Low Temperature Preservation and Storage of Placental Biological Derivatives

Abdulkadyrov K.M., Romanenko N.A., Starkov N.N. Procurement and clinical application of peripheral hematopoietic stem cells from cord blood. Problems in Oncology 2000; 46: 513–520.

Abdulkadyrov K.M. et al. Placental blood: alternative source of hematopopietic stem cells for transplantations. Establishing banks for cord blood. Terapevticheskii arkhiv 2001; 73(7): 76–78. PubMed

Adds P.J., Hunt C.J. Dart J.K. Amniotic membrane grafts, "fresh" or frozen? A clinical and in vitro comparison. Br J Ophthalmol 2001; 85(8): 905–907. CrossRef

Allen C.L., Clare G., Stewart E.A. et al. Augmented dried versus cryopreserved amniotic membrane as an ocular surface dressing. PLoS One 2013; 8(10): e78441. CrossRef PubMed

Armson B.A. Umbilical cord blood banking: implications for perinatal care providers. J Obstet Gynaecol Can 2005; 27(7): 673.

Aschner B: Ueber die Function der Hypophyse. Pflug Arch Gest Physiol 1912; 146: 1–147. CrossRef

Astrelina T.A., Gomzyakov A.E., Kobzeva I.V. et al. Assessment of quality and safety of application of cryopreserved multipotent mesenchymal stromal placental cells in clinical practice. Cellular Transplantology and Tissue Engineering 2013; 8(4): 82–87.

Babijchuk L.O., Grischenko V.I., Gurina T.M. et al., inventors. Cryopreservation way for cord blood nucleated cells, including hemopoietic stem cells. Patent of Ukraine N 92227; IPC A 01 N 1/02. 2010 Oct 11.

Babijchuk L.A., Grischenko V.I. Ryazantsev V.V. et al., inventors. Way of isolation of cord blood nucleated cells. Patent of Ukraine N23499; IPC C 12 N 5/00. 2007 May 25.

Babijchuk L.A., Grischenko V.I., Zubov P.M. et al. Structural and functional state and viability of cord blood nucleated cells after cryopreservation. Cellular Transplantology and Tissue Engineering 2010; 5(4): 77–81.

Babijchuk L.A., Zubov P.M., Mikhailova O.A., Ryazantsev V.V. Assessment of apoptosis stages of cord blood nucleated cells prior to and after cryopreservation. Tavricheskiy Mediko-Biologicheskiy Vestnik 2012; 15(3 Pt2) (59): 22–25.

Ballen K.K., Barker J.N., Stewart S.K., Greene M.F., Lane T.A. Collection and preservation of cord blood for personal use. Biol Blood Marrow Transplant 2008; 14(6): 724–725. CrossRef

Berasturis Cabrera L. Local treatment of burns with placental extracts; technic of application of placental extract prepared by Filatov's method in burns, original technic. Arch Med Infant 1954; 23(2): 123–144.

Beregova Yu.P. Comparative effect of Cryocord-C and Biotrit in preventing pathology of organs of reproductive system. Transplantologiya 2003; (4): 53–54.

Bobrova E.N., Zinchenko A.V., Schetinsky M.I. Dynamics of placenta tissue saturation with dimethyl sulfoxide. Problems of Cryobiology 2005; (1): 20–26.

Boros B., Mehes G , Arato M. Biologic properties of Filatow's placental extract. Klin Monbl Augenheilkd Augenarztl Fortbild 195; 118(3): 308–315.

