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      가임력 보존을 위한 난소조직 동결 보존과 이식 = Ovarian tissue cryopreservation and transplantation for fertility preservation

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      https://www.riss.kr/link?id=A108572724

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      다국어 초록 (Multilingual Abstract)

      Background: As the number of cancer survivors has increased with advancements in cancer treatment, fertility preservation has become a treatment goal. Ovarian tissue cryopreservation (OTC) and transplantation (OTT) has made great progress over the past few decades. It has become the treatment of choice for fertility preservation in adolescents or patients in urgent need of chemotherapy. However, it is considered to be experimental compared with oocyte or embryo cryopreservation in some countries. Nevertheless, OTC and OTT is regarded as the more ideal method for fertility preservation in that it can also restore hormonal functions.
      Current Concepts: Currently, over 200 live births have been reported worldwide after OTC and OTT, proving the excellence of the technology. However, before its application in clinical settings, some challenges, including cryoinjury, ischemic injury, and cancer cell reimplantation, should be overcome. For cryoinjury, studies are underway on protocol improvement with the addition of agents such as antifreeze protein during cryopreservation. For ischemic injury, various agents have been studied to promote angiogenesis or revascularization. Furthermore, studies are underway on artificial ovary or xenotransplantation for fertility preservation in an effort to avoid cancer cell metastasis.
      Discussion and Conclusion: OTC and OTT is a clinically applicable option for fertility preservation. To set OTC and OTT as an established method for fertility preservation, further research is necessary to overcome the current challenges.
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      Background: As the number of cancer survivors has increased with advancements in cancer treatment, fertility preservation has become a treatment goal. Ovarian tissue cryopreservation (OTC) and transplantation (OTT) has made great progress over the pas...

      Background: As the number of cancer survivors has increased with advancements in cancer treatment, fertility preservation has become a treatment goal. Ovarian tissue cryopreservation (OTC) and transplantation (OTT) has made great progress over the past few decades. It has become the treatment of choice for fertility preservation in adolescents or patients in urgent need of chemotherapy. However, it is considered to be experimental compared with oocyte or embryo cryopreservation in some countries. Nevertheless, OTC and OTT is regarded as the more ideal method for fertility preservation in that it can also restore hormonal functions.
      Current Concepts: Currently, over 200 live births have been reported worldwide after OTC and OTT, proving the excellence of the technology. However, before its application in clinical settings, some challenges, including cryoinjury, ischemic injury, and cancer cell reimplantation, should be overcome. For cryoinjury, studies are underway on protocol improvement with the addition of agents such as antifreeze protein during cryopreservation. For ischemic injury, various agents have been studied to promote angiogenesis or revascularization. Furthermore, studies are underway on artificial ovary or xenotransplantation for fertility preservation in an effort to avoid cancer cell metastasis.
      Discussion and Conclusion: OTC and OTT is a clinically applicable option for fertility preservation. To set OTC and OTT as an established method for fertility preservation, further research is necessary to overcome the current challenges.

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      참고문헌 (Reference)

      1 박기현 ; 이병석 ; 정다정, "난소조직냉동 및 이식" 대한산부인과학회 49 (49): 2473-2478, 2006

      2 Shi Q, "Vitrification versus slow freezing for human ovarian tissue cryopreservation : a systematic review and meta-anlaysis" 7 : 8538-, 2017

      3 Youm HW, "Transplantation of mouse ovarian tissue : comparison of the transplantation sites" 83 : 854-861, 2015

      4 Morris RT, "The ovarian graft" 5 : 436-437, 1895

      5 이정렬 ; 이다용 ; 박수현 ; 백은찬 ; 김슬기 ; 지병철 ; 서창석 ; 김석현, "Successful in Vitro Fertilization and Embryo Transfer after Transplantation of Cryopreserved Ovarian Tissue: Report of the First Korean Case" 대한의학회 33 (33): 1-7, 2018

      6 Gosden RG, "Restoration of fertility to oophorectomized sheep by ovarian autografts stored at-196 degrees C" 9 : 597-603, 1994

      7 Kim SS, "Quantitative assessment of ischemic tissue damage in ovarian cortical tissue with or without antioxidant(ascorbic acid)treatment" (82) : 679-685, 2004

