Objective To investigate the clinical effect of retroperitoneal laparoscopic dismembered pyeloplasty on ureteropelvic junction obstruction (UPJO). Methods From November 2010 to September 2015, a total of 28 cases (21 males and 7 females) with ureteropelvic junction obstruction (UPJO) underwent retroperitoneal laparoscopic dismembered pyeloplasty. All the 28 patients had a previous history of different degrees of lumbar pain, which was confirmed as typical UPJO by imaging examination. Operation method: following complete renal pelvis and upper ureter isolation, the renal pelvis was clipped into a trumpet-shaped mouth, 1/3 of the upper renal pelvis was temporarily kept without section. In the inferior margin of renal pelvis, longitudinal cut procedure was operated in the ureter and across the stenotic segment in about 1–2 cm; and then, anastomosis of the ureter and the renal pelvis at the lowest was performed, to maintain the continuity of the renal pelvis and ureter. Subsequently, the stenosed segment of ureter and the dilatant renal pelvis were removed, the posterior ureteropelvic anastomosis was made with an interrupted suture, and antegrade stenting of double J tube was further performed, followed by a continuous suture of the anterior wall. Results The procedure was successfully accomplished in all patients whithout conversion to open surgery. The operating time was 90-240 minutes with the median time of 160 minutes. The estimated blood loss was 20-70 mL with the median of 50 mL. No severe surgical complication occurred in perioperative period. The 3-24 -month follow up showed that symptoms of lumbar pain were relieved or disappeared in all the incorporated patients. Postoperative radiographic examination showed no stomal stenosis at the ureteropelvic junction, and the hydronephrosis was alleviated. Conclusions Retroperitoneal laparoscopic dismembered pyeloplasty for UPJO is an effective, safe, and minimally invasive surgical technique. The key to the success of the operation is to the accurate renal pelvis clipping, tension- and torsion-free anastomosis of the lowest position of the renal pelvis and the ureter, and the reconstruction of a new funnel-shaped ureteropelvic junction.
The study of tissue engineering heart valves is one of the focus about cardiovascular surgery and is developing. Especially acellular tissue engineering heart valves have many advantages in low immunogenicity,non cytotoxicity,recellularation,excellent bionics,durability etc.Therefore, the study of acellular tissue engineering heart valves is becoming the important direction of future development about valves studies. Some development about it is reviewed.
Objective To know the basic research and the clinical application of cartilage-derived retinoic acid-sensitive protein (CD-RAP) in orthopedic and in other clinical fields. Methods The literature related to CD-RAP in basic research and clinical application were extensively reviewed. Results CD-RAP, as a protein, which is cartilage-specific,could be a marker of the joint diseases. It also can be used to monitor metastsais of melanoma. Conclusion CD-RAP test provides a new way to study repair of cartilage and metastsais of melanoma.
Objective To evaluate the effectiveness of arthroscopic debridement and release for post-traumatic arthritis of subtalar joint. Methods Between January 2011 and December 2014, 14 cases of post-traumatic arthritis of the subtalar joint underwent arthroscopic debridement and release, and the clinical data were retrospectively analyzed. All patients were male, aged 42 years on average (range, 32-62 years). Calcaneus fracture was caused by falling from height; 8 cases received conservative treatment and the other 6 cases received open reduction and internal fixation. The mean interval from injury to operation was 3.4 years (range, 2-7 years). The arthroscopic debridement and release were performed through lateral portals. The injury degree of articular cartilage was classified as grade 3 in 4 cases and grade 4 in 10 cases based on Outerbridge rating. The degree of pain was assessed by visual analogue scale (VAS) and the function of joint was assessed by the American Orthopaedic Foot & Ankle Society (AOFAS) Ankle Hindfoot Scale. Results All incisions healed by first intention and no complication occurred. The follow-up time was 18 months. Pain was relieved obviously; VAS was significantly decreased to postoperative 3.8±0.9 at 18 months from preoperative 7.7±1.2 (t=9.728,P=0.000), and AOFAS Ankle Hindfoot Scale was significantly increased to postoperative 59.1±8.8 from preoperative 37.6±8.2 (t=6.688,P=0.000). During follow-up, no patient was given arthrodesis and no worsened sign was found on the postoperative CT and MRI. Conclusion Arthroscopic debridement and release for post-traumatic arthritis of the subtalar joint can relieve clinical symptoms and delay subtalar arthrodesis.
Limb motor dysfunction is the most common sequela of stroke. Its recovery cycle is long and difficult, which has an important impact on the physiology and psychology of patients. Therefore, the recovery of limb motor function after stroke has become the focus and difficulty of current rehabilitation. Brain-limb coordinate regulation technology is a rehabilitation strategy that effectively promotes the recovery of limb motor function and brain function through the organic combination of rehabilitation technology with limbs as target organs and brain as target organs. Based on the brain-limb coordinate regulation technology, this paper will systematically elaborate its theory and application through literature review, and then provide a more reasonable and effective choice for the treatment of limb motor dysfunction in stroke patients.
