Article Cited by others

INVITED REVIEW

Are sperm capacitation and apoptosis the opposite ends of a continuum driven by oxidative stress?

Aitken Robert J, Baker Mark A, Nixon Brett

Year : 2015| Volume: 17| Issue : 4 | Page no: 633-639

   This article has been cited by
 
1 Low-dose rapamycin prevents Ang-II-induced toxicity in Leydig cells and testicular dysfunction in hypertensive SHR model
Wei-Wen Kuo, Rathinasamy Baskaran, Jing-Ying Lin, Cecilia Hsuan Day, Yueh-Min Lin, Tsung-Jung Ho, Ray-Jade Chen, Mei-Yi Lin, Viswanadha Vijaya Padma, Chih-Yang Huang
Journal of Biochemical and Molecular Toxicology. 2022;
[Pubmed]  [Google Scholar] [DOI]
2 Effects of boar sperm antioxidant supplementation on fertility
Myles J. Shepherd, Amanda M. Minton, Clint Schwab, Lisa A. Herickhoff
Animal Reproduction Science. 2022; : 106923
[Pubmed]  [Google Scholar] [DOI]
3 Interferon ?, IL-17, and IL-1ß impair sperm motility and viability and induce sperm apoptosis
Daniela Andrea Paira, Silene Silvera-Ruiz, Andrea Tissera, Rosa Isabel Molina, José Javier Olmedo, Virginia Elena Rivero, Ruben Dario Motrich
Cytokine. 2022; 152: 155834
[Pubmed]  [Google Scholar] [DOI]
4 Semenogelin, a coagulum macromolecule monitoring factor involved in the first step of fertilization: A prospective review
Sundaram Vickram, Karunakaran Rohini, Krishnan Anbarasu, Nibedita Dey, Palanivelu Jeyanthi, Sundaram Thanigaivel, Praveen Kumar Issac, Jesu Arockiaraj
International Journal of Biological Macromolecules. 2022; 209: 951
[Pubmed]  [Google Scholar] [DOI]
5 Potential protective effect of quercetin on the male reproductive system against exposure of Wistar rats to crude oil vapor: Genetic, biochemical, and histopathological evidence
Kaveh Khazaeel, Sameerah Abdul Zahra Daaj, Abbas Sadeghi, Mohammad Reza Tabandeh, Zahra Basir
Reproductive Toxicology. 2022;
[Pubmed]  [Google Scholar] [DOI]
6 Proteomic analyses identify differences between bovine epididymal and ejaculated spermatozoa that contribute to longevity
Saulo Menegatti Zoca, Emmalee J. Northrop-Albrecht, Julie A. Walker, Robert A. Cushman, George A. Perry
Theriogenology. 2022;
[Pubmed]  [Google Scholar] [DOI]
7 Sperm oxidative stress in the context of male infertility: current evidence, links with genetic and epigenetic factors and future clinical needs
Robert J. AITKEN, Zamira GIBB
Minerva Endocrinology. 2022; 47(1)
[Pubmed]  [Google Scholar] [DOI]
8 Male Infertility and Oxidative Stress: A Focus on the Underlying Mechanisms
Robert John Aitken, Joël R. Drevet, Aron Moazamian, Parviz Gharagozloo
Antioxidants. 2022; 11(2): 306
[Pubmed]  [Google Scholar] [DOI]
9 Antioxidant Activity and Oxidative Stress-Oriented Apoptosis Pathway in Saccharides Supplemented Cryopreserved Sperm of Pacific Abalone, Haliotis discus hannai
Shaharior Hossen, Zahid Parvez Sukhan, Yusin Cho, Won Kyo Lee, Kang Hee Kho
Antioxidants. 2022; 11(7): 1303
[Pubmed]  [Google Scholar] [DOI]
10 Differential Distribution and Activity Profile of Acylpeptide Hydrolase in the Rat Seminiferous Epithelium
Alejandra A. Covarrubias, Erwin De la Fuente-Ortega, Gabriela Rossi, Ennio Cocca, Mosè Rossi, Gianna Palmieri, Floria C. Pancetti
Biomedicines. 2022; 10(7): 1591
[Pubmed]  [Google Scholar] [DOI]
11 The Effect of Non-Thermal Plasma on the Structural and Functional Characteristics of Human Spermatozoa
Eva Tvrdá,Daniel Lovíšek,Stanislav Kyzek,Dušan Kovácik,Eliška Gálová
International Journal of Molecular Sciences. 2021; 22(9): 4979
[Pubmed]  [Google Scholar] [DOI]
12 Bull Sperm Capacitation Is Accompanied by Redox Modifications of Proteins
Agnieszka Mostek,Anna Janta,Anna Majewska,Andrzej Ciereszko
International Journal of Molecular Sciences. 2021; 22(15): 7903
[Pubmed]  [Google Scholar] [DOI]
