barriers to prescribing it. Physicians and advanced practitioners must be granted a waiver from the Drug Enforcement Administration to prescribe buprenorphine to outpatients. As of 2017, less than 10% of primary care physicians had obtained waivers.⁹ However, inpatient clinicians without a waiver can order buprenorphine and initiate treatment. Best practice is to do so with a specific plan for continuation at discharge. We encourage inpatient clinicians to obtain a waiver, so that a prescription can be given at discharge to bridge the patient to a first appointment with a community clinician who can continue treatment. As of April 27, 2021, providers treating fewer than 30 patients with OUD at one time may obtain a waiver without additional training.¹⁰

Methadone

Methadone is a full agonist at the mu opioid receptor. In the hospital setting, methadone can be ordered by any clinician to prevent and treat withdrawal. Commonly, doses of 10 mg can be given using the COWS score to guide the need for additional dosing. The patient can be reassessed every 1-2 hours to ensure that symptoms are improving, and that there is no sign of oversedation before giving additional methadone. For most patients, withdrawal can be managed with 20-40 mg of methadone daily.

In contrast to buprenorphine, methadone will not precipitate withdrawal and can be initiated even when patients are not yet showing withdrawal symptoms. Outpatient methadone treatment for OUD is federally regulated and can be delivered only in opioid treatment programs (OTPs).

 

Choosing methadone or buprenorphine in the inpatient setting

The choice between buprenorphine and methadone should take into consideration several factors, including patient preference, treatment history, and available outpatient treatment programs, which may vary widely by geographic region. Some patients benefit from the higher level of support and counseling available at OTPs. Methadone is available at all OTPs, and the availability of buprenorphine in this setting is increasing. Other patients may prefer the convenience and flexibility of buprenorphine treatment in an outpatient office setting.

Some patients have prior negative experiences with OAT. These can include prior precipitated withdrawal with buprenorphine induction, or negative experiences with the structure of OTPs. Clinicians are encouraged to provide counseling if patients have a history of precipitated withdrawal to assure them that this can be avoided with proper dosing. Clinicians should be familiar with available treatment options in their community and can refer to the Substance Abuse and Mental Health Services Administration (SAMHSA) website to locate OTPs and buprenorphine prescribers.

154919_Table_1_web.jpg

Polypharmacy and safety

If combined with benzodiazepines, alcohol, or other sedating agents, methadone or buprenorphine can increase risk of overdose. However, OUD treatment should not be withheld because of other substance use. Clinicians initiating treatment should counsel patients on the risk of concomitant substance use and provide overdose prevention education.

A brief note on naltrexone

Naltrexone, an opioid antagonist, is used more commonly in outpatient addiction treatment than in the inpatient setting, but inpatient clinicians should be aware of its use. It is available in oral and long-acting injectable formulations. Its utility in the inpatient setting may be limited as safe administration requires 7-10 days of opioid abstinence.

Discharge planning

Patients with OUD or who are started on OAT during a hospitalization should be linked to continued outpatient treatment. Before discharge it is best to ensure vaccinations for HAV, HBV, pneumococcus, and tetanus are up to date, and perform screening for HIV, hepatitis C, tuberculosis, and sexually transmitted infections if appropriate. All patients with OUD should be prescribed or provided with take-home naloxone for overdose reversal. Patients can also be referred to syringe service programs for additional harm reduction counseling and services.

Application of the data to our patient

For our patient, either methadone or buprenorphine could be used to treat her withdrawal. The COWS score should be used to assess withdrawal severity, and to guide appropriate timing of medication initiation. If she wishes to continue OAT after discharge, she should be linked to a clinician who can engage her in ongoing medical care. Prior to discharge she should also receive relevant vaccines and screening for infectious diseases as outlined above, as well as take-home naloxone (or a prescription).

Bottom line

Inpatient clinicians can play a pivotal role in patients’ lives by ensuring that patients with OUD receive OAT and are connected to outpatient care at discharge.

Dr. Linker is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai, New York. Ms. Hirt, Mr. Fine, and Mr. Villasanivis are medical students at the Icahn School of Medicine at Mount Sinai. Dr. Wang is assistant professor in the division of general internal medicine, Icahn School of Medicine at Mount Sinai. Dr. Herscher is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai.

References

1. Wide-ranging online data for epidemiologic research (WONDER). Atlanta, GA: CDC, National Center for Health Statistics; 2020. Available at http://wonder.cdc.gov.

2. Mattson CL et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths – United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70:202-7. doi: 10.15585/mmwr.mm7006a4.

3. Wakeman SE et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020 Feb 5;3(2):e1920622. doi: 10.1001/jamanetworkopen.2019.20622.

4. Gowing L et al. Buprenorphine for managing opioid withdrawal. Cochrane Database Syst Rev. 2017 Feb;2017(2):CD002025. doi: 10.1002/14651858.CD002025.pub5.

5. Sordo L et al. Mortality risk during and after opioid substitution treatment: Systematic review and meta-analysis of cohort studies. BMJ. 2017 Apr 26;357:j1550. doi: 10.1136/bmj.j1550.

6. Smyth BP et al. Lapse and relapse following inpatient treatment of opiate dependence. Ir Med J. 2010 Jun;103(6):176-9. Available at www.drugsandalcohol.ie/13405.

7. Liebschutz JM. Buprenorphine treatment for hospitalized, opioid-dependent patients: A randomized clinical trial. JAMA Intern Med. 2014 Aug;174(8):1369-76. doi: 10.1001/jamainternmed.2014.2556.

8. Substance Abuse and Mental Health Services Administration. (Aug 20, 2020) Statutes, Regulations, and Guidelines.

9. McBain RK et al. Growth and distribution of buprenorphine-waivered providers in the United States, 2007-2017. Ann Intern Med. 2020;172(7):504-6. doi: 10.7326/M19-2403.

10. HHS releases new buprenorphine practice guidelines, expanding access to treatment for opioid use disorder. Apr 27, 2021.

11. Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.

Additional reading

Winetsky D. Expanding treatment opportunities for hospitalized patients with opioid use disorders. J Hosp Med. 2018 Jan;13(1):62-4. doi: 10.12788/jhm.2861.

Donroe JH. Caring for patients with opioid use disorder in the hospital. Can Med Assoc J. 2016 Dec 6;188(17-18):1232-9. doi: 10.1503/cmaj.160290.

Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.
 

Key points

• Most patients with OUD are not engaged in evidence-based treatment. Clinicians have an opportunity to utilize the inpatient stay as a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.
• Buprenorphine and methadone are effective opioid agonist medications used to treat OUD, and clinicians with the appropriate knowledge base can initiate either during the inpatient encounter, and link the patient to OUD treatment after the hospital stay.

Quiz

Caring for hospitalized patients with OUD

Most patients with OUD are not engaged in effective treatment. Hospitalization can be a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.

1. Which is an effective and evidence-based medication for treating opioid withdrawal and OUD?

a) Naltrexone.

b) Buprenorphine.

c) Opioid detoxification.

d) Clonidine.

Explanation: Buprenorphine is effective for alleviating symptoms of withdrawal as well as for the long-term treatment of OUD. While naltrexone is also used to treat OUD, it is not useful for treating withdrawal. Clonidine can be a useful adjunctive medication for treating withdrawal but is not a long-term treatment for OUD. Nonpharmacologic detoxification is not an effective treatment for OUD and is associated with high relapse rates.



2. What scale can be used during a hospital stay to monitor patients with OUD at risk of opioid withdrawal, and to aid in buprenorphine initiation?

a) CIWA score.

b) PADUA score.

c) COWS score.

d) 4T score.

Explanation: COWS is the “clinical opiate withdrawal scale.” The COWS score should be calculated by a trained provider, and includes objective parameters (such as pulse) and subjective symptoms (such as GI upset, bone/joint aches.) It is recommended that agonist therapy be started when the COWS score is consistent with moderate withdrawal.



3. How can clinicians reliably find out if there are outpatient resources/clinics for patients with OUD in their area?

a) No way to find this out without personal knowledge.

b) Hospital providers and patients can visit www.samhsa.gov/find-help/national-helpline or call 1-800-662-HELP (4357) to find options for treatment for substance use disorders in their areas.

c) Dial “0” on any phone and ask.

d) Ask around at your hospital.

Explanation: The Substance Abuse and Mental Health Services Administration (SAMHSA) is an agency in the U.S. Department of Health and Human Services that is engaged in public health efforts to reduce the impact of substance abuse and mental illness on local communities. The agency’s website has helpful information about resources for substance use treatment.



4. Patients with OUD should be prescribed and given training about what medication that can be lifesaving when given during an opioid overdose?

a) Aspirin.

b) Naloxone.

c) Naltrexone.

d) Clonidine.

Explanation: Naloxone can be life-saving in the setting of an overdose. Best practice is to provide naloxone and training to patients with OUD.



5. When patients take buprenorphine soon after taking other opioids, there is concern for the development of which reaction:

a) Precipitated withdrawal.

b) Opioid overdose.

c) Allergic reaction.

d) Intoxication.

Explanation: Administering buprenorphine soon after taking other opioids can cause precipitated withdrawal, as buprenorphine binds with higher affinity to the mu receptor than many opioids. Precipitated withdrawal causes severe discomfort and can be dangerous for patients.

