Journal of Human Reproductive Science
Home Ahead of Print Current Issue Archives
   Bookmark this page Print this page Email this page Small font sizeDefault font size Increase font size    Users online: 106
This article has been cited by
1Reactive oxygen species-induced alterations in H19-Igf2 methylation patterns, seminal plasma metabolites, and semen quality
Mahsa Darbandi,Sara Darbandi,Ashok Agarwal,Saradha Baskaran,Sulagna Dutta,Pallav Sengupta,Hamid Reza Khorram Khorshid,Sandro Esteves,Kambiz Gilany,Mehdi Hedayati,Fatemeh Nobakht,Mohammad Mehdi Akhondi,Niknam Lakpour,Mohammad Reza Sadeghi
Journal of Assisted Reproduction and Genetics.2019;36(2)241
[DOI]
2Environmental pollutants: genetic damage and epigenetic changes in male germ cells
Cecilia Vecoli,Luigi Montano,Maria Grazia Andreassi
Environmental Science and Pollution Research.2016;23(23)23339
[DOI]
3Environmental pollutants: genetic damage and epigenetic changes in male germ cells
Sezgin Gunes,Ahmet Kablan,Ashok Agarwal,Ralf Henkel
Environmental Science and Pollution Research.2018;23(23)171
[DOI]
4Buccal micronucleus cytome biomarkers in Algerian couples with idiopathic infertility
Ismahane Laanani,Safia Boutelis,Omar Bennoune,Ghania Belaaloui
Mutation Research/Genetic Toxicology and Environmental Mutagenesis.2018;835(23)32
[DOI]
5Epigenetics and male reproduction: the consequences of paternal lifestyle on fertility, embryo development, and children lifetime health
Liborio Stuppia,Marica Franzago,Patrizia Ballerini,Valentina Gatta,Ivana Antonucci
Clinical Epigenetics.2015;7(1)32
[DOI]
6Paternal age and assisted reproductive technology: problem solver or trouble maker?
Mariana Bertoncelli Tanaka,Ashok Agarwal,Sandro C. Esteves
Panminerva Medica.2019;61(2)32
[DOI]
7Role of genetics and epigenetics in male infertility
Sezgin Gunes,Sandro C. Esteves
Andrologia.2020;61(2)32
[DOI]
8Expression profiles of NPHP1 in the germ cells in the semen of men with male factor infertility
A. N. Devi,T. R. Anil Kumar,S. M. Pillai,K. Jayakrishnan,P. G. Kumar
Andrology.2015;3(4)685
[DOI]
9Novel IFT140 variants cause spermatogenic dysfunction in humans
Xiong Wang,Yan-wei Sha,Wen-ting Wang,Yuan-qing Cui,Jie Chen,Wei Yan,Xiao-tao Hou,Li-bin Mei,Cui-cui Yu,Jiahui Wang
Molecular Genetics & Genomic Medicine.2019;7(9)685
[DOI]
10Metabolomics fingerprinting of seminal plasma from unexplained infertile men: A need for novel diagnostic biomarkers
Naser Jafarzadeh,Ahmad Mani-Varnosfaderani,Arash Minai-Tehrani,Elham Savadi-Shiraz,Mohamad Reza Sadeghi,Kambiz Gilany
Molecular Reproduction and Development.2015;82(3)150
[DOI]
11Comprehensive functional enrichment analysis of male infertility
Seyed Morteza Razavi,Marjan Sabbaghian,Mahdi Jalili,Adeleh Divsalar,Olaf Wolkenhauer,Ali Salehzadeh-Yazdi
Scientific Reports.2017;7(1)150
[DOI]
12Comprehensive functional enrichment analysis of male infertility
Luigi Montano,Paolo Bergamo,Maria Grazia Andreassi,Stefano Lorenzetti
Scientific Reports.2018;7(1)150
[DOI]
13HomozygousDNAH1frameshift mutation causes multiple morphological anomalies of the sperm flagella in Chinese
X. Wang,H. Jin,F. Han,Y. Cui,J. Chen,C. Yang,P. Zhu,W. Wang,G. Jiao,W. Wang,C. Hao,Z. Gao
Clinical Genetics.2017;91(2)313
[DOI]
14HomozygousDNAH1frameshift mutation causes multiple morphological anomalies of the sperm flagella in Chinese
X. Wang,H. Jin,F. Han,Y. Cui,J. Chen,C. Yang,P. Zhu,W. Wang,G. Jiao,W. Wang,C. Hao,Z. Gao
Clinical Genetics.2017;91(2)27
[DOI]
15HomozygousDNAH1frameshift mutation causes multiple morphological anomalies of the sperm flagella in Chinese
Giorgio Cavallini
Clinical Genetics.2015;91(2)79
[DOI]
16Epigenetics in male reproduction: effect of paternal diet on sperm quality and offspring health
Undraga Schagdarsurengin,Klaus Steger
Nature Reviews Urology.2016;13(10)584
[DOI]
17Next day determination of ejaculatory sperm motility after overnight shipment of semen to remote locations
Leyla Sati,David Bennett,Michael Janes,Gabor Huszar
Journal of Assisted Reproduction and Genetics.2015;32(1)117
[DOI]
18Spermatozoa from males with reduced fecundity exhibit differential DNA methylation patterns
M. Laqqan,S. Tierling,Y. Alkhaled,C. Lo Porto,E. F. Solomayer,M. Hammadeh
Andrology.2017;5(5)971
[DOI]
19Role of genetic mutations in folate-related enzyme genes on Male Infertility
Kang Liu,Ruizhe Zhao,Min Shen,Jiaxin Ye,Xiao Li,Yuan Huang,Lixin Hua,Zengjun Wang,Jie Li
Scientific Reports.2015;5(1)971
[DOI]
20Role of genetic mutations in folate-related enzyme genes on Male Infertility
Giorgio Cavallini
Scientific Reports.2015;5(1)99
[DOI]
21Ccdc87 is critical for sperm function and male fertility†
Tongtong Wang,Qianqian Yin,Xuehao Ma,Ming-Han Tong,Yuchuan Zhou
Biology of Reproduction.2018;5(1)99
[DOI]
22Ccdc87 is critical for sperm function and male fertility†
Sandro C. Esteves,Matheus Roque
Biology of Reproduction.2018;5(1)545
[DOI]
About us 
Editorial board 
Instructions 
Subscribe 
Search articles 
Contact us 
Advertise With Us
My Preferences 

Submit articles online
Email alerts
Join our team of reviewers
Most polular articles
Recommend this journal