This study was performed to compare the healing quality of the allogenic acellular dermal matix (ADM) and xenogenic ADM combined with autologous skin graft. Xenogenic ADM was obtained from two GalT knock-out pigs. Allogenic ADM was obtained from cynomolgus monkeys. ADM was stored with lyophilization. Full-thickness skin wounds were made on the back of two cynomolgus monkeys. In one monkey, wounds were covered by xenogenic ADM combined with autologous skin graft or autologous skin graft only. In another monkey, wounds were covered by allogenic ADM combined with autologous skin graft or autologous skin graft only. Skin healing process was observed during 2 weeks and skin biopsies were performed on 3 months after skin transplantation. We obtained IACUC approval (ORIENT-IACUC-16053)
Skin on the xenogenic ADM was necrotized 1 week after skin transplantation. Possibly due to the thickness of ADM, which block the blood supply from the subcutaneous tissue to the autologous skin graft. Skin biopsy revealed that less fibrotic change of the skin on the ADM compared with the skin without ADM.
Xenogenic ADM can be used in high degree burn patients who can suffered from contracture after healing since it can reduce fibrotic change.
일반적으로 돼지는 어떤 종류의 모색을 가지든 피부는 연분홍색을 띄는 것으로 알려져 있으나, 경 남 김해 H 육가공회사로 출하된 개체 중 흑모색에 검은색 피부를 가진 돼지가 발견되었다. 그 원인 을 규명하고자, 모색과 연관되어 있다고 알려진 MC1R, KIT 유전자와 피부색과 연관되어 있다고 알 려진 ASIP 유전자의 특징을 살펴보았다. MC1R의 sequencing 분석 결과, 아미노산 67, 68번째 자 리의 6개 염기 C(CCC CCC)는 Hampshire와 동일한 ED2/ED2 유전자형인 것으로 밝혀졌고, KIT의 경우 qOLA_CNV, Pyro_Splice 및 sequencing 분석한 결과, Duroc의 i/i 유전자형과 같은 유전자형 으로 밝혀졌다. ASIP의 경우 염기서열을 분석한 결과, 모든 종에서 차이가 없는 것으로 확인되었다. 유연관계 분석을 위해 Phase software와 network 분석을 실시한 결과, MC1R은 Hap22와 Hap23 이, KIT는 Hap22, Hap43과 유색종과 유연관계를 형성하는 것으로 확인되었다. 반면에 ASIP는 Hap04, Hap09이 야생멧돼지와 중국재래돼지를 제외한 품종들과의 유연관계를 확인할 수 있었다. 더 나아가 각 품종 간 유사성 분석을 위해 PCA를 실시한 결과, MC1R은 Berkshire, KIT는 Berkshire와 Hampshire가 유사성을 가지는 것으로 밝혀졌고, ASIP는 Berkshire 와 Duroc의 유사 성을 관찰할 수 있었다.
Functional cosmetics are intensively investigated for the effectiveness of skin whitening, anti-aging and slimming. For enhancing the effectiveness, active ingredients should be delivered into the cell in the dermis. The amounts of penetration of caffeine and Arbutin® were tested, in vitro, using Franz diffusion cell. Oil-in-water emulsions were used for the vehicles of the transport. For the measuring the amounts of active ingredients delivered into the dermal skin, tape stripping was done after finishing the penetration experiments. The amounts of delivered caffeine were 8.45± 1.26ug/ml before tape stripping and 3.45± 1.80ug/ml after tape stripping, however, the amounts of delivered Arbutin® was quite small to detect. From now on, proper vehicles are considered for enhancing the delivery of Arbutin® Hairless mouse skin was compared with pig skin as a transdermal delivery membrane. The aspects of delivery were similar, but the amount of delivered ingredients using pig skin was larger than that of using hairless mouse skin. Therefore, the pig skin would be considered as a membrane for drug delivery experiments.
The purpose of the present study was to investigate differences in the sensitizing potential of Rhus Veniciflua(Rhus-II), when tested by the guinea pig maximization test(GPMT) and Freund's complete adjuvant test(FCAT) with an identical, intradermal induction concentration. A new grading. classification of the sensitization potential is proposed. The GPMT was conducted according to OECD guideline #406, using a multiple-dose design and test results were analysed with logistic regression analysis. During the induction stage, we injected intradermally each three site 0.1 ml( 1mg/animal) test material. 0.1ml complete Freund's adjuvant and 0.1ml the test agent emulsified in the adjuvant. 7 days later, we induced weak sensitization with 10% sodium lauryl sulfate(SLS) and applide 1ml(10mg/animal) test agent topically on the same site and made a tight occlusion. 14 days later we challenged with 1ml(10mg/animal) of test material on the flank and observed ant 24 hours and 48 hours later. The results were also observed 0% at 24 hours challenge. The results observed 48 hours after challenge were the identical. These data indicated that. although Rhus-II is a no contact allergen. It was reported that the skin sensitization by Rhus-II was not detected the skin sensitization in the guinea pig maximization test (GPMT). Consequently, it was confirmed that Rhus-Il had no contact allergic sensitization in guinea pig maximization test.