13 Hydrogen peroxide has adverse effects on human sperm quality parameters, induces apoptosis, and reduces survival
DwiAri Pujianto,Mona Oktarina,IdaAyu Sharma Sharaswati,Yulhasri Yulhasri
Journal of Human Reproductive Sciences. 2021; 14(2): 121
[Pubmed]  [Google Scholar] [DOI]
14 Oestrogenic metabolite equol negatively impacts the functionality of ram spermatozoa in vitro
Kelsey Rhian Pool,Tayler Catherine Kent,Dominique Blache
Theriogenology. 2021; 172: 216
[Pubmed]  [Google Scholar] [DOI]
15 Antibiotic toxicity on human spermatozoa assessed using the sperm DNA fragmentation dynamic assay
Ana Tímermans, Rosana Vázquez, Fátima Otero, Jaime Gosálvez, Stephen Johnston, José Luis Fernández
Andrologia. 2021;
[Pubmed]  [Google Scholar] [DOI]
16 Differential impact of four sperm preparation techniques on sperm motility, morphology, DNA fragmentation, acrosome status, oxidative stress, and mitochondrial activity: A prospective study
Georges Raad,Hassan W. Bakos,Marwa Bazzi,Youmna Mourad,Fadi Fakih,Salman Shayya,Lama Mchantaf,Chadi Fakih
Andrology. 2021;
[Pubmed]  [Google Scholar] [DOI]
17 Effect of varicoceles on spermatogenesis
Caroline Kang,Nahid Punjani,Richard K. Lee,Philip S. Li,Marc Goldstein
Seminars in Cell & Developmental Biology. 2021;
[Pubmed]  [Google Scholar] [DOI]
18 Association between exposure to ambient air pollution and semen quality in adults: a meta-analysis
Hong Qian,Qiaoqiao Xu,Wenkai Yan,Yun Fan,Zhi Li,Chengzhe Tao,Feng Zhang,Chuncheng Lu
Environmental Science and Pollution Research. 2021;
[Pubmed]  [Google Scholar] [DOI]
19 Proteomic analysis of koala ( phascolarctos cinereus ) spermatozoa and prostatic bodies
David A. Skerrett-Byrne,Amanda L. Anderson,Lyndal Hulse,Caillin Wass,Matthew D. Dun,Elizabeth G. Bromfield,Geoffry N. De Iuliis,Michael Pyne,Vere Nicolson,Stephen D. Johnston,Brett Nixon
PROTEOMICS. 2021; : 2100067
[Pubmed]  [Google Scholar] [DOI]
20 Pollutants and sperm quality: a systematic review and meta-analysis
Damiano Pizzol,Carlo Foresta,Andrea Garolla,Jacopo Demurtas,Mike Trott,Alessandro Bertoldo,Lee Smith
Environmental Science and Pollution Research. 2020;
[Pubmed]  [Google Scholar] [DOI]
21 Functions and effects of reactive oxygen species in male fertility
Zamira Gibb,Róisín Ann Griffin,Robert John Aitken,Geoffry Nunzio De Iuliis
Animal Reproduction Science. 2020; : 106456
[Pubmed]  [Google Scholar] [DOI]
22 Effect of different glycerol concentrations on phosphatidylserine translocation and mitochondrial membrane potential in chilled boar spermatozoa
Daniela Marina Malcervelli,Pablo Torres,Jorge Federico Suhevic,Humberto Cisale,María Laura Fischman
Cryobiology. 2020;
[Pubmed]  [Google Scholar] [DOI]
23 Involvement of nitric oxide during in vitro oocyte maturation, sperm capacitation and in vitro fertilization in pig
Jon Romero-Aguirregomezcorta,Cristina Soriano-Úbeda,Carmen Matás
Research in Veterinary Science. 2020;
[Pubmed]  [Google Scholar] [DOI]
24 Molecular insights into the divergence and diversity of post-testicular maturation strategies
Brett Nixon,Shenae L. Cafe,Andrew L. Eamens,Geoffry N. De Iuliis,Elizabeth G. Bromfield,Jacinta H. Martin,David A. Skerrett-Byrne,Matthew D. Dun
Molecular and Cellular Endocrinology. 2020; : 110955
[Pubmed]  [Google Scholar] [DOI]
25 Comparative Study of Pregnancy Rate of Dairy Cows Inseminated with Fresh or Frozen-Thawed Semen
Jan Pytlík,Ludek Stádník,Jaromír Duchácek,Radim Codl
Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis. 2020; 68(3): 573
[Pubmed]  [Google Scholar] [DOI]
26 Assessments of sperm quality integrating morphology, swimming patterns, bioenergetics and cell signalling
Eduardo R.S. Roldan
Theriogenology. 2020;
[Pubmed]  [Google Scholar] [DOI]
