Human placenta safety used as pharmaceutical raw material based on the bioethical approach

Authors

Keywords:

Bioethics, human placenta, quality assurance, quality control, placental histotherapy, HISPLACEN, BioCubaFarma.

Abstract

Introduction: The use of human placenta as pharmaceutical raw material is due to the content of biologically active substances. The Placental Histotherapy Center (HISPLACEN) researches, develops, produces, and markets products of placental origin.

Objective: to analyze the assurance and control process to certify the quality of the human placenta as a raw material in the biopharmaceutical industry, based on the bioethical approach.

Material and Methods: A descriptive and analytical study was carried out. The process of quality assurance and control of the human placenta in HISPLACEN, and its implementation in the period 2017-2021 was defined as the research object. The documentation of the institutional Quality Management System, Good Practices regulations of the CECMED, and the scientific literature on Bioethics were reviewed.

Results: The stages of the quality assurance and control of the placenta process and its derived products were described and analyzed, highlighting the application of the bioethical approach in its implementation. The correspondence of a human and environmental ethics of multidisciplinary interrelation and between the actors involved in the entrepreneurial ecosystem was identified. All this focused on the dimensions related to science and technology in the manufacture of medicines.

Conclusions: The compliance of bioethical principles in the certification of human placentas was evidenced, which promoted the development of a process typified by comprehensiveness, functionality, efficacy, and robustness. This biological organ used as raw material was approached from multidimensionality –scientific, technological and bioethical – of the process focused on a common objective: guaranteeing human health and well-being, together with environmental protection.

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References

1. Schuette SA, Brown KM, Cuthbert DA, Coyle CW, Wisner KL, Hoffman CM, et al. Perspectives from patients and healthcare providers on the practice of maternal placentophagy. J Altern Complement Med. 2017;23: 60-67.

2. Napso T, Yong HEJ, López Tello J, Sferruzzi Perri AN. The role of placental hormones in mediating maternal adaptations to support pregnancy and lactation. Front Physiol. 2018;9:1091.

3. Bhattacharjee P, Debasheree D, Bhattacharyya D. Degradation of fibrin-β amyloid co-aggregate: A novel function attributed to ubiquitin. Biochim Biophys Acta (BBA)-Mol Cell Res. 2018;1865(10):1465-78.

4. Singh N, Bhattacharyya D. Biochemical and functional analysis of corticotropin releasing factor purified from an aqueous extract of human placenta used as wound healer. J Pharm Biomed Anal. 2017;145:298-306.

5. Pan SY, Chan KS, Wong BF, Klocol D. Chernykh V. Placental therapy: An insight to their biological and therapeutic properties. J Med Terap.2017;(3):1-6.

6. Goswami S, Sarkar R, Saha P, Maity A, Sarkar T, Das D, et al. Effect of human placental extract in the management of biofilm mediated drug resistance–A focus on wound management. Microb Pathog. 2017;111:307-15.

7. Torshin IY, Gromova OA, Dibrova EA, Gromov AN, Nazarenko OA. Peptides in the composition of Laennec that show antiviral effects in the therapy of atopic dermatitis and herpes infection. Russian Journal of Allergy. 2018;15(1):82-90.

8. Maksimov VA, Tkacheva ON, Strazhesko ID, Torshin YU, Gromova OA, Chuchalin AG, et al. Human Placenta hydrolisate as a drug to reduces markers of inflammation in patients with severe COVID-19.Therapy. 2020;5:56-68.

9. Yamauchi A, Kamiyoshi A, Sakurai T, Miyazaki H, Hirano E, Lim HS, et al. Placental extract suppresses cardiac hypertrophy and fibrosis in an angiotensin II-induced cachexia model in mice. Heliyon.2019;5(10):e02655.

10. Shin EH, Kim M, Hada B, Oh CT, Jang MJ, Kim JY, et al. Effects of Human Placenta Extract (Laennec) on Ligament Healing in a Rodent Model. Biol Pharm Bull. 2019;42(12):1988-95.

11. Park HJ, Shim HS, Lee S, Hahm DH, Lee H, Oh CT, et al. Anti-stress effects of human placenta extract: possible involvement of the oxidative stress system in rats. BMC Complement Altern Med. 2018;18(1):1-8.

