ObjectiveTo evaluate the effectiveness of vascularized fibula reconstruction in treatment of distal tibial malignant and invasive tumors.MethodsBetween March 2012 and January 2018, 11 patients with distal tibial malignant and invasive tumors were treated with vascularized fibula reconstruction. There were 7 males and 4 females with an average age of 20 years (range, 16-39 years). There were 8 cases of osteosarcoma, 2 cases of invasive giant cell tumor of bone, and 1 case of hemangioendothelioma. The tumors were rated as benign stage 3 in 2 cases and malignant stageⅠA in 1 case, stageⅡA in 4 cases, and stage ⅡB in 4 cases according to the Enneking staging. The disease duration was 1-6 months (mean, 2.7 months). The limb function was evaluated by Musculoskeletal Tumor Society (MSTS) score, and the distal and proximal union of the transplanted fibula and the diameter of the fibula were examined by imaging.ResultsAll incisions healed by first intention. All patients were followed up 16-85 months (mean, 41 months). No tumor recurrence or metastasis occurred during the follow-up. The proximal and distal grafts in the 10 cases showed osseous healing, and the healing time was 7-12 months (mean, 10.1 months) at proximal end and 7-12 months (mean, 9.3 months) at distal end. In 1 case, the proximal end did not heal at 19 months, while the distal end healed at 13 months; proximal bone grafting was performed, and the proximal end healed. Among the 4 patients with distal screw fixation, 2 had peri-internal fixation fractures after graft healing, but no skin necrosis or infection occurred. All the 7 patients with distal steel plate fixation had no peri-internal fixation fracture, but 1 patient developed anterior tibial skin necrosis. At 12 months after operation, the diameter of fibula increased 1-5 mm (mean, 2.4 mm) by compared with that before operation. The MSTS score was 17-27 (mean, 22.8).ConclusionReconstruction of ankle joint with vascularized fibula can achieve satisfactory functional results, which is one of the feasible and worthy methods for the distal tibial malignant and invasive tumors.
OBJECTIVE To investigate the mechanism of necrosis of avulsion injured skin flap. METHODS Six swine were used. An avulsed skin flap and traditional island flap were made on each hind leg of the swine respectively, and the latter was used as control. Then the microvascular casting of each flap was made routinely immediately following the injury and 72 hours later, and the vascular casting were observed under electron microscopic scanning. RESULTS There were three characteristic changes in the avulsed skin flap: tearing of blood vessels, formation of complete thrombosis and incomplete thrombosis. If these changes were excessive in the avulsed flap, then the necrosis was the result, otherwise, the flap survived. CONCLUSION The necrosis of avulsed flap was related to the type and extent of the damage of microvascular endothelial structure. So the degree of endothelial damage was the keypoint in the viability of avulsed flap.
PURPOSE:To investigate the spatial and temporal relation of fibronectin(Fn),basic fibroblast growth factor(b-FGF)and astrocytes with the retinal vascular developmemt of human fatuses. METHODS:The retinas of 86 human fetuses from 13th week to 40th week were studied by immunohistochemical methods and light microscopy. RESULTS:Fn immunoreativity was localized in spindle cells ,vascular endothelial cells and extracellular matrix ahead of the spindle cells,vascular endothelial cells,ganglion cells and cone cells were b-FGF immunopositive. The b-FGF immunoreactivity in ganglion cells and cone cells appeared earlier than the vascularization nearby.Astrocytes migrated to ora serrata in close association with the spindle cells.and sent numerous processes to ensheath the blood vessels formed in two processes of retinal vascuiarlzation. CONCLUSION:These results suggest that Fn ,b-FGF and astrocytes were involved in modulating both of two processes of retinal vascularizalion. (Chin J Ocul Fundus Dis,1996,12:180-182)
From April 1984 to March 1994, 31 reconstructive thumbs or fingers were followedup, including 16 cases with free neurovascular big toe nail skin flap and frozen preserved phalanxjointtendon composite allografts as well as 15 cases withfree second toe transfer. The method had the advantage of more fingers could bereconstructed and fewer toes would be lost. The decision of the site of reconstruction of finger, the augmentation of narrow web space between the thumb and the index finger, the prevention and treatment of vascular crisis and the degeneration of allogenic joint were discussed. It had been found that preserving the allogenic finger below -30℃ may lower the immunoreaction of the allogenic tissues. It was emphasized that the viable tissues should be preserved during the emergency debridement, so as to facilitate the following reconstruction procedure.
ObjectiveTo explore the progresses of diagnosis and treatment for endoleaks after endovascular repair of abdominal aortic aneurysm (EVAR). MethodsThe literatures on studying the classification, diagnosis and management, risk factor, and treatment for the endoleaks after EVAR were reviewed and analyzed. ResultsEndoleak was a common and particular complication after EVAR and its represented persistence meant failure of the EVAR treatment. Accurate detection and classification were essential for the proper management and the treatment method for the endoleak was determined by the different source. Type Ⅰ and type Ⅲ endoleak required urgent treatment, type Ⅱ and type Ⅴ were considered less urgently but may be observed continuously. A variety of techniques including extension endografts or cuff, balloon angioplasty, bare stents, and a combination of transvascular and direct sac puncture embolization techniques were allowed to treat the vast majority of these endoleaks. ConclusionsEndoleak after EVAR is still the main clinical problem to be solved. The characters of endoleak still are not fully revealed. The diagnosis and treatment remained equivocal, which requires further study.
