Wound management involves repeated clinical trips and procedures of lab tests over days. To eliminate this time lag and provide real-time monitoring of a wound's progress, we have designed an enzymatic biosensor for determining uric acid (UA) in wound fluid. Uric Acid is a biomarker, having an established correlation with wounds and their healing. This electrochemical biosensor comprises enzyme urate oxidase (uricase, UOx) entrapped in a polyvinyl alcohol based cationic polymer for enhanced stability. Results show that the use of a redox electron shuttle, ferrocene carboxylic acid (FCA), enabled electron transfer between the enzyme and the transducer. The immobilized uricase in the polymer matrix provided stable continuous measurements at body temperature for a week with minimal deviation. Detection of uric acid in wound fluid has been determined from volumes as low as 0.5-50μL. Studies from different wound samples have shown an average recovery of 107%. The sensor has been interfaced with LMP91000 potentiostat and controlled by CC2650 microcontroller on a Kapton tape-based miniaturized flexible platform.
Background: Despite the development of numerous wound treatment alternatives, 25% to 50% of leg ulcers and >30% of foot ulcers are not fully healed after 6 months of treatment. Autologous skin grafting is a time-tested therapy for these wounds; however, the creation of a new wound in the donor area yields a considerable limitation to this procedure.Innovation: Fractional autologous full-thickness skin grafting (FFTSG) is a technique wherein multiple small full-thickness skin grafts (FTSGs) are harvested with possibly minor donor-site comorbidities. The first device used to harvest FFTSG (ART™ system, Medline, Northfield, IL) is a device capable of harvesting >300 small FTSGs and transferring them to a target wound.Objective: To better evaluate patients' clinical experience, we sought to evaluate pain at the donor site associated with this procedure.Approach: Pain was assessed with numeric visual analog pain scales at days 1, 2, 4, and 7. Nine subjects underwent this procedure with only six of them reporting any level of pain on day 1, and none disclosing pain after day 2.Conclusion: In this study, we evidenced that this device manages to harvest FTSGs with minimal associated pain. Future research will need to evaluate other aspects of the procedure as well as long-term outcomes at the donor and recipient areas.
Background: Melasma is a disorder of hyperpigmentation and vascularization often found in women between the ages of 20 and 40. The pathogenesis is unknown, but melasma often occurs in sun-exposed areas of the face, forearms, and back. Risk factors include family history, increased estrogen/progesterone, certain medications, and UV exposure. Melasma is typically treated with topical hydroquinone (HQ); however, it is often refractory to treatment. Tranexamic acid (TXA) is a plasmin inhibitor used off-label in the treatment of melasma. TXA can be administered orally, topically, or intralesionally. Aims:The purpose of this review is to characterize the wide variety of TXA delivery methods for melasma treatment and the efficacy of these methods compared with traditional treatments.Patients/Methods: A comprehensive PubMed and Embase search was conducted in May 2022 using the phrases tranexamic acid and melasma. Forty-six articles were included in this review.Results: Oral, intralesional, and topical TXA is safe and effective treatments for melasma. They have been studied in a variety of randomized controlled trials and have been compared with several traditional treatments. Overall, MASI scores in patients using TXA in any form improved. Conclusions:Oral TXA was found to be the most effective, especially in cases of refractory melasma; however, it caused GI upset and menstrual irregularities in many patients. The pro-thrombotic nature of this drug must be considered before safely prescribing to patients. Intralesional injections and microneedling with topical TXA were found to be effective alternatives to oral treatment. Lastly, topical TXA alone was found to be the least effective method but can be combined with other cosmeceuticals to improve outcomes. Topical TXA was also found to be better tolerated than hydroquinone, a traditional topical melasma treatment.
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