Article Cited by others

REVIEW

Application of three-dimensional culture systems to study mammalian spermatogenesis, with an emphasis on the rhesus monkey (Macaca mulatta)

Huleihel Mahmoud, Nourashrafeddin Seyedmehdi, Plant Tony M

Year : 2015| Volume: 17| Issue : 6 | Page no: 972-980

   This article has been cited by
 
1 Application of Tissue-Specific Extracellular Matrix in Tissue Engineering: Focus on Male Fertility Preservation
Keykavos Gholami, Somayeh Solhjoo, Seyed Mohammad Kazem Aghamir
Reproductive Sciences. 2022;
[Pubmed]  [Google Scholar] [DOI]
2 Effect of NMDA receptor agonist and antagonist on spermatogonial stem cells proliferation in 2- and 3- dimensional culture systems
Amirhessam Eskafi Noghani, Reza Asadpour, Adel Saberivand, Zohreh Mazaheri, Gholamreza Hamidian
Molecular Biology Reports. 2022;
[Pubmed]  [Google Scholar] [DOI]
3 Improving the process of spermatogenesis in azoospermic mice using spermatogonial stem cells co-cultured with epididymosomes in three-dimensional culture system
Maryam Rahbar, Reza Asadpour, Mahmoud Azami, Zohreh Mazaheri, Hossein Hamali
Life Sciences. 2022; : 121057
[Pubmed]  [Google Scholar] [DOI]
4 Differentiation of neonate mouse spermatogonia on two-dimensional and three-dimensional culture systems supplemented with d-Serine and Dizocilpine (MK-801)
Amirhessam Eskafi Noghani, Reza Asadpour, Adel Saberivand, Zohreh Mazaheri, Kenny A. Rodriguez-Wallberg, Gholamreza Hamidian
Theriogenology. 2022;
[Pubmed]  [Google Scholar] [DOI]
5 Using clinically derived human tissue to 3-dimensionally bioprint personalized testicular tubules for in vitro culturing: first report
Meghan Robinson, Erin Bedford, Luke Witherspoon, Stephanie M. Willerth, Ryan Flannigan
F&S Science. 2022;
[Pubmed]  [Google Scholar] [DOI]
6 Testis on a chip—a microfluidic three-dimensional culture system for the development of spermatogenesis in-vitro
Ali AbuMadighem, Sholom Shuchat, Eitan Lunenfeld, Gilad Yossifon, Mahmoud Huleihel
Biofabrication. 2022; 14(3): 035004
[Pubmed]  [Google Scholar] [DOI]
7 Male fertility preservation and restoration strategies for patients undergoing gonadotoxic therapies
Kien T D Tran, Hanna Valli-Pulaski, Amanda Colvin, Kyle E Orwig
Biology of Reproduction. 2022;
[Pubmed]  [Google Scholar] [DOI]
8 Determining the expression levels of CSF-1 and OCT4 , CREM-1 , and protamine in testic
Maram Abofoul-Azab, Eitan Lunenfeld, Sandra Kleiman, Shimi Barda, Ron Hauser, Mahmoud Huleihel
Andrologia. 2022;
[Pubmed]  [Google Scholar] [DOI]
9 Offspring production of haploid spermatid-like cells derived from mouse female germline stem cells with chromatin condensation
Xiaopeng Hu, Hu Wang, Geng. G. Tian, Changliang Hou, Bo Xu, Xinyan Zhao, Yongqiang Zhao, Qian Fang, Xinyue Li, Lin He, Xuejin Chen, Shangang Li, Ji Wu
Cell & Bioscience. 2022; 12(1)
[Pubmed]  [Google Scholar] [DOI]
10 Progress in germline stem cell transplantation in mammals and the potential usage
Wen Zhang, Ruotian Nie, Yihui Cai, Wenhai Xie, Kang Zou
Reproductive Biology and Endocrinology. 2022; 20(1)
[Pubmed]  [Google Scholar] [DOI]
11 Perfusion in Organ-on-Chip Models and Its Applicability to the Replication of Spermatogenesis In Vitro
Sholom Shuchat, Gilad Yossifon, Mahmoud Huleihel
International Journal of Molecular Sciences. 2022; 23(10): 5402
[Pubmed]  [Google Scholar] [DOI]
12 Understanding the Underlying Molecular Mechanisms of Meiotic Arrest during In Vitro Spermatogenesis in Rat Prepubertal Testicular Tissue
