Breast reconstruction with implant and AlloDerm enables the surgeon to create a submuscular pocket large enough to place a fully inflated breast implant. Interposition of a lower-pole internal sling, to increase the capacity of the pectoralis major pocket while providing immediate ability to achieve full or subtotal prosthetic fill and optimal aesthetic breast contouring and to maintain thicker muscle coverage in the upper and medial pole areas and stronger lower pole support, would obviate many of the current disadvantages to implant reconstruction.
The survival of fat grafts depends on many factors, 1 of the major being early revascularization. Early studies showed that adipose tissue has a low tolerance to ischemia. Some methods have been described to increase the tolerance of adipose tissue to ischemia. This study was designed to compare volume maintenance of the transplanted fat graft in different recipient sites of the rabbit face. Three groups of 5 New Zealand white rabbits were studied. Fat grafts harvested from the right inguinal fat pad were transplanted to the buccomandibular area of the rabbit's face. Three different recipient sites (subcutaneous, supramuscular, and submuscular) were dissected on each side of the face, and groups were formulated based on this difference of recipient sites. Morphometric, as well as histopathologic, analyses were done, and the results revealed a statistically significant increase of fat graft survival in supramuscular layer (81.95% +/- 4.40%) than in subcutaneous (41.62% +/- 3.29%) and submuscular layer (37.31% +/- 5.77%) (P<0.05). This study demonstrates that selection of an "appropriate recipient site" should enhance ultimate fat-graft survival.
Despite great improvement and refinements in nerve repair techniques, there were still problems in repair of peripheral nerve injuries for which proximal stumps were not available. In these circumstances for which classic end-to-end neurorrhaphy was impossible, new treatment modalities, benefiting by an adjacent healthy nerve, have been under investigation to overcome this problem. Therefore, end-to-side nerve repair with its modifications came to view and axonal passages through this site were shown. Moreover, the results were unsatisfactory or necessitating sacrifice of another healthy nerve. Three groups, containing 10 rats each, were included in the study. First was the control group, with end-to-end repair of the peroneal nerve. Second was the end-to-side repair group, in which the distal stump of the peroneal nerve trunk was anastomosed to the lateral side of the tibial nerve. The third was the side-to-side repair group. In this technique, 1-mm diameter epineural windows, both from peroneal and tibial nerve trunks facing each other, were removed and side-to-side neurorrhaphy was performed. After 3 weeks, as the second step, the peroneal nerve was sectioned proximally. At 2, 4, 8, 12, 20, and 28 weeks, functional assessment of nerve regeneration was performed by using walking track analysis. The number of myelinated fibers and fiber diameters were measured and an electron microscopic evaluation was carried out. Statistically, both in morphometric and gait analysis, the differences in values between the groups were significant in favor of the control group, followed by the side-to-side group. The study showed that axonal passage was possible with side-to-side technique and the functional results were satisfactory and superior to the end-to-side technique. Continuous supply of neurotrophic factors from their target cells was the probable cause of superior functional return in side-to-side repair, because both joining nerves were intact and healthy during the anastomosis procedure and after 3 weeks. It was concluded that this technique could be indicated in salvage of nerves in cases for which any intermediate segments would be removed, as in tumor ablation surgery, harvesting of nerve grafts, or both.
Although nerve graft is still the only reliable choice in repair of defects in peripheral nerve structure, it has the disadvantage of donor nerve morbidity and of sometimes being unavailable. It has long been researched in alternate nerve grafts with other materials. Studies have shown that nerves could regenerate across short nerve gaps through various conduits, such as veins, pseudosheaths, and bioabsorbable tubes. Despite encouraging studies, their functional results remain unclear. The present study used 40 rats, in which nerve grafts, vein grafts, and epineurial tubes were placed into 1-cm gaps in sciatic nerves created by resection. In one group, sciatic nerves were denuded of the surrounding epineurium, to assess the possible morbidity caused by epineurial sheath technique. At 2, 4, 8, 12, 20, and 28 weeks, functional assessment of nerve regeneration was performed using walking track analysis. The number of myelinated fibers and fiber diameters was measured and electron microscopic evaluation performed. Functionally, the index values were very close to each other in nerve graft and epineurial sheath groups. Morphometric analysis showed significance between the groups. The result of denuded sciatic nerve group was the same as the base track values. It was concluded that the ready availability of epineurial sheath as a conduit to span short nerve gaps could eliminate the morbidity associated with nerve graft harvest and capitalize on the potential benefits of neurotrophism in directing nerve regeneration.
The delay phenomenon has long been recognized as a powerful adjunct to flap surgery. Currently, delay procedures remain a reliable method of maximizing flap survival. Although delay yields successful results, the necessity of an additional surgical procedure is a persistent disadvantage from both clinical and economic perspectives. The authors' purpose is to demonstrate the usefulness of a novel chemical delay technique that obviates the need for a surgical delay procedure. This technique contains an epinephrine-loaded microsphere delivery system. In this study, 30 rats were subdivided into three groups of 10 animals. In group I, transverse rectus abdominis musculocutaneous (TRAM) flaps were delayed surgically 1 week before formal elevation. Group II (sham chemical delay) animals were injected with saline-loaded microspheres into the entire undersurface of the proposed TRAM flaps, which were elevated 1 week later. In group III rats, epinephrine-loaded microspheres were injected into the undersurface of the TRAM flaps to initiate a chemical delay 1 week before surgical elevation. Groups were compared via TRAM flaps 1 week after elevation. There was a significant difference between groups I and III in favor of surface area viability and angiographic assessment (p < 0.05). Surgical delay has traditionally been accepted to be the most reliable method of enhancing flap viability. Statistically similar results were obtained by chemical delay initiated by epinephrine-loaded microspheres. Chemical delay is less invasive, less time-consuming, and far more cost-effective compared with its surgical alternative. The chemical delay model lends further support to the role of relative hypoxia as the primary promoter of the delay phenomenon.
Augmentation mammaplasty by reverse abdominoplasty is a versatile procedure that in the carefully selected patient can successfully address two aesthetic concerns simultaneously, providing durable autologous tissue that can obviate or enhance the outcome provided by prosthetic implants and rejuvenating the abdomen. It also shows promise as a significant adjunct to the techniques available to the breast reconstructive surgeon.
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