Abstract

The incidence of congenital heart defects is 1 percent with 20 percent of these incidences corresponding to complex congenital lesions with only one effective pumping chamber; the latter are termed single ventricle heart defects. These statistics show that 2 babies out of every 1,000 births will be born with a single ventricle. Surgical treatment for these defects consists of bypassing the right side of the heart and connecting the systemic and pulmonary circulations in series with the univentricular pump. Patients who survive surgery require lifelong, intensive medical attention. Cardiologists report that the 20 percent of their caseload consisting of such patients requires over 50 percent of their time; this underscores the gravity of problems in patients as well as the need for improvements in existing treatment methods. The current surgical procedure of choice for patients with a single ventricle is the total cavopulmonary connection (TCPC). The central hypothesis for this Multi-Institutional BRP Project is that development of pre-operative computer-based surgical design methods will advance the state-of-the-art in clinical treatment of single-ventricle patients and improve their quality of life. The development of these methods will be guided by six specific aims: (i) development of baseline TCPC surgical templates based on fluid dynamic assessments of various TCPC configurations; (ii) study the impact of graft materials on local fluid dynamics following TCPC; (iii) compile anatomic and materials databases for validating computer-based surgical planning and design protocols; (iv) improve surgical planning and design through development of computer-based simulation tools facilitating prediction of potential post-operative flow conditions in any given patient; (v) investigate improvements in post-TCPC hemodynamics achieved by treating congenital abnormalities associated with the ascending aorta; (vi) determine the feasibility of reducing post-TCPC central venous pressure using a pressure regulator/pump.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL067622-04
Application #
6910005
Study Section
Special Emphasis Panel (ZRG1-SB (03))
Program Officer
Evans, Frank
Project Start
2002-07-01
Project End
2007-06-30
Budget Start
2005-07-01
Budget End
2006-06-30
Support Year
4
Fiscal Year
2005
Total Cost
$1,043,017
Indirect Cost

  Institution

Name
Georgia Institute of Technology
Department
Engineering (All Types)
Type
Schools of Engineering
DUNS #
097394084
City
Atlanta
State
GA
Country
United States
Zip Code
30332

  Publications

Wei, Zhenglun Alan; Tree, Michael; Trusty, Phillip M et al. (2018) The Advantages of Viscous Dissipation Rate over Simplified Power Loss as a Fontan Hemodynamic Metric. Ann Biomed Eng 46:404-416
Tree, Michael; Wei, Zhenglun Alan; Trusty, Phillip M et al. (2018) Using a Novel In Vitro Fontan Model and Condition-Specific Real-Time MRI Data to Examine Hemodynamic Effects of Respiration and Exercise. Ann Biomed Eng 46:135-147
Trusty, Phillip M; Slesnick, Timothy C; Wei, Zhenglun Alan et al. (2018) Fontan Surgical Planning: Previous Accomplishments, Current Challenges, and Future Directions. J Cardiovasc Transl Res 11:133-144
Wei, Zhenglun Alan; Trusty, Phillip M; Tree, Mike et al. (2017) Can time-averaged flow boundary conditions be used to meet the clinical timeline for Fontan surgical planning? J Biomech 50:172-179
Wei, Zhenglun; Whitehead, Kevin K; Khiabani, Reza H et al. (2016) Respiratory Effects on Fontan Circulation During Rest and Exercise Using Real-Time Cardiac Magnetic Resonance Imaging. Ann Thorac Surg 101:1818-25
Vallecilla, Carolina; Khiabani, Reza H; Trusty, Phillip et al. (2015) Exercise capacity in the Bidirectional Glenn physiology: Coupling cardiac index, ventricular function and oxygen extraction ratio. J Biomech 48:1997-2004
Haggerty, Christopher M; Whitehead, Kevin K; Bethel, James et al. (2015) Relationship of single ventricle filling and preload to total cavopulmonary connection hemodynamics. Ann Thorac Surg 99:911-7
Khiabani, Reza H; Whitehead, Kevin K; Han, David et al. (2015) Exercise capacity in single-ventricle patients after Fontan correlates with haemodynamic energy loss in TCPC. Heart 101:139-43
Restrepo, Maria; Luffel, Mark; Sebring, Jake et al. (2015) Surgical planning of the total cavopulmonary connection: robustness analysis. Ann Biomed Eng 43:1321-34
Restrepo, Maria; Tang, Elaine; Haggerty, Christopher M et al. (2015) Energetic implications of vessel growth and flow changes over time in Fontan patients. Ann Thorac Surg 99:163-70

Showing the most recent 10 out of 60 publications