27 Are antioxidants a viable treatment option for male infertility?
Marwan Ali,Marlon Martinez,Neel Parekh
Andrologia. 2020; : e13644
[Pubmed]  [Google Scholar] [DOI]
28 Nano-purification of raw semen minimises oxidative stress with improvement in post-thaw quality of buffalo spermatozoa
Amarjeet Bisla,Rupali Rautela,Vinay Yadav,Praveen Singh,Abhishek Kumar,Subrata Ghosh,Ajay Kumar,Sadhan Bag,Brijesh Kumar,Neeraj Srivastava
Andrologia. 2020;
[Pubmed]  [Google Scholar] [DOI]
29 Expression of RXFP2 receptor on human spermatozoa and the anti-apoptotic and antioxidant effects of insulin-like factor 3
Saeed Shokri,Marziyeh Tavalaee,Seyyed Meisam Ebrahimi,Sanaz Ziaeipour,Mohammad Hossein Nasr-Esfahani,Reza Nejatbakhsh
Andrologia. 2020;
[Pubmed]  [Google Scholar] [DOI]
30 The Importance of Oxidative Stress in Determining the Functionality of Mammalian Spermatozoa: A Two-Edged Sword
Robert J. Aitken,Joel R. Drevet
Antioxidants. 2020; 9(2): 111
[Pubmed]  [Google Scholar] [DOI]
31 Molecular Mechanisms Involved in the Impairment of Boar Sperm Motility by Peroxynitrite-Induced Nitrosative Stress
Rebeca Serrano,Nicolás Garrido,Jose A. Céspedes,Lauro González-Fernández,Luis J. García-Marín,María J. Bragado
International Journal of Molecular Sciences. 2020; 21(4): 1208
[Pubmed]  [Google Scholar] [DOI]
32 Sperm Cohort-Specific Zinc Signature Acquisition and Capacitation-Induced Zinc Flux Regulate Sperm-Oviduct and Sperm-Zona Pellucida Interactions
Karl Kerns,Momal Sharif,Michal Zigo,Wei Xu,Lauren E. Hamilton,Miriam Sutovsky,Mark Ellersieck,Erma Z. Drobnis,Nicolai Bovin,Richard Oko,David Miller,Peter Sutovsky
International Journal of Molecular Sciences. 2020; 21(6): 2121
[Pubmed]  [Google Scholar] [DOI]
33 Changes in the Cellular Distribution of Tyrosine Phosphorylation and Its Relationship with the Acrosomal Exocytosis and Plasma Membrane Integrity during In Vitro Capacitation of Frozen/Thawed Bull Spermatozoa
Sara Ruiz-Díaz,Sergio Grande-Pérez,Sol Arce-López,Carolina Tamargo,Carlos Olegario Hidalgo,Serafín Pérez-Cerezales
International Journal of Molecular Sciences. 2020; 21(8): 2725
[Pubmed]  [Google Scholar] [DOI]
34 Sperm Cryodamage in Ruminants: Understanding the Molecular Changes Induced by the Cryopreservation Process to Optimize Sperm Quality
Patricia Peris-Frau,Ana Josefa Soler,María Iniesta-Cuerda,Alicia Martín-Maestro,Irene Sánchez-Ajofrín,Daniela Alejandra Medina-Chávez,María Rocío Fernández-Santos,Olga García-Álvarez,Alejandro Maroto-Morales,Vidal Montoro,J. Julián Garde
International Journal of Molecular Sciences. 2020; 21(8): 2781
[Pubmed]  [Google Scholar] [DOI]
35 Antioxidant potential of seminal plasma in normozoospermia and asthenozoospermia
E. V. Proskurnina,N. A. Melnikov,O. A. Dolgikh,M. I. Shtaut,V. B. Chernykh
Andrology and Genital Surgery. 2020; 21(2): 14
[Pubmed]  [Google Scholar] [DOI]
36 Red LED Light Acts on the Mitochondrial Electron Chain of Donkey Sperm and Its Effects Depend on the Time of Exposure to Light
Jaime Catalán,Marion Papas,Lina Trujillo-Rojas,Olga Blanco-Prieto,Sebastián Bonilla-Correal,Joan E. Rodríguez-Gil,Jordi Miró,Marc Yeste
Frontiers in Cell and Developmental Biology. 2020; 8
[Pubmed]  [Google Scholar] [DOI]
