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Menstrual Blood Banking: A concept ‘best out of waste’ in the area of stem cell research

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Ancy Mathew, F. F. S. E. J. (2016). Menstrual Blood Banking: A concept ‘best out of waste’ in the area of stem cell research. Journal of Medical Biomedical and Applied Sciences, 3. https://doi.org/10.15520/.v3i0.11
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Abstract

The primitive cells also known as the stem cells are miraculous cells that can regenerate into various organs such as the heart, bones, muscles and nervous system. The emergence of stem cell technology and the successful impact of the stem cells research has brought ray of hope to the diseased population of the world. Remarkable responses have been created in the medical specialties by stem cell therapies with the most popularized concept of cord blood which has helped in many major diseases like Thalassemia, Alzheimer’s disease. Likewise stromal cells of menstrual origin or Menses-Menstrual Blood –Derived Stem Cells have demonstrated cells to be equally multi potent like the umbilical cord blood and the dental pulp stem cells except for the myth among the public that the menstrual blood is a bad blood that needs to be discarded. Menstrual stem cells could offer a lot of advantages over the other stem cells as the source is easy to find because every woman is a source, quantity available is more, the fear of tissue rejection is minimal and above all the question of ethical issues related to using embryonic stem cells are avoided. Researchers across the globe have come to a conclusion that the cells derived from menstrual blood may represent a potentially unlimited, easily available and cost effective source used in regenerative therapies. The electronic databases using which was done were Cumulative Index to Nursing and Allied Health Literature (CINAHL), Medical Literature Online (Medline), Pub med, EBSCO, Embase, and Science Direct. The search terms include Menstruation, Menstrual Blood, and Menstrual Blood Stem Cells. Menstrual Blood Banking, Endometrial Stem Cells. Menstrual Regenerative Cells. Menstrual Blood Banking appears to be an innovative, promising, cost effective, novel and ethically acceptable alternative concept which needs to be popularized in the field of medicine.

