Draft:Zain Khalpey

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Here's the updated Wikipedia page for Dr. Zain Khalpey, incorporating the press releases, theses, and filed patents sections:

About

This page is about Dr. Zain Khalpey, a cardiothoracic surgeon and medical innovator. For other uses, see other people with the name Khalpey.

Zain Khalpey (born in Zimbabwe) is an American cardiothoracic surgeon, medical innovator, and professor known for his pioneering work in robotic cardiac surgery, artificial intelligence in medicine, and organ regeneration. He currently serves as the Director of Robotic Cardiac Surgery and Director of Artificial Heart, Mechanical Circulatory Support, and Extracorporeal Life Support at HonorHealth in Scottsdale, Arizona. Khalpey has made significant contributions to the fields of cardiothoracic surgery, xenotransplantation, and regenerative medicine through his research, innovations, and clinical work.

Early Life and Education

Khalpey received his M.B., B.S. (Hons) degree from the University of London in 1998, where he was the valedictorian of his class.[1] In 1995, he earned a B.Sc. (Hons) in Pathology, graduating summa cum laude from the University of London.[1] Khalpey completed his Ph.D. in Cardiothoracic Surgery, Bioenergetics and Cardiac Transplantation at Imperial College London in 2012.[1] His doctoral research was conducted in collaboration with the University of Gdansk, Mayo Clinic, and Harvard University.[1]

Medical Training

Khalpey underwent clinical training and residencies in the United Kingdom from 1998 to 2003.[1] He completed an integrated residency in General & Cardiothoracic Surgery at Brigham and Women's Hospital and Harvard Medical School from 2005 to 2012.[1] In 2012, Khalpey pursued an Advanced Heart Failure & Mechanical Circulatory Support Fellowship at Columbia University.[1]

Academic Appointments

Khalpey has held several academic appointments throughout his career. From 2012 to the present, he has been an Adjunct Assistant Professor in the Department of Surgery at Columbia University.[1] Between 2013 and 2018, he was an Associate Professor of Surgery and other departments at Banner University Medical Center.[1] Currently, Khalpey serves as the Director of Robotic Cardiac Surgery and Director of Artificial Heart, Mechanical Circulatory Support, and Extracorporeal Life Support at HonorHealth in Scottsdale, Arizona.[1]

Clinical Work and Innovations

Khalpey is known for his pioneering work in robotic cardiac surgery and the application of artificial intelligence in medicine.[2] He has served as the director of various cardiothoracic surgery programs and has performed innovative procedures such as the first North American 50cc Total Artificial Heart implant.[3]

Research and Publications

Khalpey has made significant contributions to the fields of cardiothoracic surgery, xenotransplantation, and regenerative medicine through his extensive research.[4][5] He has published over 150 original research articles in peer-reviewed journals, accumulating more than 6,200 citations.[1] His h-index is 34.[1] Khalpey has also filed several patents related to ventricular assist devices and other medical innovations.[6]

Awards and Honors

Throughout his career, Khalpey has received numerous awards and honors. These include the Hunterian Medal,[1] Fulbright Distinguished Chair,[1] and the Arizona Strong Award.[1] He has been inducted into the Leading Physicians of the World.[1]

Professional Memberships and Service

Khalpey is a Fellow of the American College of Surgeons and the European Board of Thoracic and Cardiovascular Surgeons.[1] He has served on committees for organizations such as the American Heart Association, UNOS, and the International Society for Mechanical Circulatory Support.[1]

Published Abstracts and Presentations (Regional, National, International)

Khalpey has presented his research at numerous regional, national, and international conferences.[7][8] A selection of his presentations can be found in the references section.