37 The Presence of D-Penicillamine during the In Vitro Capacitation of Stallion Spermatozoa Prolongs Hyperactive-Like Motility and Allows for Sperm Selection by Thermotaxis
Sara Ruiz-Díaz,Ivan Oseguera-López,David De La Cuesta-Díaz,Belén García-López,Consuelo Serres,Maria José Sanchez-Calabuig,Alfonso Gutiérrez-Adán,Serafin Perez-Cerezales
Animals. 2020; 10(9): 1467
[Pubmed]  [Google Scholar] [DOI]
38 Myoinositol Supplementation of Freezing Medium Improves the Quality-Related Parameters of Dog Sperm
Ahmad Yar Qamar,Xung Fang,Min Jung Kim,Jongki Cho
Animals. 2019; 9(12): 1038
[Pubmed]  [Google Scholar] [DOI]
39 Canine spermatozoa—What do we know about their morphology and physiology? An overview
Angelika Chlopik,Anna Wysokinska
Reproduction in Domestic Animals. 2019;
[Pubmed]  [Google Scholar] [DOI]
40 Redox Regulation and Oxidative Stress: The Particular Case of the Stallion Spermatozoa
Fernando J. Peña,Cristian O’Flaherty,José M. Ortiz Rodríguez,Francisco E. Martín Cano,Gemma L. Gaitskell-Phillips,María C. Gil,Cristina Ortega Ferrusola
Antioxidants. 2019; 8(11): 567
[Pubmed]  [Google Scholar] [DOI]
41 Iodixanol supplementation during sperm cryopreservation improves protamine level and reduces reactive oxygen species of canine sperm
Dimas A. Abdillah,Erif M. N. Setyawan,Hyun Ju Oh,Kihae Ra,Seok Hee Lee,Min Jung Kim,Byeong Chun Lee
Journal of Veterinary Science. 2019; 20(1): 79
[Pubmed]  [Google Scholar] [DOI]
42 Cyclin–CDK Complexes are Key Controllers of Capacitation-Dependent Actin Dynamics in Mammalian Spermatozoa
Jordi Bernabò,Jordi Ramal-Sanchez,Jordi Valbonetti,Jordi Machado-Simoes,Jordi Ordinelli,Jordi Capacchietti,Jordi Taraschi,Jordi Barboni
International Journal of Molecular Sciences. 2019; 20(17): 4236
[Pubmed]  [Google Scholar] [DOI]
43 Environment and Male Fertility: Effects of Benzo-a-Pyrene and Resveratrol on Human Sperm Function In Vitro
Angela Alamo,Rosita A. Condorelli,Laura M. Mongioì,Rossella Cannarella,Filippo Giacone,Vittorio Calabrese,Sandro La Vignera,Aldo E. Calogero
Journal of Clinical Medicine. 2019; 8(4): 561
[Pubmed]  [Google Scholar] [DOI]
44 The Thioredoxin System is Regulated by the ASK-1/JNK/p38/Survivin Pathway During Germ Cell Apoptosis
Yu Al-Kandari,Yu Fadel,Yu Al-Saleh,Yu Khashab,Yu Al-Maghrebi
Molecules. 2019; 24(18): 3333
[Pubmed]  [Google Scholar] [DOI]
45 The female reproductive tract contains multiple innate sialic acid-binding immunoglobulin-like lectins (Siglecs) that facilitate sperm survival
Eillen Tecle,Hector Sequoyah Reynoso,Ruixuan Wang,Pascal Gagneux
Journal of Biological Chemistry. 2019; 294(31): 11910
[Pubmed]  [Google Scholar] [DOI]
46 Oxidative stress and sperm function: A systematic review on evaluation and management
Sulagna Dutta,Ahmad Majzoub,Ashok Agarwal
Arab Journal of Urology. 2019; : 1
[Pubmed]  [Google Scholar] [DOI]
47 The importance of trace minerals copper, manganese, selenium and zinc in bovine sperm–zona pellucida binding
Juan Patricio Anchordoquy,Juan Mateo Anchordoquy,Raúl Martín Lizarraga,Noelia Nikoloff,Ana Malen Pascua,Cecilia Cristina Furnus
Zygote. 2019; : 1
[Pubmed]  [Google Scholar] [DOI]
48 Photostimulation and thermotaxis of sperm: overview and practical implications in porcine reproduction