      8 Nugent D, "Protective effect of vitamin E on ischaemia-reperfusion injury in ovarian grafts" 114 : 341-346, 1998

      9 Yang C, "Promotion of angiogenesis toward transplanted ovaries using nitric oxide releasing nanoparticles in fibrin hydrogel" 14 : 011001-, 2021

      10 김수영 ; 이윤지 ; 이상훈 ; 김탁, "Ovarian tissue cryopreservation and transplantation in patients with cancer" 대한산부인과학회 61 (61): 431-442, 2018

      1 박기현 ; 이병석 ; 정다정, "난소조직냉동 및 이식" 대한산부인과학회 49 (49): 2473-2478, 2006

      2 Shi Q, "Vitrification versus slow freezing for human ovarian tissue cryopreservation : a systematic review and meta-anlaysis" 7 : 8538-, 2017

      3 Youm HW, "Transplantation of mouse ovarian tissue : comparison of the transplantation sites" 83 : 854-861, 2015

      4 Morris RT, "The ovarian graft" 5 : 436-437, 1895

      5 이정렬 ; 이다용 ; 박수현 ; 백은찬 ; 김슬기 ; 지병철 ; 서창석 ; 김석현, "Successful in Vitro Fertilization and Embryo Transfer after Transplantation of Cryopreserved Ovarian Tissue: Report of the First Korean Case" 대한의학회 33 (33): 1-7, 2018

      6 Gosden RG, "Restoration of fertility to oophorectomized sheep by ovarian autografts stored at-196 degrees C" 9 : 597-603, 1994

      7 Kim SS, "Quantitative assessment of ischemic tissue damage in ovarian cortical tissue with or without antioxidant(ascorbic acid)treatment" (82) : 679-685, 2004

      8 Nugent D, "Protective effect of vitamin E on ischaemia-reperfusion injury in ovarian grafts" 114 : 341-346, 1998

      9 Yang C, "Promotion of angiogenesis toward transplanted ovaries using nitric oxide releasing nanoparticles in fibrin hydrogel" 14 : 011001-, 2021

      10 김수영 ; 이윤지 ; 이상훈 ; 김탁, "Ovarian tissue cryopreservation and transplantation in patients with cancer" 대한산부인과학회 61 (61): 431-442, 2018

      11 Donnez J, "Ovarian tissue cryopreservation and transplantation : a review" 12 : 519-535, 2006

      12 Hoekman EJ, "Ovarian tissue cryopreservation : Low usage rates and high live-birth rate after transplantation" 99 : 213-221, 2020

      13 Lee J, "Ovarian injury during cryopreservation and transplantation in mice : a comparative study between cryoinjury and ischemic injury" 31 : 1827-1837, 2016

      14 Aubard Y, "Orthotopic and heterotopic autografts of frozen-thawed ovarian cortex in sheep" 14 : 2149-2154, 1999

      15 Youm HW, "Optimal vitrification protocol for mouse ovarian tissue cryopreservation : effect of cryoprotective agents and in vitro culture on vitrified-warmed ovarian tissue survival" 29 : 720-730, 2014

      16 Sugishita Y, "Oocyte retrieval after heterotopic transplantation of ovarian tissue cryopreserved by closed vitrification protocol" 35 : 2037-2048, 2018

      17 Choi SR, "Molecular basis of ice-binding and cryopreservation activities of type III antifreeze proteins" 19 : 897-909, 2021

      18 Hovatta O, "Methods for cryopreservation of human ovarian tissue" 10 : 729-734, 2005

      19 McLaughlin M, "Metaphase II oocytes from human unilaminar follicles grown in a multi-step culture system" 24 : 135-142, 2018

      20 Xia X, "Mesenchymal stem cells enhance angiogenesis and follicle survival in human cryopreserved ovarian cortex transplantation" 24 : 1999-2010, 2015

      21 Newton H, "Low temperature storage and grafting of human ovarian tissue" 11 : 1487-1491, 1996

      22 Baird DT, "Long-term ovarian function in sheep after ovariectomy and transplantation of autografts stored at-196 C" 140 : 462-471, 1999

      23 Cacciottola L, "Long-term advantages of ovarian reserve maintenance and follicle development using adipose tissue-derived stem cells in ovarian tissue transplantation" 9 : 2980-, 2020

