1.Reconstruction of skin defects around the Achilles tendon with rectangle advancement flap in children
Yang LIU ; Jitang ZHAO ; Shuwei TIAN ; Lianxin SONG ; Chunsheng WU ; Aqin PENG ; Yanlong ZHANG
Chinese Journal of Orthopaedic Trauma 2017;19(6):537-539
Objective To explore the clinical efficacy of rectangle advancement flaps used in the reconstruction of skin defects around the Achilles tendon in children.Methods From May 2014 to June 2015,7 children with skin defects around the Achilles tendon were admitted to our trauma center.The areas of skin defect ranged from 3.4 cm × 2.7 cm to 5.5 cm × 4.0 cm.The integrity of Achilles tendon was preserved in 6 cases but the tendon insertion was partly disrupted in one case.The skin defects were reconstructed with self-designed rectangle advancement flaps after debridement.In the one case with the Achilles tendon partly disrupted,the contaminated tendon ends were excised before wound closure.The injured ankles were immobilized in plantar flexion with one 1.5 mm K-wire and plaster splint to decrease the postoperative tension of the flap.Results All the flaps survived completely by primary intention but local infection occurred in 2 wounds which was cured by second intention of dressing change.The follow-up periods ranged from 8 to 12 months (average,11.5 months).The scar around the flap was remarkable in 2 cases,but the flaps in the other cases appeared normal in terms of color and texture.The ankle function was satisfactorily normal in all the cases.Conclusion Our self-designed rectangle advancement flaps provide a simple,safe and reliable way to repair skin defects around the Achilles tendon in children.
2.Genetic diversity analysis and fingerprinting of 175 Chimonanthus praecox germplasm based on SSR molecular marker.
Xiujun WANG ; Yanbei ZHAO ; Jing WANG ; Zihang LI ; Jitang ZHANG ; Qingwei LI
Chinese Journal of Biotechnology 2024;40(1):252-268
The elucidation of resources pertaining to the Chimonanthus praecox varieties and the establishment of a fingerprint serve as crucial underpinnings for advancing scientific inquiry and industrial progress in relation to C. praecox. Employing the SSR molecular marker technology, an exploration of the genetic diversity of 175 C. praecox varieties (lines) in the Yanling region was conducted, and an analysis of the genetic diversity among these varieties was carried out using the UPDM clustering method in NTSYSpc 2.1 software. We analyzed the genetic structure of 175 germplasm using Structure v2.3.3 software based on a Bayesian model. General linear model (GLM) association was utilized to analyze traits and markers. The genetic diversity analysis revealed a mean number of alleles (Na) of 6.857, a mean expected heterozygosity (He) of 0.496 3, a mean observed heterozygosity (Ho) of 0.503 7, a mean genetic diversity index of Nei՚s of 0.494 9, and a mean Shannon information index of 0.995 8. These results suggest that the C. praecox population in Yanling exhibits a rich genetic diversity. Additionally, the population structure and the UPDM clustering were examined. In the GLM model, a total of fifteen marker loci exhibited significant (P < 0.05) association with eight phenotypic traits, with the explained phenotypic variation ranging from 14.90% to 36.03%. The construction of fingerprints for C. praecox varieties (lines) was accomplished by utilizing eleven primer pairs with the highest polymorphic information content, resulting in the analysis of 175 SSR markers. The present study offers a thorough examination of the genetic diversity and SSR molecular markers of C. praecox in Yanling, and establishes a fundamental germplasm repository of C. praecox, thereby furnishing theoretical underpinnings for the selection and cultivation of novel and superior C. praecox varieties, varietal identification, and resource preservation and exploitation.
Bayes Theorem
;
Biomarkers
;
Phenotype
;
Cluster Analysis
;
Genetic Variation