Clifford B. Bleustein

MECHANISM OF HEALING FOLLOWING THE SNODGRASS REPAIR

PURPOSE It has been suggested that healing after tubularized incised plate urethroplasty occurs through re-epithelialization with normal tissue ingrowth or by secondary intent through scarring. We investigated healing in tubularized incised plate urethroplasty. MATERIALS AND METHODS Hypospadias was created in 5 dogs by incising the ventral urethra, allowed to heal for 21 days and subsequently repaired. During hypospadias creation a tattoo was made longitudinally in the midline dorsal urethral plate. The tattoo was bisected during repair, thus creating 2 distinct lines marking the edges of the incision. A neourethra was tubularized and closed in 2 layers. At 21 days the phallus was harvested, inspected and embedded for histology. RESULTS The dorsal urethral plate incision contained 2 distinct lines in all samples representing the area of separation between the native and ingrowing urethras. The distance between these lines was 0.9 +/- 0.1 mm. Proximal urethral lumen diameter (3. 3 +/- 0.1 mm.) was not significantly different from that of the neourethral lumen (3.1 +/- 0.1 mm.). Histologically all repairs had intact squamous epithelium. There was normal appearing subepithelial architecture with scant perivascular lymphocytic infiltrates between the tattoos. In contrast, the area around the sutures showed a desmoplastic (fibroblastic) reaction with an inflammatory, primarily neutrophilic response. CONCLUSIONS Healing of the incision in the dorsal urethral plate during tubularized incised plate urethroplasty occurs by re-epithelialization with normal tissue ingrowth. In contrast, the sutured closure heals with a desmoplastic and inflammatory response.

Semi-solid albumin solder improved mechanical properties for laser tissue welding

A semi‐solid albumin solder formulated with hydroxypropylmethylcellulose (HPMC) was designed to improve the characteristics of liquid and solid solders.

Differential scanning calorimetry of albumin solders: Interspecies differences and fatty acid binding effects on protein denaturation

Understanding albumin solder denaturation is important for laser tissue soldering. Human (HSA), bovine (BSA), porcine (PSA), and canine (CSA) albumin both fatty acid containing (FAC) and fatty acid free (FAF) were evaluated by using differential scanning calorimetry (DSC).

Welding characteristics of different albumin species with and without fatty acids

Albumin solders from different species have been used for laser tissue welding without a complete understanding of possible differences between them. The breaking strength of four different species of serum albumin (human, bovine, porcine, and canine), both fatty acid containing (FAC) and fatty acid free (FAF), was determined to evaluate the welding ability of each type of albumin.

Laser-assisted demucosalized gastrocystoplasty with autoaugmentation in a canine model

OBJECTIVES Laser-assisted autoaugmentation gastrocystoplasty has been performed successfully. Experiments were performed to determine the optimal laser for tissue welding during demucosalized autoaugmentation gastrocystoplasty using both a 1.9-microm diode and a 1.32-microm neodymium:yttrium-aluminum-garnet (Nd:YAG) laser with and without thermal control. METHODS Autoaugmentation gastrocystoplasty was performed on 18 female mongrel dogs. Anastomoses were performed by either suture or laser welding with a 50% human albumin solution. A 1.9-microm diode laser was compared with a 1.32-microm Nd:YAG laser with and without thermal control. In vivo canine bladder capacity measurements were performed both before gastrocystoplasty and at euthanasia. The animals were studied on days 4 and 14. Samples of the anastomotic area from each group were taken to measure tensile strength. Histologic samples were assessed for tissue damage. RESULTS There was a significant increase in bladder volume in the 4-day group compared with pregastrocystoplasty values. Both the 1.9-microm diode laser and suture control dogs with the 14-day repairs had significantly more tensile strength than their 4-day counterparts. In contrast, no statistical difference was found between the 4 and 14-day 1.32-microm Nd:YAG groups. The suture control group had evidence of minor tissue devitalization at the anastomosis at both 4 and 14 days. The 1.9 and 1.32-microm laser groups both had evidence of tissue devitalization at 4 and 14 days. The 1.32-microm laser group had primarily severe tissue injury. The laser groups at 14 days demonstrated an inflammatory reaction that was localized to the albumin. CONCLUSIONS Demucosalized gastrocystoplasty with autoaugmentation can be safely and successfully performed with a 1.9-microm diode laser without significant differences in tensile strength when compared with suture controls. The 1.32-microm Nd:YAG laser can also be successfully used; however, the long-term results appear to be inferior to the 1.9-microm diode laser.

Full-thickness human foreskin transplantation onto nude rats as an in vivo model of acute human wound healing.

Current wound-healing models do not fully duplicate the in vivo human environment. The feasibility of grafting human full-thickness foreskin onto nude rats, as a model of acute wound healing, was evaluated. Incisions were then created on the grafted skin, and wound healing was evaluated. Full-thickness human skin was obtained after elective circumcision and was grafted subcutaneously onto the dorsal thorax of nude rats. At 10 days after transplantation, graft beds were judged for graft viability, on the basis of gross appearance, texture, and adherence. Full-thickness wounds were then made in the foreskin. Graft wounds were left to close by secondary intention. The wounds were allowed to heal for 7 days. Wounds were excised and tested for breaking stress. Histological evaluations included proliferating cell nuclear antigen, factor VIII, hematoxylin and eosin, and trichrome staining. Twenty grafts were performed, with 100 percent viability. Upon incision, all grafts bled freely, indicating a rich vascular supply and tissue viability. Graft viability was confirmed by the presence of proliferating cells in the parabasal stratum of the epithelium. Furthermore, there was evidence of angiogenesis, as confirmed by staining for factor VIII. Breaking stress was evaluated by tensiometry, 7 days after wounding. Histological evaluations revealed viable grafts and active wound-healing events. Full-thickness human skin can be successfully transplanted onto nude rats, providing a larger, more physiological model of human wound healing. This model closely parallels the in vivo situation, providing a promising model for study of the complex biological processes of acute human wound healing, in a reproducible manner.