Bosse R., Singhofer-Wowra M., Rosenthal F., et al. Good manufacturing practice production of human stem cells for somatic cell and gene therapy. Stem Cells 1997; 15: 275–280. CrossRef PubMed

Brooke G., Rossetti T., Pelekanos R. et al. Manufacturing of human placenta-derived mesenchymal stem cells for clinical trials. Br J Haematol 2009; 144(4): 571–579. CrossRef PubMed

Brown J.A., Boussiotis V.A. Umbilical cord blood transplan-tation: basic biology and clinical challenges to immune reconstitution. Clin Immunol 2008; 127(3): 286–297. CrossRef PubMed

Broxmeyer H.E., Douglas G.W., Hangoc G. et al. Human umbilical cord blood as a potential sourse of transplantable hematopoietic stem / progenitor cells. Proc Natl Acad Sci USA 1989; 86: 3828–3832. CrossRef PubMed

Burgos H., Herd A., Bennett J.P. Placental angiogenic and growth factors in the treatment ofchronic varicose ulcers: preliminary communication. J Royal Soc Med 1989; 82(10): 598. PubMed

Calvarano G., De Polis F., Sabatini G. Treatment with placental extract in periodontal disease. Dent Cadmos 1989; 57(1): 85–86. PubMed

Chang B.S., Kendrick B.S., Carpenter J.F. Surface-induced denaturation of proteins during freezing and its inhibition by sufractants. J Pharm Sci 1996; 85(12): 1325–1330. CrossRef PubMed

Chizhevsky V.V., Prokopyuk O.S., Groshevoj M.I. et al. Low temperature bank of biological objects: scientific and methodical grounds and perspectives of development. In: Goltsev A.N., editor. Current Problems in Cryobiology and Cryomedicine. Kharkov; 2012, p. 469–486.

Cirelli N., Lebrun P., Gueuning C. et al. Secretory characteristics and viability of human term placental tissue after overnight cold preservation. Hum Reprod 2000; 15(4): 756–761. CrossRef PubMed

Cole F.R. Placental blood and placental extract in wound healing. Am J Surg 1948; 76(1): 38–43. CrossRef

Colleoni F., Morash A.J., Ashmore T. et al. Cryopreservation of placental biopsies for mitochondrial respiratory analysis. Placenta 2012; 33(2): 122–123. CrossRef PubMed

Cooke M., Tan E.K., Mandrycky C. et al. Comparison of cryo-preserved amniotic membrane and umbilical cord tissue with dehydrated amniotic membrane/chorion tissue. J Wound Care 2014; 23(10): 465–476. CrossRef PubMed

De Seze S., Durieu J., Carlier J.C. Tissular therapy of rheumatism (amniotic implantations and injections of placental extracts); results of our preliminary experiments. Bull Mem Soc Med Hop Paris 1953; 69(5–6): 152–156. PubMed

Donaldson C., Armitage W.G., Denning-Kenndall P. et al. Optimal cryopreservation of human umbilical cord blood. Bone Marrow Transplant 1996; 18(4): 725–731. PubMed

Egorov V.V., Ivanov A.A., Paltsev M.A. Human stem cells. Molekularnaya Meditsina 2003; (2): 3–14.

Falko O.V., Lipina O.V., Volina V.V. et al. About correction of disorders of endothelial aortic layer in experimental atherosclerosis using cryopreserved serum of placental blood. Bulletin of Urgent and Recovery Medicine 2012; 13 (1): 122–126.

Falko O.V., Prokopyuk O.S., Rozanova E.D. et al. Effect of freezing regimens and terms of low temperature storage on the integrity of proteins of placental blood serum. Proceedings of the international scientific and practical conference: Practice-oriented biotechnological studies in plant research, cattle breeding and medicine; Brest, Belarus; 2013, p. 120–123.

Fal'ko O.V., Zemlianskikh N.G., Lipina O.V. et al. Modification of placenta blood serum proteins under low temperature effect. Biomed Khim 2013; 59(2): 219–234. CrossRef PubMed

Fellner O.O. Experimentelle Untersuchungen uber die Wirkung von Gewebsextrakten aus der Plazenta und den weiblichen Sexualorganen auf das Genital. Arch Gynakol 1913; 100: 641. CrossRef

Filatov V.P. Tissue therapy. Kyiv: Publishing House of Academy of Sciences of UkrSSR; 1949.

