To refine smart bandage technology, Armstrong and his team have utilized breakthroughs from materials science, nanotechnology, and digital health. "We have been developing next-generation smart bandages that can wirelessly monitor crucial metabolic and inflammatory biomarkers in wound fluids," said Wei Gao, PhD, an assistant professor of medical engineering at Caltech.
The review published in Nature Materials assesses the challenges and next steps for delivering these technologies to patients, including regulatory approval and commercialization. Obtaining regulatory approval from the U.S. Food and Drug Administration (FDA) for smart bandages is complex, requiring extensive preclinical and clinical data.
Smart bandages use bioelectronic materials that deliver electrical stimulation to tissues and cells, and advanced hydrogels that store and release drugs in response to environmental factors. These dressings also contain sensors that detect changes in the wound's microenvironment. Electrochemical sensors measure proteins, antibodies, nutrients, and electrolytes, while optical sensors monitor temperature, pH, and oxygen levels.