      24 Donnez J, "Livebirth after orthotopic transplantation of cryopreserved ovarian tissue" 364 : 1405-1410, 2004

      25 Reeta Mahey ; Shobha Kandpal ; Monica Gupta ; Perumal Vanamail ; Neerja Bhatla ; Neena Malhotra, "Knowledge and awareness about fertility preservation among female patients with cancer : a cross-sectional study" 대한산부인과학회 63 (63): 480-489, 2020

      26 공현선 ; 공현선 ; 염혜원 ; 김슬기 ; 이정렬 ; 서창석 ; 김석현, "Improvement in Ovarian Tissue Quality with Supplementation of Antifreeze Protein during Warming of Vitrified Mouse Ovarian Tissue" 연세대학교의과대학 59 (59): 331-336, 2018

      27 Dolmans MM, "Importance of patient selection to analyze in vitro fertilization outcome with transplanted cryopreserved ovarian tissue" 114 : 279-280, 2020

      28 Poirot C, "Impact of cancer chemotherapy before ovarian cortex cryopreservation on ovarian tissue transplantation" 34 : 1083-1094, 2019

      29 Silber S, "How ovarian transplantation works and how resting follicle recruitment occurs: a review of results reported from one center" 12 : 217-227, 2016

      30 Kawamura K, "Hippo signaling disruption and Akt stimulation of ovarian follicles for infertility treatment" 110 : 17474-17479, 2013

      31 Fuller B, "Fundamentals of cryobiology in reproductive medicine" 9 : 680-691, 2004

      32 Khattak H, "Fresh and cryopreserved ovarian tissue transplantation for preserving reproductive and endocrine function : a systematic review and individual patient data meta-analysis" 28 : 400-416, 2022

      33 Ayuandari S, "Follicular growth after xenotransplantation of cryopreserved/thawed human ovarian tissue in SCID mice : dynamics and molecular aspects" 33 : 1585-1593, 2016

      34 Shapira M, "First delivery in a leukemia survivor after transplantation of cryopreserved ovarian tissue, evaluated for leukemia cells contamination" 109 : 48-53, 2018

      35 Yodo Sugishita ; Nao Suzuki, "Fertility preservation for adolescent and young adult cancer patients in Japan" 대한산부인과학회 61 (61): 443-452, 2018

      36 Dolmans MM, "Fertility preservation : the challenge of freezing and transplanting ovarian tissue" 27 : 777-791, 2021

      37 Donnez J, "Fertility Preservation in Women" 377 : 1657-1665, 2017

      38 Lee J, "Effects of three different types of antifreeze proteins on mouse ovarian tissue cryopreservation and transplantation" 10 : e0126252-, 2015

      39 Youm HW, "Effects of angiopoietin-2 on transplanted mouse ovarian tissue" 11 : e0166782-, 2016

      40 Kong HS, "Effect of treatment with angiopoietin-2 and vascular endothelial growth factor on the quality of xenografted bovine ovarian tissue in mice" 12 : e0184546-, 2017

      41 ESHRE Guideline Group on Female Fertility Preservation, "ESHRE guideline : female fertility preservation" 2020 : hoaa052-, 2020

      42 Lv F, "Devitrification and recrystallization of nanoparticle-containing glycerol and PEG-600 solutions" 68 : 84-90, 2014

      43 Oktay KH, "Delaying reproductive aging by ovarian tissue cryopreservation and transplantation : is it prime time?" 27 : 753-761, 2021

      44 Greve T, "Cryopreserved ovarian cortex from patients with leukemia in complete remission contains no apparent viable malignant cells" 120 : 4311-4316, 2012

      45 Lee J, "Comparison of the oocyte quality derived from twodimensional follicle culture methods and developmental competence of in vitro grown and matured oocytes" 2018 : 7907092-, 2018

      46 Viviane Margareth Scantamburlo ; Renate von Linsingen ; Lidio Jair Ribas Centa ; Kahisa Fontana Dal Toso ; Debora Scaraboto ; Edward Araujo Júnior ; Jaime Kulak Junior, "Association between decreased ovarian reserve and poor oocyte quality" 대한산부인과학회 64 (64): 532-539, 2021

      47 Kong HS, "Antifreeze protein supplementation during the warming of vitrified bovine ovarian tissue can improve the ovarian tissue quality after xenotransplantation" 12 : 672619-, 2021

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