Publications

  1. Vandenberghe S., Segers P., Meyns B., Verdonck P., 2003, “Unloading effect of a rotary blood pump assessed by mathematical modeling,” Artificial organs 27: 1094–1101. doi: 10.1111/j.1525­1594.2003.07198.x

    [PubMed/NCBI]

  2. Vollkron M., Schima H., Huber L., Wieselthaler G., 2002, “Interaction of the cardiovascular system with an implanted rotary assist device: simulation study with a refined computer model,” Artificial organs 26: 349–359. doi: 10.1046/j.1525­1594.2002.06870.x

    [PubMed/NCBI]

  3. Morley D., Litwak K., Ferber P., Spence P., Dowling R., et al., 2007, “Hemodynamic effects of partial ventricular support in chronic heart failure: results of simulation validated with in vivo data,” The Journal of Thoracic and Cardiovascular Surgery 133: 21–28. doi: 10.1016/j.jtcvs.2006.07.037

    [PubMed/NCBI]

  4. Gwak KW, Ricci M, Snyder S, Paden BE, Boston JR, et al.. (2004) In­vitro evaluation of multiobjective hemodynamic control of heart­assist pump. In: Decision and Control, 2004. CDC. 43rd IEEE Conference on. IEEE, volume 1, pp. 1069–1074.

  5. Ferreira A, Boston JR, Antaki JF (2009) A control system for rotary blood pumps based on suction detection. Biomedical Engineering, IEEE Transactions on 56: 656–665. doi: 10.1109/tbme.2008.2005960

    [PubMed/NCBI]

  6. Moscato F, Arabia M, Colacino FM, Naiyanetr P, Danieli GA, et al. (2010) Left ventricle afterload impedance control by an axial flow ventricular assist device: a potential tool for ventricular recovery. Artificial Organs 34: 736–744. doi: 10.1111/j.1525­1594.2010.01066.x

    [PubMed/NCBI]

  7. Schima H, Vollkron M, Boehm H, Röthy W, Haisjackl M, et al. (2004) Weaning of rotary blood pump recipients after myocardial recovery: a computer study of changes in cardiac energetics. The Journal of Thoracic and Cardiovascular Surgery 127: 1743–1750. doi: 10.1016/j.jtcvs.2003.09.029

    [PubMed/NCBI]

  8. Suga H, Sagawa K (1974) Instantaneous pressure­volume relationships and their ratio in the excised, supported canine left ventricle. Circulation research 35: 117–126. doi: 10.1161/01.res.35.1.117

    [PubMed/NCBI]

  9. Shi Y, Korakianitis T (2006) Numerical simulation of cardiovascular dynamics with left heart failure and in­series pulsatile ventricular assist device. Artificial organs 30: 929–948. doi: 10.1111/j.1525­1594.2006.00326.x

    [PubMed/NCBI]

  10. Starling EH (1918) The Linacre lecture on the law of the heart. Longmans, Green, & Company.

  11. Sarnoff SJ, Berglund E (1954) Ventricular function i. starling’s law of the heart studied by means of simultaneous right and left ventricular function curves in the dog. Circulation 9: 706–718. doi: 10.1161/01.cir.9.5.706

    [PubMed/NCBI]

  12. Ross J, BRAUNWALD E (1964) The study of left ventricular function in man by increasing resistance to ventricular ejection with angiotensin. Circulation 29: 739–749. doi: 10.1161/01.cir.29.5.739

    [PubMed/NCBI]

  13. Farrar DJ, Compton PG, Hershon JJ, Fonger JD (1985) Right heart interaction with the mechanically assisted left heart. World journal of surgery 9: 89–102. doi: 10.1007/bf01656260

    [PubMed/NCBI]

  14. Gwak KW (2007) Application of extremum seeking control to turbodynamic blood pumps. ASAIO Journal 53: 403–409. doi: 10.1097/mat.0b013e31806ada0a

    [PubMed/NCBI]

  15. Gwak KW, Antaki JF, Paden BE, Kang B (2011) Safety­enhanced optimal control of turbodynamic blood pumps. Artificial Organs 35: 725–732. doi: 10.1111/j.1525­1594.2011.01230.x

    [PubMed/NCBI]

  16. Ursino M (1998) Interaction between carotid baroregulation and the pulsating heart: a mathematical model. American Journal of Physiology­Heart and Circulatory Physiology 275: H1733–H1747.

    [PubMed/NCBI]

  17. Ferreira A, Boston JR, Antaki JF (2007) A rule­based controller based on suction detection for rotary blood pumps. In: Engineering in Medicine and Biology Society, 2007. EMBS 2007. 29th Annual International Conference of the IEEE. IEEE, pp. 3978–3981.