Case

A 35-year-old woman with opioid use disorder (OUD) presents with fever, left arm redness, and swelling. She is admitted to the hospital for cellulitis treatment. On the day after admission she becomes agitated and develops nausea, diarrhea, and generalized pain. Opioid withdrawal is suspected. How should her opioid use be addressed while in the hospital?

Linker_Anne_NY_web.jpg

Brief overview of the issue

Since 1999, there have been more than 800,000 deaths related to drug overdose in the United States, and in 2019 more than 70% of drug overdose deaths involved an opioid.^1,2 Although effective treatments for OUD exist, less than 20% of those with OUD are engaged in treatment.³

Herscher_Michael_NY_2020_web.jpg

In America, 4%-11% of hospitalized patients have OUD. Hospitalized patients with OUD often experience stigma surrounding their disease, and many inpatient clinicians lack knowledge regarding the care of patients with OUD. As a result, withdrawal symptoms may go untreated, which can erode trust in the medical system and contribute to patients’ leaving the hospital before their primary medical issue is fully addressed. Therefore, it is essential that inpatient clinicians be familiar with the management of this complex and vulnerable patient population. Initiating treatment for OUD in the hospital setting is feasible and effective, and can lead to increased engagement in OUD treatment even after the hospital stay.
 

Overview of the data

Assessing patients with suspected OUD

Assessment for OUD starts with an in-depth opioid use history including frequency, amount, and method of administration. Clinicians should gather information regarding use of other substances or nonprescribed medications, and take thorough psychiatric and social histories. A formal diagnosis of OUD can be made using the Fifth Edition Diagnostic and Statistical Manual for Mental Disorders (DSM-5) diagnostic criteria.

Recognizing and managing opioid withdrawal

OUD in hospitalized patients often becomes apparent when patients develop signs and symptoms of withdrawal. Decreasing physical discomfort related to withdrawal can allow inpatient clinicians to address the condition for which the patient was hospitalized, help to strengthen the patient-clinician relationship, and provide an opportunity to discuss long-term OUD treatment.

Signs and symptoms of opioid withdrawal include anxiety, restlessness, irritability, generalized pain, rhinorrhea, yawning, lacrimation, piloerection, anorexia, and nausea. Withdrawal can last days to weeks, depending on the half-life of the opioid that was used. Opioids with shorter half-lives, such as heroin or oxycodone, cause withdrawal with earlier onset and shorter duration than do opioids with longer half-lives, such as methadone. The degree of withdrawal can be quantified with validated tools, such as the Clinical Opiate Withdrawal Scale (COWS).

Treatment of opioid withdrawal should generally include the use of an opioid agonist such as methadone or buprenorphine. A 2017 Cochrane meta-analysis found methadone or buprenorphine to be more effective than clonidine in alleviating symptoms of withdrawal and in retaining patients in treatment.⁴ Clonidine, an alpha2-adrenergic agonist that binds to receptors in the locus coeruleus, does not alleviate opioid cravings, but may be used as an adjunctive treatment for associated autonomic withdrawal symptoms. Other adjunctive medications include analgesics, antiemetics, antidiarrheals, and antihistamines.

154919_Figure 1_web.jpg

Opioid agonist treatment for opioid use disorder

Opioid agonist treatment (OAT) with methadone or buprenorphine is associated with decreased mortality, opioid use, and infectious complications, but remains underutilized.⁵ Hospitalized patients with OUD are frequently managed with a rapid opioid detoxification and then discharged without continued OUD treatment. Detoxification alone can lead to a relapse rate as high as 90%.⁶ Patients are at increased risk for overdose after withdrawal due to loss of tolerance. Inpatient clinicians can close this OUD treatment gap by familiarizing themselves with OAT and offering to initiate OAT for maintenance treatment in interested patients. In one study, patients started on buprenorphine while hospitalized were more likely to be engaged in treatment and less likely to report drug use at follow-up, compared to patients who were referred without starting the medication.⁷

Buprenorphine

Buprenorphine is a partial agonist at the mu opioid receptor that can be ordered in the inpatient setting by any clinician. In the outpatient setting only DATA 2000 waivered clinicians can prescribe buprenorphine.⁸ Buprenorphine is most commonly coformulated with naloxone, an opioid antagonist, and is available in sublingual films or tablets. The naloxone component is not bioavailable when taken sublingually but becomes bioavailable if the drug is injected intravenously, leading to acute withdrawal.

Buprenorphine has a higher affinity for the mu opioid receptor than most opioids. If administered while other opioids are still present, it will displace the other opioid from the receptor but only partially stimulate the receptor, which can cause precipitated withdrawal. Buprenorphine initiation can start when the COWS score reflects moderate withdrawal. Many institutions use a threshold of 8-12 on the COWS scale. Typical dosing is 2-4 mg of buprenorphine at intervals of 1-2 hours as needed until the COWS score is less than 8, up to a maximum of 16 mg on day 1. The total dose from day 1 may be given as a daily dose beginning on day 2, up to a maximum total daily dose of 24 mg.

In recent years, a method of initiating buprenorphine called “micro-dosing” has gained traction. Very small doses of buprenorphine are given while a patient is receiving other opioids, thereby reducing the risk of precipitated withdrawal. This method can be helpful for patients who cannot tolerate withdrawal or who have recently taken long-acting opioids such as methadone. Such protocols should be utilized only at centers where consultation with an addiction specialist or experienced clinician is possible.

Despite evidence of buprenorphine’s efficacy, there are barriers to prescribing it. Physicians and advanced practitioners must be granted a waiver from the Drug Enforcement Administration to prescribe buprenorphine to outpatients. As of 2017, less than 10% of primary care physicians had obtained waivers.⁹ However, inpatient clinicians without a waiver can order buprenorphine and initiate treatment. Best practice is to do so with a specific plan for continuation at discharge. We encourage inpatient clinicians to obtain a waiver, so that a prescription can be given at discharge to bridge the patient to a first appointment with a community clinician who can continue treatment. As of April 27, 2021, providers treating fewer than 30 patients with OUD at one time may obtain a waiver without additional training.¹⁰

Methadone

Methadone is a full agonist at the mu opioid receptor. In the hospital setting, methadone can be ordered by any clinician to prevent and treat withdrawal. Commonly, doses of 10 mg can be given using the COWS score to guide the need for additional dosing. The patient can be reassessed every 1-2 hours to ensure that symptoms are improving, and that there is no sign of oversedation before giving additional methadone. For most patients, withdrawal can be managed with 20-40 mg of methadone daily.

In contrast to buprenorphine, methadone will not precipitate withdrawal and can be initiated even when patients are not yet showing withdrawal symptoms. Outpatient methadone treatment for OUD is federally regulated and can be delivered only in opioid treatment programs (OTPs).

 

Choosing methadone or buprenorphine in the inpatient setting

The choice between buprenorphine and methadone should take into consideration several factors, including patient preference, treatment history, and available outpatient treatment programs, which may vary widely by geographic region. Some patients benefit from the higher level of support and counseling available at OTPs. Methadone is available at all OTPs, and the availability of buprenorphine in this setting is increasing. Other patients may prefer the convenience and flexibility of buprenorphine treatment in an outpatient office setting.

Some patients have prior negative experiences with OAT. These can include prior precipitated withdrawal with buprenorphine induction, or negative experiences with the structure of OTPs. Clinicians are encouraged to provide counseling if patients have a history of precipitated withdrawal to assure them that this can be avoided with proper dosing. Clinicians should be familiar with available treatment options in their community and can refer to the Substance Abuse and Mental Health Services Administration (SAMHSA) website to locate OTPs and buprenorphine prescribers.

154919_Table_1_web.jpg

Polypharmacy and safety

If combined with benzodiazepines, alcohol, or other sedating agents, methadone or buprenorphine can increase risk of overdose. However, OUD treatment should not be withheld because of other substance use. Clinicians initiating treatment should counsel patients on the risk of concomitant substance use and provide overdose prevention education.

A brief note on naltrexone

Naltrexone, an opioid antagonist, is used more commonly in outpatient addiction treatment than in the inpatient setting, but inpatient clinicians should be aware of its use. It is available in oral and long-acting injectable formulations. Its utility in the inpatient setting may be limited as safe administration requires 7-10 days of opioid abstinence.

Discharge planning

Patients with OUD or who are started on OAT during a hospitalization should be linked to continued outpatient treatment. Before discharge it is best to ensure vaccinations for HAV, HBV, pneumococcus, and tetanus are up to date, and perform screening for HIV, hepatitis C, tuberculosis, and sexually transmitted infections if appropriate. All patients with OUD should be prescribed or provided with take-home naloxone for overdose reversal. Patients can also be referred to syringe service programs for additional harm reduction counseling and services.

Application of the data to our patient

For our patient, either methadone or buprenorphine could be used to treat her withdrawal. The COWS score should be used to assess withdrawal severity, and to guide appropriate timing of medication initiation. If she wishes to continue OAT after discharge, she should be linked to a clinician who can engage her in ongoing medical care. Prior to discharge she should also receive relevant vaccines and screening for infectious diseases as outlined above, as well as take-home naloxone (or a prescription).

