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find Keyword "descending aorta" 3 results
  • MULTIPLE SURGICAL TREATMENT OF COMPLEX AORTIC ARCH AND DESCENDING AORTA DISEASE

    Objective To investigate the methods and effectiveness of multi ple surgical treatment for complex aortic arch and descending aorta disease, including cardiopulmonary bypass operation, hybrid operation, and total endovascular aneurysm repair (EVAR). Methods Between October 2006 and September 2011, 48 patients with complex aortic arch anddescending aorta disease were treated. There were 31 males and 17 females, aged from 28 to 81 years (mean, 52.4 years). The disease duration ranged from 1 to 90 days (mean, 10.2 days). There were 30 cases of type B aortic dissection involving the aortic arch, 11 cases of thoracic aortic aneurysm, 3 cases of thoracic pseudoaneurysme, 3 cases of penetrating aortic ulcer, and 1 case of aortoesophageal fistula. Cardiopulmonary bypass operation, hybrid operation, and total EVAR were performed in 15, 12, and 21 cases, respectively. Results In the patients undergoing cardiopulmonary bypass operation, the following complications occurred: 1 case of bleeding, 1 case of coma, 3 cases of psychiatric disorders, 4 cases of pneumonia, 2 cases of acute renal insufficiency, and 2 cases of multi-organ dysfunction; finally 3 patients died. In the patients undergoing hybrid operation, cerebral infarction and renal function failure occurred in 1 case. In the patients undergoing total EVAR, no complication occurred. A total of 41 patients were followed up 2 to 60 months (mean, 28.6 months). Sl ight left subclavian steal syndrome occurred in 3 cases, but self rel ieved. Other patients recovered to normal l ife. Conclusion In the surgical treatments of complex aortic arch and descending aorta disease, cardiopulmonary bypass operation will be gradually replaced by EVAR because of the surgical trauma and risk, hybrid operation is an important technique, and total EVAR will be the future progress.

    Release date:2016-08-31 04:23 Export PDF Favorites Scan
  • The Impact of Mechanical Ventilation on Pulse Oximetry in Thoracic Cavity

    摘要:目的: 评价机械通气对胸腔内脉搏氧饱和度的影响。 方法 :以食道、气管和降主动脉作为胸腔内脉搏氧饱和度的监测位点,将改制后的氧饱和度探头分别固定于上述部位,并连接于同一监护仪上。纯氧通气,待上述氧饱和度容积波波形和读数稳定,停止机械通气30s。以录像的方式记录机械通气停止前后30 s内食道、气管和降主动脉SpO2容积波和读数的变化。同时记录舌SpO2。 结果 :机械通气时,食道、气管和降主动脉三个监测位点均可获得异常高大的SpO2容积波;停止通气时,异常高大的氧饱和度波形消失。食道、气管和降主动脉脉搏容积波变异率分别为112%,74%,302%。降主动脉脉搏容积波的变异率明显高于食道和气管( 〖WTBX〗P <005)。机械通气停止前后30s内食道、气管和降主动脉的SpO2读数变化无显著差异(〖WTBX〗P >005)。 结论 :机械通气对胸腔内食道、气管和降主动脉氧饱和度读数无影响,主要影响是脉搏容积波。且各位点间脉搏氧容积波受呼吸的影响不同。Abstract: Objective: To investigate the impact of mechanical ventilation on pulse oximetry in thoracic cavity. Methods : After dogs anesthesia induction and thoracotomy, pulse oximeters were simultaneously placed at esophagus, trachea, and descending aorta, and connected with the same monitor for SpO2 monitoring. During ventilation with 100% oxygen, the mechanical ventilator was temporarily switched off for 30 seconds after high quality PPG waveforms and SpO2 readings were obtained. SpO2 signals and readings from esophagus (SeO2), trachea (StraO2), descending aorta (SDAO2) shown on the monitoring screen were recorded by the SONY video before and after stopventilation. And StonO2 were also recorded. Results : Abnormally largeamplitude PPG waves were found in normal waves at monitoring sites of esophagus, trachea, and descending aorta in all animals during ventilation; however, they disappeared without ventilator. The variation rate in ventilationinduced PPG amplitude were 112%, 74%, 302% at esophagus, trachea and descending aorta respectively. The PPG amplitude variation rate from SDAO2 was higher than that from SeO2 and StraO2 (〖WTBX〗P <005). However, the SpO2 readings obtained from pulse oximetries in all sites were no significantly statistical difference within 30s before and after temporarily stopventilation (〖WTBX〗P >005). Conclusion : Abnormally amplitude PPG waveforms from oximetry probe placed at esophagus, trachea, and descending aorta were induced by ventilation. The Variation rate in ventilationinduced PPG amplitude was various at different monitoring sites. The SpO2 readings from esophagus, trachea, and descending aorta were not significantly contaminated by ventilation.

    Release date:2016-09-08 10:12 Export PDF Favorites Scan
  • Experimental study on mechanical properties of the ventral and the dorsal tissues of porcine descending aorta

    The mechanical properties of the aorta tissue is not only important for maintaining the cardiovascular health, but also is closely related to the development of cardiovascular diseases. There are obvious differences between the ventral and dorsal tissues of the descending aorta. However, the cause of the difference is still unclear. In this study, a biaxial tensile approach was used to determine the parameters of porcine descending aorta by analyzing the stress-strain curves. The strain energy functions Gasser-Ogden-Holzapfel was adopted to characterize the orthotropic parameters of mechanical properties. Elastic Van Gieson (EVG) and Sirius red stain were used to observe the microarchitecture of elastic and collagen fibers, respectively. Our results showed that the tissue of descending aorta had more orthotropic and higher elastic modulus in the dorsal region compared to the ventral region in the circumferential direction. No significant difference was found in hyperelastic constitutive parameters between the dorsal and ventral regions, but the angle of collagen fiber was smaller than 0.785 rad (45°) in both dorsal and ventral regions. The arrangement of fiber was inclined to be circumferential. EVG and Sirius red stain showed that in outer-middle membrane of the descending aorta, the density of elastic fibrous layer of the ventral region was higher than that of the dorsal region; the amount of collagen fibers in dorsal region was more than that of the ventral region. The results suggested that the difference of mechanical properties between the dorsal and ventral tissues in the descending aorta was related to the microstructure of the outer membrane of the aorta. In the relatively small strain range, the difference in mechanical properties between the ventral and dorsal tissues of the descending aorta can be ignored; when the strain is higher, it needs to be treated differently. The results of this study provide data for the etiology of arterial disease (such as arterial dissection) and the design of artificial blood vessel.

    Release date:2019-08-12 02:37 Export PDF Favorites Scan
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