Katherine Scafide, PhD, RN, FAAN

Biography

Katherine (“Kat”) Scafide is a tenured Associate Professor, forensic nurse and scientist in the School of Nursing. Her years of forensic nursing practice caring for living and deceased victims of violence has contributed significantly to her program of research. Her research primarily focuses on advancing equity in the medical identification and forensic documentation of injuries, particularly for patients of color, through innovative use of technology. She has received several federal awards to support these efforts.

Dr. Scafide began her journey as a bruise scientist during her doctoral work at Johns Hopkins where she garnered the name “paintball” lady for her unique method of creating injuries. At George Mason, she collaborated with colleagues at Texas A & M and Georgia State Universities, conducting one of the largest and most diverse bruise studies in modern forensic history. Their investigation identified specific wavelengths of visible light which significantly improved the detection of bruises over current practices across diverse skin tones. Those findings have since garnered national media and celebrity attention. Currently, Dr. Scafide is developing and evaluating clinical guidelines to support the implementation of this technology into forensic nursing practice. Her interdisciplinary research teams include a collaboration here at George Mason with CPH Health Informatics and Volgenau School of Engineering to investigate whether deep learning of the digital images can be used to model bruise age as well as develop a national repository for bruise images. 

Dr. Scafide is heavily involved in service here at Mason, several professional organizations, and the government (NIST). She teaches primarily in the PhD program in the School of Nursing where she mentors doctoral dissertations.

Research

Select Publications

  • Scafide, K. S., Downing, N. R., Kutahyalioglu, N. S., Sheridan, D. J., Langlois, N. E., & Hayat, M. J. (2022). Predicting alternate light absorption in areas of trauma based on degree of skin pigmentation: Not all wavelengths are equal. Forensic Science International. Open Access Link.
  • Scafide, K. N., Ekroos, R. A., Mallinson, R. K., Alshahrani, A., Volz, J., Holbrook, D. S., & Hayat, M. J. (2022). Improving the forensic documentation of injuries through alternate light: A researcher-practitioner partnership. Journal of Forensic Nursing. Open Access Link.
  • Scafide, K. N., Downing, N. R., Kutahyalioglu, N., Sebeh, Y., Sheridan, D. J., & Hayat, M. J. (2021). Quantifying the degree of bruise visibility observed under white light and an alternate light source. Journal of Forensic Nursing, 17(1), 24-33. Link.
  • Scafide, K. N., Sheridan, D. J., Downing, N., & Hayat, M. J. (2020). Detection of inflicted bruises by alternate light: Results of a randomized controlled trial. Journal of Forensic Sciences, 65(4), 1191-1198. Open Access Link.
  • Scafide, K. N., Narayan, M. C., & Arundel, L. (2020). Bedside technologies to enhance the early detection of pressure injuries: A systematic review. Journal of Wound, Ostomy and Continence Nursing, 47(2), 128-136. Open Access Link.
  • Scafide, K. N., Sharma, S., Tripp, N. E., & Hayat, M. J. (2019). Bruise detection and visibility under alternate light during the first three days post-trauma. Journal of Forensic and Legal Medicine, 69, 101893. Link.
  • Scafide, K. N., Sheridan, D. J., Taylor, L., Hayat, M. J. (2016). Reliability of tristimulus colourimetry in the assessment of cutaneous bruise colour. Injury, 47(6), 1258–1263. Link.
  • Politt, E. N., Anderson, J. C., Scafide, K. N., Holbrook, D., D’Sylva, G., & Sheridan, D. J. (2016). Alternate light source findings of common topical products. Journal of Forensic Nursing, 12(3), 97-103. Link.     

Affiliations

Degrees

  • PhD, Nursing, Johns Hopkins University
  • MSN, Forensic Clinical Nurse Specialist, Johns Hopkins University
  • BSN, Nursing, Georgetown University
  • FAAN