Articles citing this paper
Roles of growth factors in the development of bovine embryos fertilized in vitro and cultured singly in a defined medium
JM Lim and W Hansel
8(8) pp.1199 - 1205
38 articles found in Crossref database.
Mammalian embryo co-culture: Trials and tribulations of a misunderstood method
Orsi Nicolas M., Reischl Judith B.
Theriogenology. 2007 67(3). p.441
Simple and Efficient Chemically Defined In Vitro Maturation and Embryo Culture System for Bovine Embryos
Arias María Elena,
Vargas Tamara,
Gallardo Victor,
Aguila Luis, Felmer Ricardo
Animals. 2022 12(21). p.3057
In vitro development of individually matured bovine oocytes in relation to follicular wall atresia
Jewgenow K,
Heerdegen B, Müller K
Theriogenology. 1999 51(4). p.745
Atlas of receptor genes expressed by the bovine morula and corresponding ligand‐related genes expressed by uterine endometrium
Sang Lei,
Xiao Yao,
Jiang Zongliang,
Forde Niamh,
Tian Xiuchun Cindy,
Lonergan Patrick, Hansen Peter J.
Molecular Reproduction and Development. 2021 88(10). p.694
Establishment of an animal embryo culture system containing various embryotropins and its efficacy for culturing ICR mouse one-cell embryos derived in vivo or in vitro
Park Sung E,
Chung Hyung M,
Cha Kwang Y,
Hwang Woo S,
Lee Eun S, Lim Jeong M
Fertility and Sterility. 2001 76(1). p.167
Exogeneous substances affecting development of in vitro-derived bovine embryos before and after embryonic genome activation
Lim J.M., Hansel W.
Theriogenology. 2000 53(5). p.1081
Relationships Among Follicular Fluid Estradiol-17.BETA. Concentration, Morphology of Cumulus-Oocyte Complex and Developmental Capacity of Individually Matured, Fertilized and Cultured Bovine Oocytes In Vitro.
ARAKI Nao,
SATO Katsuhiro,
HAYASHI Kanako,
MIYAMOTO Akio, FUKUI Yutaka
Journal of Reproduction and Development. 1998 44(4). p.359
From Hyperkeratosis to Apoptosis: Lessons Learned from 65 Years of Research
Hansel William
Biology of Reproduction. 2012 87(1).
Optimization of culture medium for cloned bovine embryos and its influence on pregnancy and delivery outcome
Choi Y.H.,
Lee B.C.,
Lim J.M.,
Kang S.K., Hwang W.S.
Theriogenology. 2002 58(6). p.1187
Fibroblast growth factor requirements for in vitro development of bovine embryos
Fields Sarah D.,
Hansen Peter J., Ealy Alan D.
Theriogenology. 2011 75(8). p.1466
Gene expression analysis of bovine blastocysts produced by parthenogenic activation or fertilisation
Labrecque Rémi, Sirard Marc-André
Reproduction, Fertility and Development. 2011 23(4). p.591
The potential for improving the growth and development of cultured farm animal oocytes
Hansel W.
Animal Reproduction Science. 2003 79(3-4). p.191
Development of bovine ivf oocytes cultured in medium supplemented with a nitric oxide scavenger or inhibitor in a co-culture system
Lim J.M,
Mei Y,
Chen B,
Godke R.A, Hansel W
Theriogenology. 1999 51(5). p.941
Noninvasive bovine oocyte quality assessment: possibilities of a single oocyte culture
Goovaerts I.G.F.,
Leroy J.L.M.R.,
Jorssen E.P.A., Bols P.E.J.
Theriogenology. 2010 74(9). p.1509
The Developmental Potential of Oocytes is Impaired in Cattle with Liver Abnormalities
SARENTONGLAGA Borjigin,
OGATA Kazuko,
TAGUCHI Yoriko,
KATO Yoku, NAGAO Yoshikazu
Journal of Reproduction and Development. 2013 59(2). p.168
Molecular cloning, genetic mapping, and developmental expression of a bovine transforming growth factor beta (TGF-β) type I receptor
Roelen Bernard A.J.,
Van Eijk Michiel J.T.,
Van Rooijen Marga A.,
Bevers Mart M.,
Larson Joshua H.,
Lewin Harris A., Mummery Christine L.
Molecular Reproduction and Development. 1998 49(1). p.1
Effect of arachidonic acid on pre- and post-hatching in vitro bovine embryo development
González-Brusi L.,
Pérez-Gómez A.,
Quiroga A. C.,
Tamargo C.,
Ramos-Ibeas P.,
Bermejo-Álvarez P., Yuan Ye
Reproduction, Fertility and Development. 2023 35(12). p.614
Epidermal growth factor improves developmental competence and embryonic quality of singly cultured domestic cat embryos
THONGKITTIDILOK Chommanart,
THARASANIT Theerawat,
SONGSASEN Nucharin,
SANANMUANG Thanida,
BUARPUNG Sirirak, TECHAKUMPHU Mongkol
Journal of Reproduction and Development. 2015 61(4). p.269
Development of in-vitro-derived bovine embryos cultured in 5% CO2 in air or in 5% O2, 5% CO2 and 90% N2
Lim J.M.,
Reggio B.C.,
Godke R.A., Hansel W.
