Perifascial areolar tissue graft promotes angiogenesis and wound healing in an exposed ischemic component rabbit model.

Multiple studies have reported the use of perifascial areolar tissue (PAT) grafts to treat wounds involving exposed ischemic tissues, avascular structures, and defective membrane structures. Our objective was to assess the quantitative effects of PAT grafts and their suitability for wounds with ischemic tissue exposure and to qualitatively determine the factors through which PAT promotes wound healing and repair. We conducted histological, immunohistochemical, and mass spectrometric analyses of the PAT grafts. PAT grafts contain numerous CD34+ progenitor/stem cells, extracellular matrix, growth factors, and cytokines that promote wound healing and angiogenesis. Furthermore, we established a male rabbit model to compare the efficacy of PAT grafting with that of an occlusive dressing treatment (control) for wounds with cartilage exposure. PAT grafts could cover ischemic components with granulation tissue and promote angiogenesis. Macroscopic and histological observations of the PAT graft on postoperative day seven revealed capillaries bridging the ischemic tissue (vascular bridging). Additionally, the PAT graft suppressed wound contraction and alpha smooth muscle actin (αSMA) levels and promoted epithelialization. These findings suggested that PAT can serve as a platform to enhance wound healing and promote angiogenesis. This is the first study to quantify the therapeutic efficacy of PAT grafts, revealing their high value for the treatment of wounds involving exposed ischemic structures. The effectiveness of PAT grafts can be attributed to two primary factors: vascular bridging and the provision of three essential elements (progenitor/stem cells, extracellular matrix molecules, and growth factors/cytokines). Moreover, PAT grafts may be used as transplant materials to mitigate excessive wound contraction and the development of hypertrophic scarring.

Patient experience of negative pressure wound therapy: A qualitative study.

AIM: This study aimed to clarify the treatment experience of patients undergoing negative pressure wound therapy (NPWT). DESIGN: This study used a qualitative design. METHODS: Seventeen inpatients were semi-structured interviewed about their experiences of treatment with negative pressure wound therapy. RESULTS: Inpatients' answers were categorized into seven themes: pain and discomfort associated with treatment, physical limitations owing to attached device, mental burden owing to the odour and noises of the attached device, social limitations owing to the attached device, advances in medical care and science, device personification and mixed feelings towards medical staff. The patients were able to tolerate the aforementioned limitations while feeling attachment and gratitude towards the device created through advances in medical care and science, and towards medical staff who helped them heal. In the future, we plan to develop an NPWT care guide.

Minced Skin Grafting for Promoting Wound Healing and Improving Donor-Site Appearance after Split-Thickness Skin Grafting: A Prospective Half-Side Comparative Trial.

BACKGROUND: Minced skin grafting is a procedure that involves mincing of the harvested skin and grafting it back onto the wounds. The authors aimed to investigate whether minced skin grafting reduces the healing time and improves the sequential postoperative appearance of donor sites. METHODS: A single-center, two-treatment, half-side comparative study was performed. The split-thickness skin remaining after grafting was minced until pasty. The small pasty graft mass was uniformly spread on half of the entire donor site. Minced skin grafting was not performed on the other side. The data from 30 patients were used for analysis. RESULTS: The average time to complete healing of the donor sites in the minced skin grafting and control groups was 9.4 ± 2.5 and 12.4 ± 3.6 days, respectively. The difference in the healing time between the two groups was statistically significant (p < 0.001). Three blinded surgeons used a scale to grade photographs according to the degree of conspicuous donor sites in comparison with the normal skin around the donor sites. All observers reported that the differences in donor-site appearance between the minced skin grafting and control groups were statistically significant at postoperative months 1 and 2, and two observers reported that the differences in donor-site appearance were significant at months 4, 6, and 12. The differences in the number of patients with donor-site dyspigmentation between the minced skin grafting and control groups at 12 months were statistically significant (p < 0.05). CONCLUSION: This prospective half-side comparative trial demonstrates that minced skin grafting promotes wound healing and improves donor-site appearance after split-thickness skin grafting. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, II.

Angiogenesis after administration of basic fibroblast growth factor induces proliferation and differentiation of mesenchymal stem cells in elastic perichondrium in an in vivo model: mini review of three sequential republication-abridged reports.

To date, studies on mesenchymal tissue stem cells (MSCs) in the perichondrium have focused on in vitro analysis, and the dynamics of cartilage regeneration from the perichondrium in vivo remain largely unknown. We have attempted to apply cell and tissue engineering methodology for ear reconstruction using cultured chondrocytes. We hypothesized that by inducing angiogenesis with basic fibroblast growth factor (bFGF), MSCs or cartilage precursor cells would proliferate and differentiate into cartilage in vivo and that the regenerated cartilage would maintain its morphology over an extended period. As a result of a single administration of bFGF to the perichondrium, cartilage tissue formed and proliferated while maintaining its morphology for at least 3 months. By day 3 post bFGF treatment, inflammatory cells, primarily comprising mononuclear cells, migrated to the perichondrial region, and the proliferation of matrix metalloproteinase 1 positive cells peaked. During week 1, the perichondrium thickened and proliferation of vascular endothelial cells was noted, along with an increase in the number of CD44-positive and CD90-positive cartilage MSCs/progenitor cells. Neocartilage was formed after 2 weeks, and hypertrophied mature cartilage was formed and maintained after 3 months. Proliferation of the perichondrium and cartilage was bFGF concentration-dependent and was inhibited by neutralizing antibodies. Angiogenesis induction by bFGF was blocked by the administration of an angiogenesis inhibitor, preventing perichondrium proliferation and neocartilage formation. These results suggested that angiogenesis may be important for the induction and differentiation of MSCs/cartilage precursor cells in vivo, and that morphological changes, once occurring, are maintained.

