Wound-healing effect of adipose stem cell-derived extracellular matrix sheet on full-thickness skin defect rat model: Histological and immunohistochemical study.

The potential use of extracellular matrix (ECM) as a source of wound dressing material has recently received much attention. The ECM is an intricate network of various combinations of elastin, collagens, laminin, fibronectin, and proteoglycans that play a key role in stimulating cell proliferation and differentiation. We evaluated the efficacy of an ECM sheet derived from human adipose tissue as a wound dressing material to enhance healing. We prepared a novel porous ECM sheet dressing scaffold from human adipose tissue. in vitro analysis of the ECM sheets showed efficient decellularisation; absence of immunostimulatory components; and the presence of a wide number of angiogenic and bioactive factors, including collagen, elastin, and proteoglycans. To evaluate in vivo efficacy, full-thickness excisional wounds were created on the dorsal skin of a rat, and the ECM sheets; secondary healing foam wound dressing, Healoderm; or a conventional dressing were applied to each wound site. Photographs were taken every other day, and the degree of reepithelialisation of the wounds was determined. Application of an ECM sheet dressing enhanced the macroscopic wound-healing rate on days 4, 7, and 10 compared with that in the control group. Microscopic analysis indicated that the reepithelialisation rate of the wound was higher in the ECM group compared with that in the control group; the reepithelialisation rate was better than that of the secondary healing foam wound dressing. Moreover, a denser and more organised granulation tissue was formed in the ECM sheet group compared with that in the secondary healing foam wound dressing and control groups. The ECM sheet also showed the highest microvessel density compared with the secondary healing foam wound dressing and control groups. Based on these data, we suggest that a bioactive ECM sheet dressing derived from human adipose can provide therapeutic proteins for wound healing.

Peri-vulvar reconstruction using internal pudendal artery perforator flap in female Fournier's gangrene.

Fournier's gangrene in female patients has low incidence rate but high mortality rate compared with that in males, with many cases resulting in death at acute phase. This is due to the differences in male and female genital anatomy, which should be fully understood by physicians to increase the patient's survival rate. After crossing the acute phase of the disease by an appropriate treatment, it is important to reconstruct vaginal or vulvar defects according to the patient's three-dimensional anatomical structures. Perforator flap based on internal pudendal artery is one of the ideal reconstructive techniques to resolve the aforementioned issue. The authors intend to introduce the distinguishing characteristics of Fournier's gangrene in female patients, and the surgical techniques to reconstruct the defects after the acute phase of disease.

Successful treatment of areolar Fox-Fordyce disease with surgical excision and 1550-nm fractionated erbium glass laser.

Fox-Fordyce disease (FFD) is a rare chronic disorder characterised by persistent inflammation because of the obstruction of apocrine sweat glands, which is a key factor of pathogenesis. The treatment of FFD is known to be difficult, and the modalities of treatment have not yet been widely studied. We report the successful treatment of a case of bilateral areolar FFD by a combination of surgical excision and 1550-nm fractionated erbium glass laser in an 18-year-old woman. The patient presented with a bilateral areolar eruption of multiple, severely pruritic, 3-4 mm skin- to grey-coloured folliculocentric dome-shaped papules. The initial treatment plan was for bilateral surgical excision of the larger and more highly elevated papules via circumferential dermal excision, which was intended to maintain the areolar contour and minimise distortion. A 1550-nm fractional erbium glass laser was then used to control the remnant lesions. The patient was recurrence-free at 14 months after the final laser treatment, and she was fully satisfied with the treatment results.

The effects of human keratinocyte coculture on human adipose-derived stem cells.

The potential for adipose-derived stem cells to differentiate into keratinocyte-like cells has recently been receiving attention, stemming from the hypothesis that a bioengineered skin may be manufactured from these readily available mesenchymal stem cells. This study was conducted to evaluate the influence of human keratinocyte non-contact coculture on hADSCs. Human epidermal keratinocytes and hADSCs obtained by lipoaspiration were cultured in keratinogenic growth media, which were divided into the following groups: human adipose-derived stem cell (hADSC) monoculture, non-contact coculture of hADSCs and human keratinocytes and keratinocyte monoculture. Cell proliferation was assessed, and keratogenicity was analysed through immunocytochemistry and polymerase chain reaction of early, intermediate and late keratogenic markers. hADSCs cocultured with keratinocytes displayed enhanced proliferation compared with the monoculture group. After a 7-day coculture period, immunohistochemistry and polymerase chain reaction findings revealed the presence of specific keratinocyte markers in the coculture group. This study demonstrates that hADSCs cocultured with keratinocytes have the capacity to transdifferentiate into keratinocyte lineage cells, and suggests that adipose tissue may be a source of keratinocytes that may further be used in structuring the bioengineered skin.