Bottom line

Inpatient clinicians can play a pivotal role in patients’ lives by ensuring that patients with OUD receive OAT and are connected to outpatient care at discharge.

Dr. Linker is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai, New York. Ms. Hirt, Mr. Fine, and Mr. Villasanivis are medical students at the Icahn School of Medicine at Mount Sinai. Dr. Wang is assistant professor in the division of general internal medicine, Icahn School of Medicine at Mount Sinai. Dr. Herscher is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai.

References

1. Wide-ranging online data for epidemiologic research (WONDER). Atlanta, GA: CDC, National Center for Health Statistics; 2020. Available at http://wonder.cdc.gov.

2. Mattson CL et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths – United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70:202-7. doi: 10.15585/mmwr.mm7006a4.

3. Wakeman SE et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020 Feb 5;3(2):e1920622. doi: 10.1001/jamanetworkopen.2019.20622.

4. Gowing L et al. Buprenorphine for managing opioid withdrawal. Cochrane Database Syst Rev. 2017 Feb;2017(2):CD002025. doi: 10.1002/14651858.CD002025.pub5.

5. Sordo L et al. Mortality risk during and after opioid substitution treatment: Systematic review and meta-analysis of cohort studies. BMJ. 2017 Apr 26;357:j1550. doi: 10.1136/bmj.j1550.

6. Smyth BP et al. Lapse and relapse following inpatient treatment of opiate dependence. Ir Med J. 2010 Jun;103(6):176-9. Available at www.drugsandalcohol.ie/13405.

7. Liebschutz JM. Buprenorphine treatment for hospitalized, opioid-dependent patients: A randomized clinical trial. JAMA Intern Med. 2014 Aug;174(8):1369-76. doi: 10.1001/jamainternmed.2014.2556.

8. Substance Abuse and Mental Health Services Administration. (Aug 20, 2020) Statutes, Regulations, and Guidelines.

9. McBain RK et al. Growth and distribution of buprenorphine-waivered providers in the United States, 2007-2017. Ann Intern Med. 2020;172(7):504-6. doi: 10.7326/M19-2403.

10. HHS releases new buprenorphine practice guidelines, expanding access to treatment for opioid use disorder. Apr 27, 2021.

11. Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.

Additional reading

Winetsky D. Expanding treatment opportunities for hospitalized patients with opioid use disorders. J Hosp Med. 2018 Jan;13(1):62-4. doi: 10.12788/jhm.2861.

Donroe JH. Caring for patients with opioid use disorder in the hospital. Can Med Assoc J. 2016 Dec 6;188(17-18):1232-9. doi: 10.1503/cmaj.160290.

Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.
 

Key points

• Most patients with OUD are not engaged in evidence-based treatment. Clinicians have an opportunity to utilize the inpatient stay as a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.
• Buprenorphine and methadone are effective opioid agonist medications used to treat OUD, and clinicians with the appropriate knowledge base can initiate either during the inpatient encounter, and link the patient to OUD treatment after the hospital stay.

Quiz

Caring for hospitalized patients with OUD

Most patients with OUD are not engaged in effective treatment. Hospitalization can be a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.

1. Which is an effective and evidence-based medication for treating opioid withdrawal and OUD?

a) Naltrexone.

b) Buprenorphine.

c) Opioid detoxification.

d) Clonidine.

Explanation: Buprenorphine is effective for alleviating symptoms of withdrawal as well as for the long-term treatment of OUD. While naltrexone is also used to treat OUD, it is not useful for treating withdrawal. Clonidine can be a useful adjunctive medication for treating withdrawal but is not a long-term treatment for OUD. Nonpharmacologic detoxification is not an effective treatment for OUD and is associated with high relapse rates.



2. What scale can be used during a hospital stay to monitor patients with OUD at risk of opioid withdrawal, and to aid in buprenorphine initiation?

a) CIWA score.

b) PADUA score.

c) COWS score.

d) 4T score.

Explanation: COWS is the “clinical opiate withdrawal scale.” The COWS score should be calculated by a trained provider, and includes objective parameters (such as pulse) and subjective symptoms (such as GI upset, bone/joint aches.) It is recommended that agonist therapy be started when the COWS score is consistent with moderate withdrawal.



3. How can clinicians reliably find out if there are outpatient resources/clinics for patients with OUD in their area?

a) No way to find this out without personal knowledge.

b) Hospital providers and patients can visit www.samhsa.gov/find-help/national-helpline or call 1-800-662-HELP (4357) to find options for treatment for substance use disorders in their areas.

c) Dial “0” on any phone and ask.

d) Ask around at your hospital.

Explanation: The Substance Abuse and Mental Health Services Administration (SAMHSA) is an agency in the U.S. Department of Health and Human Services that is engaged in public health efforts to reduce the impact of substance abuse and mental illness on local communities. The agency’s website has helpful information about resources for substance use treatment.



4. Patients with OUD should be prescribed and given training about what medication that can be lifesaving when given during an opioid overdose?

a) Aspirin.

b) Naloxone.

c) Naltrexone.

d) Clonidine.

Explanation: Naloxone can be life-saving in the setting of an overdose. Best practice is to provide naloxone and training to patients with OUD.



5. When patients take buprenorphine soon after taking other opioids, there is concern for the development of which reaction:

a) Precipitated withdrawal.

b) Opioid overdose.

c) Allergic reaction.

d) Intoxication.

Explanation: Administering buprenorphine soon after taking other opioids can cause precipitated withdrawal, as buprenorphine binds with higher affinity to the mu receptor than many opioids. Precipitated withdrawal causes severe discomfort and can be dangerous for patients.

Case

A 35-year-old woman with opioid use disorder (OUD) presents with fever, left arm redness, and swelling. She is admitted to the hospital for cellulitis treatment. On the day after admission she becomes agitated and develops nausea, diarrhea, and generalized pain. Opioid withdrawal is suspected. How should her opioid use be addressed while in the hospital?

Linker_Anne_NY_web.jpg

Brief overview of the issue

Since 1999, there have been more than 800,000 deaths related to drug overdose in the United States, and in 2019 more than 70% of drug overdose deaths involved an opioid.^1,2 Although effective treatments for OUD exist, less than 20% of those with OUD are engaged in treatment.³

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In America, 4%-11% of hospitalized patients have OUD. Hospitalized patients with OUD often experience stigma surrounding their disease, and many inpatient clinicians lack knowledge regarding the care of patients with OUD. As a result, withdrawal symptoms may go untreated, which can erode trust in the medical system and contribute to patients’ leaving the hospital before their primary medical issue is fully addressed. Therefore, it is essential that inpatient clinicians be familiar with the management of this complex and vulnerable patient population. Initiating treatment for OUD in the hospital setting is feasible and effective, and can lead to increased engagement in OUD treatment even after the hospital stay.
 

Overview of the data

Assessing patients with suspected OUD

Assessment for OUD starts with an in-depth opioid use history including frequency, amount, and method of administration. Clinicians should gather information regarding use of other substances or nonprescribed medications, and take thorough psychiatric and social histories. A formal diagnosis of OUD can be made using the Fifth Edition Diagnostic and Statistical Manual for Mental Disorders (DSM-5) diagnostic criteria.

Recognizing and managing opioid withdrawal

OUD in hospitalized patients often becomes apparent when patients develop signs and symptoms of withdrawal. Decreasing physical discomfort related to withdrawal can allow inpatient clinicians to address the condition for which the patient was hospitalized, help to strengthen the patient-clinician relationship, and provide an opportunity to discuss long-term OUD treatment.

Signs and symptoms of opioid withdrawal include anxiety, restlessness, irritability, generalized pain, rhinorrhea, yawning, lacrimation, piloerection, anorexia, and nausea. Withdrawal can last days to weeks, depending on the half-life of the opioid that was used. Opioids with shorter half-lives, such as heroin or oxycodone, cause withdrawal with earlier onset and shorter duration than do opioids with longer half-lives, such as methadone. The degree of withdrawal can be quantified with validated tools, such as the Clinical Opiate Withdrawal Scale (COWS).

Treatment of opioid withdrawal should generally include the use of an opioid agonist such as methadone or buprenorphine. A 2017 Cochrane meta-analysis found methadone or buprenorphine to be more effective than clonidine in alleviating symptoms of withdrawal and in retaining patients in treatment.⁴ Clonidine, an alpha2-adrenergic agonist that binds to receptors in the locus coeruleus, does not alleviate opioid cravings, but may be used as an adjunctive treatment for associated autonomic withdrawal symptoms. Other adjunctive medications include analgesics, antiemetics, antidiarrheals, and antihistamines.

