Current progress in oocyte and embryo cryopreservation by slow freezing and vitrification.
about
Vitrification versus slow freezing for women undergoing oocyte cryopreservationVitrification versus slow freezing for women undergoing oocyte cryopreservationEmerging applications of sperm, embryo and somatic cell cryopreservation in maintenance, relocation and rederivation of swine geneticsOocyte cryopreservation: searching for novel improvement strategiesSynchrotron X-ray diffraction to detect glass or ice formation in the vitrified bovine cumulus-oocyte complexes and morulaeDigital microfluidic processing of mammalian embryos for vitrificationAnalysis of the phospholipid profile of metaphase II mouse oocytes undergoing vitrificationMammalian fertility preservation through cryobiology: value of classical comparative studies and the need for new preservation optionsManipulating biological agents and cells in micro-scale volumes for applications in medicine.Exhaustion of racing sperm in nature-mimicking microfluidic channels during sorting.Emerging technologies in medical applications of minimum volume vitrificationThe effect of cumulus cells on domestic cat (Felis catus) oocytes during in vitro maturation and fertilization.Free cholesterol and cholesterol esters in bovine oocytes: Implications in survival and membrane raft organization after cryopreservationPreserving human cells for regenerative, reproductive, and transfusion medicine.The rate of blastocysts production following vitrification with step-wise equilibration of immature mouse oocytesBreeding or assisted reproduction? Relevance of the horse model applied to the conservation of endangered equids.Phosphatidylcholine and sphingomyelin profiles vary in Bos taurus indicus and Bos taurus taurus in vitro- and in vivo-produced blastocysts.Development of a novel vitrification method for chondrocyte sheets.Does cryopreservation of ovarian tissue affect the distribution and function of germinal vesicle oocytes mitochondria?Live birth from slow-frozen rabbit oocytes after in vivo fertilisation.Efficient production of live offspring from mouse oocytes vitrified with a novel cryoprotective agent, carboxylated ε-poly-L-lysine.Evaluation of the impact of vitrification on the actin cytoskeleton of in vitro matured ovine oocytes by means of Raman microspectroscopySlow freezing, but not vitrification supports complete spermatogenesis in cryopreserved, neonatal sheep testicular xenograftsNew algorithm for OHSS preventionProduction of F₁ offspring with vitrified sperm from a live-bearing fish, the green swordtail Xiphophorus hellerii.Development of Cryopreservation Techniques for Gorgonian (Junceella juncea) Oocytes through VitrificationVitrification of Rattus norvegicus immature cumulus-oocyte complexes using hyaluronic acid.Vitrification of Sperm from Marine Fishes: Effect on Motility and Membrane Integrity.Cancer, fertility preservation, and future pregnancy: a comprehensive review.Development of Cheaper Embryo Vitrification Device Using the Minimum Volume Method.Conservation of somatic tissue derived from collared peccaries (Pecari tajacu Linnaeus, 1758) using direct or solid-surface vitrification techniques.Effects of High Hydrostatic Pressure on Expression Profiles of In Vitro Produced Vitrified Bovine BlastocystsImprovement of vitrification of in vitro produced buffalo embryos with special reference to sex ratio following vitrification.Survival and post-warming in vitro competence of human oocytes after high security closed system vitrification.Rapamycin Influences the Efficiency of In vitro Fertilization and Development in the Mouse: A Role for Autophagic ActivationIntrauterine embryo transfer with canine embryos cryopreserved by the slow freezing and the Cryotop method.Slow freezing and vitrification of mouse morula and early blastocysts.Vitrification of immature bovine cumulus-oocyte complexes: effects of cryoprotectants, the vitrification procedure and warming time on cleavage and embryo developmentGood thermally conducting material supports follicle morphologies of porcine ovaries cryopreserved with ultrarapid vitrificationIntracellular ice and cell survival in cryo-exposed embryonic axes of recalcitrant seeds of Acer saccharinum: an ultrastructural study of factors affecting cell and ice structures.