Books (Monographs, Manuals, and Textbooks)

Khalpey has authored and co-authored several books, including:

  • The AI Prescription – Transformative Algorithms in Healthcare (2024, under revision)[9]
  • Cardiac Surgery in the Adult: Pocket Companion for the Boards (2011)[10]
  • BWH Cardiac Surgery Manual (2007)[11]
  • BWH Burns Manual (2006)[12]
  • Pastest: Passing the MRCS VIVA II (2005)[13]

Theses

BSc (Hon) First Class

  1. Khalpey Z: Antioxidants and in vitro and in vivo cytoprotective effects on cells exposed to cytotoxic acetaldehyde-albumin complexes. Imperial College of Science, Technology and Medicine. University of London. (Supervisor: Professor SN Wickramasinghe, St Mary's Hospital, London, UK)[14]

PhD

  1. Khalpey Z: Mammalian Mismatches in Nucleotide Metabolism: Implications for Transplantation. (Supervisor: Professor Sir Magdi Yacoub and Dr Tom Smolenski)[15]

Filed Patents

  1. Khalpey Z, Kushwaha S (co-inventor): Ventricular Assist Device and Method. U.S. Patent Application No: 15/121,708. National Phase of PCT/US15/17499. Our Ref.: 31960/48269A[16]
  2. Khalpey Z, Kushwaha S (co-inventor): Ventricular Assist Device and Method. European Patent Application No. 15755879.2. National Phase of PCT/US15/17499. Our Ref.: 31960/48269/EP[17]
  3. Khalpey Z, Kushwaha S (co-inventor): Ventricular Assist Device and Method. Hong Kong Patent Application No. 17106678.7. National Phase of PCT/US15/17499. Our Ref.: 31960/48269/HK[18]
  4. Khalpey Z. Method for treating cardiac conditions with placental-derived products. US patent EFS ID 40245199, Application #63/064251, 11th August 2021[19]

Filed Provisional Patents

  1. Khalpey Z, Frankman, Z, Slepian M. Linear Peristaltic Pump. UA18-041. License negotiation – Clemson University[20]
  2. Khalpey Z, Frankman Z, Bull D, Slepian M. Left Ventricular Trans-Apical Dual Lumen Cannula. UA18-050. License negotiation - LivaNova[21]
  3. Khalpey Z, Frankman Z, Slepian M. Dual Chamber Left Atrio-Ventricular Cannula. UA18-051. License negotiation - Abbot[22]
  4. Khalpey Z, Frankman Z, Bull D, Slepian M. Universal Left Ventricular Apical Ring. UA18-052. License negotiation – LivaNova[23]
  5. Khalpey Z, Frankman, Z. Known Depth-of-Cut Cylindrical Knife. UA18-054[24]
  6. Khalpey Z, Runyan R, Konhilas J, Slepian M. Concurrent Injection of Biomaterial Improves Efficacy of TMR Therapy. UA18-086. License pending – AmnioCor LLC, CryoLife[25]
  7. Khalpey Z, Konhilas J, Runyan R, Slepian M. A Method to Treat Post-Operative Atrial Fibrillation in Patients Undergoing Cardiac Bypass Surgery. UA17-252. License pending – AmnioCor LLC[26]
  8. Khalpey Z, Runyan R, Borkowski T. A novel method for coupling CD73 and/or CD39 on aortic valves to reduce calcification and inflammatory infiltration. UA17-196. License negotiation – Edwards LifeSciences[27]

Press Releases

Khalpey's work has been featured in numerous press releases. A selection of these can be found in the references section.[28][29]


