【摘要】 目的 探讨介入治疗股骨头无菌性坏死(ANFH)的疗效。 方法 纳入1996-2009年间确诊的ANFH患者15例,采用经外周动脉穿刺插管的方法,经血管造影明确供血血管的位置,经导管向其内灌注扩张血管药、舒筋活血中药和溶栓药物,以改善股骨头供血状况;并追踪随访1~3年,根据杨白明评定标准从疼痛、功能、X线片3个方面进行判定,观察其临床症状的改善。 结果 Ⅰ~Ⅲ期ANFH患者的临床症状减轻,甚至消失;痊愈50%,显效25%,有效15%。 结论 介入治疗Ⅰ~Ⅲ期ANFH的疗效显著。【Abstract】 Objective To investigate the curative effects of interventional therapy in aseptic necrosis of the femoral head (ANFH). Methods Fifteen patients with ANFH diagnosed from 1996 to 2009 were respectively analyzed. With peripheral arterial puncture methods from peripheral artery, the feeding artery was clarified by using angiography and infused the angiectasia agent, traditional Chinese medicine which could distend blood vessel and thrombolysin to improve blood supply of femoral head. All patients were followed up for one to three years to observe improvement of clinical symptoms. Results Clinical symptom of ANFH in stage Ⅰ-Ⅲ were alleviated or even disappeared, among whom 50% were removed, 25% were markedly effective, and 15% were effective. Conclusion Interventional therapy has significant curative effect in treating ANFH, especially for stage Ⅰ-Ⅲ.
The application of stem cell therapy for ischemic heart disease has aroused widespread interest. There have been many experimental studies concerning a variety of tissue stem cells such as bone marrow,blood,skin and skeletalmuscle stem cells,and their origins, differentiation and protein expressions are compared. In recent years,it is found that adipose-derived stromal cells (ADSCs) have potential advantages over other types of stem cells in that they are widely available and easily harvested through a simple liposuction procedure,and have a high regenerative capacity and therapeuticpotential for myocardial infarction. This review describes molecular and biological properties of ADSCs,their differentiationpotential,and regenerative and therapeutic potential for myocardial repair.
ObjectiveTo explore the biological mechanisms of tibial transverse transport (TTT) for promoting microcirculation and tissue repair.MethodsThe clinical application and animal model study of TTT were reviewed.ResultsThe possible biological mechanisms of TTT for promoting microvascular network formation and tissue repair: ① Tibial corticotomy reduces intramedullary pressure and improves microcirculation; ② Tension stress stimulation promotes microvascular regeneration and accelerates the formation of new “transcortical vessels” network; ③ Systemic mobilization of stem cells, mediating local inflammation, etc.ConclusionTTT has been clinically proven to be effective for the management of lower limb ischemia and diabetic foot ulcers. The surgical procedure is relatively easy with little adverse effects on bone structures. The TTT has good application prospects despite the biological mechanisms of which still need further exploration.
Heart transplantation is a most efficacious therapy for end-stage heart failure, but acute rejection (AR) is the biggest problem to threat longer-term survival of post-transplant patients. Currently, endomyocardial biopsy is the gold standard for the diagnosis of AR. Due to limited sample size and different tissue locations, this invasive examination may cause sampling error and significant difference between biopsy-based diagnosis and AR severity. Therefore, we need a noninvasive and repeatable method to accurately diagnose and monitor AR after heart transplantation. Cardiovascular magnetic resonance can not only observe histological changes directly from the imaging when AR occurs, but also monitor and make diagnosis of AR by evaluating T2 relaxation time, cell labeling, cardiac functional parameters and morphological changes.
Ilizarov first reported the tibial transverse transport (TTT) for limb regeneration and functional reconstruction. The law of tension-stress could activate and enhance the regenerative potentials of living tissues, leading to growth or regeneration of muscles, fascia, blood vessels, and nerves simultaneously. Ilizarov discovered the phenomenon of rich vascular network formation during distraction osteogenesis process, but he did not apply this technique purposely to reconstruct microcirculation. Chinese orthopedic surgeons first used the TTT to treat lower extremity vascular lesions and diabetic foot ulcers. At present, some small sample clinical studies showed that the TTT could reconstruct microvascular network in the lower limbs of diabetic foot and promote the healing of foot ulcers. The use of TTT could significantly reduce the overall risk of diabetic foot complication especially the amputation risk. This expert consensus is initiated by the Chinese Association of Orthopaedic Surgeons (CAOS), Taskforce Group of Tibial Cortex Transverse Transport Technique for the Treatment of Diabetic Foot Ulcers. This expert consensus provides clear recommendations for indications, contraindications, principles for surgical procedures, preoperative and postoperative management, which maximize the success rate for TTT surgery in treatment of severe diabetic foot ulcers.
Abstract: Objective To summarize the clinical experience of 13 patients of tricuspid valve replacement and to investigate the indication and method. Methods From January 1994 to December 2005, the clinical datum of the thirteen patients suffering from tricuspid valve disease were reviewed, including rheumatic heart disease 6 cases, congenital heart disease 3 cases, infective endocarditis 3 cases and right ventricular tumor 1 case. All the cases underwent tricuspid valve replacement. Results Two reoperative rheumatic heart disease patients died early after operation and their cardiac function was New York Heart Association (NYHA) class Ⅳ before operation. The followup interval was 3 months to 12 years in 11 cases. There were 2 late death, one died of recurrence of infective endocarditis, and another died of the recurrence of the tumor. One Ebstein anomaly case’s NYHA functional recovered to class Ⅲ, eight cases’s recovered to NYHA classⅠ-Ⅱ. Conclusion The tricuspid valve disease may be a secondary lesion from many causes. Indication of tricuspid valve replacement must be strictly commanded. The late results of tricuspid valve mechanical prostheses replacement is satisfactory.
Objective To establish a cooperative decision-making model of county-level public hospitals, so as to freely select the best partner in different decision-making units and promote the optimal allocation of medical resources. Methods The input and output data of 10 adjacent county-level public hospitals in Henan province from 2017 to 2019 was selected. Based on the traditional data envelopment analysis (DEA) model, a generalized fuzzy DEA cooperative decision-making model with better applicability to fuzzy indicators and optional decision-making units was constructed. By inputting index information such as total number of employees, number of beds, annual outpatient and emergency volume, number of discharged patients, total income and hospital grade evaluation, the cooperation efficiency intervals of different hospitals were calculated to scientifically select the best partner in different decision-making units.Results After substituting the data of 10 county-level public hospitals in H1-H10 into the model, taking H2 hospital as an example to make cooperative decision, among the four hospitals in H1, H2, H7 and H10 of the same scale, under optimistic circumstances, the best partner of H2 hospital was H7 hospital, and the cooperation efficiency value was 1.97; in a pessimistic situation, the best partner of H2 hospital was H10 hospital, and the cooperation efficiency value was 0.98. The model had good applicability in the cooperative decision-making of county-level public hospitals. Conclusion The generalized fuzzy DEA model can better evaluate the cooperative decision-making analysis between county-level public hospitals.