Patents and heart valve surgery--I: mechanical valves.

Faisal H Cheema, Nasir Hussain, Alexander P Kossar, Gianluca Polvani
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引用次数: 7

Abstract

Valvular heart disease, inherited or acquired, affects more than 5 million Americans yearly. Whereas medical treatment is beneficial in the initial stages of valvular heart disease, surgical correction provides symptomatic relief and long-term survival benefits. Surgical options include either repair or replacement using mechanical or bio-prosthetic valves. Patient age and the post-operative need for anticoagulation therapy are major determinants of the choice between use of mechanical or bio-prosthetic valves. Since the first mechanical valves were made available several decades ago, the incorporation of increasingly sophisticated materials and methodologies has led to substantial improvements in the valve design, and has catalyzed a parallel increase in the amount of patents issued for these emerging technologies. In this paper, we have chronologically reviewed such patents, briefly discussed various challenges that mechanical heart valve implementation is faced with and finally reviewed some of the strategies employed to overcome such obstacles. An ideal prosthetic heart valve would comprehensively mimic the natural hemodynamics and physiology of the native heart valve. Additionally, such a valve would be easily implantable, associated with a minimal risk of thrombosis and thus need for anti-coagulation, and with a proven long-term durability. With cutting edge technological advancements in the recent times, the ongoing innovative and collaborative efforts of physicians, scientists, and engineers will not seize until an ideal mechanical heart valve becomes a reality.

心脏瓣膜手术专利——ⅰ:机械瓣膜。
每年有超过500万美国人罹患遗传性或后天瓣膜病。尽管药物治疗在瓣膜性心脏病的初始阶段是有益的,但手术矫正可以缓解症状并有利于长期生存。手术选择包括使用机械或生物假体瓣膜进行修复或置换。患者的年龄和术后抗凝治疗的需要是选择使用机械瓣膜还是生物瓣膜的主要决定因素。自从几十年前第一个机械阀门问世以来,越来越复杂的材料和方法的结合导致了阀门设计的实质性改进,并催化了这些新兴技术专利数量的平行增加。在本文中,我们按时间顺序回顾了这些专利,简要讨论了机械心脏瓣膜实施面临的各种挑战,最后回顾了克服这些障碍所采用的一些策略。理想的人工心脏瓣膜应全面模仿天然心脏瓣膜的自然血流动力学和生理机能。此外,这种瓣膜易于植入,血栓形成的风险最小,因此不需要抗凝,并且具有长期耐用性。随着近年来尖端技术的进步,医生、科学家和工程师的不断创新和合作努力将不会抓住,直到理想的机械心脏瓣膜成为现实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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