The TUNEL assay consistently underestimates DNA damage in human spermatozoa and is influenced by DNA compaction and cell vitality: development of an improved methodology.
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[1] M. Garg,et al. Stimulation of mitochondrial reactive oxygen species production by unesterified, unsaturated fatty acids in defective human spermatozoa. , 2010, Free radical biology & medicine.
[2] R. Aitken,et al. DNA Damage in Human Spermatozoa Is Highly Correlated with the Efficiency of Chromatin Remodeling and the Formation of 8-Hydroxy-2′-Deoxyguanosine, a Marker of Oxidative Stress1 , 2009, Biology of reproduction.
[3] L. Ouchchane,et al. Fluorescence microscopy and flow cytometry in measuring activated caspases in human spermatozoa. , 2009, International journal of andrology.
[4] A. Zini,et al. Are tests of sperm DNA damage clinically useful? Pros and cons. , 2009, Journal of andrology.
[5] A. Agarwal,et al. Role of oxidative stress in pathogenesis of varicocele and infertility. , 2009, Urology.
[6] R. Aitken,et al. Biological and clinical significance of DNA damage in the male germ line. , 2009, International journal of andrology.
[7] R. Aitken,et al. Significance of mitochondrial reactive oxygen species in the generation of oxidative stress in spermatozoa. , 2008, The Journal of clinical endocrinology and metabolism.
[8] R. Aitken,et al. Impact of estrogenic compounds on DNA integrity in human spermatozoa: evidence for cross-linking and redox cycling activities. , 2008, Mutation research.
[9] R. John Aitken,et al. Just how safe is assisted reproductive technology for treating male factor infertility , 2008 .
[10] A. Giwercman,et al. Sperm chromatin structure assay parameters measured after density gradient centrifugation are not predictive for the outcome of ART. , 2008, Human reproduction.
[11] S. Lewis,et al. Using the alkaline comet assay in prognostic tests for male infertility and assisted reproductive technology outcomes. , 2008, Mutagenesis.
[12] K. Tremellen. Oxidative stress and male infertility--a clinical perspective. , 2008, Human reproduction update.
[13] J. Alvarez,et al. Sperm DNA Tests as Useful Adjuncts to Semen Analysis , 2008, Systems biology in reproductive medicine.
[14] B. Hales,et al. Exposure of male rats to cyclophosphamide alters the chromatin structure and basic proteome in spermatozoa. , 2007, Human reproduction.
[15] R. Aitken,et al. Chapter 17:Redox Regulation of DNA Damage in the Male Germ Line , 2007 .
[16] D. Evenson,et al. Analysis of sperm DNA fragmentation using flow cytometry and other techniques. , 2007, Society of Reproduction and Fertility supplement.
[17] B. V. Van Voorhis. Clinical practice. In vitro fertilization. , 2007, The New England journal of medicine.
[18] R John Aitken,et al. Cis-unsaturated fatty acids stimulate reactive oxygen species generation and lipid peroxidation in human spermatozoa. , 2006, The Journal of clinical endocrinology and metabolism.
[19] M. Meseguer,et al. Value of the sperm deoxyribonucleic acid fragmentation level, as measured by the sperm chromatin dispersion test, in the outcome of in vitro fertilization and intracytoplasmic sperm injection. , 2006, Fertility and sterility.
[20] D. Carrell,et al. Comparison of chromatin assays for DNA fragmentation evaluation in human sperm. , 2006, Journal of andrology.
[21] R. Aitken,et al. DNA damage to spermatozoa has impacts on fertilization and pregnancy , 2005, Cell and Tissue Research.
[22] A. Agarwal,et al. Oxidative stress, DNA damage and apoptosis in male infertility: a clinical approach , 2005, BJU international.
[23] Moulavi Fariba,et al. Effect of sperm DNA damage and sperm protamine deficiency on fertilization and embryo development post-ICSI. , 2005 .
[24] M. Nasr-Esfahani,et al. Effect of sperm DNA damage and sperm protamine deficiency on fertilization and embryo development post-ICSI. , 2005, Reproductive biomedicine online.