Objective To compare the biological and biomechanical characteristics of decellularized bovine jugular venous tissue-engineered valved conduit scaffolds with that of fresh bovine jugular veins. Methods Fortyeight fresh bovine jugular veins were divided into control group and experimental group with random number table method, 24 veins in each group. There were fresh bovine jugular veins in control group, decellularized bovine jugular veins in experimental group. The veins of experimental group were treated with sodium deoxyeholate plus Triton-X-100 to decellularize the cells in valves and vessel walls. The thickness, water absorption rate, water maintenance rate, destroying strength, stretch rate of valves and vessel walls in two groups were detected. Results The endothelial cell and fibroblast of valves and vessel walls in experimental group were completely decellularized, no cell fragments were retained within the matrix scaffold; collagen fiber and elastin fiber had been preserved with intact structure and wavily arrayed; deoxyribonucleic acid content of valves and vessel walls in experimental group were decreased by 97.58%, 97.25% compared with that of control group. The thickness, water absorption rate and water maintenance rate of valves and vessel walls in experimental group were lightly increased than those of control group, but there were no significant differences between them (P 〉 0. 05). There were no significant differences in destroying strength and stretch rate of valves and vessel walls between two groups (P〉0. 05). Conclusion Decellularized bovine jugular vein scaffold has stable biological and biomechanical characteristics and it may be ideal natural fibrous matrix for developing the tissue-engineered valved conduit by host recellularization.
Objective To explore and evaluate the accuracy and feasibil ity of individual rapid prototype (RP) drill templates for atlantoaxial pedicle screw implantation. Methods Volumetric CT scanning was performed in 8 adult cadaveric atlas and axis to collect Dicom format datas. Then three-dimensional (3D) images of atlas and axis were reconstructed and the parameters of pedicles of 3D model were measured by using software Mimics 10.01. The 3D model was saved by STLformat in Mimics. The scattered point cloud data of 3D model were processed and the 3D coordinate system was located in software Imageware 12.1. The curves and surfaces of 3D model were processed in software Geomagic Studio 10. The optimal trajectory of pedicle screw was designed and a template was constructed which accorded with the anatomical morphology of posterior arch of atlas and lamina of axis by using software Pro/Engineer 4.0. The optimal trajectory of pedicle screw and the template were integrated into a drill template finally. The drill template and physical models of atlas and axis were manufactured by RP (3D print technology). The accuracy of pilot holes of drill templates was assessed by visually inspecting and CT scanning. Results The individual drill template was used conveniently and each template could closely fit the anatomical morphology of posterior arch of atlas and lamina of axis. Template loosening and shifting were not found in the process of screw implantation. Thirty-two pedicle screws were inserted. Imaging and visual inspection revealed that the majority of trajectories did not penetrate the pedicle cortex, only 1 cortical penetration was judged as noncritical and did not injury the adjacent spinal cord, nerve roots, and vertebral arteries. The accuracy of atlas pedicle screw was grade 0 in 15 screws and grade I in 1 screw, and the accuracy of axis pedicle screw was grade 0 in 16 screws. Conclusion The potential of individual drill templates to aid implantation of atlantoaxial pedicle screw is promising because of its high accuracy.
Objective To investigate the way and process of degradation behavior of acellular porcine aortic valve in vitro. Methods Acellular porcine aortic valve(n=90)were randomly divided into 3 groups (collagenase group, elastase group, control group), 30 piece in each group . Behavior of acellular porcine aortic valve was degradated with 0.05mg/ml collagenase Ⅰ, 0. 05mg/ml elastase, phosphate buffered solution in collagenase group, elastase group and control group. The histomorphology, weight loss, value of protein and hydroxyproline were observed at 3,6,9, 12, 15 and 30d after degradation. Results The behavior of acellular porcine aortic valve of collagenase group and elastase group became poorer, looser and broken gradually in degradation. The weight loss of valve, the value of protein and hydroxyproline in vehiculum became greater gradually in collagenase group and elastase group(P〈0. 01). Furthermore the effect of collagenase Ⅰ was b than elastase in degradation. Conclusion The effect of collagenase Ⅰ and elastase can degradate the acellular porcine aortic valve in vitro. Collagenase Ⅰ is b than elastase in degradation.
ObjectiveTo evaluate the safety and effect of balloon sinuplasty for the treatment of chronic sphenoid sinusitis. MethodsFrom November 2011 to March 2013, 17 patients received balloon catheter dilation of sinus ostia. All the patients were followed up for 12 months postoperatively and the therapeutic effect was evaluated. ResultsAt the end of the following-up, the clinical symptoms of all the patients got relieved. Through nasal endoscopic examination, we found that apertura sphenoidalis developed well in 15 cases, sinus mucosa edema in one case, sinus stenosis in one case, and no postoperative complications occurred. The mean visual analogue scale (VAS) scores were 5.21±1.51 preoperatively and 3.23±1.34, 3.35±1.41, 3.58±1.46 at 3, 6 and 12 months postoperatively. The mean sino-nasal outcome test-20 scores were 12.50±1.96 preoperatively and 7.30±1.79, 7.64±1.93, 7.77±2.02 at 3, 6, 12 months postoperatively. The mean Lund-Kennedy endoscopic mucosal morphology scores were 3.51±1.47 preoperatively and 1.77±1.11, 1.88±1.01, 2.00±0.97 at 3, 6, 12 months postoperatively. The mean CT scores were 1.57±1.06 preoperatively and 0.85±0.62 at 12 months postoperatively. Compared with the preoperative scores, the postoperative scores were significantly different. ConclusionBalloon sinuplasty is worthy of clinical application for its advantages of good clinical effect and safety.