Gabellieri E. ANS fluorescence detects widespread pertur-bations of protein tertiary structure in ice. Biophys J 2006; 90(9): 3239–3245. CrossRef PubMed

Gao J., Liu L., Liu W. et al. Study of process optimization on freeze drying of human amniotic membrane. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi 2012; 29(4): 705–709. PubMed

Garrod A., Batra G., Ptacek I. et al. Duration and method of tissue storage alters placental morphology – implications for clinical and research practice. Placenta 2013; 34(11): 1116–1119. CrossRef PubMed

Gluckman E., Devergie A., Thierry D. et al. Clinical applications of stem cells transfusion from cord blood and rationale for cord blood banking. Fetal Liver Transplantation 1992; Suppl: 114–117.

Goltsev A.N. Human umbilical cord blood as the source of hematopoietic cells for clinical application. Part II. Immunological characteristics. Problems of Cryobiology 1998; (2): 3–21.

Goltsev A.N., Dubrava T.G., Ostankova L.V. et al. Therapeutic potential of products of fetoplacental complex. Therapy of autoimmune arthritis. Imunologiya ta Alergologiya: Nauka i Praktyka 2003; (1): 21–22.

Goltsev A.M., Grischenko V.I., Gurina T.M., Rassokha I.V., inventors. Way of cryopreservation for placental cell suspen-sion. Patent of Ukraine N 31175; IPC A 01 N 1/02. 2008 Mar. 5.

Goltsev A.N., Kalinichenko T.A. Human umbilical cord blood as the source of hematopoietic cells for clinical application. Part I. Characteristics of hematopoietic potential. Problems of Cryobiology 1998; (1): 3–24.

Goltsev A.N., Volina V.V., Ostankov M.V. et al. Effect of cryo-preservation on functional properties of nucleated cells of human cord blood. Problems of Cryobiology 2010; 20 (1): 66–72.

Goltsev A.N., Yurchenko T.N., editors. Placenta: cryopreservation, clinical application. Kharkov; 2012.

Graca G., Duarte I.F., Goodfellow B.J. et al. Potential of NMR spectroscopy for the study of human amniotic fluid. Anal Chem 2007; 79(21): 8367–8375. CrossRef PubMed

Grischenko V.I., Kuzmina I.Yu., Yurchenko T.M. et al. Procurement, cryopreservation of placental tissue and its clinical application [methodical recommendations]. Kharkov; 1996.

Grischenko V.I., Lipina O.V., Prokopyuk O.S., Savchenko Yu.A. Procurement, cryopreservation of cord blood serum and plasm and their clinical application [methodical recommendations]. Kharkov; 2000. PubMed

Grischenko V.I., Morozova T.F., Vorotilin O.M. et al. Preparation and storage of cryopreserved suspension of placenta for clinical application [methodical recommendations]. Kharkov; 1997.

Grischenko V.I., Prokopyuk O.S. Perspectives and possibilities of placental blood application. Meditsinskie Vesti 1997; 4: 26–27.

Grischenko V.I., Prokopyuk V.Yu., Chizhevsky V.V. et al., inventors. Cryopreservation way for chorionic tissue. Patent of Ukraine N 67588; IPC A 01 N 1/02. 2004 June15.

Grischenko V.I., Prokopyuk O.S., Volkova N.O., Perchik O.A. Effect of different regimens of low temperature storage on the content of hormones in placental cryoextract. Problems of Cryobiology 2004; (4): 8–11.

Grischenko V.I., Strona V.I., Yurchenko T.M., et al., inventors. Way for procurement of fetal membrane transplants. Patent of Ukraine N 58223A; IPC A 61 K 35/50. 2003 July 15.

Grischenko V.I., Yurchenko T.N., editors. Placenta: cryopreservation, structure, properties and perspectives of clinical application. Kharkov; 2011.

Grischenko V.I., Yurchenko T.M., Prokopyuk O.S. et al., inventors. Cryopreservation way for tissues of fetoplacental comp-lex. Patent of Ukraine N 30808; IPC A 01 N 1/02. 2000 Dec 15.

