Objective To evaluate the efficacy of Gant-Miwa and anal encircling procedure with Xiaozhiling injection for complete rectal prolapse.Methods Clinical data of 16 patients with complete rectal prolapse undergoing Gant-Miwa and anal encircling procedure with Xiaozhiling injection between Feb.2011 and Nov.2014 were retrospectively analyzed.Results All patients were operated successufully and theirs prolapse symptons disappeared.Urinary retention was found in 3 cases,2 cases were observed a replase who were infected in the area of the anal operation,1 cases was found delayed healing of perianal incision,and 2 cases were happened constipation duing to the rectal stenosis.Complications wasn't happened such as bleeding,perianal abscess,anal fistula,and so on.Thirteen cases were followed-up of average 2.2 years and 2 cases were observed postoperative recurrance.Conclusions Gant-Miwa and anal encircling procedure with Xiaozhiling injection for the treatment of complete rectal prolapse is a procedure with minimally trauma,fewer complications and low recurrence rate,which is worth promoting after innovation and improvement.

It is difficult to test the elastic modulus of the soft bio-anthropomorphic materials by using the general stretch-strain test method. With the equipment for a hardness testing system of bio-anthropomorphic materials and millesimal gauge, we introduce in this paper a compress-strain test method and carry out the related test-data curve-fitness. The test results indicate that this kind of method can be adopted in testing the elastic modulus of the soft bio-anthropomorphic materials and help to compare and distinguish the biomechanics equivalent between the tissues.
Biocompatible Materials ; Biomedical Engineering ; methods ; Computer Simulation ; Elastic Modulus ; Elasticity ; Hardness ; Humans ; Materials Testing ; methods

Craniospinal radiation is one of essential components in the treatment flow for a number of central nervous system malignancies. Meticulous attention to technique and dosimetry is required to produce optimum tumor control. In this paper, an optimized treatment regimen was proposed based on multiple techniques. The CT images for a 17-year-old male patient in need of craniospinal radiation were acquired for 3D conformal treatment planning. The split-beam technique, the extended penumbra fields matching technique, and the multiple leaf collimator segments and extended SSD technique were synthesized in the treatment regimen so as to work out an optimized treatment plan. The added few segments improved the dose homogeneity in spinal cord. The maximal point dose was decreased from 124% to 108% of the prescribed dose in it. Comparative study on the anthropomorphic phantom showed that the data collected by thermoluminescent detectors and the data obtained by calculation were basically coincident. These results suggest that the proposed technique be clinically acceptable.
Adolescent ; Brain Neoplasms ; diagnostic imaging ; radiotherapy ; Humans ; Magnetic Resonance Imaging ; Male ; Neoplasms, Germ Cell and Embryonal ; radiotherapy ; Radiometry ; methods ; Radiotherapy Planning, Computer-Assisted ; Radiotherapy, Conformal ; methods ; Spinal Cord Neoplasms ; diagnostic imaging ; radiotherapy ; Tomography, X-Ray Computed

To the specificity of equivalent material of human skin mechanical properties, the static-load pressing method for testing the elastic nature of the equivalent material of human skin is proposed, and the designs experimental set for the test is designed. The result show that the method is correct and feasible.
Biomimetic Materials ; chemistry ; Elasticity ; Humans ; Materials Testing ; methods ; Skin ; Skin Physiological Phenomena ; Stress, Mechanical ; Tissue Engineering ; methods