SCN− (thiocyanate) is an important physiological anion involved in innate defense of mucosal surfaces. SCN− is oxidized by H2O2, a reaction catalyzed by lactoperoxidase, to produce OSCN− (hypothiocyanite), a molecule with antimicrobial activity. Given the importance of the availability of SCN− in the airway surface fluid, we studied transepithelial SCN− transport in the human bronchial epithelium. We found evidence for at least three mechanisms for basolateral to apical SCN− flux. cAMP and Ca2+ regulatory pathways controlled SCN− transport through cystic fibrosis transmembrane conductance regulator and Ca2+-activated Cl− channels, respectively, the latter mechanism being significantly increased by treatment with IL-4. Stimulation with IL-4 also induced the strong up-regulation of an electroneutral SCN−/Cl− exchange. Global gene expression analysis with microarrays and functional studies indicated pendrin (SLC26A4) as the protein responsible for this SCN− transport. Measurements of H2O2 production at the apical surface of bronchial cells indicated that the extent of SCN− transport is important to modulate the conversion of this oxidant molecule by the lactoperoxidase system. Our studies indicate that the human bronchial epithelium expresses various SCN− transport mechanisms under resting and stimulated conditions. Defects in SCN− transport in the airways may be responsible for susceptibility to infections and/or decreased ability to scavenge oxidants.
Although various surgeons performed the reconstructive surgeries at 2 different centers, the essential approach remained the same. Smaller defects were best treated by local flaps, whereas the rectus abdominis flap remained the standard option for larger defects that additionally required closure of dead space. On the basis of our 2 center experience, we propose a simple algorithm to facilitate the planning of reconstructive surgery for the perineum.
Wise pattern skin reduction is a useful technique for managing large, ptotic breasts during SSM and IBR. Increasing breast size and the type of cancer surgery are important predictors of post-operative complications.
The anterolateral thigh free flap is a safe and reliable option for reconstructing complicated composite chest wall defects. It therefore provides a practical alternative when regional pedicled flap options are unavailable or inadequate.
This report describes a case of aesthetic and functional abdominal wall reconstruction performed to salvage a deformed, scarred, and herniated anterior abdomen after severe peritonitis and partial rectus muscle necrosis secondary to multiple bowel perforations sustained during liposuction performed in a cosmetic clinic. The diagnosis of intestinal perforation was missed intraoperatively and in the immediate postoperative period. The patient was admitted 4 days after the surgery to the intensive therapy unit in septicemic shock. After resuscitation and stabilization, she was treated by debridement of the abdominal wall, bowel resection, and temporary jejunostomy and colostomy (reversed 10 months later). She was referred 18 months after liposuction to the Plastic Surgery Service with a large central midline abdominal incisional hernia presenting with thinned out skin (14 × 11 cm) overlying adherent bowel. A components separation technique was successfully used to reconstruct the abdominal wall, with no recurrent herniation 2 years later. Survivors of bowel perforations sustained during abdominal liposuction may later present with challenging aesthetic and functional problems, as described in this report. These long-term sequelae have not been addressed hitherto in the literature.
The total rib preservation method of IMV exposure is a viable, reproducible, and reliable option for microvascular breast reconstruction. It does not increase warm ischemia, which suggests time taken for anastomosis is not affected by rib preservation. There is a learning curve and care has to be taken to avoid possible pitfalls. We recommend the use of a higher rib interspace than originally described because of the greater vessel calibre, superior vessel exposure, and therefore, easier anastomosis.
IntroductionThe total ‘rib’-preservation method of dissecting out the internal mammary vessels (IMV) during microvascular breast reconstruction aims to reduce free flap morbidity at the recipient site. We review our five-year experience with this technique.Patients & methodsAn analysis of a prospectively collected free flap data cohort was undertaken to determine the indications, operative details and reconstructive outcomes in all breast reconstruction patients undergoing IMV exposure using the total ‘rib’-preservation method by a single surgeon.Results178 consecutive breast free flaps (156 unilateral, 11 bilateral) were performed from 1st June 2008 to 31st May 2013 in 167 patients with a median age of 50 years (range 28–71). There were 154 DIEP flaps, 14 SIEA flaps, 7 muscle-sparing free TRAMs, 2 IGAP flaps and one free latissimus dorsi flap. 75% of the reconstructions (133/178) were immediate, 25% (45/178) were delayed. The mean inter-costal space distance was 20.9 mm (range 9–29). The mean time taken to expose and prepare the recipient IMV's was 54 min (range 17–131). The mean flap ischaemia time was 95 min (range 38–190). Free flap survival was 100%, although 2.2% (4 flaps) required a return to theatre for exploration and flap salvage. No patients complained of localised chest pain or tenderness at the recipient site and no chest wall contour deformity has been observed.Discussion & conclusionThe total ‘rib’-preservation technique of IMV exposure is a safe, reliable and versatile method for microvascular breast reconstruction and should be considered as a valid alternative to the ‘rib’-sacrificing techniques.
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