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Opioid agonist treatment for opioid use disorder

Opioid agonist treatment (OAT) with methadone or buprenorphine is associated with decreased mortality, opioid use, and infectious complications, but remains underutilized.⁵ Hospitalized patients with OUD are frequently managed with a rapid opioid detoxification and then discharged without continued OUD treatment. Detoxification alone can lead to a relapse rate as high as 90%.⁶ Patients are at increased risk for overdose after withdrawal due to loss of tolerance. Inpatient clinicians can close this OUD treatment gap by familiarizing themselves with OAT and offering to initiate OAT for maintenance treatment in interested patients. In one study, patients started on buprenorphine while hospitalized were more likely to be engaged in treatment and less likely to report drug use at follow-up, compared to patients who were referred without starting the medication.⁷

Buprenorphine

Buprenorphine is a partial agonist at the mu opioid receptor that can be ordered in the inpatient setting by any clinician. In the outpatient setting only DATA 2000 waivered clinicians can prescribe buprenorphine.⁸ Buprenorphine is most commonly coformulated with naloxone, an opioid antagonist, and is available in sublingual films or tablets. The naloxone component is not bioavailable when taken sublingually but becomes bioavailable if the drug is injected intravenously, leading to acute withdrawal.

Buprenorphine has a higher affinity for the mu opioid receptor than most opioids. If administered while other opioids are still present, it will displace the other opioid from the receptor but only partially stimulate the receptor, which can cause precipitated withdrawal. Buprenorphine initiation can start when the COWS score reflects moderate withdrawal. Many institutions use a threshold of 8-12 on the COWS scale. Typical dosing is 2-4 mg of buprenorphine at intervals of 1-2 hours as needed until the COWS score is less than 8, up to a maximum of 16 mg on day 1. The total dose from day 1 may be given as a daily dose beginning on day 2, up to a maximum total daily dose of 24 mg.

In recent years, a method of initiating buprenorphine called “micro-dosing” has gained traction. Very small doses of buprenorphine are given while a patient is receiving other opioids, thereby reducing the risk of precipitated withdrawal. This method can be helpful for patients who cannot tolerate withdrawal or who have recently taken long-acting opioids such as methadone. Such protocols should be utilized only at centers where consultation with an addiction specialist or experienced clinician is possible.

Despite evidence of buprenorphine’s efficacy, there are barriers to prescribing it. Physicians and advanced practitioners must be granted a waiver from the Drug Enforcement Administration to prescribe buprenorphine to outpatients. As of 2017, less than 10% of primary care physicians had obtained waivers.⁹ However, inpatient clinicians without a waiver can order buprenorphine and initiate treatment. Best practice is to do so with a specific plan for continuation at discharge. We encourage inpatient clinicians to obtain a waiver, so that a prescription can be given at discharge to bridge the patient to a first appointment with a community clinician who can continue treatment. As of April 27, 2021, providers treating fewer than 30 patients with OUD at one time may obtain a waiver without additional training.¹⁰

Methadone

Methadone is a full agonist at the mu opioid receptor. In the hospital setting, methadone can be ordered by any clinician to prevent and treat withdrawal. Commonly, doses of 10 mg can be given using the COWS score to guide the need for additional dosing. The patient can be reassessed every 1-2 hours to ensure that symptoms are improving, and that there is no sign of oversedation before giving additional methadone. For most patients, withdrawal can be managed with 20-40 mg of methadone daily.

In contrast to buprenorphine, methadone will not precipitate withdrawal and can be initiated even when patients are not yet showing withdrawal symptoms. Outpatient methadone treatment for OUD is federally regulated and can be delivered only in opioid treatment programs (OTPs).

 

Choosing methadone or buprenorphine in the inpatient setting

The choice between buprenorphine and methadone should take into consideration several factors, including patient preference, treatment history, and available outpatient treatment programs, which may vary widely by geographic region. Some patients benefit from the higher level of support and counseling available at OTPs. Methadone is available at all OTPs, and the availability of buprenorphine in this setting is increasing. Other patients may prefer the convenience and flexibility of buprenorphine treatment in an outpatient office setting.

Some patients have prior negative experiences with OAT. These can include prior precipitated withdrawal with buprenorphine induction, or negative experiences with the structure of OTPs. Clinicians are encouraged to provide counseling if patients have a history of precipitated withdrawal to assure them that this can be avoided with proper dosing. Clinicians should be familiar with available treatment options in their community and can refer to the Substance Abuse and Mental Health Services Administration (SAMHSA) website to locate OTPs and buprenorphine prescribers.

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Polypharmacy and safety

If combined with benzodiazepines, alcohol, or other sedating agents, methadone or buprenorphine can increase risk of overdose. However, OUD treatment should not be withheld because of other substance use. Clinicians initiating treatment should counsel patients on the risk of concomitant substance use and provide overdose prevention education.

A brief note on naltrexone

Naltrexone, an opioid antagonist, is used more commonly in outpatient addiction treatment than in the inpatient setting, but inpatient clinicians should be aware of its use. It is available in oral and long-acting injectable formulations. Its utility in the inpatient setting may be limited as safe administration requires 7-10 days of opioid abstinence.

Discharge planning

Patients with OUD or who are started on OAT during a hospitalization should be linked to continued outpatient treatment. Before discharge it is best to ensure vaccinations for HAV, HBV, pneumococcus, and tetanus are up to date, and perform screening for HIV, hepatitis C, tuberculosis, and sexually transmitted infections if appropriate. All patients with OUD should be prescribed or provided with take-home naloxone for overdose reversal. Patients can also be referred to syringe service programs for additional harm reduction counseling and services.

Application of the data to our patient

For our patient, either methadone or buprenorphine could be used to treat her withdrawal. The COWS score should be used to assess withdrawal severity, and to guide appropriate timing of medication initiation. If she wishes to continue OAT after discharge, she should be linked to a clinician who can engage her in ongoing medical care. Prior to discharge she should also receive relevant vaccines and screening for infectious diseases as outlined above, as well as take-home naloxone (or a prescription).

Bottom line

Inpatient clinicians can play a pivotal role in patients’ lives by ensuring that patients with OUD receive OAT and are connected to outpatient care at discharge.

Dr. Linker is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai, New York. Ms. Hirt, Mr. Fine, and Mr. Villasanivis are medical students at the Icahn School of Medicine at Mount Sinai. Dr. Wang is assistant professor in the division of general internal medicine, Icahn School of Medicine at Mount Sinai. Dr. Herscher is assistant professor in the division of hospital medicine, Icahn School of Medicine at Mount Sinai.

References

1. Wide-ranging online data for epidemiologic research (WONDER). Atlanta, GA: CDC, National Center for Health Statistics; 2020. Available at http://wonder.cdc.gov.

2. Mattson CL et al. Trends and geographic patterns in drug and synthetic opioid overdose deaths – United States, 2013-2019. MMWR Morb Mortal Wkly Rep. 2021;70:202-7. doi: 10.15585/mmwr.mm7006a4.

3. Wakeman SE et al. Comparative effectiveness of different treatment pathways for opioid use disorder. JAMA Netw Open. 2020 Feb 5;3(2):e1920622. doi: 10.1001/jamanetworkopen.2019.20622.

4. Gowing L et al. Buprenorphine for managing opioid withdrawal. Cochrane Database Syst Rev. 2017 Feb;2017(2):CD002025. doi: 10.1002/14651858.CD002025.pub5.

5. Sordo L et al. Mortality risk during and after opioid substitution treatment: Systematic review and meta-analysis of cohort studies. BMJ. 2017 Apr 26;357:j1550. doi: 10.1136/bmj.j1550.

6. Smyth BP et al. Lapse and relapse following inpatient treatment of opiate dependence. Ir Med J. 2010 Jun;103(6):176-9. Available at www.drugsandalcohol.ie/13405.

7. Liebschutz JM. Buprenorphine treatment for hospitalized, opioid-dependent patients: A randomized clinical trial. JAMA Intern Med. 2014 Aug;174(8):1369-76. doi: 10.1001/jamainternmed.2014.2556.

8. Substance Abuse and Mental Health Services Administration. (Aug 20, 2020) Statutes, Regulations, and Guidelines.

9. McBain RK et al. Growth and distribution of buprenorphine-waivered providers in the United States, 2007-2017. Ann Intern Med. 2020;172(7):504-6. doi: 10.7326/M19-2403.

10. HHS releases new buprenorphine practice guidelines, expanding access to treatment for opioid use disorder. Apr 27, 2021.

11. Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.

Additional reading

Winetsky D. Expanding treatment opportunities for hospitalized patients with opioid use disorders. J Hosp Med. 2018 Jan;13(1):62-4. doi: 10.12788/jhm.2861.

Donroe JH. Caring for patients with opioid use disorder in the hospital. Can Med Assoc J. 2016 Dec 6;188(17-18):1232-9. doi: 10.1503/cmaj.160290.

Herscher M et al. Diagnosis and management of opioid use disorder in hospitalized patients. Med Clin North Am. 2020 Jul;104(4):695-708. doi: 10.1016/j.mcna.2020.03.003.
 

Key points

• Most patients with OUD are not engaged in evidence-based treatment. Clinicians have an opportunity to utilize the inpatient stay as a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.
• Buprenorphine and methadone are effective opioid agonist medications used to treat OUD, and clinicians with the appropriate knowledge base can initiate either during the inpatient encounter, and link the patient to OUD treatment after the hospital stay.

Quiz

Caring for hospitalized patients with OUD

Most patients with OUD are not engaged in effective treatment. Hospitalization can be a ‘reachable moment’ to engage patients with OUD in evidence-based treatment.

1. Which is an effective and evidence-based medication for treating opioid withdrawal and OUD?

a) Naltrexone.

b) Buprenorphine.

c) Opioid detoxification.

d) Clonidine.

