Indian heart journal
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Indian heart journal · Jan 2000
Comparative StudyIntraoperative transoesophageal echocardiography in aortic valve surgery.
From January 1994 to May 1998, 272 patients underwent homograft aortic valve replacement (n = 139), Ross procedure (n = 100) and aortic valve repair (n = 33). Transoesophageal echocardiography was performed intraoperatively before and after cardiopulmonary bypass. Aortic valve morphology, aortic root diameter, pulmonary valve morphology, pulmonary annulus diameter and mitral valve morphology were assessed by two-dimensional imaging. ⋯ Post-operative transoesophageal echocardiography showed a competent aortic valve in all but four of the remaining 239 patients. Intraoperative transoesophageal echocardiography is easy to learn and provides the surgeon additional information necessary to decide a particular procedure. In addition, intraoperative transoesophageal echocardiography provides accurate assessment of the results of surgery on the table.
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Indian heart journal · Jan 2000
Profound hypothermic circulatory arrest in management of aortic aneurysms.
A total of 15 patients having aneurysms of aorta were operated from June 1997 to December 1998 using deep hypothermic circulatory arrest as a modality of brain protection. There were 12 males and 3 females. The age ranged from 19 years to 74 years and the mean age was 44.9 years. ⋯ There was one instance of left hemiparesis secondary to an infarct in right frontoparietal region. To conclude, hypothermic circulatory arrest could provide an adequate brain protection for aortic aneurysm surgery. Retrograde cerebral perfusion could be an adjuvant when the anticipated time of hypothermic circulatory arrest is likely to exceed 45 minutes.
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Indian heart journal · Sep 1999
Comparative StudyImportance of venting the left ventricle in aortic valve surgery.
Routine use of left ventricular vent is controversial in patients undergoing open heart surgery. However, surgeons use it during valvular surgery to maintain a dry field to make the operation easier. In addition it helps to prevent left ventricular distention during the critical period of rewarming and reperfusion, if ventricular function does not return immediately following the release of aortic cross clamp. ⋯ In the authors' experience, insertion of left ventricular vent through the apex is occasionally necessary to decompress the left ventricle as the left atrial vent usually fails to do so. This paper deals with retrospective analysis of the seven patients (out of a total of 395 patients who underwent valve surgery) who required insertion of left ventricular vent through the apex and reviews the beneficial effects of an apical left ventricular vent under refractory circumstances. It is recommended that insertion of left ventricular vent through apex should be strongly considered in patients having severe aortic valve disease with hypertrophied hearts, if cardiac rhythm in not restored with conventional management with left atrial vent and 3 to 5 DC shocks following the release of aortic cross clamp.