Joan E. Rodríguez-Gil
Theriogenology. 2019;
[Pubmed]  [Google Scholar] [DOI]
49 Seasonal changes in ROS concentrations and sperm quality in unfrozen and frozen-thawed stallion semen
B. Mislei,D. Bucci,E. Malama,H. Bollwein,G. Mari
Theriogenology. 2019;
[Pubmed]  [Google Scholar] [DOI]
50 Apoptosis in Spermatozoa and Its Role in Deteriorating Semen Quality
A. N. Nakidkina,T. I. Kuzmina
Russian Journal of Developmental Biology. 2019; 50(4): 165
[Pubmed]  [Google Scholar] [DOI]
51 In vitro effect of nerve growth factor on the main traits of rabbit sperm
Cesare Castellini,Simona Mattioli,Alessandro Dal Bosco,Giulia Collodel,Alessandra Pistilli,Anna Maria Stabile,Lara Macchioni,Francesca Mancuso,Giovanni Luca,Mario Rende
Reproductive Biology and Endocrinology. 2019; 17(1)
[Pubmed]  [Google Scholar] [DOI]
52 Rosiglitazone in the thawing medium improves mitochondrial function in stallion spermatozoa through regulating Akt phosphorylation and reduction of caspase 3
José M. Ortiz-Rodriguez,Carolina Balao da Silva,Javier Masot,Eloy Redondo,Antonio Gazquez,José A. Tapia,Cruz Gil,Cristina Ortega-Ferrusola,Fernando J. Peña,Ferenc Gallyas
PLOS ONE. 2019; 14(7): e0211994
[Pubmed]  [Google Scholar] [DOI]
53 Effect of cysteine, glutamate and glycine supplementation to in vitro fertilization medium during bovine early embryo development
Juan Patricio Anchordoquy,Raúl Martín Lizarraga,Juan Mateo Anchordoquy,Noelia Nikoloff,Diana Esther Rosa,Mariana Carolina Fabra,Pilar Peral-García,Cecilia Cristina Furnus
Reproductive Biology. 2019;
[Pubmed]  [Google Scholar] [DOI]
54 Evaluation of the NOX5 protein expression and oxidative stress in sperm from asthenozoospermic men compared to normozoospermic men
A. Vatannejad,H. Tavilani,M. R. Sadeghi,M. Karimi,N. Lakpour,S. Amanpour,M. Shabani Nashtaei,M. Doosti
Journal of Endocrinological Investigation. 2019;
[Pubmed]  [Google Scholar] [DOI]
55 The calcium-sensing receptor regulates protein tyrosine phosphorylation through PDK1 in boar spermatozoa
Beatriz Macías-García,Luis J. García-Marín,María J. Bragado,Lauro González-Fernández
Molecular Reproduction and Development. 2019;
[Pubmed]  [Google Scholar] [DOI]
56 Dynamic assessment of human sperm DNA damage II: the effect of sperm concentration adjustment during processing
Eva Tvrdá,Francisca Arroyo,Michal Duracka,Carmen López-Fernández,Jaime Gosálvez
Journal of Assisted Reproduction and Genetics. 2019;
[Pubmed]  [Google Scholar] [DOI]
57 Regulation of boar sperm functionality by the nitric oxide synthase/nitric oxide system
Florentin-Daniel Staicu,Rebeca Lopez-Úbeda,Jon Romero-Aguirregomezcorta,Juan Carlos Martínez-Soto,Carmen Matás Parra
Journal of Assisted Reproduction and Genetics. 2019;
[Pubmed]  [Google Scholar] [DOI]
58 Flagellar hyperactivation of bull and boar spermatozoa
Hiroshi Harayama
Reproductive Medicine and Biology. 2018;
[Pubmed]  [Google Scholar] [DOI]
59 Comparative Analysis of the Expression of Glutathione Peroxidase and Glutathione Reductase Genes in Human Sperm after Cryopreservation
N. P. Makarova,Yu. A. Romanov,N. V. Dolgushina,M. M. Parker,A. M. Krasnyi
Bulletin of Experimental Biology and Medicine. 2018; 165(1): 166
[Pubmed]  [Google Scholar] [DOI]