In order to study the curative effect of vascularized bone graft in the treatment of avascular necrosis of talus, 24 patients were treated with vascularized bone grafts, in which 9 cases had received 1st cuneiform bone graft with a malleolaris anteriomedialis, 4 cases with the 1st cuneiform bone graft with the medial tarsal artery and 11 cases with vascularized cuboid bone graft with the lateral tarsal artery. All of the patients were followed up for 3-5.5 years. The clinical observation and X-ray examination showed that function of the ankle joint was completely or almost normal in 16 cases, and the bone repair was excellent. There was slight pain in the ankle joint in 4 cases. The efficiency rate of the treatment was 83.3%. It could be concluded that vascularized bone graft might be an effective method in the treatment of avascular necrosis of talus.
Composite grafting techniques is a commonly used strategy in coronary artery bypass grafting,especially suits elderly patients.It is an attractive myocardial revascularization strategy when the grafts are not sufficient to achieve complete myocardial revascularization.Furthermore,composite grafting in the presence of a diseased aortic wall seems a rational approach to reduce the incidene of postoperative neurological deficit or stroke by avoiding the manipulation of atherosclerotic aorta.Also,it gained excellent short and midterm results.This review provides an overview of the various surgical techniques,outcomes,concerns and controversies associated with composite grafting.
Cardiovascular diseases is the leading cause of threat to human life and health worldwide. Early risk assessment, timely diagnosis, and prognosis evaluation are critical to the treatment of cardiovascular diseases. Currently, the evaluation of diagnosis and prognosis of cardiovascular diseases mainly relies on imaging examinations such as coronary CT and coronary angiography, which are expensive, time-consuming, partly invasive, and require high professional competence of the operator, making it difficult to promote in the community or in areas where medical resources are scarce. The fundus microcirculation is a part of the human microcirculation and has similar embryological origins and physiopathological features to cardiovascular circulation. Several studies have revealed fundus imaging biomarkers associated with cardiovascular diseases, and developed and validated intelligent diagnosis and treatment models for cardiovascular diseases based on fundus imaging data. Fundus imaging is expected to be an important adjunct to cardiovascular disease diagnosis and treatment given its noninvasive and convenient nature. The purpose of this review is to summarize the current research status, challenges, and future prospects of the application of artificial intelligence based on multimodal fundus imaging data in cardiovascular disease diagnosis and treatment.
OBJECTIVE: To investigate the clinical results of transposition of muscular skeletal flap pedicled with straight head of rectus femoris for treatment of avascular necrosis of adult femoral head. METHODS: Eight patients with avascular necrosis of femoral head were adopted in this study. There were 6 males and 2 females, the ages were ranged from 24 to 56 years. According to the criteria of Ficat, there were 5 cases in stage II and 3 cases in stage III. The Smith-Peterson incision was used to expose the capsule of the hip. After complete curettage of the necrotic bone from the femoral head, the muscular skeletal flap pedicled with straight head of rectus femoris was resected and transposited into femoral head. Finally, conventional decompression of head was performed. RESULTS: All the cases were followed up for 1 to 3 years. There were excellent results in 5 cases, good in 2 cases and moderate in 1 case. The rate of excellent and good results were 87.5%. CONCLUSION: Comparing with other pedicled bony flaps, the muscular skeletal flap pedicled with straight head of rectus femoris is characterized by its convenience and efficacy. It is suitable for the treatment of avascular necrosis of femoral head in stage II or III, but the contour of the femoral head should be nearly normal.
Pulse waves contain rich physiological and pathological information of the human vascular system. The pulse wave diagnosis systems are very helpful for the clinical diagnosis and treatment of cardiovascular diseases. Accurate pulse waveform is necessary to evaluate the performances of the pulse wave equipment. However, it is difficult to obtain accurate pulse waveform due to several kinds of physiological and pathological conditions for testing and maintaining the pulse wave acquisition devices. A pulse wave generator was designed and implemented in the present study for this application. The blood flow in the vessel was simulated by modeling the cardiovascular system with windkessel model. Pulse waves can be generated based on the vascular systems with four kinds of resistance. Some functional models such as setting up noise types and signal noise ratio (SNR) values were also added in the designed generator. With the need of portability, high speed dynamic response, scalability and low power consumption for the system, field programmable gate array (FPGA) was chosen as hardware platform, and almost all the works, such as developing an algorithm for pulse waveform and interfacing with memory and liquid crystal display (LCD), were implemented under the flow of system on a programmable chip (SOPC) development. When users input in the key parameters through LCD and touch screen, the corresponding pulse wave will be displayed on the LCD and the desired pulse waveform can be accessed from the analog output channel as well. The structure of the designed pulse wave generator is simple and it can provide accurate solutions for studying and teaching pulse waves and the detection of the equipments for acquisition and diagnosis of pulse wave.