  18. Hall JE (2010) Guyton and Hall Textbook of Medical Physiology: Enhanced E­book, Elsevier Health Sciences, chapter 9. p. 110.

  19. Shroff SG, Janicki JS, Weber KT (1985) Evidence and quantitation of left ventricular systolic resistance. American Journal of Physiology­Heart and Circulatory Physiology 249: H358–H370.

    [PubMed/NCBI]

  20. Chung D, Niranjan S, Clark J, Bidani A, Johnston W, et al. (1997) A dynamic model of ventricular interaction and pericardial inuence. American Journal of Physiology­Heart and Circulatory Physiology 272: H2942–H2962.

    [PubMed/NCBI]

  21. Choi S (1998) Modeling and control of left ventricular assist system. Ph.D. thesis, Ph. D. Dissertation, University of Pittsburgh.

  22. Nair PK, Kormos RL, Teuteberg JJ, Mathier MA, Bermudez CA, et al. (2010) Pulsatile left ventricular assist device support as a bridge to decision in patients with end­stage heart failure complicated by pulmonary hypertension. The Journal of Heart and Lung Transplantation 29: 201–208. doi: 10.1016/j.healun.2009.09.013

    [PubMed/NCBI]

  23. Fitzpatrick JR III, Frederick JR, Hiesinger W, Hsu VM, McCormick RC, et al. (2009) Early planned institution of biventricular mechanical circulatory support results in improved outcomes compared with delayed conversion of a left ventricular assist device to a biventricular assist device. The Journal of thoracic and cardiovascular surgery 137: 971–977. doi: 10.1016/j.jtcvs.2008.09.021

    [PubMed/NCBI]

  24. Matthews JC, Koelling TM, Pagani FD, Aaronson KD (2008) The right ventricular failure risk scorea pre­operative tool for assessing the risk of right ventricular failure in left ventricular assist device candidates. Journal of the American College of Cardiology 51: 2163–2172. doi: 10.1016/j.jacc.2008.03.009

    [PubMed/NCBI]

  25. Kormos RL, Teuteberg JJ, Pagani FD, Russell SD, John R, et al. (2010) Right ventricular failure in patients with the heartmate ii continuous­flow left ventricular assist device: incidence, risk factors, and effect on outcomes. The Journal of thoracic and cardiovascular surgery 139: 1316–1324. doi: 10.1016/j.jtcvs.2009.11.020

    [PubMed/NCBI]

  26. Dang N.C., Topkara V.K., Mercando M., Kay J., Kruger K.H., et al. (2006), “Right heart failure after left ventricular assist device implantation in patients with chronic congestive heart failure,” The Journal of heart and lung transplantation, 25: 1–6. doi: 10.1016/j.healun.2005.07.008

    [PubMed/NCBI]

  27. Fitzpatrick JR III, Frederick JR, Hsu VM, Kozin ED, O’Hara ML, et al. (2008) Risk score derived from pre­ operative data analysis predicts the need for biventricular mechanical circulatory support. The Journal of Heart and Lung Transplantation 27: 1286–1292. doi: 10.1016/j.healun.2008.09.006

    [PubMed/NCBI]

  28. Carey CF, Lee HH, Woeltje KF, Schaiff RA, et al.. (1998) The Washington Manual of Medical Therapeutics: Department of Medicine, Washington University School of Medicine, St. Louis, Missouri. Lippincott Williams and Wilkins.

  29. Kormos RL, Borovetz HS, Gasior T, Antaki JF, Armitage JM, et al. (1990) Experience with univentricular support in mortally ill cardiac transplant candidates. The Annals of thoracic surgery 49: 261–272. doi: 10.1016/0003­4975(90)90148­y

    [PubMed/NCBI]

  30. Kovacs G, Berghold A, Scheidl S, Olschewski H (2009) Pulmonary arterial pressure during rest and exercise in healthy subjects: a systematic review. European Respiratory Journal 34: 888–894. doi: 10.1183/09031936.00145608

    [PubMed/NCBI]

  31. Nordenfelt I, Adolfsson L, Nilsson J, Olsson S (1985) Reference values for exercise tests with continuous increase in load. Clinical Physiology 5: 161–172. doi: 10.1111/j.1475­097x.1985.tb00592.x [PubMed/NCBI]
  32. Ehrsam RE, Perruchoud A, Oberholzer M, Burkart F, Herzog H, et al. (1983) Inuence of age on pulmonary hemodynamics at rest and during supine exercise. Clin Sci (Lond) 65: 653–660.

