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The handheld wireless tool, which was developed by Miami-based DermaSensor Inc., operates on battery power, uses spectroscopy and algorithms to evaluate skin lesions for potential cancer in a matter of seconds, and is intended for use by primary care physicians. After the device completes the scan of a lesion, a result of “investigate further” (positive result) suggests further evaluation through a referral to a dermatologist, while “monitor” (negative result) suggests that there is no immediate need for a referral to a dermatologist.
In a pivotal trial of the device that evaluated 224 high risk lesions at 18 primary care study sites in the United States and 4 in Australia, the device had an overall sensitivity of 95.5% for detecting malignancy.
In a more recent validation study funded by DermaSensor, investigators tested 333 lesions at four U.S. dermatology offices and found that the overall device sensitivity was 97.04%, with subgroup sensitivity of 96.67% for melanoma, 97.22% for basal cell carcinoma, and 97.01% for squamous cell carcinoma. Overall specificity of the device was 26.22%.
The study authors, led by Tallahassee, Fla.–based dermatologist Armand B. Cognetta Jr., MD, concluded that DermaSensor’s rapid clinical analysis of lesions “allows for its easy integration into clinical practice infrastructures. Proper use of this device may aid in the reduction of morbidity and mortality associated with skin cancer through expedited and enhanced detection and intervention.”
According to marketing material from the DermaSensor website, the device’s AI algorithm was developed and validated with more than 20,000 scans, composed of more than 4,000 benign and malignant lesions. In a statement about the clearance, the FDA emphasized that the device “should not be used as the sole diagnostic criterion nor to confirm a diagnosis of skin cancer.” The agency is requiring that the manufacturer “conduct additional post-market clinical validation performance testing of the DermaSensor device in patients from demographic groups representative of the U.S. population, including populations who had limited representation of melanomas in the premarket studies, due to their having a relatively low incidence of the disease.”
According to a spokesperson for DermaSensor, pricing for the device is based on a subscription model: $199 per month for five patients or $399 per month for unlimited use. DermaSensor is currently commercially available in Europe and Australia.
Asked to comment, Vishal A. Patel, MD, director of cutaneous oncology at the George Washington Cancer Center, Washington, said that the FDA clearance of DermaSensor highlights the growing appreciation of AI-driven diagnostic support for primary care providers and dermatologists. "Skin cancers are a growing epidemic in the US and the ability to accurately identify potential suspicious lesions without immediately reaching for the scalpel is invaluable," Patel told this news organization. He was not involved with DermSensor studies.
"Furthermore, this tool can help address the shortage of dermatologists and long wait times by helping primary care providers accurately risk-stratify patients and identify those who need to be seen immediately for potential biopsy and expert care," he added. "However, just like with any new technology, we must use caution to not overutilize this tool," which he said, could "lead to overdiagnosis and overtreatment of early or innocuous lesions that are better managed with empiric field treatments."
Dr. Cognetta was a paid investigator for the study.
Dr. Patel disclosed that he is chief medical officer for Lazarus AI.
The handheld wireless tool, which was developed by Miami-based DermaSensor Inc., operates on battery power, uses spectroscopy and algorithms to evaluate skin lesions for potential cancer in a matter of seconds, and is intended for use by primary care physicians. After the device completes the scan of a lesion, a result of “investigate further” (positive result) suggests further evaluation through a referral to a dermatologist, while “monitor” (negative result) suggests that there is no immediate need for a referral to a dermatologist.
In a pivotal trial of the device that evaluated 224 high risk lesions at 18 primary care study sites in the United States and 4 in Australia, the device had an overall sensitivity of 95.5% for detecting malignancy.
In a more recent validation study funded by DermaSensor, investigators tested 333 lesions at four U.S. dermatology offices and found that the overall device sensitivity was 97.04%, with subgroup sensitivity of 96.67% for melanoma, 97.22% for basal cell carcinoma, and 97.01% for squamous cell carcinoma. Overall specificity of the device was 26.22%.
The study authors, led by Tallahassee, Fla.–based dermatologist Armand B. Cognetta Jr., MD, concluded that DermaSensor’s rapid clinical analysis of lesions “allows for its easy integration into clinical practice infrastructures. Proper use of this device may aid in the reduction of morbidity and mortality associated with skin cancer through expedited and enhanced detection and intervention.”