A Perifascial Areolar Tissue Graft With Topical Administration of Basic Fibroblast Growth Factor for Treatment of Complex Wounds With Exposed Tendons and/or Bones.

The management of wounds with tendon and/or bone exposure is challenging because of the insufficient blood supply to the wound bed. We describe our experience with 19 patients using a perifascial areolar tissue (PAT) graft with topical administration of basic fibroblast growth factor (bFGF) in the treatment of complex wounds with exposed tendons and/or bones in the extremities. Using a PAT graft is minimally invasive and technically easy, and the donor site is relatively preserved. However, PAT grafts for the treatment of a complex wound with large areas of exposed tendons and/or bones have sometimes failed to survive because of insufficient vascularization of the wound bed. Therefore, topical administration of bFGF, which promotes angiogenesis, was added to the graft. All grafts showed good graft survival and successfully covered the tendons and bones. Topical administration of bFGF accelerated vascularization in the PAT graft and facilitated wound healing by increasing the blood supply to the wound bed and achieved success with the PAT graft. In conclusion, using a PAT graft with topical administration of bFGF is a suitable option for the treatment of complex wounds with a large proportion of exposed tendons and/or bones. With minimal damage to the tissues near the wound, the PAT graft can be a useful option for limb salvage and could become a valuable tool for reconstructive surgeons.

The Double Volar Flap Technique for Aesthetic Repair of Syndactyly and Polysyndactyly of Toe without Skin Grafting.

BACKGROUND: Aesthetic repair of syndactyly of the toes is desirable because patients may have psychological concerns about its appearance. There are 2 important factors for the aesthetic repair of syndactyly of the toe. One is to hide the operative scar from the visual site (dorsal site), whereas the other is to create an interdigital space close to the normal anatomical skin characteristics (2 general types of skin: glabrous and hairy). METHODS: In total, 12 patients (4 males and 8 females) with 15 syndactylous webs were operated on by using the double volar flap technique. The following 3 local flaps were designed with this technique: an M-shaped flap designed on the dorsal side of the interdigital region (flap A) and double volar flaps (flaps B and C) designed on the volar side of the interdigital region. Flap A was used for reconstruction of the web slope, whereas flaps B and C were used for reconstruction of the proximal sidewall of toes. RESULTS: The corrected toes showed a deep and natural interdigital commissure with no exposure of skin grafts or conspicuous scars on the dorsal visible side. The scars on the volar side were also inconspicuous. CONCLUSIONS: The double volar flap method for repair of syndactyly and polysyndactyly of the toes has the same advantages as those of the local flap method, in addition to an optimum aesthetic result through matching with the normal anatomical skin characteristic of the interdigital space and hiding of the operative scar from the visual site.

Minced skin grafting for promoting epithelialization of the donor site after split-thickness skin grafting.

It is important to minimize time to healing in the donor site after split-thickness skin grafting (STSG). It has been shown that minced skin grafting improves the appearance of the STSG donor site. The objective of this study was to investigate whether mincing the leftover harvested skin and grafting it back onto the donor site during minced grafting (MG) reduces healing time of the donor site. Normal healing time of the donor site after STSG is 10-20 days; therefore, healing time more than a month is abnormal. Out of the 96 patients (MG: controls=48:48) initially selected for this study, 7 patients (1 in the MG group and 6 in the control group) with abnormal wound healing (healing time >1 month) were excluded because their healing times were too long (from 1.5 to 6 months). All donor sites were on the lateral thigh. A part of the skin was minced and uniformly spread on the entire surface of the donor site. A calcium alginate dressing was applied and covered with a protective gauze dressing. Patients in the control group were treated identically, except that MG was not performed. MG of the STSG donor site reduced the average time to healing by approximately 4days (9.1 vs. 13.2). This effect was independent from the size of the donor site and MG/STSG mass ratio. This procedure, which makes use of skin leftovers after skin grafting, should be performed prior to applying wound covering material as a means of reducing time to healing and level of patient's discomfort.

Perifascial areolar tissue grafting for treating syndactyly with bone fusion in patients with Apert syndrome.

Complete syndactyly with bone fusion in patients with Apert syndrome was treated using perifascial areolar tissue (PAT) grafts via a two-stage surgery (i.e. bone separation using inter-bone PAT graft insertion followed by web separation and reconstruction with full-thickness skin grafts). This technique is easy and created nail folds for fingertips.