Justine Saulnier, Frédéric Chalmel, Marion Delessard, Laura Moutard, Tony Pereira, François Fraissinet, Ludovic Dumont, Aurélie Rives-Feraille, Christine Rondanino, Nathalie Rives
International Journal of Molecular Sciences. 2022; 23(11): 5893
[Pubmed]  [Google Scholar] [DOI]
13 Spermatozoan Metabolism as a Non-Traditional Model for the Study of Huntington’s Disease
Meghan Lawlor, Michal Zigo, Karl Kerns, In Ki Cho, Charles A. Easley IV, Peter Sutovsky
International Journal of Molecular Sciences. 2022; 23(13): 7163
[Pubmed]  [Google Scholar] [DOI]
14 Involvement of Cytokines and Hormones in the Development of Spermatogenesis In Vitro from Spermatogonial Cells of Cyclophosphamide-Treated Immature Mice
Ronnie Solomon,Ali AbuMadighem,Joseph Kapelushnik,Bat-Chen Amano,Eitan Lunenfeld,Mahmoud Huleihel
International Journal of Molecular Sciences. 2021; 22(4): 1672
[Pubmed]  [Google Scholar] [DOI]
15 The Presence of Colony-Stimulating Factor-1 and Its Receptor in Different Cells of the Testis; It Involved in the Development of Spermatogenesis In Vitro
Alaa Sawaied,Eden Arazi,Ahmad AbuElhija,Eitan Lunenfeld,Mahmoud Huleihel
International Journal of Molecular Sciences. 2021; 22(5): 2325
[Pubmed]  [Google Scholar] [DOI]
16 Current progress, challenges, and future prospects of testis organoids†
Tat-Chuan Cham,Xiongbiao Chen,Ali Honaramooz
Biology of Reproduction. 2021;
[Pubmed]  [Google Scholar] [DOI]
17 Pediatric and Adolescent Oncofertility in Male Patients—From Alpha to Omega
Ovidiu Bîca,Ioan Sârbu,Carmen Iulia Ciongradi
Genes. 2021; 12(5): 701
[Pubmed]  [Google Scholar] [DOI]
18 Absence of SCAPER causes male infertility in humans and Drosophila by modulating microtubule dynamics during meiosis
Ohad Wormser,Ygal Levy,Anna Bakhrat,Silvia Bonaccorsi,Lucia Graziadio,Maurizio Gatti,Ali AbuMadighem,Richard J McKenney,Kyoko Okada,Saad El Riati,Iris Har-Vardi,Mahmoud Huleihel,Eliahu Levitas,Ohad S Birk,Uri Abdu
Journal of Medical Genetics. 2021; 58(4): 254
[Pubmed]  [Google Scholar] [DOI]
19 Is It Possible to Treat Infertility with Stem Cells?
P. Petric,E. Vrtacnik-Bokal,M. Stimpfel
Reproductive Sciences. 2021;
[Pubmed]  [Google Scholar] [DOI]
20 Use of alginate hydrogel to improve long-term 3D culture of spermatogonial stem cells: stemness gene expression and structural features
Masoud Hemadi,Vahideh Assadollahi,Ghasem Saki,Afshin Pirnia,Masoud Alasvand,Abolfazl Zendehdel,Mohammadreza Gholami
Zygote. 2021; : 1
[Pubmed]  [Google Scholar] [DOI]
21 Male reproductive systems of Macaca mulatta: Gonadal development, spermatogenesis and applications in spermatogonia stem cell transplantation
Ya-Lan Wei,Zhen-Yu She,Tao Huang,Hai-Tao Zhang,Xin-Rui Wang
Research in Veterinary Science. 2021; 137: 127
[Pubmed]  [Google Scholar] [DOI]
22 Three-dimensional co-culture of human spermatogonial stem cells with Sertoli cells in soft agar culture system supplemented by growth factors and Laminin
Ayob Jabari,Mohammad Ali Sadighi Gilani,Morteza Koruji,Keykavos Gholami,Mojtaba Mohsenzadeh,Tayebeh rastegar,Farnaz Khadivi,Nasrin Ghanami Gashti,Aghbibi Nikmahzar,Sina Mojaverrostami,Ali Talebi,Sepideh Ashouri Movassagh,Mohammad Jafar Rezaie,Mehdi Abbasi
Acta Histochemica. 2020; 122(5): 151572
[Pubmed]  [Google Scholar] [DOI]
23 Isolation, identification and differentiation of human spermatogonial cells on three-dimensional decellularized sheep testis