12. Miyares CM. Informe preliminar sobre el empleo de extracto placentario humano en la terapéutica del vitiligo. Rev Cubana Farm. 1976;10:67-9.

13. García J, Miyares CM, González T. Resultados preliminares de la composición del extracto placentario (Ep-50) utilizado en Cuba en la terapia del vitiligo. Rev Cubana Farm. 1978;12:141-48.

14. Potter VR. Evolving Ethical Concepts. BioScience. 1977;27: 251-53.

15. Casillas González E. Por una historia de la Bioética. Rev Méd Electrón 2017;39(5):1171-9

16. Potter VR. Bioética, la ciencia de la supervivencia. Rev Selecciones de Bioética. 2002;1:121-38.

17. Quintana A. Reseña de "Bioethics: Bridge to the Future" de Van Rensselaer Potter. Rev Electrónica Sinéctica. 2009; 32:1-6.

18. Potter VR, Potter L. Global Bioethics: Converting Sustainable Development to Global Survival. Med Global Surv. 1995;2(3):185-91.

19. Potter VR. Global bioethics with humility and responsibility. Biomed Ethics. 2000;5:89-93.

20. De Pergola, Peter A. The development of global bioethics: a historical developmental perspectiva. Int Med. 2019;1(4):231-36.

21. Acosta Sariego JR. Bioética y biopolítica en tiempos del capitalismo transnacional. Revista Redbioética [Internet]. 2018 [Citado 14/06/2022];1(17):11-24. Disponible en: http://www.unesco.org/new/fileadmin/MULTIMEDIA/FIELD/Montevideo/pdf/RevistaBioetica17.pdf

22. Morin E, Delgado CJ. Reinventar la educación. Abrir caminos a la metamorfosis de la humanidad. La Habana: Editorial UH; 2017.

23. Sanabria P. Complejidad y bioética: complejidad como marco de la bioética global. Rev Latinoamericana de Bioética. 2018;18(35-2):126-61.

24. Acosta Sariego JR. La bioética de Potter a Potter. En: Acosta Sariego JR. Bioética para la sustentabilidad. La Habana: Centro Félix Varela; 2002.pp.31-42.

25. CECMED. Regulación No. 16-2012. Anexo No. 10. Buenas prácticas para la fabricación de productos biológicos. En: Yáñez Chamizo B, Martínez Pi Y, González Cabeza Y, Figueroa Pérez R, Pérez Gutiérrez J, Hechavarría Milá JA, et al. Buenas Prácticas Farmacéuticas. Sistema Regulador en Cuba. 2 ed. La Habana: Centro para el Control Estatal de Medicamentos, Equipos y Dispositivos Médicos (CECMED); 2017.pp. 229-49.

26. CECMED. Regulación No. 16-2012. Anexo No. 09. Buenas prácticas para la fabricación de ingredientes farmacéuticos activos. En: Yáñez Chamizo B, Martínez Pi Y, González Cabeza Y, Figueroa Pérez R, Pérez Gutiérrez J, Hechavarría Milá JA, et al. Buenas Prácticas Farmacéuticas. Sistema Regulador en Cuba. 2 ed. La Habana: Centro para el Control Estatal de Medicamentos, Equipos y Dispositivos Médicos (CECMED); 2017.pp. 204-28.

27. CECMED. Regulación 2/95: Requisitos para la recolección, conservación y transportación de placentas humanas. Cuba: 1995. La Habana: Centro para el Control Estatal de Medicamentos, Equipos y Dispositivos Médicos; 1995.

28. León Juárez M, Martínez Castillo M, González García LD, Helguera Repetto AC, Zaga Clavellina V, García Cordero J, et al. Cellular and molecular mechanisms of viral infection in the human placenta. Pathog Dis. 2017;75(7):ftx093.

29. Barone PW, Wiebe ME, Leung JC, Hussein IT, Keumurian FJ, Bouressa J, et al. Viral contamination in biologic manufacture and implications for emerging therapies. Nature Biotechnol. 2020;38(5):563-72.

30. Adair R. Control Viral Contaminants with Effective Testing. BioPharm. 2017;30(10):18-27.

31. CECMED. Regulación M 02-18. Placenta humana como materia prima farmacéutica. Cuba. La Habana: Centro para el Control Estatal de Medicamentos, Equipos y Dispositivos Médicos; 2018.