60 The sperm mitochondrion: Organelle of many functions
Christa R. Moraes,Stuart Meyers
Animal Reproduction Science. 2018;
[Pubmed]  [Google Scholar] [DOI]
61 Decrease in the cytosolic NADP + -dependent isocitrate dehydrogenase activity through porcine sperm capacitation
Yuki Katoh,Michiko Tamba,Manabu Matsuda,Kazuhiro Kikuchi,Naomichi Okamura
Biochemical and Biophysical Research Communications. 2018; 497(1): 374
[Pubmed]  [Google Scholar] [DOI]
62 Ambient air pollution and semen quality
Carrie J. Nobles,Enrique F. Schisterman,Sandie Ha,Keewan Kim,Sunni L. Mumford,Germaine M. Buck Louis,Zhen Chen,Danping Liu,Seth Sherman,Pauline Mendola
Environmental Research. 2018; 163: 228
[Pubmed]  [Google Scholar] [DOI]
63 Rosiglitazone Phosphorylates Akt, Reduces Caspase 3 Activity and Enhances Mitochondrial Function in frozen Thawed Stallion Spermatozoa
M. Ortiz- Rodriguez,C. Ortega Ferrusola,M.C. Gil,F.J. Peña
Journal of Equine Veterinary Science. 2018; 66: 79
[Pubmed]  [Google Scholar] [DOI]
64 Seminal plasma antioxidants are directly involved in boar sperm cryotolerance
Junwei Li,Isabel Barranco,Asta Tvarijonaviciute,Manuel F. Molina,Emilio A. Martinez,Heriberto Rodriguez-Martinez,Inmaculada Parrilla,Jordi Roca
Theriogenology. 2018; 107: 27
[Pubmed]  [Google Scholar] [DOI]
65 A global view of the pathophysiology of varicocele
A. M. Hassanin,H. H. Ahmed,A. N. Kaddah
Andrology. 2018;
[Pubmed]  [Google Scholar] [DOI]
66 Seminal plasma proteins and their relationship with sperm motility and morphology in boars
Franciele L. De Lazari,Elistone R. Sontag,Alexander Schneider,Arlindo A. A. Moura,Fábio R. Vasconcelos,Celso S. Nagano,Rodrigo C. Mattos,Maria Inês M. Jobim,Ivan C. Bustamante-Filho
Andrologia. 2018; : e13222
[Pubmed]  [Google Scholar] [DOI]
67 Flow cytometry analysis of spermatozoa: Is it time for flow spermetry?
Fernando J. Peña,Jose M. Ortiz Rodriguez,María C. Gil,Cristina Ortega Ferrusola
Reproduction in Domestic Animals. 2018; 53: 37
[Pubmed]  [Google Scholar] [DOI]
68 Sublethal sperm freezing damage: Manifestations and solutions
Taylor Pini,Tamara Leahy,Simon P. de Graaf
Theriogenology. 2018; 118: 172
[Pubmed]  [Google Scholar] [DOI]
69 Zinc: A Necessary Ion for Mammalian Sperm Fertilization Competency
Karl Kerns,Michal Zigo,Peter Sutovsky
International Journal of Molecular Sciences. 2018; 19(12): 4097
[Pubmed]  [Google Scholar] [DOI]
70 Oxidative Stress in the Male Germline: A Review of Novel Strategies to Reduce 4-Hydroxynonenal Production
Jessica Walters,Geoffry De Iuliis,Brett Nixon,Elizabeth Bromfield
Antioxidants. 2018; 7(10): 132
[Pubmed]  [Google Scholar] [DOI]
71 Low levels of apoptotic-like changes in fresh and cryopreserved feline spermatozoa collected from the urethra and epididymis
Sylwia Prochowska,Wojciech Nizanski,Agnieszka Partyka
Theriogenology. 2017; 88: 43
[Pubmed]  [Google Scholar] [DOI]
72 c-Jun N-terminal kinase and p38 mitogen-activated protein kinase pathways link capacitation with apoptosis and seminal plasma proteins protect sperm by interfering with both routes†
Carolina Luna,Noelia Mendoza,Adriana Casao,Rosaura Pérez-Pé,José A. Cebrián-Pérez,Teresa Muiño-Blanco
Biology of Reproduction. 2017; 96(4): 800
[Pubmed]  [Google Scholar] [DOI]