Explanation: Buprenorphine is effective for alleviating symptoms of withdrawal as well as for the long-term treatment of OUD. While naltrexone is also used to treat OUD, it is not useful for treating withdrawal. Clonidine can be a useful adjunctive medication for treating withdrawal but is not a long-term treatment for OUD. Nonpharmacologic detoxification is not an effective treatment for OUD and is associated with high relapse rates.



2. What scale can be used during a hospital stay to monitor patients with OUD at risk of opioid withdrawal, and to aid in buprenorphine initiation?

a) CIWA score.

b) PADUA score.

c) COWS score.

d) 4T score.

Explanation: COWS is the “clinical opiate withdrawal scale.” The COWS score should be calculated by a trained provider, and includes objective parameters (such as pulse) and subjective symptoms (such as GI upset, bone/joint aches.) It is recommended that agonist therapy be started when the COWS score is consistent with moderate withdrawal.



3. How can clinicians reliably find out if there are outpatient resources/clinics for patients with OUD in their area?

a) No way to find this out without personal knowledge.

b) Hospital providers and patients can visit www.samhsa.gov/find-help/national-helpline or call 1-800-662-HELP (4357) to find options for treatment for substance use disorders in their areas.

c) Dial “0” on any phone and ask.

d) Ask around at your hospital.

Explanation: The Substance Abuse and Mental Health Services Administration (SAMHSA) is an agency in the U.S. Department of Health and Human Services that is engaged in public health efforts to reduce the impact of substance abuse and mental illness on local communities. The agency’s website has helpful information about resources for substance use treatment.



4. Patients with OUD should be prescribed and given training about what medication that can be lifesaving when given during an opioid overdose?

a) Aspirin.

b) Naloxone.

c) Naltrexone.

d) Clonidine.

Explanation: Naloxone can be life-saving in the setting of an overdose. Best practice is to provide naloxone and training to patients with OUD.



5. When patients take buprenorphine soon after taking other opioids, there is concern for the development of which reaction:

a) Precipitated withdrawal.

b) Opioid overdose.

c) Allergic reaction.

d) Intoxication.

Explanation: Administering buprenorphine soon after taking other opioids can cause precipitated withdrawal, as buprenorphine binds with higher affinity to the mu receptor than many opioids. Precipitated withdrawal causes severe discomfort and can be dangerous for patients.

As Rachna Rawal, MD, was donning her personal protective equipment (PPE), a process that has become deeply ingrained into her muscle memory, a nurse approached her to ask, “Hey, for Mr. Smith, any chance we can time these labs to be done together with his medication administration? We’ve been in and out of that room a few times already.”

As someone who embraces high-value care, this simple suggestion surprised her. What an easy strategy to minimize room entry with full PPE, lab testing, and patient interruptions. That same day, someone else asked, “Do we need overnight vitals?”

Rawal_Rachna_PITTSBURGH_web.jpg

COVID-19 has forced hospitalists to reconsider almost every aspect of care. It feels like every decision we make including things we do routinely – labs, vital signs, imaging – needs to be reassessed to determine the actual benefit to the patient balanced against concerns about staff safety, dwindling PPE supplies, and medication reserves. We are all faced with frequently answering the question, “How will this intervention help the patient?” This question lies at the heart of delivering high-value care.

High-value care is providing the best care possible through efficient use of resources, achieving optimal results for each patient. While high-value care has become a prominent focus over the past decade, COVID-19’s high transmissibility without a cure – and associated scarcity of health care resources – have sparked additional discussions on the front lines about promoting patient outcomes while avoiding waste. Clinicians may not have realized that these were high-value care conversations.

Linker_Anne_NY_web.jpg

The United States’ health care quality and cost crises, worsened in the face of the current pandemic, have been glaringly apparent for years. Our country is spending more money on health care than anywhere else in the world without desired improvements in patient outcomes. A 2019 JAMA study found that 25% of all health care spending, an estimated $760 to $935 billion, is considered waste, and a significant proportion of this waste is due to repetitive care, overuse and unnecessary care in the U.S.¹

Examples of low-value care tests include ordering daily labs in stable medicine inpatients, routine urine electrolytes in acute kidney injury, and folate testing in anemia. The Choosing Wisely^® national campaign, Journal of Hospital Medicine’s “Things We Do For No Reason,” and JAMA Internal Medicine’s “Teachable Moment” series have provided guidance on areas where common testing or interventions may not benefit patient outcomes.

Moriates_Christopher_TX_2020_web.jpg

The COVID-19 pandemic has raised questions related to other widely-utilized practices: Can medication times be readjusted to allow only one entry into the room? Will these labs or imaging studies actually change management? Are vital checks every 4 hours needed?

Why did it take the COVID-19 threat to our medical system to force many of us to have these discussions? Despite prior efforts to integrate high-value care into hospital practices, long-standing habits and deep-seeded culture are challenging to overcome. Once clinicians develop practice habits, these behaviors tend to persist throughout their careers.² In many ways, COVID-19 was like hitting a “reset button” as health care professionals were forced to rapidly confront their deeply-ingrained hospital practices and habits. From new protocols for patient rounding to universal masking and social distancing to ground-breaking strategies like awake proning, the response to COVID-19 has represented an unprecedented rapid shift in practice. Previously, consequences of overuse were too downstream or too abstract for clinicians to see in real-time. However, now the ramifications of these choices hit closer to home with obvious potential consequences – like spreading a terrifying virus.

There are three interventions that hospitalists should consider implementing immediately in the COVID-19 era that accelerate us toward high-value care. Routine lab tests, imaging, and overnight vitals represent opportunities to provide patient-centered care while also remaining cognizant of resource utilization.

One area in hospital medicine that has proven challenging to significantly change practice has been routine daily labs. Patients on a general medical inpatient service who are clinically stable generally do not benefit from routine lab work.³ Avoiding these tests does not increase mortality or length of stay in clinically stable patients.³ However, despite this evidence, many patients with COVID-19 and other conditions experience lab draws that are not timed together and are done each morning out of “routine.” Choosing Wisely^® recommendations from the Society of Hospital Medicine encourage clinicians to question routine lab work for COVID-19 patients and to consider batching them, if possible.^3,4 In COVID-19 patients, the risks of not batching tests are magnified, both in terms of the patient-centered experience and for clinician safety. In essence, COVID-19 has pushed us to consider the elements of safety, PPE conservation and other factors, rather than making decisions based solely on their own comfort, convenience, or historical practice.

Clinicians are also reconsidering the necessity of imaging during the pandemic. The “Things We Do For No Reason” article on “Choosing Wisely^® in the COVID-19 era” highlights this well.⁴ It is more important now than ever to decide whether the timing and type of imaging will change management for your patient. Questions to ask include: Can a portable x-ray be used to avoid patient travel and will that CT scan help your patient? A posterior-anterior/lateral x-ray can potentially provide more information depending on the clinical scenario. However, we now need to assess if that extra information is going to impact patient management. Downstream consequences of these decisions include not only risks to the patient but also infectious exposures for staff and others during patient travel.

Lastly, overnight vital sign checks are another intervention we should analyze through this high-value care lens. The Journal of Hospital Medicine released a “Things We Do For No Reason” article about minimizing overnight vitals to promote uninterrupted sleep at night.⁵ Deleterious effects of interrupting the sleep of our patients include delirium and patient dissatisfaction.⁵ Studies have shown the benefits of this approach, yet the shift away from routine overnight vitals has not yet widely occurred.

COVID-19 has pressed us to save PPE and minimize exposure risk; hence, some centers are coordinating the timing of vitals with medication administration times, when feasible. In the stable patient recovering from COVID-19, overnight vitals may not be necessary, particularly if remote monitoring is available. This accomplishes multiple goals: Providing high quality patient care, reducing resource utilization, and minimizing patient nighttime interruptions – all culminating in high-value care.

Even though the COVID-19 pandemic has brought unforeseen emotional, physical, and financial challenges for the health care system and its workers, there may be a silver lining. The pandemic has sparked high-value care discussions, and the urgency of the crisis may be instilling new practices in our daily work. This virus has indeed left a terrible wake of destruction, but may also be a nudge to permanently change our culture of overuse to help us shape the habits of all trainees during this tumultuous time. This experience will hopefully culminate in a culture in which clinicians routinely ask, “How will this intervention help the patient?”
 

Dr. Rawal is clinical assistant professor of medicine, University of Pittsburgh. Dr. Linker is assistant professor of medicine, Mount Sinai Hospital, Icahn School of Medicine at Mount Sinai, New York. Dr. Moriates is associate professor of internal medicine, Dell Medical School at the University of Texas at Austin.

References

1. Shrank W et al. Waste in The US healthcare system. JAMA. 2019;322(15):1501-9.

2. Chen C et al. Spending patterns in region of residency training and subsequent expenditures for care provided by practicing physicians for Medicare beneficiaries. JAMA. 2014;312(22):2385-93.

3. Eaton KP et al. Evidence-based guidelines to eliminate repetitive laboratory testing. JAMA Intern Med. 2017;177(12):1833-9.