External Links


References

  1. ^ a b c d e f g h i j k l m n o p q r Eric, Topol (2012-10-01). "Curriculum Vitae Eric J. Topol, M.D" (PDF). stsiweb.org. Archived (PDF) from the original on 2013-01-20. Retrieved 2018-02-14.
  2. ^ Khalpey, Z., Kumar, U., Aslam, U., Krauthammer, Y., & Doshi, R. (2024). Revolutionizing Atrial Fibrillation Treatment: The Robotic Convergent Plus Procedure. Cureus, 16(4), e57835. DOI: 10.7759/cureus.57835. PMID: 38590983, PMCID: PMC11000685
  3. ^ Ferng AS, Oliva I, Jokerst C, Avery R, Connell AM, Tran PL, Smith RG, Khalpey Z. Translation of First North American 50 and 70 cc Total Artificial Heart Virtual and Clinical Implantations: Utility of 3D Computed Tomography to Test Fit Devices. Artif Organs. 2017 Aug; 41(8):727-734.
  4. ^ Kumar, U., Aslam, U., Mancuso, D. L., & Khalpey, Z. (2024). Anomalous Right Coronary Artery With Interarterial Course: Risk Stratification and Surgical Decision-Making Using Coronary Computed Tomography Angiography-Derived Fractional Flow Reserve. Cureus Journal of Medical Science, 16(4), e58885. DOI: 10.7759/cureus.58885
  5. ^ Kumar, U., Macko, A. R., Kang, N., Darian, N. G., Salek, F. O., & Khalpey, Z. (2024). Perioperative Cannabinoids Significantly Reduce Postoperative Opioid Requirements in Patients Undergoing Coronary Artery Bypass Graft Surgery. Cureus, 16(4), e58566. DOI: 10.7759/cureus.58566
  6. ^ Khalpey Z, Kushwaha S (co-inventor): Ventricular Assist Device and Method. U.S. Patent Application No: 15/121,708. National Phase of PCT/US15/17499. Our Ref.: 31960/48269A
  7. ^ Khalpey, Z., Kumar U, Khalpey, A. Revolutionizing Surgical Education: Can Artificial Intelligence (AI) Outperform Human Experts in Cardiothoracic Surgery Board Exams?; Society for Cardiothoracic Surgery (SCTS) 2024. March 19, 2024. Cardiff, UK.
  8. ^ Kumar U., Macko A., Deckwa J., Suri Y., Kang N., Alrashed M., Darian N., Salek F., Khalpey Z.; Peri-operative Cannabinoids Significantly Reduce Postoperative Opioid Requirement in Cardiac Surgery Patients; SCTS 2024. March 18, 2024. Cardiff, UK.
  9. ^ Khalpey, A. H., & Khalpey, Z. (2024). The AI Prescription – Transformative Algorithms in Healthcare. Penguin. (Under revision/editing)
  10. ^ Khalpey Z, Cohn LH. Cardiac Surgery in the Adult: Pocket Companion for the Boards. Cardiac Surgery in The Adult. 4th Edition Published 2011 Dec 16 (under submission)
  11. ^ Khalpey Z, Hardy J, Rawn J. BWH Cardiac Surgery Manual. Online and print: Department of Cardiac Surgery, Brigham and Women's Hospital, Harvard Medical School, Boston, USA; July 2007
  12. ^ Khalpey Z, Colin-Durand. BWH Burns Manual. In print (revision): Department of Burns and Plastic Surgery, Brigham and Women's Hospital, Harvard Medical School, Boston, USA; Dec 2006
  13. ^ Khalpey Z, Chan C. Pastest: Passing the MRCS VIVA II. 2nd London: Churchill; 2005.
  14. ^ Cite error: The named reference BSc_Thesis was invoked but never defined (see the help page).
  15. ^ Cite error: The named reference PhD_Thesis was invoked but never defined (see the help page).
  16. ^ Cite error: The named reference Patent1 was invoked but never defined (see the help page).
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  18. ^ Cite error: The named reference Patent3 was invoked but never defined (see the help page).
  19. ^ Cite error: The named reference Patent4 was invoked but never defined (see the help page).
  20. ^ Cite error: The named reference Prov_Patent1 was invoked but never defined (see the help page).
  21. ^ Cite error: The named reference Prov_Patent2 was invoked but never defined (see the help page).
  22. ^ Cite error: The named reference Prov_Patent3 was invoked but never defined (see the help page).
  23. ^ Cite error: The named reference Prov_Patent4 was invoked but never defined (see the help page).
  24. ^ Cite error: The named reference Prov_Patent5 was invoked but never defined (see the help page).
  25. ^ Cite error: The named reference Prov_Patent6 was invoked but never defined (see the help page).
  26. ^ Cite error: The named reference Prov_Patent7 was invoked but never defined (see the help page).
  27. ^ Cite error: The named reference Prov_Patent8 was invoked but never defined (see the help page).
  28. ^ KVOA Tucson News. (September 2020) New robotics heart surgery program expedites patient recovery. https://kvoa.com/news/2020/09/14/new-robotics-heart-surgery-program-expedites-patient-recovery/
  29. ^ Data Robot AI Podcast. (August 2020) Podcast #003 AI in the OR. https://www.datarobot.com/ai-heroes/podcast/dr-zain-khalpey/
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