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Referências

  1. Gargett, C.E., 2004. Stem cells in gynaecology. Aust. N. Z. J.Obstet. Gynaecol., 44(5):380-386. [doi:10.1111/j.1479- 828X.2004.00290.x]
  2. Abdallah, B., Jensen, C., Gutierrez, G., Leslie, R., Jensen, T., Kassem, M., 2004. Regulation of human skeletal stem cells differentiation by Dlk1/Pref-1. J. Bone Miner. Res., 19(5):841-852. [doi:10.1359/jbmr.040118]
  3. Evans, M., Kaufman, M., 1981. Establishment in culture of pluripotential cells from mouse embryos. Nature, 292(5819):154-156. [doi:10.1038/292154a0]
  4. Edwards, R.G.(2004).Stem Cells Today:B1 Bone Marrow Stem Cells. Reproductive Biomed Online,9,541 – 583.
  5. Parker , A.M and Katz, A. J.(2006). Adipose – Derived Stem Cells for regeneration of damaged tissues. Expert Opinion BiolTher, 6, 567 - 578
  6. De Coppi, P., Bartsch, G.Jr, Siddiqui, M.M., Xu, T., Santos,C.C., Perin, L., Mostoslavsky, G., Serre, A.C., Snyder, E.Y., Yoo, J.J., et al., 2007. Isolation of amniotic stem cell lines with potential for therapy. Nat. Biotechnol.,25(1):100-106. [doi:10.1038/nbt1274]
  7. Harris ,D .T., Badowski ,M., Ahmad , N and Gaballa, M.A.(2007). The Potential of Cord Blood Stem Cells for Use in Regenerative Medicine. Expert Opinion Biol. Ther,7,1311 – 1322.
  8. Patel, A. N., Park, E., Kuzman, M., Benetti, F., Silva, F. J., and Allickson, J. G. (2008) Multipotent Menstrual Blood Stromal Stem Cells: Isolation, Characterization, and Differentiation. Cell Transplantation , 17,303–11.
  9. Henningson, C.T., Stanislaus ,M.A and Gewirtz, A.M.(2003). Embryonic and Adult Stem Cell Therapy. Journla of Allergy Clinical Immunology,111(2),745 -753.
  10. Rebelatto, C., Aguiar, A., Moretao, M., Senegaglia, A., Hansen,P., Barchiki, F., Oliveira, J., Martins, J., Kuligovski, C., Mansur, F., 2008. Dissimilar differentiation of mesenchymal stem cells from bone marrow, umbilical cord blood, and adipose tissue. Exp. Biol. Med., 233(7):901-913. [doi:10.3181/0712-RM-356].
  11. Krause, D., Theise, N., Collector, M., Henegariu, O., Hwang, S., Gardner, R., Neutzel, S., Sharkis, S., 2001.Multi-organ, multi-lineage engraftment by a single bone marrow-derived stem cell. Cell, 105(3):369-377. [doi:10.1016/S0092-8674(01)00328-2]
  12. Gimble, J., Guilak, F., 2003. Adipose-derived adult stem cells: isolation, characterization, and differentiation potential. Cytotherapy, 5(5):362-369. [doi:10.1080/146532403100 03026]
  13. Strem, B., Hicok, K., Zhu, M., Wulur, I., Alfonso, Z., Schreiber,R., Fraser, J., Hedrick, M., 2005. Multipotential
  14. differentiation of adipose tissue-derived stem cells. Keio J.Med., 54(3):132-141. [doi:10.2302/kjm.54.132]
  15. Reubinoff, B., Pera, M., Fong, C., Trounson, A., Bongso, A., 2000. Embryonic stem cell lines from human blastocysts: somatic differentiation in vitro. Nat. Biotechnol., 18(4): 399-404.
  16. Orlic, D., Kajstura, J., Chimenti, S., Jakoniuk, I., Anderson, S.M., Li, B., Pickel, J., McKay, R., Nadal-Ginard, B., Bodine, D.M., et al., 2001. Bone marrow cells regenerate infarcted myocardium. Nature, 410(6829):701-705.
  17. Lagasse, E., Connors, H., Al-Dhalimy, M., Reitsma, M., Dohse, M., Osborne, L., Wang, X., Finegold, M., Weissman, I.L., Grompe, M., 2000. Purified hematopoietic stem cells can differentiate into hepatocytes in vivo. Nat. Med., 6(11):
  18. -1234. [doi:10.1038/81326]
  19. Chien, C., Yen, B., Lee, F., Lai, T., Chen, Y., Chan, S., Huang,H., 2006. In vitro differentiation of human placentaderived multipotent cells into hepatocyte-like cells. StemCells, 24(7):1759-1768. [doi:10.1634/stemcells.2005-0521]
  20. Portmann-Lanz, C., Schoeberlein, A., Huber, A., Sager, R., Malek, A., Holzgreve, W., Surbek, D., 2006. Placental mesenchymal stem cells as potential autologous graft for pre- and perinatal neuroregeneration. Am. J. Obstet. Gynecol., 194(3):664-673. [doi:10.1016/j.ajog.2006.01.101]
  21. Moon, Y., Yoon, H., Lee, M., Jang, I., Lee, D., Lee, J., Lee, S., Lee, K., Kim, Y., Eom, Y., 2009. Multipotent progenitor cells derived from human umbilical cord blood can differentiate into hepatocyte-like cells in a liver injury rat
  22. model. Tranplant. Proc., 41(10):4357-4360. [doi:10.
  23. /j.transproceed.2009.08.053]
  24. Meng, X., Ichim, T.E., Zhong, J., Rogers, A., Yin, Z., Jackson, J., Wang, H., Ge, W., Bogin, V., Chan, K.W., et al., 2007. Endometrial regenerative cells: a novel stem cell population. J. Transl. Med., 5(1):57. [doi:10.1186/1479- 5876-5-57]