According to marketing material from the DermaSensor website, the device’s AI algorithm was developed and validated with more than 20,000 scans, composed of more than 4,000 benign and malignant lesions. In a statement about the clearance, the FDA emphasized that the device “should not be used as the sole diagnostic criterion nor to confirm a diagnosis of skin cancer.” The agency is requiring that the manufacturer “conduct additional post-market clinical validation performance testing of the DermaSensor device in patients from demographic groups representative of the U.S. population, including populations who had limited representation of melanomas in the premarket studies, due to their having a relatively low incidence of the disease.”
According to a spokesperson for DermaSensor, pricing for the device is based on a subscription model: $199 per month for five patients or $399 per month for unlimited use. DermaSensor is currently commercially available in Europe and Australia.
Asked to comment, Vishal A. Patel, MD, director of cutaneous oncology at the George Washington Cancer Center, Washington, said that the FDA clearance of DermaSensor highlights the growing appreciation of AI-driven diagnostic support for primary care providers and dermatologists. "Skin cancers are a growing epidemic in the US and the ability to accurately identify potential suspicious lesions without immediately reaching for the scalpel is invaluable," Patel told this news organization. He was not involved with DermSensor studies.
"Furthermore, this tool can help address the shortage of dermatologists and long wait times by helping primary care providers accurately risk-stratify patients and identify those who need to be seen immediately for potential biopsy and expert care," he added. "However, just like with any new technology, we must use caution to not overutilize this tool," which he said, could "lead to overdiagnosis and overtreatment of early or innocuous lesions that are better managed with empiric field treatments."
Dr. Cognetta was a paid investigator for the study.
Dr. Patel disclosed that he is chief medical officer for Lazarus AI.
The handheld wireless tool, which was developed by Miami-based DermaSensor Inc., operates on battery power, uses spectroscopy and algorithms to evaluate skin lesions for potential cancer in a matter of seconds, and is intended for use by primary care physicians. After the device completes the scan of a lesion, a result of “investigate further” (positive result) suggests further evaluation through a referral to a dermatologist, while “monitor” (negative result) suggests that there is no immediate need for a referral to a dermatologist.
In a pivotal trial of the device that evaluated 224 high risk lesions at 18 primary care study sites in the United States and 4 in Australia, the device had an overall sensitivity of 95.5% for detecting malignancy.
In a more recent validation study funded by DermaSensor, investigators tested 333 lesions at four U.S. dermatology offices and found that the overall device sensitivity was 97.04%, with subgroup sensitivity of 96.67% for melanoma, 97.22% for basal cell carcinoma, and 97.01% for squamous cell carcinoma. Overall specificity of the device was 26.22%.
The study authors, led by Tallahassee, Fla.–based dermatologist Armand B. Cognetta Jr., MD, concluded that DermaSensor’s rapid clinical analysis of lesions “allows for its easy integration into clinical practice infrastructures. Proper use of this device may aid in the reduction of morbidity and mortality associated with skin cancer through expedited and enhanced detection and intervention.”
According to marketing material from the DermaSensor website, the device’s AI algorithm was developed and validated with more than 20,000 scans, composed of more than 4,000 benign and malignant lesions. In a statement about the clearance, the FDA emphasized that the device “should not be used as the sole diagnostic criterion nor to confirm a diagnosis of skin cancer.” The agency is requiring that the manufacturer “conduct additional post-market clinical validation performance testing of the DermaSensor device in patients from demographic groups representative of the U.S. population, including populations who had limited representation of melanomas in the premarket studies, due to their having a relatively low incidence of the disease.”
According to a spokesperson for DermaSensor, pricing for the device is based on a subscription model: $199 per month for five patients or $399 per month for unlimited use. DermaSensor is currently commercially available in Europe and Australia.
Asked to comment, Vishal A. Patel, MD, director of cutaneous oncology at the George Washington Cancer Center, Washington, said that the FDA clearance of DermaSensor highlights the growing appreciation of AI-driven diagnostic support for primary care providers and dermatologists. "Skin cancers are a growing epidemic in the US and the ability to accurately identify potential suspicious lesions without immediately reaching for the scalpel is invaluable," Patel told this news organization. He was not involved with DermSensor studies.
"Furthermore, this tool can help address the shortage of dermatologists and long wait times by helping primary care providers accurately risk-stratify patients and identify those who need to be seen immediately for potential biopsy and expert care," he added. "However, just like with any new technology, we must use caution to not overutilize this tool," which he said, could "lead to overdiagnosis and overtreatment of early or innocuous lesions that are better managed with empiric field treatments."
Dr. Cognetta was a paid investigator for the study.
Dr. Patel disclosed that he is chief medical officer for Lazarus AI.