Haller M.J., Wasserfall C.H., McGrail K.M. et al. Autologous umbilical cord blood transfusion in very young children with type 1 diabetes. Diabetes Care 2009; 32: 2041–2046. CrossRef PubMed

Harris D.T. Cord blood stem cells: a review of potential neurological applications. Stem Cell Rev 2008; 4(4): 269–274. CrossRef PubMed

Hunt C.J., Armitage S.E., Pegg D.E. Cryopreservation of umbilical cord blood: 2. Tolerance of CD34(+) cells to multimolar dimethyl sulphoxide and the effect of cooling rate on recovery after freezing and thawing. Cryobiology 2003; 46: 76–87. CrossRef

Huppertz B., Kivity V., Sammar M. et al. Cryogenic and low temperature preservation of human placental villous explants. A new way to explore drugs in pregnancy disorders. Placenta 2011; 32: 65–76. CrossRef PubMed

International Standards for Cord Blood Collection, Processing, Testing, Banking, Selection and realease NetCord-FACT International Standards Third Edition 12/08/06; 1–85.

Isachenko V.V., Ostashko F.I., Grishchenko V.I. et al. Survival of trophoblastic fragments and vesicles after vitrification, ultrarapid freezing, and storage at 4 degrees C. Cryobiology 1993; 30(4): 432–437. CrossRef PubMed

Kang M., Choi S., Cho Lee A.R. Effect of freeze dried bovine amniotic membrane extract on full thickness wound healing. Arch Pharm Res 2013; 36(4): 472–478. CrossRef PubMed

Karpova N.S., Abdulkadyrova K.M., Selivanov E.A., Balashova V.A. Study of telomere length and colony-forming capability of cord blood hematopoietic stem cells during cryopreservation. Cellular Transplantology and Tissue Engineering 2011; 6(4): 42–47.

Kesting M.R., Loeffelbein D.J., Steinstraesser L. et al. Cryopreserved human amniotic membrane for soft tissue repair in rats. Ann Plast Surg 2008; 60(6): 684–691. CrossRef PubMed

Kharchenko N.S. Placental preparations and their clinical application. Obstetrics and Gynecology 1947; (2): 27–31.

Khuu H.M., Cowley H., David-Ocampo V. et al. Catastrophic failures of freezing bags for cellular therapy products: description, cause and consequences. Cytotherapy 2002; 4: 539–549. CrossRef PubMed

Klinich K.D., Miller C.S., Hu J., et al. Effect of frozen storage on dynamic tensile properties of human placenta. J Biomech Eng 2012; 134(3): 034501. CrossRef PubMed

Kocaoemer A., Kern S., Kluter H. et al. Human AB serum and thrombin-activated platelet-rich plasma are suitable alternatives to fetal calf serum for the expansion of mesenchymal stem cells from adipose tissue. Stem Cells 2007; 25: 1270–1278. CrossRef PubMed

Koegler G., Critser P., Trapp T., Yoder M. Future of cord blood for non-oncology uses. Bone Marrow Transplantation 2009; 44(10): 683–697. CrossRef PubMed

Kostyayev A.A. Low temperature preservation of hematopoietic stem cells at –80°C with the regimen of rapid two-step freezing (experimental study) [Author's abstract of dissertation]. St-Petersburg; 2003.

Kubo M., Sonoda Y., Muramatsu R. et al. Immunogenicity of human amniotic membrane in experimental xenotransplantation. Invest Ophthalmol Vis Sci 2001; 42(7): 1539–1546. PubMed

Laurent R., Nallet A., Obert L. et al. Storage and qualification of viable intact human amniotic graft and technology transfer to a tissue bank. Cell Tissue Bank 2014; 15(2): 267–275. CrossRef PubMed

Law L.W., Sahota D.S., Chan L.W. et al. Effect of long-term storage on placental growth factor and fms-like tyrosine kinase 1 measurements in samples from pregnant women. J Matern Fetal Neonatal Med 2010; 12: 1475–1480. CrossRef PubMed

Lipina O.V., Savchenko Yu.A., Musatova I.B. Low temperature preservation of cord blood plasm. In: Bioimplantology on the threshold of XXI century. Proceedings of Symposium on Problem of Tissues Banks with International Participation. Samara; 2001.

