1.Experience of vagina reconstruction with axial pattern skin flap
Xiangbin YUAN ; Zhihao LIN ; Qinglian HE
Chinese Journal of Microsurgery 2000;0(03):-
Objective To summarize the experience of vagina reconstruction with six kinds of axial pattern skin flaps Methods Six kinds of axial pattern skin flaps have been used for vagina reconstruction in 126 cases,including of hypogastric skin flap,thoraco umblical skin flap,labia minora skin flap,scrotal skin flap,penis skin flap and pudendal femoral skin flap Results All flaps were survived,but one case of necrosis occurred in hypogastric skin flap Conclusion The pudendal femoral skin flap is the first choice of flap for vagina reconstruction The advantages of this method are (1) the reconstructed vagina has good sensation and flexibility;(2)the linear scars of donor site are hidden and inconspicuous;(3)the flap is close to recipient site the procedure is simple
2.Application of reverse engineering techniques to measure the distance and volume of medial and lateral compartments of human knee joint
Jinran ZHONG ; Jian HE ; Jian CHEN ; Jinghua CHEN ; Ying LIN ; Xiangbin WANG
Chinese Journal of Tissue Engineering Research 2015;(31):5046-5050
BACKGROUND:Knee joint is the most complicated structure of human body, and X-ray is often used to reflect the stenosis of knee compartment. However, radiographs are two-dimensional projection of three-dimensional joint structure. Thus, different joint shooting locations can impact the outcomes of measurement, and it is difficult to ensure the accuracy of repeated measurements. OBJECTIVE:To build three-dimensional model of knee compartment, measure the distance and volume, and provide the basis for subsequent models, biomechanics and relevant clinical studies. METHODS:Based on the principle of reverse engineering, using CT images of the knee joint and the software of Mimics, three-dimensional model of medial compartment knee structure was reconstructed. After the model was imported and smoothed, the medial and lateral compartment volumes were finaly calculated by the software of Geomagic Studio. RESULTS AND CONCLUSION: Three-dimensional model of the knee compartment, including femur, tibia and fibula, was successfuly structured by CT images. The models of knee and knee compartment could be observed at any angle or observed individualy, and could be measured. It was discovered that the volume of medial and lateral compartments of knee is close, although the joint space width of them is different, which ilustrates that the procedure can accurately reflect the degree of knee joint space width in the round by calculating the volume of medial and lateral compartments of knee joint through computer.
3.A new approach to accelerate DR image enhancement based on CUDA.
He XIANGBIN ; Zhou HEQIN ; Li FANGYONG
Chinese Journal of Medical Instrumentation 2010;34(1):9-11
Multiscale pyramid image enhancement algorithm is an usual way to enhance the Digital Radiography (DR) images. However, the process of enhancement takes much of time because of the fine resolution of DR images. A new method of accelerating DR image enhancement based on Compute Unified Device Architecture (CUDA) is presented in this paper. This method completes a large amount of convolution operations in spatial domain involved in the multiscale pyramid image enhancement algorithm by using the Graphic Processing Unit (GPU). The experimental results show that the proposed method is very efficient for accelerating DR image enhancement.
Algorithms
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Humans
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Radiographic Image Enhancement
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methods
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Signal Processing, Computer-Assisted
4.Effects of L-menthol on suppression of gastric peristalsis during upper gastrointestinal endoscopy and the influencing factors
Wenyan LI ; Fandong MENG ; Shutian ZHANG ; Fachao ZHI ; Zhaoshen LI ; Zhanxiong XUE ; Shuixiang HE ; Weifeng CHEN ; Yingxuan CHEN ; Xiangbin XING ; Chen YAO ; Yongdong WU
Chinese Journal of Digestive Endoscopy 2022;39(4):301-306
Objective:To evaluate the effects of single spay of L-menthol (NPO-11) on suppressing gastric peristalsis during upper gastrointestinal endoscopy and the influencing factor.Methods:This study was a multicenter, randomized, double-blind, placebo-parallel controlled study. The eligible patients were randomly divided into two groups by randomized blocks. Patients received local spray of either NPO-11 (160 mg L-menthol) or placebo 20 mL during upper gastrointestinal endoscopy. The gastric peristalsis was recorded and evaluated before, 2 minutes after and at the end of endoscopy. The complexity of the procedure was evaluated by the researchers. The influencing factors for antiperistaltic effect of NPO-11 were analyzed.Results:A total of 220 patients were enrolled from five research centers. There were 109 cases in the NPO-11 group and 111 cases in the placebo group. The baseline data of the two groups were similar and comparable. The proportion of patients with grade 1 peristalsis at 2 minutes after the treatment and at the end of endoscopy was significantly higher in the NPO-11 group than that in the placebo group [40.37% (44/109) VS 16.22% (18/111), χ2=15.93, P<0.001]. Compared with the placebo group, the proportions of weak peristalsis (grade 1 and 2) were higher in the NPO-11 group at 2 minutes after the treatment [67.89% (74/109) VS 46.85% (52/111)] and at the end of endoscopy [79.82% (87/109) VS 48.65% (54/111)]. Subgroup analysis showed that the inhibitory effect of NPO-11 on gastric peristalsis was more significant in Helicobacter pylori antibody positive group. Conclusion:Local spray of NPO-11 can effectively inhibit gastric peristalsis during upper gastrointestinal endoscopy, and its effect is more significant in Helicobacter pylori antibody positive group. It could be recommended for no obvious adverse reactions , its safety, and the convenient procedure.
5.In vitro hydrodynamic performance testing of heart valve prosthesis and its clinical application
Hao WANG ; Da ZHU ; Xiangyu BAO ; Zhaoming HE ; Li LIU ; Xiangbin PAN
Chinese Journal of Clinical Thoracic and Cardiovascular Surgery 2022;29(03):279-287
The heart valve prosthesis must have excellent hydrodynamic performance which is usually tested in vitro, not in vivo. This paper comprehensively introduced the principles and methods of hydrodynamic performance in vitro testing, helping clinicians to understand valve performance parameters, evaluate valve applicability, and reduce clinical risk of the valve prosthesis. In vitro testing not only serves as the "gold standard" for valve prosthesis assessment, but also provides detailed data for design and optimization of the prosthesis. ISO 5840 defines the items and methods for valve in vitro testing, which consists of three parts: (1) pulsatile flow testing, which reproduces the pulsating flow of the valve prosthesis after implantation in the human body; (2) steady flow testing, which assesses valve forward flow resistance; (3) durability testing, which evaluates the durability of the valve prosthesis and determines the expected failure mode. In addition, the paper presented the differences between atrioventricular and aortic valve testing, the method of mitral valve testing, the differences between transcatheter and surgical valve testing, and the method of valve flow visualization.