P2860
Q24193770-54810A5D-EB8E-42F9-A12E-2C042973F0F0Q24201780-6F8B7565-AE07-470B-BCE5-9C4DAAB85650Q27000379-77A349C1-7805-4829-9F2E-212613E4EA3CQ27002269-96E935BA-E44F-4B22-B7B3-DF47AC2C301DQ27321227-A3893B6C-47E2-42CA-A96C-7E53CE3C6909Q27345544-B7A279B0-5E47-4FB2-8DCE-AAC8B2095BD2Q28540854-50E87CB5-5BEA-4D68-ABA3-F11542779443Q28658878-B78B774C-6FB9-4BD0-8D37-844BFE09650AQ30445677-BE1C2ABC-7DCD-4E9F-9C99-D63EF2100C9DQ30446864-3C406B2A-2C1C-4620-8B5C-61EC72DE0F78Q30467168-46253161-7110-416A-9931-23380F66BC19Q32184462-01948CE0-948A-4B26-BE10-D116EF3E3E68Q33883892-BB433895-7552-4157-99C6-B0DE0AF73692Q34094348-290A5ED0-717A-4ACF-8A50-AEA49FADB4EDQ34216447-24F05655-5B67-4970-8E17-174E565E7837Q34349721-00DED33F-11AB-4FAB-A2F5-C17B070F876FQ34439993-2BE4FE9C-F23E-49F6-9687-B9A24B3A983AQ34865866-F35FCCFC-D7FF-4E3F-8C4F-42861937C578Q34955380-90EB3AAD-46D0-4301-AC56-7D79DEF1BE20Q35073080-98694C69-6315-4515-B38B-A0F9E61D2CD4Q35078131-2E429ABE-5EC8-458C-9640-9434102FC13BQ35160852-9AD71BC0-2774-449E-BCB9-344C844C5AAEQ35553060-C7745E13-D919-4AF4-BC40-B6D371FFF459Q35591046-71FCB372-8A97-4533-9ABD-0A98DB11EECFQ35621046-1772C45F-498C-4B06-B50C-A4AEECC5B8DEQ35648404-1C963435-0781-4AEA-9B3C-424BE9A95D8CQ35703936-ACC6208B-841E-4B22-A45E-74601F16A5CBQ35711774-0574BA41-2A12-4B0B-9E9E-F0266EED2989Q35864047-C80B7AAB-90B6-49D5-8EC1-2208FCF2073DQ35915575-EC826572-7930-48FC-913C-38EE5DA4C982Q36297487-4A3CDC11-CA9F-4153-81D2-C4EE7C36DD5CQ36587746-D0B4A485-D283-46FC-AF3C-8909C6CBDD4AQ36663269-A209EFBF-4540-4057-B8A4-A79D10C8B6B8Q36714852-18D8BD53-0F93-4B96-8851-9ECF84BA0023Q37064055-D3ECFF18-05E8-4387-B8AD-0FDB009B1897Q37157212-23164749-09ED-4DD1-B8F4-EB52C7ABB709Q37214117-02C399F7-2481-4965-9814-924CA9CC4DECQ37271822-DAA5CA2E-12E4-40F3-A5BA-C3D2676E6323Q37602070-CFA4238D-4F58-49AF-898C-385CBF58457DQ37606598-11F396F5-6D5C-42AD-85AB-D1BAC2CC60A8
P2860
Current progress in oocyte and embryo cryopreservation by slow freezing and vitrification.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 25 October 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Current progress in oocyte and ...... ow freezing and vitrification.
@en
Current progress in oocyte and ...... ow freezing and vitrification.
@nl
type
label
Current progress in oocyte and ...... ow freezing and vitrification.
@en
Current progress in oocyte and ...... ow freezing and vitrification.
@nl
prefLabel
Current progress in oocyte and ...... ow freezing and vitrification.
@en
Current progress in oocyte and ...... ow freezing and vitrification.
@nl
P921
P356
P1433
P1476
Current progress in oocyte and ...... ow freezing and vitrification.
@en
P2093
P356
10.1530/REP-10-0236
P577
2010-10-25T00:00:00Z