Sepideh Ashouri Movassagh,Sanaz Ashouri Movassagh,Mehdi Banitalebi Dehkordi,Gholamreza Pourmand,Keykavos Gholami,Ali Talebi,Sahar Esfandyari,Ayob Jabari,Azam Samadian,Mehdi Abbasi
Acta Histochemica. 2020; 122(8): 151623
[Pubmed]  [Google Scholar] [DOI]
24 Application of platelet-rich plasma (PRP) improves self-renewal of human spermatogonial stem cells in two-dimensional and three-dimensional culture systems
Farnaz Khadivi,Morteza Koruji,Mohammad Akbari,Ayob Jabari,Ali Talebi,Sepideh Ashouri Movassagh,Amin Panahi Boroujeni,Narjes Feizollahi,Aghbibi Nikmahzar,Mohammad Pourahmadi,Mehdi Abbasi
Acta Histochemica. 2020; 122(8): 151627
[Pubmed]  [Google Scholar] [DOI]
25 Effects of Different Biomaterials and Cellular Status on Testicular Cell Self-Organization
Hui Gao,Chao Liu,Bingbing Wu,Hang Cui,Yan Zhao,Yongchao Duan,Fei Gao,Qi Gu,Hongmei Wang,Wei Li
Advanced Biosystems. 2020; : 1900292
[Pubmed]  [Google Scholar] [DOI]
26 Improving Freezing Protocols and Organotypic Culture: A Histological Study on Rat Prepubertal Testicular Tissue
Justine Saulnier,Antoine Oblette,Marion Delessard,Ludovic Dumont,Aurélie Rives,Nathalie Rives,Christine Rondanino
Annals of Biomedical Engineering. 2020;
[Pubmed]  [Google Scholar] [DOI]
27 Cryopreservation and Culture of Testicular Tissues: An Essential Tool for Biodiversity Preservation
Andréia Maria da Silva,Alexsandra Fernandes Pereira,Pierre Comizzoli,Alexandre Rodrigues Silva
Biopreservation and Biobanking. 2020;
[Pubmed]  [Google Scholar] [DOI]
28 Fertility preservation for prepubertal boys: lessons learned from the past and update on remaining challenges towards clinical translation
Christine Wyns,Marc Kanbar,Maria Grazia Giudice,Jonathan Poels
Human Reproduction Update. 2020;
[Pubmed]  [Google Scholar] [DOI]
29 A Testis-Derived Hydrogel as an Efficient Feeder-Free Culture Platform to Promote Mouse Spermatogonial Stem Cell Proliferation and Differentiation
Yan Yang,Qilian Lin,Chengxing Zhou,Quan Li,Ziyi Li,Zhen Cao,Jinlian Liang,Hanhao Li,Jiaxin Mei,Qihao Zhang,Qi Xiang,Wei Xue,Yadong Huang
Frontiers in Cell and Developmental Biology. 2020; 8
[Pubmed]  [Google Scholar] [DOI]
30 Spermatogonial Stem Cells in Fish: Characterization, Isolation, Enrichment, and Recent Advances of In Vitro Culture Systems
Xuan Xie,Rafael Nóbrega,Martin Pšenicka
Biomolecules. 2020; 10(4): 644
[Pubmed]  [Google Scholar] [DOI]
31 Spermatogonial Stem Cells for In Vitro Spermatogenesis and In Vivo Restoration of Fertility
Fahar Ibtisham,Ali Honaramooz
Cells. 2020; 9(3): 745
[Pubmed]  [Google Scholar] [DOI]
32 Approaches and Technologies in Male Fertility Preservation
Mahmoud Huleihel,Eitan Lunenfeld
International Journal of Molecular Sciences. 2020; 21(15): 5471
[Pubmed]  [Google Scholar] [DOI]
33 Interleukin-34, a Novel Paracrine/Autocrine Factor in Mouse Testis, and Its Possible Role in the Development of Spermatogonial Cells In Vitro
Alaa Sawaied,Eitan Lunenfeld,Mahmoud Huleihel
International Journal of Molecular Sciences. 2020; 21(21): 8143
[Pubmed]  [Google Scholar] [DOI]
34 Stem cell-based therapies for fertility preservation in males: Current status and future prospects
Han-Chao Liu,Yun Xie,Chun-Hua Deng,Gui-Hua Liu
World Journal of Stem Cells. 2020; 12(10): 1097
[Pubmed]  [Google Scholar] [DOI]
35 Acute Myeloid Leukemia Affects Mouse Sperm Parameters, Spontaneous Acrosome Reaction, and Fertility Capacity
Yulia Michailov,Eitan Lunenfeld,Joseph Kapilushnik,Shevach Friedler,Eckart Meese,Mahmoud Huleihel
International Journal of Molecular Sciences. 2019; 20(1): 219
