RESUMEN
The present study was carried out to evaluate the potential of adipose-derived mesenchymal stem cell (AD-MSCs) to enhance the rate of healing of full-thickness excisional skin wounds in rabbits. Six healthy adult New Zealand white rabbits and five healthy Swiss Albino mice were used for the study. Two, 2 × 2 cm full-thickness skin (thoracolumabar region) excisional wounds were created; one on each side of the dorsal midline in each animal. Adipose tissue was collected from the abdomen of the mice and processed for isolation of AD-MSCs. The wounds were randomly assigned to either injection of adipose-derived mesenchymal stem cell into the wound margins (AD-MSCs), or topical application of Povidone iodine (5%) solution (PI) as positive control. The wound healing was assessed by evaluation of granulation tissue formation, epithelisation and histomorphological study on 7th, 14th, 21st and 28th postoperative days. Better epithelisation was seen histologically in AD-MSCs treated wounds than in PI-treated wounds. Histomorphological examination of the healing tissue showed early disappearance of inflammatory reaction, significantly more neovascularisation, and more fibroplasias and early lay down and histological maturation of collagen in AD-MSCs treated wounds than in PI treated wounds. Hence the application of xenogenic stem cells can be used for tissue engineering and regenerative medicine in animals
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Background & objectives: Genotyping has now become one of the major diagnostic means for almost all diseases. Among the advanced techniques that are used to study single nucleotide polymorphisms (SNPs), only a few are applicable for routine disease diagnosis. Their applicability mainly depends on three factors: cost, time, and accuracy. The primary objective of this study was to propose allele-specific real-time PCR as a rapid, low cost and simple genotyping method for routine diagnostics. Methods: Two SNPs, rs3014866 and rs2149356 were analysed using allele-specific real-time PCR. The polymerase chain reaction was carried out using RealQ PCR master mix containing SYBR Green DNA I dye followed by melt curve analysis. The results were validated by agarose gel electrophoresis and DNA sequencing. Results: The allelic discrimination and zygosity of the two SNPs were assessed by combined cycle threshold (Ct) and melting temperature (Tm) values. Variations in Ct and Tm values among the two alleles were observed in both rs3014866 (Ct: C allele - 24±1, T allele - 27±1; Tm: C allele - 82.5±0.3, T allele - 86.3±0.2) and rs2149356 (Ct: C allele - 24±1, A allele - 26±1; Tm: C allele - 79.4±0.2, A allele - 80.4±0.3). Based on the variations, homozygous and heterozygous alleles were detected. Agarose gel electrophoresis and DNA sequencing also confirmed the allelic variation and zygosity observed in real-time PCR. Interpretation & conclusions: In diagnostic settings where a large number of samples are analysed daily, allele-specific real-time PCR assay may serve as a simple, low cost and efficient method of genotyping
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Background: Chronic paronychia, earlier considered to be an infection due to Candida, is currently being considered as a dermatitis of the nail fold. Irritant, allergic and protein contact dermatitis are the suggested major pathogenic mechanisms. Hypersensitivity to Candida is more likely to be the etiology, rather than the infection itself. Aims: To assess the clinico‑etiological profiles of patients with chronic paronychia and to determine the role of contact sensitization and hypersensitivity to Candida. Methods: All consecutive patients of chronic paronychia attending the dermatology outpatient department (OPD) were assessed for risk factors, number of nails affected, clinical presentation and presence of fungus, patch tested for contact allergy and prick tested for hypersensitivity to Candida allergen. Results: A total of 80 patients of chronic paronychia were recruited into our study. There was female preponderance (66 patients, 82.5%), with the most common group affected being housewives (47 patients, 58.8%). Frequent washing of hands (64 patients, 80%) was the most common risk factor. Fungal culture was positive in 56.1% (41 patients), the predominant species cultured was Candida albicans (15 patients, 36.5%). Patch testing with Indian standard series was positive in 27.1% patients (19 out of 70 patients tested), with nickel being the most common allergen. Prick test with Candida allergen was positive in 47.6% patients (31 out of 65 patients tested). Limitations: Prick test and patch test provide indirect evidence of hypersensitivity, with inherent limitations. Conclusion: Our study shows that chronic paronychia is probably a form of hand dermatitis associated with prolonged wet work, and that there is a higher incidence of contact sensitization and Candida hypersensitivity in these patients.