Tiam Mana Saffari

32 CHAPTER 2 ABSTRACT Vascularization is an important factor in nerve graft survival and function. The specific molecular regulations and patterns of angiogenesis following peripheral nerve injury are in a broad complex of pathways. This review aims to summarize current knowledge on the role of vascularization in nerve regeneration, including the key regulation molecules, and mechanisms and patterns of revascularization after nerve injury. Angiogenesis, the maturation of pre-existing vessels into new areas, is stimulated through angiogenic factors such as vascular endothelial growth factor (VEGF) and precedes the repair of damaged nerves. VEGF administration to nerves has demonstrated to increase revascularization after injury; however, it remained insufficient in improving functional recovery on the long term in basic science research. In the clinical setting, vascularized nerve grafts (VNG) could be used in the reconstruction of large segmental peripheral nerve injuries. VNGs are postulated to accelerate revascularization and enhance nerve regeneration by providing an optimal nutritional environment, especially in scarred beds, and decrease fibroblast infiltration. This could improve functional recovery after nerve grafting, however, conclusive evidence of the superiority of VNGs is lacking in human studies. A well-designed randomized controlled trial comparing VNGs to NVNGs involving patients with similar injuries, nerve graft repair and follow-up times is necessary to demonstrate the efficacy of VNGs. Due to technical challenges, composite transfer of a nerve graft along with its adipose tissue has been proposed to provide a healthy tissue bed. Basic science research has shown that a vascularized fascial flap containing adipose tissue and a vascular bundle improves revascularization through excreted angiogenic factors, provided by the stem cells in the adipose tissue as well as by the blood supply and environmental support. While it was previously believed that revascularization occurred from both nerve ends, recent studies propose that revascularization occurs primarily from the proximal nerve coaptation. Fascial flaps or VNGs have limited applicability and future directions could lead towards off- the-shelf alternatives to autografting, such as biodegradable nerve scaffolds which include capillary-like networks to enable vascularization and avoid graft necrosis and ischemia.

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