LA JOLLA, Calif.--(BUSINESS WIRE)--DermTech, Inc. (NASDAQ: DMTK) (“DermTech”), a leader in precision dermatology enabled by a non-invasive skin genomics platform, announced today the presentation of new data on the Pigmented Lesion Assay (PLA) at the Fall Clinical Dermatology Conference in Las Vegas, NV.
Dr. Stephanie R. Jackson, MD, PhD, Department of Dermatology, University of Pittsburgh, presented, “Risk Stratification of severely dysplatic nevi (SDN) by non-invasively obtained gene expression and mutation data.” Using the DermTech Pigmented Lesion Assay (PLA), RNA gene expression and DNA mutation positivity were evaluated in pigmented lesions concerning for early melanoma. Dr. Jackson found that the addition of TERT mutation status increases the sensitivity of the PLA from 91% to 97%. TERT is a driver mutation found in many cancers, including early stage melanoma, that maintains the growth and survival of cancer cells. In addition, 61% of PLA gene expression positive lesions that were not diagnosed as melanoma were found to have severe histologic atypia. Because some clinicians prefer to treat lesions with severe histologic atypia with a full excision, identifying these lesions with the PLA provides important clinical utility and risk stratification of pigmented lesions. These data further validate the PLA in enhancing early melanoma detection based on genomic atypia. The addition of TERT mutation analyses to the test may further improve performance. Dr. Jackson was selected for the Rising Derm Star Competition for this work, placing second overall for her presentation.
“Genetic insight provided by the non-invasive PLA provides an objective basis for defining malignant potential, and the addition of TERT mutation analysis helps distinguish pigmented lesions with more aggressive biology,” said Dr. Jackson.
DermTech’s PLA was also included in CME sessions, “Genetic Expression Profiling Beyond Melanoma Prognosis” and “Integrating New Technologies into Dermatology Practice.”
DermTech is a leader in the new category of medicine, precision dermatology. DermTech’s mission is to transform the practice of dermatology through more accurate diagnosis and treatment, and the elimination of unnecessary surgery, leading to improved patient care and lower costs. DermTech provides genomic analysis of skin samples collected non-invasively using an adhesive patch rather than a scalpel. DermTech markets and develops products that facilitate the early detection of skin cancers, assess inflammatory diseases, and customize drug treatments. For additional information on DermTech, please visit DermTech’s investor relations site at: www.dermtech.com.