Lipina O.V., Shidlovsky V.O., Deikalo I.M. et al. Immuno-correcting therapy in a combined treatment of patients with severe purulent pathology. Problems of Cryobiology 2005; 15 (1): 79–84.

Lipina O.V., Trifonov V.Yu., Prokopyuk O.S., Musatova I.B. Human cord blood serum preparation: clinical application. World of Medicine and Biology 2009; (4): 38–41.

Liseth K., Abrahamsen J.F., Bjorsvik S. et al. The viability of cryopreserved PBPC depends on the DMSO concentration and the concentration of nucleated cells in the graft. Cytotherapy 2005; 7: 328–333. CrossRef PubMed

Madhavan H.N., Priya K., Malathi J. Et al. Preparation of amniotic membrane for ocular surface reconstruction. Indian J Ophthal-mol 2002; 50(3): 227–231. PubMed

Martins J.P., Santos J.M., de Almeida J.M. et al. Towards an advanced therapy medicinal product based on mesenchymal stromal cells isolated from the umbilical cord tissue: quality and safety data. Stem Cell Res Ther 2014; 5(1): 1–15. CrossRef PubMed

Micera A., Jirsova K., Normando E.M. et al. Molecular and biochemical expression of TLRs in human amniotic membrane: a comparative study of fresh and cryopreserved specimens. Graefes Arch Clin Exp Ophthalmol 2014; 252(2): 267-274. CrossRef PubMed

Moon J.H., Lee J.R., Jee B.C. et al. Successful vitrification of human amnion-derived mesenchymal stem cells. Human Reprod 2008; 23: 1760–1770. CrossRef PubMed

Moshko Yu.A. Cryopreservation of cord blood serum, determination of its biological activity and clinical efficiency in therapy of chronic salpingoophoritis [dissertation]. Kharkov; 2003.

Nardid E.O. Biological activity of cryopreserved serum of cord blood in experimental model of post-hysterectomy syndrome [Dissertation]. Kharkov; 2010.

Nardid E.O., Rozanova E.D., Tsymbal L.V. et al. State of proteins of cord blood serum after freezing. Biofizika 2009; 54 (5): 881–886. PubMed

Nardid O.A. Intra- and intermolecular interactions and their role in cryodamage and cryoprotection of biological structures [Author's abstract of dissertation]. Kharkov; 2012.

Nardid O.A. Low temperature effect on protein systems. Problems of Cryobiology 2014; 24 (2): 83–101. CrossRef

Newby D., Dalgliesh G.L., Aitken D.A. et al. Effect of cryopreservation on human cytotrophoblast cells in culture: hCG and PALP production. Placenta 2007; 28(4): 350–352. CrossRef PubMed

Niknejad H., Deihim T., Solati-Hashjin M. et al. The effects of preservation procedures on amniotic membrane's ability to serve as a substrate for cultivation of endothelial cells. Cryobiology 2011; 63(3): 145–151. CrossRef PubMed

Okabe M., Kitagawa K., Yoshida T et al. Hyperdry human am-niotic membrane is useful material for tissue engineering: physical, morphological properties, and safety as the new biological material. J Biomed Mater Res A 2014: 102(3): 862–870. CrossRef PubMed

Parolini O., Alviano F., Bagnara G.P. et al. Concise review: isolation and characterization of cells from human term placenta: outcome of the first international workshop 'Placenta Derived Stem Cells'. Stem Cells 2008; 26(2): 300–311. CrossRef PubMed

Perchik O.A., Volina V.V. Effect of placental preparations on morphofunctional state of organs and tissues in old rats. Problems of Cryobiology 2006; 16 (3): 341–347.

Pipino C., Shangaris P., Resca E. et al. Placenta as a reservoir of stem cells: an underutilized resource? Br Med Bull 2013; 105: 43–68. CrossRef PubMed

Pitko V.A., Rozanova K.D., Pogozhikh D.M. et al. Effect of temperature regimen of storage of placental tissue on properties of derived from it aqueous-saline extracts. Collection of scientific papers of association of obstetrician-gynaecologists of Ukraine 2006: 585–587.

