Hemodynamic performance validation of customized handmade trileaflet-valved conduits using taguchi method and likelihood degree estimation

Chia Hung Lin, Xuan Hao Zhang, Neng Sheng Pai, Jian Xing Wu, Chung Dann Kan

Research output: Contribution to journalArticlepeer-review

Abstract

Transcatheter pulmonary valve replacement (TPVR) is a technique for treating valvular heart diseases or dysfunctions without the need for open-heart surgery. Commercial valve stents, such as EpicTM valved stents or mechanical heart valves, can be used to solve the problems of narrowed or leaky pulmonary valves and also to improve regurgitation flow and heart pump efficiency (HPE). However, these prosthetic valves have limitations in terms of availability, durability, and stent size for children and for meeting the needs of special subjects. To be deemed fit for new clinical cases, handmade trileaflet-valved conduits (HTVCs) provide a promising strategy for designing stents using optimal design methods for customized specifications for child and adult patients. Before clinical applications, the functions of HTVCs need to verify hemodynamic statuses, such as the regurgitation fraction (RF), HPE, and pressure drop, under different heart rates (HR), blood flow volumes, and hypertension conditions. To reduce the number of experimental tests, the Taguchi method with signal-to-noise (S/N) ratios is used to validate the assigned optimal parameter designs, which can obtain good hemodynamic performance with the desired target goals of (1) RF ≤ 20% (minimizing the objective function) and (2) HPE ≥ 80% (maximizing the objective function). In contrast to commercial valve stents, such as EpicTM valved stent and mechanical heart valve, likelihood degree estimation is also employed to quantify the degree of valve performance and verify the quality of HTVCs.

Original languageEnglish
Pages (from-to)327-343
Number of pages17
JournalSensors and Materials
Volume33
Issue number1
DOIs
Publication statusPublished - 2021 Jan

All Science Journal Classification (ASJC) codes

  • Instrumentation
  • Materials Science(all)

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