Virtual Reality in Cardiac Diseases: The Challenges and Applications
Abstract
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1- M. M. A. da Cruz et al., "A Randomized, Controlled, Crossover Trial of Virtual Reality in Maintenance Cardiovascular Rehabilitation in a Low-Resource Setting: Impact on Adherence, Motivation, and Engagement." (in eng), Phys Ther, Vol. 101 (No. 5), May 4 (2021).
2- H. S. Maresky, A. Oikonomou, I. Ali, N. Ditkofsky, M. Pakkal, and B. Ballyk, "Virtual reality and cardiac anatomy: Exploring immersive three-dimensional cardiac imaging, a pilot study in undergraduate medical anatomy education." (in eng), Clin Anat, Vol. 32 (No. 2), pp. 238-43, Mar (2019).
3- N. Patel, A. Costa, S. P. Sanders, and D. Ezon, "Stereoscopic virtual reality does not improve knowledge acquisition of congenital heart disease." (in eng), Int J Cardiovasc Imaging, Vol. 37 (No. 7), pp. 2283-90, Jul (2021).
4- Mohd Javaid and Ibrahim Haleem Khan, "Virtual reality (VR) applications in cardiology: a review." Journal of Industrial Integration and Management, Vol. 7 (No. 02), pp. 183-202, (2022).
5- T. Yambe, M. Yoshizawa, K. I. Tabayashi, H. Takeda, and S. I. Nitta, "Virtual percutaneous transluminal coronary angioplasty system for an educational support system." Artificial Organs, Article Vol. 22 (No. 8), pp. 710-13, (1998).
6- G. Seemann, F. B. Sachse, C. D. Werner, and O. Dossel, "Simulation of surgical interventions: atrial radio frequency ablation with a haptic interface." in 16th International Congress and Exhibition on Computer Assisted Radiology and Surgery, Paris, France, (2002) (2002), pp. 49-54.
7- Y. Y. Cai, C. Chui, X. Z. Ye, Y. P. Wang, and J. H. Anderson, "VR simulated training for less invasive vascular intervention." Computers & Graphics-Uk, Vol. 27 (No. 2), pp. 215-21, Apr (2003).
8- Sara García-Bravo et al., "Virtual reality and video games in cardiac rehabilitation programs. A systematic review." Disability and Rehabilitation, Vol. 43 (No. 4), pp. 448-57, (2021).
9- M. Nakao et al., "Haptic reproduction and interactive visualization of a beating heart for cardiovascular surgery simulation." International Journal of Medical Informatics, Vol. 68 (No. 1-3), pp. 155-63, Dec (2002), Art no. Pii s1386-5056(02)00073-4.
10- K. J. Kirchberg, A. Wimmer, and C. H. Lorenz. Modeling the human aorta for MR-driven real-time virtual endoscopy. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Vol. 4190 LNCS - I, pp. 470-77, (2006).
11- S. Jozwik, B. Cieslik, R. Gajda, and J. Szczepanska-Gieracha, "Evaluation of the Impact of Virtual Reality-Enhanced Cardiac Rehabilitation on Depressive and Anxiety Symptoms in Patients with Coronary Artery Disease: A Randomised Controlled Trial." Journal of Clinical Medicine, Vol. 10 (No. 10), May (2021), Art no. 2148.
12- S. Jóźwik, B. Cieślik, R. Gajda, and J. Szczepańska-Gieracha, "The Use of Virtual Therapy in Cardiac Rehabilitation of Female Patients with Heart Disease." (in eng), Medicina (Kaunas), Vol. 57 (No. 8), Jul 28 (2021).
13- S. Jozwik, A. Wrzeciono, B. Cieslik, P. Kiper, J. Szczepanska-Gieracha, and R. Gajda, "The Use of Virtual Therapy in Cardiac Rehabilitation of Male Patients with Coronary Heart Disease: A Randomized Pilot Study." Healthcare, Vol. 10 (No. 4), Apr (2022), Art no. 754.
14- J. Szczepanska-Gieracha, S. Jozwik, B. Cieslik, J. Mazurek, and R. Gajda, "Immersive Virtual Reality Therapy As a Support for Cardiac Rehabilitation: A Pilot Randomized-Controlled Trial." Cyberpsychology Behavior and Social Networking, Vol. 24 (No. 8), pp. 543-49, Aug (2021).
15- D. Laghlam et al., "Virtual reality vs. Kalinox® for management of pain in intensive care unit after cardiac surgery: a randomized study." Annals of Intensive Care, Article Vol. 11 (No. 1), (2021), Art no. 74.
16- V. Gulick, D. Graves, S. Ames, and P. P. Krishnamani, "Effect of a Virtual Reality-Enhanced Exercise and Education Intervention on Patient Engagement and Learning in Cardiac Rehabilitation: Randomized Controlled Trial." (in eng), J Med Internet Res, Vol. 23 (No. 4), p. e23882, Apr 15 (2021).