32. CECMED. Regulación No. 37-2012. Buenas Prácticas de laboratorio para el control de medicamentos. En: Yáñez Chamizo B, Martínez Pi Y, González Cabeza Y, Figueroa Pérez R, Pérez Gutiérrez J, Hechavarría Milá JA, et al. Sistema Regulador en Cuba. 2 ed. La Habana: Centro para el Control Estatal de Medicamentos, Equipos y Dispositivos Médicos (CECMED); 2017.pp. 323-59.

33. González Reyes EC, Castells EM, Frómeta A, Arteaga AL, Del Río L, Tejeda Y, et al. SUMA Technology and Newborn Screening Tests for Inherited Metabolic Diseases in Cuba: An Overview of the First 30 Years. J Inborn Errors of Metabolism & Screening. 2016;4:1-9.

34. Castells EM, Del Valle R, González EC, Melchor A, Pérez PL, González I, et al. An Enzyme Immunoassay for Determining Epidermal Growth Factor (EGF) in Human Serum Samples Using an Ultramicroanalytical System. J Immunoassay Immunochem. 2017;38(2):190-201.

35. Trujillo Alfonso M, Rodríguez García S, Pérez Guevara MT, Romero Martínez K, Cala Mató Y, Betancourt Valiente Z, et al. Validación del sistema ultramicroelisa en la certificación de placenta humana como materia prima farmacéutica y cosmética. Rev Cubana Farm. 2014;48(2):285-95.

36. Rego A, Pérez H, López L, Carlos N. Sistema automatizado para la evaluación de la calidad en los laboratorios de diagnóstico con tecnología SUMA. VacciMonitor. 2012;21(1):18-24.

37. Noa E, Hernández AM, Ruibal I, Dubed M, Navea L, Lobaina L. Validación de la capacidad de inactivación viral del proceso de producción del extracto placentario loción Melagenina®. Rev Cubana Farmacia. 2002;36(s1).

38. Lobaina LI, Noa E, Hernández AM, Dubed M, Navea LM, Pérez JR. Propiedad de inactivación viral durante la obtención de la Melagenina® Plus en la etapa de almacenamiento. Biotecnol Apl. 2013;30(1):45-50.

39. Pérez JR, Noa E, Vergel V, Alfaro E, Lobaina L, Sánchez Y. Viral cleaning capacity of the manufacturing process of the EP-100. Avances en Biotecnología Moderna; 2007: CP-43.

40. UNESCO. Universal Declaration on Bioethics and Human Rights. Paris: UNESCO; 2005.

41. Schwab K. La cuarta revolución industrial. Ginebra: Foro Económico Mundial; 2016.

42. Luann E, Van Campen LE, Poplazarova T, Therasse DG, Turik M. Considerations for applying bioethics norms to a biopharmaceutical industry setting. BMC Med Ethics. 2021;22:31.

43. Román Maestre B. Buenas Prácticas en las organizaciones: la infraestructura ética. Bioética Complutense. 2017;32:12-16.

44. Fernández VB, Morales M, Calatayud M, Pérez I. La dimensión ética en los nexos Ciencia-Tecnología-Sociedad. Un estudio de caso en un grupo de investigadores de la Facultad de Ciencias Sociales de la Universidad de Cienfuegos. Universidad y Sociedad. 2016;8(2):41-48.

45. Vitier C. La formación de valores en las nuevas generaciones. La Habana: Editora Política;1996.

46. Acosta Sariego JR. Los desafíos bioéticos y biopolíticos develados por la pandemia COVID-19. Rev Cubana Salud Pública [Internet]. 2020 [Citado 14/06/2022];46(Suppl 1):e2629. Disponible en: http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S0864-34662020000500011&lng=es

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Published

2022-12-25

How to Cite

1.
Trujillo-Alfonso M, Vega-Almeida RL. Human placenta safety used as pharmaceutical raw material based on the bioethical approach. Rev haban cienc méd [Internet]. 2022 Dec. 25 [cited 2025 Jul. 1];21(5):e4562. Available from: https://revhabanera.sld.cu/index.php/rhab/article/view/4562

Issue

Vol. 21 No. 5: September-October 2022 (Issue in Progress)

Section

Technological Sciences

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