Pogozhikh D.M. Effect of low temperature storage on properties and biological activity of placental extracts [Author's abstract of dissertation]. Kharkov; 2009.

Pogozhykh D., Prokopyuk V., Pogozhykh O. et al. Influence of factors of cryopreservation and hypothermic storage on survival and functional parameters of multipotent stromal cells of placental origin. PLoS One 2015; 2(10): 1–15. CrossRef

Pogozhikh D.N., Rozanova E.D., Nardid O.A. Changes in pro-perties of human placental aqueous-saline extracts during low temperatures storage. Problems of Cryobiology 2008; 18 (1): 22–26

Popovich Ya.O., Shevchuk O.S., Prokopyuk O.S. et al., inventors. Way for therapy of diabetes mellitus complicated with diabetic microangiopathy. Patent of Ukraine N 7937; IPC7 A 61 K 35/16 A 61 B 17/00. 2005 July 15.

Popovich Ya.O., Shevchuk A.G., Vasilyuk M.D. Preparations of fetoplacental complex in correction of oxidant stress in surgical treatment of patients with diabetic foot syndrome. Transplantologiya 2007; 9 (1): 224-227

Porter A.E., Auth J., Prince M. et al. Optimization of cytokine stability in stored amniotic fluid. Am J Obstet Gynecol 2001; 185(2): 459–462. CrossRef PubMed

Privalov P.L. Cold denaturation of proteins. Critical Reviews in Biochemistry and Molecular Biology 1990; 25(4): 281-305. CrossRef

Prokopyuk O.S. Cryopreservation of placenta and determination of its effect mechanisms on a body of patients of late ontogenesis (experimental study) [Author's abstract of dissertation]. Kharkov; 2014.

Prokopyuk O.S. et al. Cryopreserved erythrocytes of umbilical blood: antianemic transfusion medium. In: Yurchenko T.N. et al., editors. Effect of cooling on biological objects. Kharkov; 1990; p. 121–124.

Prokopyuk O.S., Petrenko A.Yu., Prokopyuk V.Yu., Chizhevsky V.V. Cryopreservation of placenta of different matu-rity degree. Problems of Cryobiology 2008; 18 (2): 220.

Prokopyuk V.Yu., Prokopyuk O.S., Chizhevsky V.V, inventors. Cryopreservation way for placental tissue. Patent of Ukraine N 79009; IPC A 01 N 1/02. 2013 Apr 10.

Prokopyuk V.Yu., Prokopyuk O.S., Musatova I.B. et al. Survival of placental, umbilical cord and fetal membrane explants after cryopreservation. Cell and organ transplantology 2015; 3(1): 34–38.

Puchkovskaya N.A., editor. Tissue therapy. Kiev: Zdorov'ya; 1975.

Radke T.F., Barbosa D., Duggleby R.C. et al. The assessment of parameters affecting the quality of cord blood by the appliance of the Annexin V staining method and correlation with CFU assays. Stem Cells Int 2013; 823912. CrossRef

Rassokha I.V., Goltsev A.N., Gurina T.M. Effect of different cryopreservation regimens on capability of placental suspen-sion to manifest an immunocorrecting activity during treatment of adjuvant arthritis in mice. Problems of Cryobiology 2004; (1): 21–29.