4. Cho H et al. Choosing Wisely in the COVID-19 Era: Preventing harm to healthcare workers. J Hosp Med. 2020;15(6):360-2.

5. Orlov N and Arora V. Things we do for no reason: Routine overnight vital sign checks. J Hosp Med. 2020;15(5):272-27.

As Rachna Rawal, MD, was donning her personal protective equipment (PPE), a process that has become deeply ingrained into her muscle memory, a nurse approached her to ask, “Hey, for Mr. Smith, any chance we can time these labs to be done together with his medication administration? We’ve been in and out of that room a few times already.”

As someone who embraces high-value care, this simple suggestion surprised her. What an easy strategy to minimize room entry with full PPE, lab testing, and patient interruptions. That same day, someone else asked, “Do we need overnight vitals?”

Rawal_Rachna_PITTSBURGH_web.jpg

COVID-19 has forced hospitalists to reconsider almost every aspect of care. It feels like every decision we make including things we do routinely – labs, vital signs, imaging – needs to be reassessed to determine the actual benefit to the patient balanced against concerns about staff safety, dwindling PPE supplies, and medication reserves. We are all faced with frequently answering the question, “How will this intervention help the patient?” This question lies at the heart of delivering high-value care.

High-value care is providing the best care possible through efficient use of resources, achieving optimal results for each patient. While high-value care has become a prominent focus over the past decade, COVID-19’s high transmissibility without a cure – and associated scarcity of health care resources – have sparked additional discussions on the front lines about promoting patient outcomes while avoiding waste. Clinicians may not have realized that these were high-value care conversations.

Linker_Anne_NY_web.jpg

The United States’ health care quality and cost crises, worsened in the face of the current pandemic, have been glaringly apparent for years. Our country is spending more money on health care than anywhere else in the world without desired improvements in patient outcomes. A 2019 JAMA study found that 25% of all health care spending, an estimated $760 to $935 billion, is considered waste, and a significant proportion of this waste is due to repetitive care, overuse and unnecessary care in the U.S.¹

Examples of low-value care tests include ordering daily labs in stable medicine inpatients, routine urine electrolytes in acute kidney injury, and folate testing in anemia. The Choosing Wisely^® national campaign, Journal of Hospital Medicine’s “Things We Do For No Reason,” and JAMA Internal Medicine’s “Teachable Moment” series have provided guidance on areas where common testing or interventions may not benefit patient outcomes.

Moriates_Christopher_TX_2020_web.jpg

The COVID-19 pandemic has raised questions related to other widely-utilized practices: Can medication times be readjusted to allow only one entry into the room? Will these labs or imaging studies actually change management? Are vital checks every 4 hours needed?

Why did it take the COVID-19 threat to our medical system to force many of us to have these discussions? Despite prior efforts to integrate high-value care into hospital practices, long-standing habits and deep-seeded culture are challenging to overcome. Once clinicians develop practice habits, these behaviors tend to persist throughout their careers.² In many ways, COVID-19 was like hitting a “reset button” as health care professionals were forced to rapidly confront their deeply-ingrained hospital practices and habits. From new protocols for patient rounding to universal masking and social distancing to ground-breaking strategies like awake proning, the response to COVID-19 has represented an unprecedented rapid shift in practice. Previously, consequences of overuse were too downstream or too abstract for clinicians to see in real-time. However, now the ramifications of these choices hit closer to home with obvious potential consequences – like spreading a terrifying virus.

There are three interventions that hospitalists should consider implementing immediately in the COVID-19 era that accelerate us toward high-value care. Routine lab tests, imaging, and overnight vitals represent opportunities to provide patient-centered care while also remaining cognizant of resource utilization.

One area in hospital medicine that has proven challenging to significantly change practice has been routine daily labs. Patients on a general medical inpatient service who are clinically stable generally do not benefit from routine lab work.³ Avoiding these tests does not increase mortality or length of stay in clinically stable patients.³ However, despite this evidence, many patients with COVID-19 and other conditions experience lab draws that are not timed together and are done each morning out of “routine.” Choosing Wisely^® recommendations from the Society of Hospital Medicine encourage clinicians to question routine lab work for COVID-19 patients and to consider batching them, if possible.^3,4 In COVID-19 patients, the risks of not batching tests are magnified, both in terms of the patient-centered experience and for clinician safety. In essence, COVID-19 has pushed us to consider the elements of safety, PPE conservation and other factors, rather than making decisions based solely on their own comfort, convenience, or historical practice.

Clinicians are also reconsidering the necessity of imaging during the pandemic. The “Things We Do For No Reason” article on “Choosing Wisely^® in the COVID-19 era” highlights this well.⁴ It is more important now than ever to decide whether the timing and type of imaging will change management for your patient. Questions to ask include: Can a portable x-ray be used to avoid patient travel and will that CT scan help your patient? A posterior-anterior/lateral x-ray can potentially provide more information depending on the clinical scenario. However, we now need to assess if that extra information is going to impact patient management. Downstream consequences of these decisions include not only risks to the patient but also infectious exposures for staff and others during patient travel.

Lastly, overnight vital sign checks are another intervention we should analyze through this high-value care lens. The Journal of Hospital Medicine released a “Things We Do For No Reason” article about minimizing overnight vitals to promote uninterrupted sleep at night.⁵ Deleterious effects of interrupting the sleep of our patients include delirium and patient dissatisfaction.⁵ Studies have shown the benefits of this approach, yet the shift away from routine overnight vitals has not yet widely occurred.

COVID-19 has pressed us to save PPE and minimize exposure risk; hence, some centers are coordinating the timing of vitals with medication administration times, when feasible. In the stable patient recovering from COVID-19, overnight vitals may not be necessary, particularly if remote monitoring is available. This accomplishes multiple goals: Providing high quality patient care, reducing resource utilization, and minimizing patient nighttime interruptions – all culminating in high-value care.

Even though the COVID-19 pandemic has brought unforeseen emotional, physical, and financial challenges for the health care system and its workers, there may be a silver lining. The pandemic has sparked high-value care discussions, and the urgency of the crisis may be instilling new practices in our daily work. This virus has indeed left a terrible wake of destruction, but may also be a nudge to permanently change our culture of overuse to help us shape the habits of all trainees during this tumultuous time. This experience will hopefully culminate in a culture in which clinicians routinely ask, “How will this intervention help the patient?”
 

Dr. Rawal is clinical assistant professor of medicine, University of Pittsburgh. Dr. Linker is assistant professor of medicine, Mount Sinai Hospital, Icahn School of Medicine at Mount Sinai, New York. Dr. Moriates is associate professor of internal medicine, Dell Medical School at the University of Texas at Austin.

References

1. Shrank W et al. Waste in The US healthcare system. JAMA. 2019;322(15):1501-9.

2. Chen C et al. Spending patterns in region of residency training and subsequent expenditures for care provided by practicing physicians for Medicare beneficiaries. JAMA. 2014;312(22):2385-93.

3. Eaton KP et al. Evidence-based guidelines to eliminate repetitive laboratory testing. JAMA Intern Med. 2017;177(12):1833-9.

4. Cho H et al. Choosing Wisely in the COVID-19 Era: Preventing harm to healthcare workers. J Hosp Med. 2020;15(6):360-2.

5. Orlov N and Arora V. Things we do for no reason: Routine overnight vital sign checks. J Hosp Med. 2020;15(5):272-27.

As Rachna Rawal, MD, was donning her personal protective equipment (PPE), a process that has become deeply ingrained into her muscle memory, a nurse approached her to ask, “Hey, for Mr. Smith, any chance we can time these labs to be done together with his medication administration? We’ve been in and out of that room a few times already.”

As someone who embraces high-value care, this simple suggestion surprised her. What an easy strategy to minimize room entry with full PPE, lab testing, and patient interruptions. That same day, someone else asked, “Do we need overnight vitals?”

Rawal_Rachna_PITTSBURGH_web.jpg

COVID-19 has forced hospitalists to reconsider almost every aspect of care. It feels like every decision we make including things we do routinely – labs, vital signs, imaging – needs to be reassessed to determine the actual benefit to the patient balanced against concerns about staff safety, dwindling PPE supplies, and medication reserves. We are all faced with frequently answering the question, “How will this intervention help the patient?” This question lies at the heart of delivering high-value care.

High-value care is providing the best care possible through efficient use of resources, achieving optimal results for each patient. While high-value care has become a prominent focus over the past decade, COVID-19’s high transmissibility without a cure – and associated scarcity of health care resources – have sparked additional discussions on the front lines about promoting patient outcomes while avoiding waste. Clinicians may not have realized that these were high-value care conversations.

Linker_Anne_NY_web.jpg

The United States’ health care quality and cost crises, worsened in the face of the current pandemic, have been glaringly apparent for years. Our country is spending more money on health care than anywhere else in the world without desired improvements in patient outcomes. A 2019 JAMA study found that 25% of all health care spending, an estimated $760 to $935 billion, is considered waste, and a significant proportion of this waste is due to repetitive care, overuse and unnecessary care in the U.S.¹

Examples of low-value care tests include ordering daily labs in stable medicine inpatients, routine urine electrolytes in acute kidney injury, and folate testing in anemia. The Choosing Wisely^® national campaign, Journal of Hospital Medicine’s “Things We Do For No Reason,” and JAMA Internal Medicine’s “Teachable Moment” series have provided guidance on areas where common testing or interventions may not benefit patient outcomes.

