Alternate Light Five Times More Effective in Detecting Bruises on Victims of Color

Press Release
For Immediate Release

Contact
Michelle Thompson
mthomp7@gmu.edu
703-993-3485

As a consequence of COVID-19 stay-at-home orders, rates of domestic abuse have increased. Improved procedures are needed to increase effectiveness of detecting bruises for people of color. 

FAIRFAX, VA - Bruise detection and diagnosis is currently conducted by sight, under regular light, and bruises are often difficult to see on victims of violence depending on their skin color and the age of their injury. 

As a result, individuals with dark skin tones are at a significant disadvantage in having their injuries properly identified and documented. This can have a significant impact on both medical and legal outcomes for victims of violence. For example, strangulation, a violent act often perpetrated during intimate partner violence, is now charged by many states as a felony. Detecting bruises associated with these dangerous offenses can provide important evidence towards prosecution.

Human skin in closeup with a bruise. A ruler is beside the bruise to show size. There is a green light filter over the image.
A George Mason University study led by Dr. Katherine Scafide found alternate light was five times better at detecting bruises on diverse skin tones.

To address the challenges of detecting bruises, Scafide and colleagues conducted a randomized control trial with 157 participants to test the effectiveness of an alternate light source at detecting bruises compared to commonly used white light. They also assessed the impact of skin color, age, gender, localized fat, and mode of injury on bruise detection. They found that using alternate light was five times better at detecting bruises on victims across a variety of skin tones than white light. Results of the study were published in the Journal of Forensic Sciences.

“As domestic violence rates soar worldwide during the COVID-19 pandemic, we need innovative ways of capturing its effects on victims,” urges Dr. Katherine Scafide, a forensic nursing expert who led the randomized control trial at the College of Health and Human Services at George Mason University. “Alternate light could be the tool towards addressing the disparity in detecting bruises across diverse populations.”

 “Alternate light improves our ability to see bruises,” explains Scafide. “We need to implement this technology into the care of adult patients who have experience physical trauma, but only after evidence-based guidelines are developed and evaluated.”

Scafide cautions that alternate light can detect bruises but should not yet be used to diagnose bruises because other skin lesions (e.g., scars, hyperpigmentation) may appear similar when viewed using this technology. Alternate light should only be interpreted in conjunction with a history of injury and other physical assessment findings.

Scafide will continue this work with a new grant from the National Institute of Justice that will allow her to develop and evaluate evidence-based guidelines for implementing alternate light in the clinical assessment of bruises.

This study was supported by the National Institute of Justice grant 2016-DN-BX-0147. The opinions, findings, and conclusions or recommendations expressed are those of the authors and do not necessarily reflect those of the Department of Justice.

About George Mason University

George Mason University is Virginia's largest and most diverse public research university. Located near Washington, D.C., Mason enrolls 38,000 students from 130 countries and all 50 states. Mason has grown rapidly over the past half-century and is recognized for its innovation and entrepreneurship, remarkable diversity and commitment to accessibility. For more information, visit https://www2.gmu.edu/.

About the College of Health and Human Services

George Mason University's College of Health and Human Services prepares students to become leaders and shape the public's health through academic excellence, research of consequence and interprofessional practice. The College enrolls 1,917 undergraduate students and 950 graduate students in its nationally recognized offerings, including: 5 undergraduate degrees, 12 graduate degrees, and 11 certificate programs. The College is transitioning to a college public health in the near future. For more information, visit https://chhs.gmu.edu/.