Ravishanker R., Bath A.S., Roy R. 'Amnion Bank' – the use of long term glycerol preserved amniotic membranes in the management of superficial and superficial partial thickness burns. Burns 2003; 29(4): 369–374. CrossRef

Regnault T.R.H., Galan H.L., Parker T.A. et al. Placental deve-lopment in normal and compromised pregnancies – a review. Placenta 2002; 23(Suppl A): 119–129. CrossRef PubMed

Ricci E., Vanosi G., Lindenmair A. et al. Anti-fibrotic effects of fresh and cryopreserved human amniotic membrane in a rat liver fibrosis model. Cell Tissue Bank 2013; 14(3): 475–488. CrossRef PubMed

Riordan N.H., Chan K., Marleau A.M., Ichim T.E.Cord blood in regenerative medicine: do we need immune suppression? J Transl Med 2007; 5: 8. CrossRef PubMed

Roselli E.A., Lazzati S., Iseppon F. et al. Fetal mesenchymal stromal cells from cryopreserved human chorionic villi: cytogenetic and molecular analysis of genome stability in long-term cultures. Cytotherapy 2013; 15(11): 1340–1351. CrossRef PubMed

Royenko A.A., Prokopyuk V.Yu., Prokopyuk O.S. et al. Morpho-functional characteristics of cryopreserved membrane of human afterbirth. In: Actual Problems of Medicine (collection of scientific papers). Gomel, Belarus; 2014; 2: 238–241.

Rozanova S.L., Naumenko E.I., Rozanova E.D. et al. Changes in antioxidant properties of human placental extracts after freezing. Problems of Cryobiology 2010; 20 (3): 288–295.

Rubinstein P., Dobrila L., Rosenfield R. E. et al. Processing and cryopreservation of placental/umbilical cord blood for unrelated bone marrow reconstitution. Proc Natl Acad Sci USA 1995; 92(22): 10119–10122. CrossRef PubMed

Rumyantsev G.E. Tissue therapy. Rostov-on-Don: Rostizdat; 1951.

Schmidt D., Hoerstrup S.P. Tissue engineered heart valves based on human cells. Swiss Med Weekly 2007; 2(137): 80–85.

Seo J.M., Sohn M.Y., Suh J.S. et al. Cryopreservation of amniotic fluid-derived stem cells using natural cryoprotectants and low concentrations of dimethylsulfoxide. Cryobiology 2011; 62(3): 167–173. CrossRef PubMed

Shabliy V., Kuchma M., Kirik V. et al. Mesenchymal and stromal cells from native and cryopreserved human placenta: pheno-type, multipotency and migration potential in vivo. Problems of Cryobiology 2012; 22 (2): 157–160.

Shirshev S.V. Proteins of fetoplacental complex in regulation of immune reactions. Uspekhi Sovremennoi Biologii 1993; 113 (2): 230–237.

Smolyaninov A.B. Cell medicine: concept of its development. Clinical Pathophysiology 2004; (1): 10-18.

Sommer M., Funfstuck R., Stein G. Cell cultures from cryo-preserved renal biopsies and other tissue samples. Exp Toxicol Pathol 1999; 51(3): 229–234. CrossRef

Spong C.Y., Ghidini A., Ossandon M. et al. Are the cytokines interleukin-6 and angiogenin stable in frozen amniotic fluid? Am J Obstet Gynecol 1998; 178(4): 783–786. CrossRef

Stiff P.J., Koester A.R., Weidner M.K. et al. Autologous bone marrow transplantation using unfractionated cells cryopre-served in dimethylsulfoxide and hydroxyethyl starch without controlled-rate freezing. Blood 1987; 70: 974–978. PubMed

Taghizadeh R.R., Cetrulo K.J., Cetrulo C.L. Wharton's Jelly stem cells: future clinical applications. Placenta 2011; 32 (Suppl. 4): 311–315. CrossRef PubMed

Tehrani F.A., Ahmadiani A., Niknejad H. The effects of preservation procedures on antibacterial property of amniotic membrane. Cryobiology 2013; 67(3): 293–298. CrossRef PubMed

Thirumala S., Goebel W.S., Woods E.J. Clinical grade adult stem cell banking. Organogenesis 2009; 5(3): 143–154. CrossRef PubMed

Thirumala S., Zvonic S., Floyd E. et al. Effect of various freezing parameters on the immediate post-thaw membrane integrity of adipose tissue derived adult stem cells. Biotechnol Prog 2005; 21: 1511–1524. CrossRef PubMed

