1.Treatment of severe gynecomastia by double-ring supra-medialis pedicle for breast reduction
Yujia WU ; Chunjuan CHANG ; Guoyong ZHOU ; Chiyu JIA
Chinese Journal of Medical Aesthetics and Cosmetology 2012;(5):350-352
Objective To introduce a surgical method for treatment of severe gynecomastia.Methods After designing double rings and ectomizing epidermis between two rings,a supra-medialis derma mammary pedicle of the nipple and areola was formed,most of the gland and fatty tissue was ectomized,the pedicle was fixed with the sarcolemma,and the two rings were sutured together.Resuits There were no severe postoperative complications.Following-up of 9 cases (18 sites) for 6 to 24 months showed symmetrical and satisfactory contour.Conclusions The breast reduction with doublering supra-medialis pedicle can be an effective procedure of severe gynecomastia,in which the supramedialis pedicle can ensure the blood supply of nipple and areola and avoid late mastoptosis.
2.Clinical application of surgical intervention model for repairing tuberculosis wound with sinus tract.
Chiyu JIA ; Pengcheng LI ; Lin CHENG ; Mengli ZHENG ; Wenbo JIN ; Yujia WU ; Chunjuan CHANG ; Yuanyuan ZHANG ; Bin SHU ; Bin YIN
Chinese Journal of Burns 2016;32(6):326-330
OBJECTIVETo retrospectively explore the effectiveness of surgical intervention model for repairing the tuberculosis wound with sinus tract.
METHODSForty-three patients with tuberculosis wound with sinus tract who met the inclusion criteria were admitted to the 309th Hospital of PLA from January 2010 to October 2015. These patients were divided into test group (n=38) and control group (n=5) according to the different treatment and patient's consent. Patients in test group were treated as follows. Firstly, antituberculosis drugs were taken orally for at least 3 weeks, and the wounds were accurately assessed using magnetic resonance imaging combined with 3-dimensional reconstruction software. Then sinus tract and its surrounding devitalized tissue were completely excised, and vacuum sealing drainage (VSD) treatment with negative pressure value of -26.6 kPa was performed for 1 to 2 weeks (dressing change was performed per 7 days). Lastly, the wounds were covered through direct suture or grafting skin or flap. Patients in control group were firstly given antituberculosis drugs orally for at least 3 weeks, and then they were treated with routine dressing change in outpatient service every 3 days. After the former therapy, patients in both groups were given antituberculosis drugs by oral administration for at least 6 months and were followed up for 6 to 36 months. Detection of Bacillus tuberculosis, Acid-fast bacilli, and tuberculosis granuloma, wound healing time, and relapse of tuberculosis wound in patients of both groups were recorded. The rates of single sinus tract, two sinus tracts, and more than or equal to 3 sinus tracts of patients in test group were recorded. Data were processed with Fisher's exact test and Wilcoxon rank-sum test.
RESULTSBacillus tuberculosis was respectively detected in wounds of 5 patients in test group and 2 patients in control group. Acid-fast bacilli were positively expressed in wounds of 8 patients in test group and 3 patients in control group. A typical tuberculosis granuloma phenomenon was observed in the wounds of 27 patients in test group and 4 patients in control group. These differences in above-mentioned 3 indexes between two groups were not statistically significant (with P values respectively 0.238 4, 0.154 4, 1.000 0). The median of wound healing time of patients in test group was 19.6 d, which was significantly shorter than that in control group (94.4 d, χ(2)=12.986 0, P=0.000 3). There were 2 and 1 patients with recurrent tuberculosis wound in test group and control group respectively, without statistically significant difference (P=0.363 0). Among patients in test group, the rate of single sinus tract was 23.7%(9/38), the rate of two sinus tracts was 28.9%(11/38), and the rate of more than or equal to 3 sinus tracts was 47.4% (18/38).
CONCLUSIONSRepairing the tuberculosis wound with sinus tract in surgical intervention model of antituberculosis therapy+ accurate wound assessment+ debridement+ VSD treatment+ surgical repair is beneficial to making the optimal operation plan under the premise of knowing location of sinus tract, which can reduce surgical risk.
Debridement ; Humans ; Magnetic Resonance Imaging ; Negative-Pressure Wound Therapy ; Paranasal Sinuses ; pathology ; surgery ; Retrospective Studies ; Skin Transplantation ; Surgical Flaps ; Treatment Outcome ; Tuberculosis ; drug therapy ; surgery ; Wound Healing
3.Experience of perioperative treatment of lung transplantation: report of 7 cases
Ting LIN ; Qifei WU ; Chunjuan YE ; Junke FU ; Guangjian ZHANG ; Yong ZHANG ; Zhe WANG ; Zheng WANG ; Chang LIU
Organ Transplantation 2019;10(1):74-
Objective To summarize the experience of perioperative treatment of lung transplantation for end-stage lung disease. Methods Perioperative clinical data of 7 recipients undergoing lung transplantation were retrospectively analyzed, including 3 cases with bilateral lung transplantation and 4 cases with unilateral lung transplantation. The perioperative status and clinical prognosis of lung transplantation recipients were observed. Results The operation time of 7 lung transplantation recipients was (344±133) min. Cold ischemia time was (236±74) min in 4 cases of single-lung transplantation and (480±120) min in 3 cases of bilateral-lung transplantation. The length of Intensive care unit(ICU) stay was 21 (13-25) d and the length of hospital stay was 101 (64-117) d. In the first 3 d after surgery, the daily fluid output was significantly larger than the fluid input (all
4.Effects of rat allogeneic adipose-derived stem cells on the early neovascularization of autologous fat transplantation.