2- H. S. Maresky, A. Oikonomou, I. Ali, N. Ditkofsky, M. Pakkal, and B. Ballyk, "Virtual reality and cardiac anatomy: Exploring immersive three-dimensional cardiac imaging, a pilot study in undergraduate medical anatomy education." (in eng), Clin Anat, Vol. 32 (No. 2), pp. 238-43, Mar (2019).
3- N. Patel, A. Costa, S. P. Sanders, and D. Ezon, "Stereoscopic virtual reality does not improve knowledge acquisition of congenital heart disease." (in eng), Int J Cardiovasc Imaging, Vol. 37 (No. 7), pp. 2283-90, Jul (2021).
4- Mohd Javaid and Ibrahim Haleem Khan, "Virtual reality (VR) applications in cardiology: a review." Journal of Industrial Integration and Management, Vol. 7 (No. 02), pp. 183-202, (2022).
5- T. Yambe, M. Yoshizawa, K. I. Tabayashi, H. Takeda, and S. I. Nitta, "Virtual percutaneous transluminal coronary angioplasty system for an educational support system." Artificial Organs, Article Vol. 22 (No. 8), pp. 710-13, (1998).
6- G. Seemann, F. B. Sachse, C. D. Werner, and O. Dossel, "Simulation of surgical interventions: atrial radio frequency ablation with a haptic interface." in 16th International Congress and Exhibition on Computer Assisted Radiology and Surgery, Paris, France, (2002) (2002), pp. 49-54.
7- Y. Y. Cai, C. Chui, X. Z. Ye, Y. P. Wang, and J. H. Anderson, "VR simulated training for less invasive vascular intervention." Computers & Graphics-Uk, Vol. 27 (No. 2), pp. 215-21, Apr (2003).
8- Sara García-Bravo et al., "Virtual reality and video games in cardiac rehabilitation programs. A systematic review." Disability and Rehabilitation, Vol. 43 (No. 4), pp. 448-57, (2021).
9- M. Nakao et al., "Haptic reproduction and interactive visualization of a beating heart for cardiovascular surgery simulation." International Journal of Medical Informatics, Vol. 68 (No. 1-3), pp. 155-63, Dec (2002), Art no. Pii s1386-5056(02)00073-4.
10- K. J. Kirchberg, A. Wimmer, and C. H. Lorenz. Modeling the human aorta for MR-driven real-time virtual endoscopy. Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Vol. 4190 LNCS - I, pp. 470-77, (2006).
11- S. Jozwik, B. Cieslik, R. Gajda, and J. Szczepanska-Gieracha, "Evaluation of the Impact of Virtual Reality-Enhanced Cardiac Rehabilitation on Depressive and Anxiety Symptoms in Patients with Coronary Artery Disease: A Randomised Controlled Trial." Journal of Clinical Medicine, Vol. 10 (No. 10), May (2021), Art no. 2148.
12- S. Jóźwik, B. Cieślik, R. Gajda, and J. Szczepańska-Gieracha, "The Use of Virtual Therapy in Cardiac Rehabilitation of Female Patients with Heart Disease." (in eng), Medicina (Kaunas), Vol. 57 (No. 8), Jul 28 (2021).
13- S. Jozwik, A. Wrzeciono, B. Cieslik, P. Kiper, J. Szczepanska-Gieracha, and R. Gajda, "The Use of Virtual Therapy in Cardiac Rehabilitation of Male Patients with Coronary Heart Disease: A Randomized Pilot Study." Healthcare, Vol. 10 (No. 4), Apr (2022), Art no. 754.
14- J. Szczepanska-Gieracha, S. Jozwik, B. Cieslik, J. Mazurek, and R. Gajda, "Immersive Virtual Reality Therapy As a Support for Cardiac Rehabilitation: A Pilot Randomized-Controlled Trial." Cyberpsychology Behavior and Social Networking, Vol. 24 (No. 8), pp. 543-49, Aug (2021).
15- D. Laghlam et al., "Virtual reality vs. Kalinox® for management of pain in intensive care unit after cardiac surgery: a randomized study." Annals of Intensive Care, Article Vol. 11 (No. 1), (2021), Art no. 74.
16- V. Gulick, D. Graves, S. Ames, and P. P. Krishnamani, "Effect of a Virtual Reality-Enhanced Exercise and Education Intervention on Patient Engagement and Learning in Cardiac Rehabilitation: Randomized Controlled Trial." (in eng), J Med Internet Res, Vol. 23 (No. 4), p. e23882, Apr 15 (2021).
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| Issue | Vol 10 No 2 (2023) | |
| Section | Editorial | |
| DOI | https://doi.org/10.18502/fbt.v10i2.12214 | |
| Keywords | ||
| Virtual Reality Cardiavascullar Diseases | ||
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How to Cite
1.
Bouraghi H, Mohammadpour A, Khodaveisi T, Ghazisaeedi M, Saeedi S. Virtual Reality in Cardiac Diseases: The Challenges and Applications. Frontiers Biomed Technol. 2023;10(2):109-111.