73 Mammalian target of rapamycin (mTOR): a central regulator of male fertility?
Tito T. Jesus,Pedro F. Oliveira,Mário Sousa,C. Yan Cheng,Marco G. Alves
Critical Reviews in Biochemistry and Molecular Biology. 2017; : 1
[Pubmed]  [Google Scholar] [DOI]
74 Extracellular cAMP activates molecular signalling pathways associated with sperm capacitation in bovines
Carlos Agustín I. Alonso,Claudia E. Osycka-Salut,Luciana Castellano,Andreína Cesari,Nicolás Di Siervi,Adrián Mutto,Anders Johannisson,Jane M. Morrell,Carlos Davio,Silvina Perez-Martinez
MHR: Basic science of reproductive medicine. 2017; : 1
[Pubmed]  [Google Scholar] [DOI]
75 Computational flow cytometry reveals that cryopreservation induces spermptosis but subpopulations of spermatozoa may experience capacitation-like changes
C Ortega-Ferrusola,L Anel-López,P Martín-Muñoz,J M Ortíz-Rodríguez,M C Gil,M Alvarez,P de Paz,L J Ezquerra,A J Masot,E Redondo,L Anel,F J Peña
Reproduction. 2017; 153(3): 293
[Pubmed]  [Google Scholar] [DOI]
76 Biological effects of polyphenol-rich extract and fractions from an oenological oak-derived tannin on in vitro swine sperm capacitation and fertilizing ability
Marcella Spinaci,Vera Muccilli,Diego Bucci,Nunzio Cardullo,Beatrice Gadani,Corrado Tringali,Carlo Tamanini,Giovanna Galeati
Theriogenology. 2017;
[Pubmed]  [Google Scholar] [DOI]
77 A search for molecular mechanisms underlying male idiopathic infertility
An Bracke,Kris Peeters,Usha Punjabi,David Hoogewijs,Sylvia Dewilde
Reproductive BioMedicine Online. 2017;
[Pubmed]  [Google Scholar] [DOI]
78 Cryopreservation of canine sperm using egg yolk and soy bean based extenders
María Jesús Sánchez-Calabuig,Verónica Maillo,Paula Beltrán-Breña,Julio de la Fuente Martínez,Silvestre Galera-Carrillo,José Félix Pérez-Gutiérrez,Serafín Pérez-Cerezales
Reproductive Biology. 2017;
[Pubmed]  [Google Scholar] [DOI]
79 Reactive oxygen species as mediators of sperm capacitation and pathological damage
Robert J. Aitken
Molecular Reproduction and Development. 2017;
[Pubmed]  [Google Scholar] [DOI]
80 Analysis of the effects of polyphenols on human spermatozoa reveals unexpected impacts on mitochondrial membrane potential, oxidative stress and DNA integrity; implications for assisted reproductive technology
R.J. Aitken,L. Muscio,S. Whiting,H.S. Connaughton,B.A. Fraser,B. Nixon,N.D. Smith,G.N. De Iuliis
Biochemical Pharmacology. 2016; 121: 78
[Pubmed]  [Google Scholar] [DOI]
81 Spermine reduces reactive oxygen species levels and decreases cryocapacitation in canine sperm cryopreservation
Erif Maha Nugraha Setyawan,Min Jung Kim,Hyun Ju Oh,Geon A. Kim,Young Kwang Jo,Seok Hee Lee,Yoo Bin Choi,Byeong Chun Lee
Biochemical and Biophysical Research Communications. 2016; 479(4): 927
[Pubmed]  [Google Scholar] [DOI]
82 Chronic acrylamide exposure in male mice induces DNA damage to spermatozoa; potential for amelioration by resveratrol
Aimee L. Katen,Simone J. Stanger,Amanda L. Anderson,Brett Nixon,Shaun D. Roman
Reproductive Toxicology. 2016;
[Pubmed]  [Google Scholar] [DOI]
83 Flow Cytometry Probes to Evaluate Stallion Spermatozoa
Fernando J. Peña,Patricia Martin Muñoz,Cristina Ortega Ferrusola
Journal of Equine Veterinary Science. 2016;
