The skin is often viewed as a static barrier that protects the body from the outside world. Emphasis on studying the skin's architecture and biomechanics in the context of restoring skin movement and function is often ignored. It is fundamentally important that if skin is to be modelled or developed, we do not only focus on the biology of skin but also aim to understand its mechanical properties and structure in living dynamic tissue. In this review, we describe the architecture of skin and patterning seen in skin as viewed from a surgical perspective and highlight aspects of the microanatomy that have never fully been realized and provide evidence or concepts that support the importance of studying living skin's dynamic behaviour. We highlight how the structure of the skin has evolved to allow the body dynamic form and function, and how injury, disease or ageing results in a dramatic changes to the microarchitecture and changes physical characteristics of skin. Therefore, appreciating the dynamic microanatomy of skin from the deep fascia through to the skin surface is vitally important from a dermatological and surgical perspective. This focus provides an alternative perspective and approach to addressing skin pathologies and skin ageing.
This paper reports our experience with temporary ectopic digital implantation. Four patients suffered 12 digital amputations with large defect over the proximal stumps. Only 8 digits were suitable for microsurgical salvage but the local conditions made direct replantation impossible. In our first patient, the two digits were ectopically implanted onto the foot, while in the second patient the four amputated digits were implanted onto the opposite forearm. After stump reconstruction, the digits were microsurgically transferred to the hand, restoring a functional pinch. One digit suffered a venous congestion and necrosis in the ectopic site caused by a haematoma and another experienced a no-reflow phenomenon. In conclusion, temporary ectopic implantation remains a procedure that can be used to salvage amputated digits.
The reconstruction of digital pulp defects is still a challenge in hand surgery. Several reconstructive techniques are available, but in some cases, their advancement capacities are not sufficient for the flap to cover the whole defect. The Gigogne flap is a new, very simple and safe technique. It consists of harvesting two cutaneous flaps successively on the same neurovascular digital palmar bundle. The first plasty may be chosen among the well-known flaps usually applied in pulp reconstruction. The second plasty, the Gigogne flap, is an advancement VY plasty done on the main cutaneous paddle of the first proximal flap. We performed 15 Gigogne flaps in 13 patients, who suffered zone II and III digital pulp amputations. The Gigogne flap increased the advancement capacity of the proximal flap as well as restoring the physiological pulp fatty pad, thus reconstructing a functional and aesthetic fingertip.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.