Tian TIAN ; Chiyu JIA ; Yi LIU ; Zhen LIU ; Guodong HU ; Ruichen WANG ; Chunjuan CHANG
Chinese Journal of Burns 2014;30(6):512-517
OBJECTIVETo investigate the effects of allogeneic adipose-derived stem cells (ADSCs) of rat on the early neovascularization of autologous fat transplantation.
METHODS(1) Experiment 1. Adipose tissue was collected from both inguinal regions of two SD rats to isolate, culture, and purify ADSCs through collagen enzyme digestion, density gradient centrifugation, and adherence method. The fourth passage of cells were collected for morphologic observation, detection of expressions of surface markers CD34, CD49d, CD106, and CD45 of ADSCs with flow cytometer, identification of adipogenic and osteogenic differentiation, and determination of the cell proliferation ability with thiazolyl blue method. (2) Experiment 2. Another 30 SD rats were divided into allogeneic adipose granule (AG) group (A, n = 6), autologous AG group (B, n = 8), autologous ADSCs+autologous AG group (C, n = 8), and allogeneic ADSCs+autologous AG group (D, n = 8) according to the random number table. The fourth passage of ADSCs were obtained from adipose tissue from one side of inguinal region of SD rats in group C. Adipose tissue obtained from one side of inguinal region of SD rats of the other 3 groups was abandoned. The AG was prepared from another side of inguinal region of SD rats in the 4 groups. The mixture of 0.6 g AG from one rat and 1 mL DMEM/F12 nutrient solution was injected subcutaneously into the back of another rat in group A, and so on. Autologous AG was injected into its own body of the rats in group B. The mixture of 1 mL autologous ADSCs mixture which contains 3.0 × 10⁶ cells per mililitre autologous ADSCs combined with autologous AG was injected into the rats in group C. The mixture of 1 mL allogeneic ADSCs mixture which contains 3.0 × 10⁶ cells per mililitre ADSCs extractived from the former 2 rats in experiment 1 combined with autologous AG was injected into the rats in group D. At 7 days post transplantation, fat transplants were harvested for gross observation, measurement of wet weight, pathological observation, and assessment of cells with positive expression of CD31 with immunohistochemical method. Data were processed with one-way analysis of variance and SNK test.
RESULTS(1) The fourth passage of cells proliferated well showing fusiform shape similar to fibroblasts. These cells showed positive expression of CD34 and CD49d and weak positive expression of CD106 and CD45. They were able to differentiate into adipocytes and osteoblasts. These cells were identified as ADSCs. The fourth passage of cells grew faster than that of the tenth passage. (2) At 7 days post transplantation, no liquifying necrosis or infection was observed in the fat transplants of the rats in the 4 groups. Wet weight of the fat transplants in groups A and B was respectively (0.25 ± 0.04) and (0.26 ± 0.03) g, which were less than those of groups C and D [(0.36 ± 0.03) and (0.35 ± 0.04) g, with P values below 0.05]. HE staining showed that there were less fat cells and more fibroblasts in the transplants of group A, visible fibrous tissue around uneven shape of fat cells in the transplants of group B, and almost identical size and shape of fat cells and unobvious fibrous tissues were found in the transplants of groups C and D. The cells with positive expression of CD31 were distributed in fibrous tissues in larger number but less around fat cells in the transplants of group A, while more of these cells were observed surrounding fat cells in the transplants of group B. There were more cells with positive expression of CD31 distributed surrounding fat cells in the transplants of groups C and D than that in group B. The cells with positive expression of CD31 observed under 400 times field were more in number in groups C (20.5 ± 1.1) and D (22.1 ± 1.0) than in groups A (8.0 ± 3.6) and B (10.9 ± 1.7), with P values below 0.05.
CONCLUSIONSAllogeneic ADSCs combined with autologous AG can significantly improve the early vascularization of fat transplantation as well as autologous ADSCs combined with autologous AG.
Adipocytes ; cytology ; transplantation ; Adipose Tissue ; blood supply ; cytology ; Animals ; Burns ; complications ; metabolism ; pathology ; Cell Differentiation ; Cell Proliferation ; Cells, Cultured ; Neovascularization, Physiologic ; physiology ; Osteogenesis ; Rats ; Stem Cell Transplantation ; Stem Cells ; cytology ; physiology ; Transplantation, Autologous ; Wound Healing ; physiology