[Pubmed]  [Google Scholar] [DOI]
84 New flow cytometry approaches in equine andrology
Fernando J. Peña,Cristina Ortega Ferrusola,Patricia Martín Muñoz
Theriogenology. 2016;
[Pubmed]  [Google Scholar] [DOI]
85 Synergetic Effects of K, Ca, Cu and Zn in Human Semen in Relation to Parameters Indicative of Spontaneous Hyperactivation of Spermatozoa
Ivan Bolanca,Jasmina Obhodas,Dejan Ljiljak,Lidija Matjacic,Krunoslav Kuna,Agustín Guerrero-Hernandez
PLOS ONE. 2016; 11(3): e0152445
[Pubmed]  [Google Scholar] [DOI]
86 Antioxidants and Polyphenols: Concentrations and Relation to Male Infertility and Treatment Success
Tali Silberstein,Iris Har-Vardi,Avi Harlev,Michael Friger,Batel Hamou,Tamar Barac,Eli Levitas,Oshra Saphier
Oxidative Medicine and Cellular Longevity. 2016; 2016: 1
[Pubmed]  [Google Scholar] [DOI]
87 Networks Models of Actin Dynamics during Spermatozoa Postejaculatory Life: A Comparison among Human-Made and Text Mining-Based Models
Nicola Bernabò,Alessandra Ordinelli,Marina Ramal Sanchez,Mauro Mattioli,Barbara Barboni
BioMed Research International. 2016; 2016: 1
[Pubmed]  [Google Scholar] [DOI]
88 The Effect of Oxidative Stress on Thawed Bulk-Sorted Red Deer Sperm
L Anel-López,O García-Álvarez,I Parrilla,D Del Olmo,MR Fernández-Santos,AJ Soler,A Maroto-Morales,JA Ortiz,DV Alkmin,T Tarantini,J Roca,EA Martínez,JM Vazquez,JJ Garde
Reproduction in Domestic Animals. 2016;
[Pubmed]  [Google Scholar] [DOI]
89 Oestrous sheep serum balances ROS levels to supply in vitro capacitation of ram spermatozoa
E Del Olmo,O García-Álvarez,A Maroto-Morales,M Ramón,M Iniesta-Cuerda,F Martinez-Pastor,V Montoro,AJ Soler,JJ Garde,MR Fernández-Santos
Reproduction in Domestic Animals. 2016;
[Pubmed]  [Google Scholar] [DOI]
90 Inflammatory and anti-inflammatory cytokines in the seminal plasma of infertile men suffering from varicocele
M. Zeinali,A. Hadian Amree,H. Khorramdelazad,H. Karami,M. Abedinzadeh
Andrologia. 2016;
[Pubmed]  [Google Scholar] [DOI]
91 A novel antioxidant formulation designed to treat male infertility associated with oxidative stress: promising preclinical evidence from animal models
P. Gharagozloo,A. Gutiérrez-Adán,A. Champroux,A. Noblanc,A. Kocer,A. Calle,S. Pérez-Cerezales,E. Pericuesta,A. Polhemus,A. Moazamian,J.R. Drevet,R.J. Aitken
Human Reproduction. 2016; 31(2): 252
[Pubmed]  [Google Scholar] [DOI]
92 Causes and consequences of oxidative stress in spermatozoa
Robert John Aitken,Zamira Gibb,Mark A. Baker,Joel Drevet,Parviz Gharagozloo
Reproduction, Fertility and Development. 2016; 28(2): 1
[Pubmed]  [Google Scholar] [DOI]
93 Epigallocatechin-3-Gallate (EGCG) Reduces Rotenone Effect on Stallion Sperm-Zona Pellucida Heterologous Binding
M Plaza Dávila,D Bucci,G Galeati,FJ Peña,G Mari,E Giaretta,C Tamanini,M Spinaci
Reproduction in Domestic Animals. 2015; 50(6): 1011
[Pubmed]  [Google Scholar] [DOI]
94 Estrous sheep serum enables in vitro capacitation of ram spermatozoa while preventing caspase activation
E. Del Olmo,O. García-Álvarez,A. Maroto-Morales,M. Ramón,P. Jiménez-Rabadán,M. Iniesta-Cuerda,L. Anel-Lopez,F. Martinez-Pastor,A.J. Soler,J.J. Garde,M.R. Fernández-Santos
Theriogenology. 2015;
[Pubmed]  [Google Scholar] [DOI]

 

Read this article