Biofabrication of hearts in Colombia as a national project

Tabares-González, Juan Hember; Tabares-González, Juan Hember

doi:10.15446/revfacmed.v70n2.94779

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Revista de la Facultad de Medicina

Print version ISSN 0120-0011

rev.fac.med. vol.70 no.2 Bogotá Apr./June 2022 Epub Nov 18, 2022

https://doi.org/10.15446/revfacmed.v70n2.94779

Cartas al editor

Biofabrication of hearts in Colombia as a national project

Biofabricación de corazones en Colombia como un proyecto nacional

Juan Hember Tabares-González¹^*
http://orcid.org/0000-0002-9768-7640

^¹ Universidad Nacional de Colombia - Bogotá Campus - Faculty of Medicine - Stem Cell Biology Research Group - Bogotá D.C. - Colombia.

Keywords: Stem Cells; Cellular Reprogramming; Bioprinting; Heart; Artificial Organs; Transplantation

Palabras clave: Células madre; Reprogramación celular; Bioimpresión; Corazón; Órganos Artificiales; Trasplante

Dear Editor

The biofabrication of hearts is an emerging technology activity in which the Colombian state should invest in order to meet health demands, employ highly skilled professionals, and develop a labor sector that will generate high profits in the coming decades.

The global demographic transition shows a longer life expectancy and thus an increase in the number of elderly people. As a result, the Organisation for Economic Cooperation and Development¹ estimates that there are currently 4 515 763 people over the age of 65 in Colombia, with that figure expected to rise to 6 565 751 by 2030. This situation implies an increase in the need for health care for patients with heart failure and coronary artery disease, which are common conditions in this age group.

In this regard, given the imminent demand for heart disease care, it is necessary to take measures to respond to the needs of each patient in a timely manner, because, for example, in cases where heart transplantation is required, a significant number of people die waiting for a donor; this phenomenon is not endemic, but occurs worldwide, even in developed countries.²

According to Telich-Tarriba et al.,³ the use of 3D printing in reconstructive surgery, surgical planning, regenerative medicine, and education has led to new applications for this technology. Its impact has been so great that it is thought to be a matter of time before obtaining a functional heart biofabricated with 3D printing from bioink derived from stem cell cultures from genetically reprogrammed somatic cells and the patient's own cells.⁴^,⁵ In short, with the availability of this technology, hearts could be manufactured to provide a chance of survival to terminally ill patients with heart failure, a disease with an estimated prevalence of 1% to 10% in adults worldwide.⁶^,⁷

There are few groups researching the biofabrication of hearts; however, companies are already preparing for a revolution in this matter.⁴ It is important to note that achieving this requires a multidisciplinary approach involving professionals from the health, life sciences, and engineering fields.

Colombia has always opted to import technology instead of developing it, which causes cost overruns and puts the country at a disadvantage with respect to other nations that are leaders in production. Moreover, this situation contributes to the continuing drain of brains and skilled workers, as people migrate in search of better opportunities to meet their basic and professional development needs.

Since the biofabrication of hearts is an activity that is just beginning to develop, this is the time when we, as a country, must take on the challenge of being competitive in this emerging industry and get ahead of the traditional powers. The model chosen to meet this challenge must be efficient and quick to implement, with no excessive red tape, as in China, where start-ups and nascent companies are financed until they break even, or in the United States, where the free enterprise and private investment model is promoted. In either case, the Universidad Nacional de Colombia can actively engage in this process by managing and assisting in the establishment of companies dedicated to the production and development of tissues and human organs, as its engineering, business administration, biology, pharmaceutical chemistry, and medical programs can partner and offer the best advice.

In conclusion, the biofabrication of hearts is a relevant issue in the sense that the development of this industry in the future may represent a sector that contributes significantly to increasing the national gross domestic product and to providing treatment alternatives for heart disease patients; it will also allow for the employment of health professionals and scientific researchers. Given this scenario, it would be particularly exciting, innovative, productive, and academically challenging for Colombia to promote projects to be pioneers in this activity.

References

1. Organisation for Economic Co-operation and Development (OECD). Population projections. Paris: OECD; 2021 [cited 2021 Mar 27]. Available from: Available from: https://bit.ly/3eiNyYw . [ Links ]

2. Gilligan H, Venesy DM, Gordon FD. 100 Questions and answers about liver, heart and kidney transplantation. Boston: Jones & Bartlett Learning; 2010. [ Links ]

3. Telich-Tarriba JE, Ramírez-Sosa LE, Palafox D, Ortega-Hernandez E, Rendón-Medina ME. Aplicaciones de la impresión 3D en cirugía plástica reconstructiva. Rev. Fac. Med. 2020;68(4):603-7. https://doi.org/f7wv. [ Links ]

4. Birla RK, Williams SK. 3D bioprinting and its potential impact on cardiac failure treatment: An industry perspective. APL Bioeng. 2020;4(1):010903. https://doi.org/ggs5p6. [ Links ]

5. Liu N, Ye X, Yao B, Zhao M, Wu P, Liu G, et al. Advances in 3D bioprinting technology for cardiac tissue engineering and regeneration. Bioact Mater. 2020;6(5):1388-401. https://doi.org/f7ww. [ Links ]

6. Arcos-Medina LC, Méndez-Toro A, Rojas-Ruiz IT, Torres-Riveros SG, Tabares-Rodríguez SC. Epidemiological and clinical characterization of patients hospitalized for decompensated heart failure with reduced ejection fraction. Acta Med Colombi. 2020;45(1):1-9. https://doi.org/f7wx. [ Links ]

7. Grupo de Trabajo de la Sociedad Europea de Cardiología (ESC) de diagnóstico y tratamiento de la insuficiencia cardiaca aguda y crónica. Guía ESC 2016 sobre el diagnóstico y tratamiento de la insuficiencia cardiaca aguda y crónica. Rev Esp Cardiol. 2016;69(12):1167.e1-e85. https://doi.org/f7wz. [ Links ]

How to cite: Tabares-González JH. Biofabrication of hearts in Colombia as a national project. Rev. Fac. Med. 2022;70(2):e94779. English. doi: https://doi.org/10.15446/revfacmed.v70n2.94779.

Cómo citar: Tabares-González JH. [Bio-fabricación de corazones en Colombia como un proyecto nacional]. Rev. Fac. Med. 2022;70(2):e94779. English. doi: https://doi.org/10.15446/revfacmed.v70n2.94779.

Received: March 29, 2021; Accepted: April 19, 2021

^*Corresponding author: Juan Hember Tabares-González. Facultad de Medicina, Universidad Nacional de Colombia. Bogotá D.C. Colombia. Email: jhtabaresg@unal.edu.co.

This is an open-access article distributed under the terms of the Creative Commons Attribution License