[Pubmed]  [Google Scholar] [DOI]
36 Identification of Premeiotic, Meiotic, and Postmeiotic Cells in Testicular Biopsies Without Sperm from Sertoli Cell-Only Syndrome Patients
Maram Abofoul-Azab,Eitan Lunenfeld,Eliahu Levitas,Atif Zeadna,Johnny Younis,Shalom Bar-Ami,Mahmoud Huleihel
International Journal of Molecular Sciences. 2019; 20(3): 470
[Pubmed]  [Google Scholar] [DOI]
37 Potential use of stem cells for fertility preservation
A. Gauthier-Fisher,A. Kauffman,C. L. Librach
Andrology. 2019;
[Pubmed]  [Google Scholar] [DOI]
38 Age-related presence of spermatogonia in patients with Klinefelter syndrome: a systematic review and meta-analysis
Nicholas A Deebel,Guillermo Galdon,Nima Pourhabibi Zarandi,Kimberly Stogner-Underwood,Stuart Howards,James Lovato,Stanley Kogan,Anthony Atala,Yanhe Lue,Hooman Sadri-Ardekani
Human Reproduction Update. 2019;
[Pubmed]  [Google Scholar] [DOI]
39 Cultivation of mammals early male germ cells in a semi liquid medium
S A Vasileva
IOP Conference Series: Earth and Environmental Science. 2019; 315: 072014
[Pubmed]  [Google Scholar] [DOI]
40 Three-dimensional decellularized amnion membrane scaffold promotes the efficiency of male germ cells generation from human induced pluripotent stem cells
Meysam Ganjibakhsh,Fereshteh Mehraein,Morteza Koruji,Reza Aflatoonian,Parvaneh Farzaneh
Experimental Cell Research. 2019; : 111544
[Pubmed]  [Google Scholar] [DOI]
41 Leukemia and male infertility: past, present, and future
Yulia Michailov,Eitan Lunenfeld,Joseph Kapelushnik,Mahmoud Huleihel
Leukemia & Lymphoma. 2018; : 1
[Pubmed]  [Google Scholar] [DOI]
42 In vitro spermatogenesis: A century-long research journey, still half way around
Mitsuru Komeya,Takuya Sato,Takehiko Ogawa
Reproductive Medicine and Biology. 2018;
[Pubmed]  [Google Scholar] [DOI]
43 Development of Postmeiotic Cells In Vitro from Spermatogonial Cells of Prepubertal Cancer Patients
Maram Abofoul-Azab,Ali AbuMadighem,Eitan Lunenfeld,Joseph Kapelushnik,QingHua Shi,Haim Pinkas,Mahmoud Huleihel
Stem Cells and Development. 2018;
[Pubmed]  [Google Scholar] [DOI]
44 Development of Spermatogenesis In Vitro in Three-Dimensional Culture from Spermatogonial Cells of Busulfan-Treated Immature Mice
Ali AbuMadighem,Ronnie Solomon,Alina Stepanovsky,Joseph Kapelushnik,QingHua Shi,Eckart Meese,Eitan Lunenfeld,Mahmoud Huleihel
International Journal of Molecular Sciences. 2018; 19(12): 3804
[Pubmed]  [Google Scholar] [DOI]
45 Differentiation of human male germ cells from Whartonæs jelly-derived mesenchymal stem cells
DMAB Dissanayake,H Patel,PS Wijesinghe
Clinical and Experimental Reproductive Medicine. 2018; 45(2): 75
[Pubmed]  [Google Scholar] [DOI]
46 The effects of melatonin on colonization of neonate spermatogonial mouse stem cells in a three-dimensional soft agar culture system
Shadan Navid,Mehdi Abbasi,Yumi Hoshino
Stem Cell Research & Therapy. 2017; 8(1)
[Pubmed]  [Google Scholar] [DOI]
47 Establishment, maintenance and functional integrity of the blood–testis barrier in organotypic cultures of fresh and frozen/thawed prepubertal mouse testes
C. Rondanino,A. Maouche,L. Dumont,A. Oblette,N. Rives
MHR: Basic science of reproductive medicine. 2017; 23(5): 304
[Pubmed]  [Google Scholar] [DOI]
48 Fertility restoration with spermatogonial stem cells
Francesca de Michele,Maxime Vermeulen,Christine Wyns
Current Opinion in Endocrinology & Diabetes and Obesity. 2017; 24(6): 424
[Pubmed]  [Google Scholar] [DOI]