  25. Hida, N., Nishiyama, N., Miyoshi, S., Kira, S., Segawa, K., Uyama, T., Mori, T., Miyado, K., Ikegami, Y., Cui, C., et al., 2008. Novel cardiac precursor-like cells from human menstrual blood-derived mesenchymal cells. Stem Cells, 26(7):1695-1704. [doi:10.1634/stemcells.2007-0826]
  26. Patel, A.N., Park, E., Kuzman, M., Benetti, F., Silva, F.J., Allickson, J.G., 2008. Multipotent menstrual blood stromal stem cells: isolation, characterization, and differentiation. Cell Transplant., 17(3):303-311. [doi:10. 3727/096368908784153922]
  27. Li, H., Chen, Y., Chen, S., Kao, C., Tseng, L., Lo, W., Chang, C., Yang, D., Ku, H., Twu, N., 2010. Induction of insulin-producing cells derived from endometrial mesenchymal stem-like cells. J. Pharmacol. Exp. Ther., 335(3):817-829. [doi:10.1124/jpet.110.169284]
  28. In′t Anker, P.S., Scherjon, S.A., Kleijburg-van der Keur, C., Noort, W.A., Claas, F.H., Willemze, R., Fibbe, W.E., Kanhai, H.H., 2003. Amniotic fluid as a novel source of mesenchymal stem cells for therapeutic transplantation. Blood, 102(4):1548-1549. [doi:10.1182/blood-2003-04-1291]
  29. Toyoda, M., Cui, C., Umezawa, A., 2007. Myogenic transdifferentiation of menstrual blood-derived cells. ActaMyol., 26(3):176-178.
  30. Borlongan, C.V., Kaneko, Y., Maki, M., Yu, S.J., Ali, M., Allickson, J.G., Sanberg, C.D., Kuzmin-Nichols, N., Sanberg, P.R., 2010. Menstrual blood cells display stem cell-like phenotypic markers and exert neuroprotection following transplantation in experimental stroke. Stem Cells Dev., 19(4):439-452. [doi:10.1089/scd.2009.0340]
  31. Garg, A.X., Hackam , D., Tonelli , M.,(2008). Systematic review and Metaanalysis: When one study is just not enough.Clin.J.Am.SOc.Nephrol.3, 253 -260.
  32. Khan, K., Kunz, R.,Kleijnenn,J., and Antes,G.(2011). Systematic Reviews to support Evidence – Based Medicine : How to review and apply findings of healthcare research ,2nd Edition. Hodder and Stoughton Ltd, London.
  33. Cho, N. H., Park, Y. K., Kim, Y. T., Yang, H., and Kim, S. K.(2004) Lifetime Expression of Stem Cell Markers in the Uterine Endometrium. Fertilization and Sterilization ,81(2),403-7.
  34. Schwab, K. E., Chan, R. W. S., and Gargett, C. E. (2005).Putative Stem Cell Activity of Human Endometrial Epithelial and Stromal Cells During the Menstrual Cycle. Fertilization. and Sterilization,84(2),1124-30.
  35. Du, H. and Taylor, H. S. Contribution of Bone Marrow-Derived Stem Cells to Endometrium and Endometriosis.(2007) Stem Cells, 25(8), 2082-6.
  36. Cui, C.H., Uyama, T., Miyado, K., Terai, M., Kyo, S., Kiyono, T., Umezawa, A. (2007). Menstrual blood-derived cells confer human dystrophin expression in the murine model of Duchenne muscular dystrophy via cell fusion and myogenic transdifferentiation. Mol. Biol. Cell, 18(5), 1586-1594. [doi:10.1091/mbc.E06-09-0872].
  37. Rodriques M C, Dmitriev D, Rodrigues A Jr, Glover L E et al.(2012). Menstrual Blood Transplantation for Ishemic Stroke: Therapeutic Mechanisms and practical issues. Interventional Medicine and Applied Science, 4(2),59-68.
  38. Weinbren N, Rizzi J A , Ishikawa H, Shinozuka K, Garbuzova Davis et al.(2011). Towards personalised cell therapies: autologous menstrual blood cells for stroke. Journal of Biomedicine and Biotechnology. Doi:10.1155/2011/194720.
  39. Mou, X Z., Lin, J., Chen, J. Y., Wu, X .X .,et al.(2013). Menstrual Blood derived mesenchymal stem cells differentiate into functional hepatocyte like cells. Journal of Zhejiang University Science , 14(11) ,961 -972.
  40. Khanjani , S., khanmohammadi, M., Zarnani ,A .H ., Talebi S et al (2013). Efficient generation of functional hepatocyte – like cells from menstrual blood –derived stem cells. Journal of Tissue engineering and regenerative medicine,18(4).
  41. Darzi ,S. , Zarnani, A .H ., Jeddi-Tehran ,M., Entezami, K et al.(2012).Osteogenic Differentiation of stem cells derived from menstrual blood verses bone marrow in the presence of human platelet releasate. Tissue Engineering, 18(5), 1720-28
  42. Khoury ,M., Alcayaga – Miranda, F., Illanes, S .E. , Fiquera, F. E .( 2014). The promising potential of menstrual stem cells for antenatal diagnosis and cell therapy. Frontiers in Immunology, 19,5.
  43. Sabbaj,S., Hel ,Z., Richter, H.E., Mestecky, J., Goepfert ,P.A .(2011) Menstrual Blood as a Potential Source of Endometrial Derived CD3+ T Cells. PLoS ONE 6(12): e28894. doi:10.1371/journal.pone.0028894.

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