How can technology improve burn wound care: a review of wound imaging technologies and their application in Burns-UK Experience
Farhan, Nawras Hassan, Zakariya Ali, Mohammad Al Mahdi Alqalaf, Zaid Rasul, Roeya E Jeffery, Steven
Farhan, Nawras
Hassan, Zakariya
Ali, Mohammad Al Mahdi
Alqalaf, Zaid
Rasul, Roeya E
Jeffery, Steven
Affiliation
University Hospital Birmingham NHS Foundation Trust
Other Contributors
Publication date
2025-09-08
Subject
Collections
Research Projects
Organizational Units
Journal Issue
Abstract
Burn wounds are complex injuries that require timely and accurate assessment to guide treatment decisions and improve healing outcomes. Traditional clinical evaluations are largely subjective, often leading to delays in intervention and increased risk of complications. Imaging technologies have emerged as valuable tools that enhance diagnostic accuracy and enable objective, real-time assessment of wound characteristics. This review aims to evaluate the range of imaging modalities currently applied in burn wound care and assess their clinical relevance, diagnostic accuracy, and cost-effectiveness. It explores how these technologies address key challenges in wound evaluation, particularly related to burn depth, perfusion status, bacterial burden, and healing potential. A comprehensive narrative review was conducted, drawing on peer-reviewed journal articles, NICE innovation briefings, and clinical trial data. The databases searched included PubMed, Ovid MEDLINE, and the Cochrane Library. Imaging modalities examined include Laser Doppler Imaging (LDI), Fluorescence Imaging (FI), Near-Infrared Spectroscopy (NIR), Hyperspectral Imaging, Spatial Frequency Domain Imaging (SFDI), and digital wound measurement systems. The clinical application and integration of these modalities in UK clinical practice were also explored. Each modality demonstrated unique clinical benefits. LDI was effective in assessing burn depth and perfusion, improving surgical planning, and reducing unnecessary procedures. FI, particularly the MolecuLight i:X device (MolecuLight Inc., Toronto, ON, Canada), accurately identified bacterial burden and guided targeted interventions. NIR and Hyperspectral Imaging provided insights into tissue oxygenation and viability, while SFDI enabled early detection of infection and vascular compromise. Digital measurement tools offered accurate, non-contact assessment and supported telemedicine use. NICE recognized both LDI and MolecuLight as valuable tools with the potential to improve outcomes and reduce healthcare costs. Imaging technologies significantly improve the precision and efficiency of burn wound care. Their ability to offer objective, non-invasive diagnostics enhances clinical decision-making. Future research should focus on broader validation and integration into clinical guidelines to ensure widespread adoption.
Citation
Farhan N, Hassan Z, Ali MAM, Alqalaf Z, Rasul RE, Jeffery S. How Can Technology Improve Burn Wound Care: A Review of Wound Imaging Technologies and Their Application in Burns-UK Experience. Diagnostics (Basel). 2025 Sep 8;15(17):2277. doi: 10.3390/diagnostics15172277.
Type
Article