Thomasen H., Pauklin M., Noelle B. et al. The effect of long-term storage on the biological and histological properties of cryopreserved amniotic membrane. Curr Eye Res 2011; 36(3): 247–255. CrossRef PubMed

Thomasen H., Pauklin M., Steuhl K.P. et al. Comparison of cryopreserved and air-dried human amniotic membrane for ophthalmologic applications. Graefe's Arch Clin Exp Ophthalmol 2009; 247(12): 1691–1700. CrossRef PubMed

Tiwary S.K., Shukla D., Tripathi A.K. et al. Effect of placental-extract gel and cream on non-healing wounds. J Wound Care 2006; 15(7): 325–328. CrossRef PubMed

Trifonov V.Yu., Prokopyuk V.Yu., Zajchenko A.V. Cryopreser-ved serum of cord blood in recovery of reproductive function in antiphospholipid syndrome. Problems of Cryobiology 2011; 21 (1): 75–84.

Tsutsayeva A.A., Grischenko V.I., Kudokotseva O.V. et al. Cryopreservation of hematopoietic stem cells from human cord blood. Problems of Cryobiology 2000; (1): 59–63.

Tsutsayeva A.O., Grischenko V.I., Kudokotseva O.V. et al. Procurement, cryopreservation and clinical application of hematopoietic cells of human cord blood [methodical recom-mendations]. Kharkov; 2000.

Tsutsayeva A.A., Grischenko V.I., Prokopyuk O.S. et al., inventors. Cryopreservation way for cord blood hemopoietic cells. Patent of Ukraine N 31847A; IPC A 01 N 1/02. 2000 Dec 15.

Vanichsetakul P. Clinical use of cord blood for stem cell transplantation. J Med Assoc Thai 2005; 88(2): 93–100.

Volkova N.A., Goltsev A.N. Cryopreservation effect on proliferation and differentiation potential of culture chorion cells. Cryo Letters 2015; 36(1): 25–29.

Vvedensky B.P., Kovalev G.A., Tynynyka L.N. et al. Cryo-preserved serum of cord blood in therapy of destructive and dystrophic processes in joints. Bulletin of Urgent and Recovery Medicine 2012; 13 (1): 41–43.

Wang H.Y., Lun Z.R., Lu S.S. Cryopreservation of umbilical cord blood-derived mesenchymal stem cells without dimethyl sulfoxide. CryoLetters 2011; 32(1): P. 81–88.

Werber B., Martin E. A prospective study of 20 foot and ankle wounds treated with cryopreserved amniotic membrane and fluid allograft. J Foot Ankle Surg 2013; 52(5): 615–621. CrossRef PubMed

Woods E.J., Benson J.D., Agca Y. et al. Fundamental cryobiology of reproductive cells and tissues. Cryobiology 2004; 48: 146–156. CrossRef PubMed

Yang W.-Z., Zhang Y., Wu F. et al. Safety evaluation of allogeneic umbilical cord blood mononuclear cell therapy for degenerative conditions (Shenzhen Beike Cell Engineering Research Institute, Shenzhen, China). Journal of Translational Medicine 2010; 8(1): 75. CrossRef PubMed

Young D.A., Gavrilov S., Pennington C.J. et al. Expression of metalloproteinases and inhibitors in the differentiation of P19CL6 cells into cardiac myocytes. Biochem Bioph Res Co 2004; 322: 759–765. CrossRef PubMed

Yu G., Borlongan C.V., Stahl C.E. et al. Transplantation of human umbilical cord blood cells for the repair of myocardial infarction. Med Sci Monit 2008; 14(10): 163–172.

Yu X.M., Xue Z.G., Dai G.S. et al. Isolation, culture and cryopreservation of cells derived from fetal appendages. Zhonghua Shao Shang Za Zhi 2007; 23(6): 447–450. PubMed

Yurchenko T.N., Prokopyuk O.S., Kuzmina I.Yu. et al. About the possibility of placental tissue cryopreservation. Proceedings of the 1st Congress of Ukrainian Society for Cryobiology and Cryomedicine. Kharkov; 1995, p. 284–285.