The most important factors in the non-optimal healing of diabetic wounds are the lack of a
suitable scaffold in the wound site for the migration and replacement of cells, as well as the …

The occurrence of wounds and defects in the healing process is one of the main challenges
in diabetic patients. Herein, we investigated whether adipose-derived stem cells (ADSCs) …

Human amniotic membrane (HAM) is traditionally used for the treatment of non-healing
wounds. However, high density of HAM-matrix (HAM-M) diminishes cellular contribution for …

Diabetic wounds are a worldwide health problem, with increasing morbidity and risk of
amputation. This study investigated a novel application of a human decellularized adipose …

Based on its multifactorial nature, successful treatment of diabetic wounds requires
combinatorial approach. In this regard, we hypothesized that engraftment of a …

Several strategies have been proposed to enhance wound healing results. Along with other
forms of wound dressing, the human amniotic membrane (HAM) has long been regarded as …

Different biomaterials have been used as biological dressing for wound regeneration. For
many decades, human amniotic membrane graft (AM) has been widely applied for treating …

Cell‐based therapeutic intervention has emerged as a new approach to accelerate wound
closure. Adipose‐derived stem cells (ASCs), as a fascinating cell source, have received …

Introduction Wound healing is severely compromised in patients with diabetes owing to
factors such poor blood circulation, delayed immune response, elevated blood sugar levels …

Due to the multifactorial nature of diabetic wounds, the most effective treatments require
combinatorial approach. Herein we investigated whether engraftment of a bioengineered …