Moriates_Christopher_TX_2020_web.jpg

The COVID-19 pandemic has raised questions related to other widely-utilized practices: Can medication times be readjusted to allow only one entry into the room? Will these labs or imaging studies actually change management? Are vital checks every 4 hours needed?

Why did it take the COVID-19 threat to our medical system to force many of us to have these discussions? Despite prior efforts to integrate high-value care into hospital practices, long-standing habits and deep-seeded culture are challenging to overcome. Once clinicians develop practice habits, these behaviors tend to persist throughout their careers.² In many ways, COVID-19 was like hitting a “reset button” as health care professionals were forced to rapidly confront their deeply-ingrained hospital practices and habits. From new protocols for patient rounding to universal masking and social distancing to ground-breaking strategies like awake proning, the response to COVID-19 has represented an unprecedented rapid shift in practice. Previously, consequences of overuse were too downstream or too abstract for clinicians to see in real-time. However, now the ramifications of these choices hit closer to home with obvious potential consequences – like spreading a terrifying virus.

There are three interventions that hospitalists should consider implementing immediately in the COVID-19 era that accelerate us toward high-value care. Routine lab tests, imaging, and overnight vitals represent opportunities to provide patient-centered care while also remaining cognizant of resource utilization.

One area in hospital medicine that has proven challenging to significantly change practice has been routine daily labs. Patients on a general medical inpatient service who are clinically stable generally do not benefit from routine lab work.³ Avoiding these tests does not increase mortality or length of stay in clinically stable patients.³ However, despite this evidence, many patients with COVID-19 and other conditions experience lab draws that are not timed together and are done each morning out of “routine.” Choosing Wisely^® recommendations from the Society of Hospital Medicine encourage clinicians to question routine lab work for COVID-19 patients and to consider batching them, if possible.^3,4 In COVID-19 patients, the risks of not batching tests are magnified, both in terms of the patient-centered experience and for clinician safety. In essence, COVID-19 has pushed us to consider the elements of safety, PPE conservation and other factors, rather than making decisions based solely on their own comfort, convenience, or historical practice.

Clinicians are also reconsidering the necessity of imaging during the pandemic. The “Things We Do For No Reason” article on “Choosing Wisely^® in the COVID-19 era” highlights this well.⁴ It is more important now than ever to decide whether the timing and type of imaging will change management for your patient. Questions to ask include: Can a portable x-ray be used to avoid patient travel and will that CT scan help your patient? A posterior-anterior/lateral x-ray can potentially provide more information depending on the clinical scenario. However, we now need to assess if that extra information is going to impact patient management. Downstream consequences of these decisions include not only risks to the patient but also infectious exposures for staff and others during patient travel.

Lastly, overnight vital sign checks are another intervention we should analyze through this high-value care lens. The Journal of Hospital Medicine released a “Things We Do For No Reason” article about minimizing overnight vitals to promote uninterrupted sleep at night.⁵ Deleterious effects of interrupting the sleep of our patients include delirium and patient dissatisfaction.⁵ Studies have shown the benefits of this approach, yet the shift away from routine overnight vitals has not yet widely occurred.

COVID-19 has pressed us to save PPE and minimize exposure risk; hence, some centers are coordinating the timing of vitals with medication administration times, when feasible. In the stable patient recovering from COVID-19, overnight vitals may not be necessary, particularly if remote monitoring is available. This accomplishes multiple goals: Providing high quality patient care, reducing resource utilization, and minimizing patient nighttime interruptions – all culminating in high-value care.

Even though the COVID-19 pandemic has brought unforeseen emotional, physical, and financial challenges for the health care system and its workers, there may be a silver lining. The pandemic has sparked high-value care discussions, and the urgency of the crisis may be instilling new practices in our daily work. This virus has indeed left a terrible wake of destruction, but may also be a nudge to permanently change our culture of overuse to help us shape the habits of all trainees during this tumultuous time. This experience will hopefully culminate in a culture in which clinicians routinely ask, “How will this intervention help the patient?”
 

Dr. Rawal is clinical assistant professor of medicine, University of Pittsburgh. Dr. Linker is assistant professor of medicine, Mount Sinai Hospital, Icahn School of Medicine at Mount Sinai, New York. Dr. Moriates is associate professor of internal medicine, Dell Medical School at the University of Texas at Austin.

References

1. Shrank W et al. Waste in The US healthcare system. JAMA. 2019;322(15):1501-9.

2. Chen C et al. Spending patterns in region of residency training and subsequent expenditures for care provided by practicing physicians for Medicare beneficiaries. JAMA. 2014;312(22):2385-93.

3. Eaton KP et al. Evidence-based guidelines to eliminate repetitive laboratory testing. JAMA Intern Med. 2017;177(12):1833-9.

4. Cho H et al. Choosing Wisely in the COVID-19 Era: Preventing harm to healthcare workers. J Hosp Med. 2020;15(6):360-2.

5. Orlov N and Arora V. Things we do for no reason: Routine overnight vital sign checks. J Hosp Med. 2020;15(5):272-27.

Clinical question: What are the benefits and risks of daily aspirin use for primary prevention in healthy elderly adults?

Background: Prior studies have shown the efficacy of aspirin for secondary prevention of cardiovascular disease and stroke, but the evidence supporting the use of aspirin for primary prevention is less certain.

Study design: Randomized, double-blind, placebo-controlled prospective study with a 5-year study period.

Setting: Australia and the United States.

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Synopsis: The Aspirin in Reducing Events in the Elderly (ASPREE) trial included 19,114 community-dwelling healthy people (aged 70 years and older overall and aged 65 years and older if black or Hispanic), without cardiovascular disease, dementia or disability. The goal was to investigate the effect of daily low-dose aspirin (100 mg, enteric coated) on healthy life span (without dementia or disability), with prespecified secondary outcomes (cardiovascular events and major hemorrhage).

Analysis was by intention-to-treat. Participants were predominantly Caucasian, approximately 10% of patients had diabetes, 74% had hypertension, and 65% had dyslipidemia. There was high adherence to the intervention. There was no significant difference in the primary outcome (disability-free survival) or in the secondary outcome of cardiovascular event (fatal or nonfatal MI or stroke, or hospitalization for heart failure.) The rate of major hemorrhage (hemorrhagic stroke, symptomatic intracranial bleeding, clinically significant extracranial bleeding) was higher in the aspirin group (P less than .001). In contrast to prior studies, subgroup analysis showed higher mortality in the aspirin group (attributed to an increase in the risk of cancer-related death.) The authors warn that this finding should be interpreted with caution.

Bottom line: Aspirin use for primary prevention in healthy elderly persons over a 5-year period did not change disability-free survival, did not decrease cardiovascular risk, and increased the rate of major hemorrhage.

Citation: McNeil JJ et al. Effect of aspirin on all-cause mortality in the healthy elderly. N Engl J Med. 2018;379:1519-28.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.

Clinical question: What are the benefits and risks of daily aspirin use for primary prevention in healthy elderly adults?

Background: Prior studies have shown the efficacy of aspirin for secondary prevention of cardiovascular disease and stroke, but the evidence supporting the use of aspirin for primary prevention is less certain.

Study design: Randomized, double-blind, placebo-controlled prospective study with a 5-year study period.

Setting: Australia and the United States.

inthelit_web.jpg

Synopsis: The Aspirin in Reducing Events in the Elderly (ASPREE) trial included 19,114 community-dwelling healthy people (aged 70 years and older overall and aged 65 years and older if black or Hispanic), without cardiovascular disease, dementia or disability. The goal was to investigate the effect of daily low-dose aspirin (100 mg, enteric coated) on healthy life span (without dementia or disability), with prespecified secondary outcomes (cardiovascular events and major hemorrhage).

Analysis was by intention-to-treat. Participants were predominantly Caucasian, approximately 10% of patients had diabetes, 74% had hypertension, and 65% had dyslipidemia. There was high adherence to the intervention. There was no significant difference in the primary outcome (disability-free survival) or in the secondary outcome of cardiovascular event (fatal or nonfatal MI or stroke, or hospitalization for heart failure.) The rate of major hemorrhage (hemorrhagic stroke, symptomatic intracranial bleeding, clinically significant extracranial bleeding) was higher in the aspirin group (P less than .001). In contrast to prior studies, subgroup analysis showed higher mortality in the aspirin group (attributed to an increase in the risk of cancer-related death.) The authors warn that this finding should be interpreted with caution.

Bottom line: Aspirin use for primary prevention in healthy elderly persons over a 5-year period did not change disability-free survival, did not decrease cardiovascular risk, and increased the rate of major hemorrhage.

Citation: McNeil JJ et al. Effect of aspirin on all-cause mortality in the healthy elderly. N Engl J Med. 2018;379:1519-28.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.

Clinical question: What are the benefits and risks of daily aspirin use for primary prevention in healthy elderly adults?

Background: Prior studies have shown the efficacy of aspirin for secondary prevention of cardiovascular disease and stroke, but the evidence supporting the use of aspirin for primary prevention is less certain.