Human Reproduction. 1999 14(2). p.458
Transforming growth factor-?s in pre-gastrulation development of mammals (minireview)
Roelen Bernard A.J., Mummery Christine L.
Molecular Reproduction and Development. 2000 56(2). p.220
Effect of basic fibroblast growth factor (FGF2) on cumulus cell expansion, in vitro embryo production and gene expression in buffalo (Bubalus bubalis)
Kumar Satish,
Singla Suresh Kumar,
Manik Radheysham,
Palta Prabhat, Chauhan Manmohan Singh
Reproductive Biology. 2020 20(4). p.501
Effect of supplementation of different growth factors in embryo culture medium with a small number of bovine embryos on in vitro embryo development and quality
Ahumada C.J.,
Salvador I.,
Cebrian-Serrano A.,
Lopera R., Silvestre M.A.
Animal. 2013 7(3). p.455
Improved development of in vitro-derived bovine embryos by use of a nitric oxide scavenger in a cumulus-granulosa cell coculture system
Lim J.M., Hansel W.
Molecular Reproduction and Development. 1998 50(1). p.45
Fertilizability and developmental capacity of individually cultured bovine oocytes
Fukui Y.,
Kikuchi Y.,
Kondo H., Mizushima S.
Theriogenology. 2000 53(8). p.1553
Uterine and serum cytokine arrays in the mouse during estrus
Orsi Nicolas M.,
Ekbote Uma V.,
Walker James J., Gopichandran Nadia
Animal Reproduction Science. 2007 100(3-4). p.301
Effect of cumulus cell coculture and oxygen tension on the in vitro developmental competence of bovine zygotes cultured singly
Goovaerts I.G.F.,
Leroy J.L.M.R.,
Van Soom A.,
De Clercq J.B.P.,
Andries S., Bols P.E.J.
Theriogenology. 2009 71(5). p.729
The role of co-culture systems on developmental competence of preimplantation mouse embryos against pH fluctuations
Nematollahi-mahani Seyed Noureddin,
Nematollahi-mahani Amirmehdi,
Moshkdanian Ghazaleh,
Shahidzadehyazdi Zhinoosossadat, Labibi Fatemeh
Journal of Assisted Reproduction and Genetics. 2009 26(11-12). p.597
Effect of arachidonic acid supplementation and cyclooxygenase/lipoxygenase inhibition on the development of early bovine embryos
Pereira Rosa Maria,
Marques Carla Cruz,
Baptista Maria da Conceição,
Vasques Maria Irene, Horta António Eduardo
Revista Brasileira de Zootecnia. 2006 35(2). p.422
Unravelling the needs of singly in vitro-produced bovine embryos: from cumulus cell co-culture to semi-defined, oil-free culture conditions
Goovaerts I. G. F.,
Leroy J. L. M. R.,
Langbeen A.,
Jorssen E. P. A.,
Bosmans E., Bols P. E. J.
Reproduction, Fertility and Development. 2012 24(8). p.1084
The relationship between bovine blastocyst formation in vitro and follicular fluid amino acids
Sanei Marzyieh,
Kowsar Rasoul,
Heidaran Ali Abadi Mohammad,
Sadeghi Nima, Boroumand Jazi Masoud
Theriogenology. 2023 206 p.197
A Novel Role of Luteinizing Hormone in the Embryo Development in Cocultures1
Mishra S.,
Lei Z.M., Rao Ch.V.
Biology of Reproduction. 2003 68(4). p.1455
Comparison of expression levels of candidate genes in endometrium of dairy heifers and lactating dairy cows
Pretheeban T.,
Gordon M. B.,
Singh R., Rajamahendran R.
Canadian Journal of Animal Science. 2011 91(2). p.255
Bovine Oviduct Epithelial Cells Dedifferentiate Partly in Culture, While Maintaining their Ability to Improve Early Embryo Development Rate and Quality
Schmaltz‐Panneau B,
Locatelli Y,
Uzbekova S,
Perreau C, Mermillod P
Reproduction in Domestic Animals. 2015 50(5). p.719
Effects of gonadotropins on bovine oocytes matured in TCM-199
Choi Y.H.,
Carnevale E.M.,
Seidel G.E., Squires E.L.
Theriogenology. 2001 56(4). p.661
After 65 Years, Research Is Still Fun
Hansel William
Annual Review of Animal Biosciences. 2013 1(1). p.1
Effect of number of oocytes and embryos on in vitro oocyte maturation, fertilization and embryo development in bovine
Salvador I.,
Cebrian-Serrano A.,
Salamone D., Silvestre M. A.
Spanish Journal of Agricultural Research. 2011 9(3). p.744
Human oviductal cells reduce the incidence of apoptosis in cocultured mouse embryos
Xu Jiasen,
Cheung T.M,
Chan Sameul Ting-hon,
Ho P.C, Yeung W.S.B
Fertility and Sterility. 2000 74(6). p.1215
Single in vitro bovine embryo production: Coculture with autologous cumulus cells, developmental competence, embryo quality and gene expression profiles
Goovaerts I.G.F.,
Leroy J.L.M.R.,
Rizos D.,
Bermejo-Alvarez P.,
Gutierrez-Adan A.,
Jorssen E.P.A., Bols P.E.J.
Theriogenology. 2011 76(7). p.1293