    [PubMed/NCBI]

  33. Zaret B, Battler A, Berger H, Bodenheimer M, Borer J, et al. (1984) Report of the joint international society and federation of cardiology/world health organization task force on nuclear cardiology. European Heart Journal 5: 850–863.

    [PubMed/NCBI]

  34. Thadani U, Parker JO (1978) Hemodynamics at rest and during supine and sitting bicycle exercise in normal subjects. The American journal of cardiology 41: 52–59. doi: 10.1016/0002­9149(78)90131­5

    [PubMed/NCBI]

  35. Slaughter MS, Rogers JG, Milano CA, Russell SD, Conte JV, et al. (2009) Advanced heart failure treated with continuous­ow left ventricular assist device. New England Journal of Medicine 361: 2241–2251. doi: 10.1056/nejmoa0909938

    [PubMed/NCBI]

  36. Simon MA, Primack BA, Teuteberg J, Kormos RL, Bermudez C, et al. (2010) Left ventricular remodeling and myocardial recovery on mechanical circulatory support. Journal of cardiac failure 16: 99–105. doi: 10.1016/j.cardfail.2009.10.018

    [PubMed/NCBI]

  37. Maybaum S (2011) Cardiac recovery during continuous­ow left ventricular assist device support some good news from across the atlantic. Circulation 123: 355–357. doi: 10.1161/circulationaha.110.005199

    [PubMed/NCBI]

  38. Kass DA, Beyar R, Lankford E, Heard M, Maughan WL, et al. (1989) Inuence of contractile state on curvilinearity of in situ end­systolic pressure­volume relations. Circulation 79: 167–178. doi: 10.1161/01.cir.79.1.167

    [PubMed/NCBI]

  39. Little W, Cheng C, Peterson T, Vinten­Johansen J (1988) Response of the left ventricular endsystolic pressure­volume relation in conscious dogs to a wide range of contractile states. Circulation 78: 736–745. doi: 10.1161/01.cir.78.3.736

    [PubMed/NCBI]

  40. Burkhoff D, Sugiura S, Yue DT, Sagawa K (1987) Contractility­dependent curvilinearity of endsystolic pressure­volume relations. American Journal of Physiology­Heart and Circulatory Physiology 252: H1218–H1227.

    [PubMed/NCBI]

  41. Katz AM (2008) The modern view of heart failure how did we get here? Circulation: Heart Failure 1: 63–71. doi: 10.1161/circheartfailure.108.772756

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  42. Stevenson LW, Tillisch J (1986) Maintenance of cardiac output with normal filling pressures in patients with dilated heart failure. Circulation 74: 1303–1308. doi: 10.1161/01.cir.74.6.1303

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  43. Palardy M, Stevenson LW, Tasissa G, Hamilton MA, Bourge RC, et al. (2009) Reduction in mitral regurgitation during therapy guided by measured filling pressures in the escape trial. Circulation: Heart Failure 2: 181–188. doi: 10.1161/circheartfailure.108.822999

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  44. Gorcsan III J, Severyn D, Murali S, Kormos RL (2003) Non­invasive assessment of myocardial recovery on chronic left ventricular assist device: results associated with successful device removal. The Journal of heart and lung transplantation 22: 1304–1313. doi: 10.1016/s1053­2498(03)00056­1

    [PubMed/NCBI]

  45. Lisy O, Redfield MM, Jovanovic S, Jougasaki M, Jovanovic A, et al. (2000) Mechanical unloading versus neurohumoral stimulation on myocardial structure and endocrine function in vivo. Circulation 102: 338–343. doi: 10.1161/01.cir.102.3.338

    [PubMed/NCBI]

  46. Nakatani S, McCarthy PM, Kottke­Marchant K, Harasaki H, James KB, et al. (1996) Left ventricular echocardiographic and histologic changes: impact of chronic unloading by an implantable ventricular assist device. Journal of the American College of Cardiology 27: 894–901. doi: 10.1016/0735­1097(95)00555­-2

    [PubMed/NCBI]

  47. Soloff LA, Margulies KB, Dipla K, Mattiello JA, Houser SR, et al. (1999) Atrophy of myocardium and its myocytes by left ventricular assist device response. Circulation 100: 1011–1015.

    [PubMed/NCBI]

  48. Kinoshita M, Takano H, Taenaka Y, Mori H, Takaichi S, et al. (1988) Cardiac disuse atrophy during lvad pumping. ASAIO Journal 34: 208–212

    [PubMed/NCBI]

  49. Rose AG, Park SJ, Bank AJ, Miller LW (2000) Partial aortic valve fusion induced by left ventricular assist device. The Annals of thoracic surgery 70: 1270– 1274. doi: 10.1016/s0003­4975(00)01929­9

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