通过经过验证的基于物理的计算模型进行人工静脉瓣膜患者选择。
Prosthetic venous valve patient selection by validated physics-based computational models.
作者信息
Chen Henry Y, Berwick Zachary C, Kemp Arika, Krieger Joshua, Chambers Sean, Lurie Fedor, Kassab Ghassan S
机构信息
Department of Biomedical Engineering, IUPUI, Indianapolis, Ind; The California Medical Innovations Institute, Inc, San Diego, Calif; Department of Cellular and Integrative Physiology, Indiana University School of Medicine, Indianapolis, Ind.
The California Medical Innovations Institute, Inc, San Diego, Calif; Department of Cellular and Integrative Physiology, Indiana University School of Medicine, Indianapolis, Ind.
出版信息
J Vasc Surg Venous Lymphat Disord. 2015 Jan;3(1):75-80. doi: 10.1016/j.jvsv.2014.07.003. Epub 2014 Aug 15.
BACKGROUND
There is significant interest in a venous prosthesis to replace insufficient valves. The aim of the current study was to select the patients with hemodynamic conditions most likely to benefit from a valve implant. The hypothesis is that the venous valve prosthesis is most suitable for patients with significant reflux, such as in chronic venous insufficiency (CVI), right heart hypertrophy (RHH), and right heart failure (RHF). Conversely, a prosthetic valve is likely to be of least benefit for deep venous thrombosis (DVT) patients with low flow.
METHODS
To address this hypothesis, fully coupled fluid and solid mechanics computational models were developed and validated in five acute canine implants. The animal-validated simulations were then carried out for the CVI, RHH, RHF, and DVT patients based on literature hemodynamic data. A mechanical stress ratio of leaflet wall stress to fluid wall shear stress was defined to combine the effects of both fluid mechanics and solid mechanics on leaflet function, for which a lower stress ratio is hemodynamically desirable.
RESULTS
The simulation results of mean valve flow velocity and percentage valve opening were found to be within 10% of the measurements in canines. The simulations show that the patients in the CVI classes 4 to 6, RHH patients, and RHF patients may have a significant reduction in stress ratio with virtual implant of a prosthetic valve. The DVT patient simulations demonstrate a minimal reduction in the stress ratio. After thrombus removal where flow is restored, however, the prosthetic valve may be helpful for post-thrombotic patients.
CONCLUSIONS
For patient selections of the venous valve prosthesis, the most suitable patients are the CVI classes 4 to 6, RHH, and RHF patients. The least suitable patients are the DVT patients because a valve is not effective under low-flow conditions. The present study demonstrates a physics-based approach to patient selection that can be tested in future clinical trials.
背景
人们对用于替换功能不全瓣膜的静脉假体有着浓厚兴趣。本研究的目的是挑选出最有可能从瓣膜植入中获益的具有特定血流动力学状况的患者。假设是静脉瓣膜假体最适合患有严重反流的患者,如慢性静脉功能不全(CVI)、右心肥大(RHH)和右心衰竭(RHF)患者。相反,对于低流量的深静脉血栓形成(DVT)患者,人工瓣膜可能益处最小。
方法
为验证这一假设,开发了完全耦合的流体和固体力学计算模型,并在五个急性犬类植入实验中进行了验证。然后基于文献中的血流动力学数据,对CVI、RHH、RHF和DVT患者进行了动物实验验证的模拟。定义了瓣叶壁应力与流体壁面剪应力的机械应力比,以综合流体力学和固体力学对瓣叶功能的影响,从血流动力学角度来看,较低的应力比是理想的。
结果
发现平均瓣膜流速和瓣膜开放百分比的模拟结果与犬类测量值相差在10%以内。模拟结果表明,4至6级CVI患者、RHH患者和RHF患者在虚拟植入人工瓣膜后应力比可能会显著降低。DVT患者的模拟结果显示应力比降低幅度最小。然而,在血栓清除且血流恢复后,人工瓣膜可能对血栓形成后的患者有帮助。
结论
对于静脉瓣膜假体的患者选择,最合适的患者是4至6级CVI患者、RHH患者和RHF患者。最不合适的患者是DVT患者,因为瓣膜在低流量条件下无效。本研究展示了一种基于物理学的患者选择方法,可在未来临床试验中进行测试。
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