Study design: Randomized, double-blind, placebo-controlled prospective study with a 5-year study period.

Setting: Australia and the United States.

inthelit_web.jpg

Synopsis: The Aspirin in Reducing Events in the Elderly (ASPREE) trial included 19,114 community-dwelling healthy people (aged 70 years and older overall and aged 65 years and older if black or Hispanic), without cardiovascular disease, dementia or disability. The goal was to investigate the effect of daily low-dose aspirin (100 mg, enteric coated) on healthy life span (without dementia or disability), with prespecified secondary outcomes (cardiovascular events and major hemorrhage).

Analysis was by intention-to-treat. Participants were predominantly Caucasian, approximately 10% of patients had diabetes, 74% had hypertension, and 65% had dyslipidemia. There was high adherence to the intervention. There was no significant difference in the primary outcome (disability-free survival) or in the secondary outcome of cardiovascular event (fatal or nonfatal MI or stroke, or hospitalization for heart failure.) The rate of major hemorrhage (hemorrhagic stroke, symptomatic intracranial bleeding, clinically significant extracranial bleeding) was higher in the aspirin group (P less than .001). In contrast to prior studies, subgroup analysis showed higher mortality in the aspirin group (attributed to an increase in the risk of cancer-related death.) The authors warn that this finding should be interpreted with caution.

Bottom line: Aspirin use for primary prevention in healthy elderly persons over a 5-year period did not change disability-free survival, did not decrease cardiovascular risk, and increased the rate of major hemorrhage.

Citation: McNeil JJ et al. Effect of aspirin on all-cause mortality in the healthy elderly. N Engl J Med. 2018;379:1519-28.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.

Clinical question: Do repeated quick Sepsis-Related Organ Failure Assessment (qSOFA) measurements improve predictive validity for sepsis using in-hospital mortality, compared with a single qSOFA measurement at the time a clinician first suspects infection?

Background: Sepsis in hospitalized patients is associated with poor outcomes, but it is not clear how to best identify patients at risk. For non-ICU patients, the qSOFA score (made up of three simple clinical variables: respiratory rate greater than or equal to 22 breaths/minute, systolic blood pressure less than or equal to 100 mm Hg, and Glasgow Coma Scale score less than 15) has predictive validity for important outcomes including in-hospital mortality. qSOFA is relatively new in clinical practice, and the optimal utilization of the score has not yet been defined.

Study design: Retrospective Cohort Study.

Setting: All adult medical and surgical encounters in the ED, hospital ward, postanesthesia care unit (PACU), and ICU at 12 hospitals in Pennsylvania in 2012.

Linker_Anne_NY_web.jpg

Synopsis: Kievlan et al. studied whether repeated qSOFA scores improved prediction of in-hospital mortality and allowed identification of specific clinical trajectories. The study included approximately 37,600 encounters. Authors abstracted demographic data, vital signs, laboratory results, and antibiotic/culture orders. An infection cohort was identified by a combination of orders for body fluid culture and antibiotics. The qSOFA scores were gathered at 6-hour intervals from the culture/antibiotic event (suspected sepsis). Scores were low (0), moderate (1), or high (greater than or equal to 2). Mean initial qSOFA scores were greater for patients who died, and remained higher during the 48-hours after suspected infection. Mortality was less than 2% in patients with an initial low qSOFA. 25% of patients with an initial moderate qSOFA had subsequent higher qSOFAs, and they had higher mortality, compared with patients with subsequent low qSOFA scores (16% vs. 4%).

Only those patients with initial qSOFA scores at the time of suspected infection were included, and missing data was common. The results may not be applicable to hospitals with a different sepsis case mix from the those of study institutions.

Bottom line: Repeated qSOFA measurements improve predictive validity for in-hospital mortality for patients with sepsis. Patients with low initial qSOFA scores have a low chance (less than 2%) of in-hospital mortality. Further studies are needed to determine how repeat qSOFA measurements can be used to improve management of patients with sepsis.

Citation: Kievlan DR et al. Evaluation of repeated quick sepsis-related organ failure assessment measurements among patients with suspected infection. Crit Care Med. 2018. doi: 10.1097/CCM.0000000000003360.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.

Clinical question: Do repeated quick Sepsis-Related Organ Failure Assessment (qSOFA) measurements improve predictive validity for sepsis using in-hospital mortality, compared with a single qSOFA measurement at the time a clinician first suspects infection?

Background: Sepsis in hospitalized patients is associated with poor outcomes, but it is not clear how to best identify patients at risk. For non-ICU patients, the qSOFA score (made up of three simple clinical variables: respiratory rate greater than or equal to 22 breaths/minute, systolic blood pressure less than or equal to 100 mm Hg, and Glasgow Coma Scale score less than 15) has predictive validity for important outcomes including in-hospital mortality. qSOFA is relatively new in clinical practice, and the optimal utilization of the score has not yet been defined.

Study design: Retrospective Cohort Study.

Setting: All adult medical and surgical encounters in the ED, hospital ward, postanesthesia care unit (PACU), and ICU at 12 hospitals in Pennsylvania in 2012.

Linker_Anne_NY_web.jpg

Synopsis: Kievlan et al. studied whether repeated qSOFA scores improved prediction of in-hospital mortality and allowed identification of specific clinical trajectories. The study included approximately 37,600 encounters. Authors abstracted demographic data, vital signs, laboratory results, and antibiotic/culture orders. An infection cohort was identified by a combination of orders for body fluid culture and antibiotics. The qSOFA scores were gathered at 6-hour intervals from the culture/antibiotic event (suspected sepsis). Scores were low (0), moderate (1), or high (greater than or equal to 2). Mean initial qSOFA scores were greater for patients who died, and remained higher during the 48-hours after suspected infection. Mortality was less than 2% in patients with an initial low qSOFA. 25% of patients with an initial moderate qSOFA had subsequent higher qSOFAs, and they had higher mortality, compared with patients with subsequent low qSOFA scores (16% vs. 4%).

Only those patients with initial qSOFA scores at the time of suspected infection were included, and missing data was common. The results may not be applicable to hospitals with a different sepsis case mix from the those of study institutions.

Bottom line: Repeated qSOFA measurements improve predictive validity for in-hospital mortality for patients with sepsis. Patients with low initial qSOFA scores have a low chance (less than 2%) of in-hospital mortality. Further studies are needed to determine how repeat qSOFA measurements can be used to improve management of patients with sepsis.

Citation: Kievlan DR et al. Evaluation of repeated quick sepsis-related organ failure assessment measurements among patients with suspected infection. Crit Care Med. 2018. doi: 10.1097/CCM.0000000000003360.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.

Clinical question: Do repeated quick Sepsis-Related Organ Failure Assessment (qSOFA) measurements improve predictive validity for sepsis using in-hospital mortality, compared with a single qSOFA measurement at the time a clinician first suspects infection?

Background: Sepsis in hospitalized patients is associated with poor outcomes, but it is not clear how to best identify patients at risk. For non-ICU patients, the qSOFA score (made up of three simple clinical variables: respiratory rate greater than or equal to 22 breaths/minute, systolic blood pressure less than or equal to 100 mm Hg, and Glasgow Coma Scale score less than 15) has predictive validity for important outcomes including in-hospital mortality. qSOFA is relatively new in clinical practice, and the optimal utilization of the score has not yet been defined.

Study design: Retrospective Cohort Study.

Setting: All adult medical and surgical encounters in the ED, hospital ward, postanesthesia care unit (PACU), and ICU at 12 hospitals in Pennsylvania in 2012.

Linker_Anne_NY_web.jpg

Synopsis: Kievlan et al. studied whether repeated qSOFA scores improved prediction of in-hospital mortality and allowed identification of specific clinical trajectories. The study included approximately 37,600 encounters. Authors abstracted demographic data, vital signs, laboratory results, and antibiotic/culture orders. An infection cohort was identified by a combination of orders for body fluid culture and antibiotics. The qSOFA scores were gathered at 6-hour intervals from the culture/antibiotic event (suspected sepsis). Scores were low (0), moderate (1), or high (greater than or equal to 2). Mean initial qSOFA scores were greater for patients who died, and remained higher during the 48-hours after suspected infection. Mortality was less than 2% in patients with an initial low qSOFA. 25% of patients with an initial moderate qSOFA had subsequent higher qSOFAs, and they had higher mortality, compared with patients with subsequent low qSOFA scores (16% vs. 4%).

Only those patients with initial qSOFA scores at the time of suspected infection were included, and missing data was common. The results may not be applicable to hospitals with a different sepsis case mix from the those of study institutions.

Bottom line: Repeated qSOFA measurements improve predictive validity for in-hospital mortality for patients with sepsis. Patients with low initial qSOFA scores have a low chance (less than 2%) of in-hospital mortality. Further studies are needed to determine how repeat qSOFA measurements can be used to improve management of patients with sepsis.

Citation: Kievlan DR et al. Evaluation of repeated quick sepsis-related organ failure assessment measurements among patients with suspected infection. Crit Care Med. 2018. doi: 10.1097/CCM.0000000000003360.
 

Dr. Linker is an assistant professor of medicine in the division of hospital medicine at Mount Sinai Hospital, New York.