49 Testicular organoids: a new model to study the testicular microenvironment in vitro?
João Pedro Alves-Lopes,Jan-Bernd Stukenborg
Human Reproduction Update. 2017;
[Pubmed]  [Google Scholar] [DOI]
50 Androgen Insensitivity Syndrome at Prepuberty: Marked Loss of Spermatogonial Cells at Early Childhood and Presence of Gonocytes up to Puberty
Paula Aliberti,Natalia Perez Garrido,Roxana Marino,Pablo Ramirez,Alberto J. Solari,Roberta Sciurano,Mariana Costanzo,Gabriela Guercio,Diana Mónica Warman,Marcela Bailez,María Sonia Baquedano,Marco A Rivarola,Alicia Belgorosky,Esperanza Berensztein
Sexual Development. 2017; 11(5-6): 225
[Pubmed]  [Google Scholar] [DOI]
51 Making gametes from alternate sources of stem cells: past, present and future
Deepa Bhartiya,Sandhya Anand,Hiren Patel,Seema Parte
Reproductive Biology and Endocrinology. 2017; 15(1)
[Pubmed]  [Google Scholar] [DOI]
52 Insights into in vitro spermatogenesis in mammals: Past, present, future
Amir Fattahi,Zeinab Latifi,Tohid Ghasemnejad,Hamid Reza Nejabati,Mohammad Nouri
Molecular Reproduction and Development. 2017;
[Pubmed]  [Google Scholar] [DOI]
53 Initial germ cell to somatic cell ratio impacts the efficiency of SSC expansion in vitro
Itai Gat,Leila Maghen,Melissa Filice,Shlomit Kenigsberg,Brandon Wyse,Khaled Zohni,Peter Saraz,Andrée Gauthier Fisher,Clifford Librach
Systems Biology in Reproductive Medicine. 2017; : 1
[Pubmed]  [Google Scholar] [DOI]
54 In Vitro Spermatogenesis: How Far from Clinical Application?
Guillermo Galdon,Anthony Atala,Hooman Sadri-Ardekani
Current Urology Reports. 2016; 17(7)
[Pubmed]  [Google Scholar] [DOI]
55 Human spermatogonial stem cells display limited proliferation in vitro under mouse spermatogonial stem cell culture conditions
Jose V. Medrano,Charlotte Rombaut,Carlos Simon,Antonio Pellicer,Ellen Goossens
Fertility and Sterility. 2016;
[Pubmed]  [Google Scholar] [DOI]
56 Melatonin promotes development of haploid germ cells from early developing spermatogenic cells ofSuffolksheep under in vitro condition
Shou-Long Deng,Su-Ren Chen,Zhi-Peng Wang,Yan Zhang,Ji-Xin Tang,Jian Li,Xiu-Xia Wang,Jin-Mei Cheng,Cheng Jin,Xiao-Yu Li,Bao-Lu Zhang,Kun Yu,Zheng-Xing Lian,Guo-Shi Liu,Yi-Xun Liu
Journal of Pineal Research. 2016; 60(4): 435
[Pubmed]  [Google Scholar] [DOI]

 

Read this article