Objective: Dehiscence and infection of hard-to-heal surgical wounds results in an increased risk of complications and mortality. A hard-to-heal surgical wound will present decreased levels of growth factors along with increased levels of debris and matrix metalloproteinases, resulting in the destruction of the extracellular matrix (ECM). ActiGraft (RedDress Ltd., Israel) is an autologous whole blood clot treatment, created at a point of care, to promote wound healing. We hereby present the efficacy of ActiGraft in a case series of hard-to-heal surgical wounds.
Method: A registry study of patients with surgical wounds was conducted in private clinics and hospitals across the US and Israel (NCT04699305). Autologous whole blood clot was created at point of care using the patient's own blood.
Results: A total of 14 patients took part in the study. Autologous whole blood clot treatment resulted in a mean percent wound area reduction of 72.33% at four weeks, with 33.33% of wounds achieving complete closure by week 4. At week 12, 78.54% of the wounds achieved complete closure.
Conclusion: Surgical wounds in patients with comorbidities may fail to initiate the natural wound healing mechanism which in turn may cause deterioration of the wound into a hard-to-heal stage. In this case series, autologous whole blood clot treatment was able to restore wound healing, avoiding the risk of infection and amputation of an affected limb. The properties of autologous whole blood clot as an ECM reduce the risk of infection, causing the wound to progress from the inflammatory phase to the proliferative phase. Autologous whole blood clot treatment in hard-to-heal surgical wounds was found to be an effective approach, reducing the risk of infection and promoting cell granulation, resulting in wound closure.
Keywords: autologous whole blood clot; complete healing; extracellular matrix; growth factors; surgical wounds; wound; wound care; wound dressing; wound healing.