[25] R. Aitken,et al. Seeds of concern , 2004, Nature.
[26] A. Giwercman,et al. Toluidine blue cytometry test for sperm DNA conformation: comparison with the flow cytometric sperm chromatin structure and TUNEL assays. , 2004, Human reproduction.
[27] E. Seli,et al. Extent of nuclear DNA damage in ejaculated spermatozoa impacts on blastocyst development after in vitro fertilization. , 2004, Fertility and sterility.
[28] P. de Boer,et al. The neutral comet assay detects double strand DNA damage in selected and unselected human spermatozoa of normospermic donors. , 2004, International journal of andrology.
[29] A. Giwercman,et al. The predictive value of sperm chromatin structure assay (SCSA) parameters for the outcome of intrauterine insemination, IVF and ICSI. , 2004, Human reproduction.
[30] N. Hud,et al. Formation of Native-like Mammalian Sperm Cell Chromatin with Folded Bull Protamine* , 2004, Journal of Biological Chemistry.
[31] M. Virro,et al. Sperm chromatin structure assay (SCSA) parameters are related to fertilization, blastocyst development, and ongoing pregnancy in in vitro fertilization and intracytoplasmic sperm injection cycles. , 2004, Fertility and sterility.
[32] E. Lau,et al. Dynamics of Protamine 1 Binding to Single DNA Molecules* , 2003, Journal of Biological Chemistry.
[33] S. Loft,et al. Oxidative DNA damage in human sperm influences time to pregnancy. , 2003, Human reproduction.
[34] C. Peterson,et al. SPERM DNA FRAGMENTATION IS INCREASED IN COUPLES WITH UNEXPLAINED RECURRENT PREGNANCY LOSS , 2003, Archives of andrology.
[35] C. Ong,et al. Detection of apoptotic alterations in sperm in subfertile patients and their correlations with sperm quality. , 2002, Human reproduction.
[36] D. Brison,et al. The spectrum of DNA damage in human sperm assessed by single cell gel electrophoresis (Comet assay) and its relationship to fertilization and embryo development. , 2002, Human reproduction.
[37] D. Kretser,et al. Male infertility: the case for continued research , 2001, The Medical journal of Australia.
[38] R. Aitken,et al. DNA integrity in human spermatozoa: relationships with semen quality. , 2000, Journal of andrology.
[39] R. Aitken. The Amoroso Lecture. The human spermatozoon--a cell in crisis? , 1999, Journal of reproduction and fertility.
[40] R. Aitken,et al. Evaluation of a spectrophotometric assay for the measurement of malondialdehyde and 4-hydroxyalkenals in human spermatozoa: relationships with semen quality and sperm function. , 2002, International journal of andrology.
[41] R. Aitken,et al. Relative impact of oxidative stress on the functional competence and genomic integrity of human spermatozoa. , 1998, Biology of reproduction.
[42] A. Giwercman,et al. The applicability of the flow cytometric sperm chromatin structure assay in epidemiological studies. Asclepios. , 1998, Human reproduction.
[43] J. Bonde,et al. The applicability of the flow cytometric sperm chromatin structure assay in epidemiological studies* , 1998 .
[44] R. Balhorn,et al. Analysis of DNA-protamine interactions by optical detection of magnetic resonance. , 1997, Biochemistry.
[45] H. Kasai,et al. Increased oxidative deoxyribonucleic acid damage in the spermatozoa of infertile male patients. , 1997, Fertility and sterility.
[46] R. Casper,et al. Detection of deoxyribonucleic acid fragmentation in human sperm: correlation with fertilization in vitro. , 1997, Biology of reproduction.
[47] Serafino Pantano,et al. Presence of endogenous nicks in DNA of ejaculated human spermatozoa and its relationship to chromomycin A3 accessibility. , 1995, Biology of reproduction.
[48] D. Sakkas,et al. Effect of deoxyribonucleic acid protamination on fluorochrome staining and in situ nick-translation of murine and human mature spermatozoa. , 1993, Biology of reproduction.
[49] R. Aitken,et al. Analysis of lipid peroxidation mechanisms in human spermatozoa , 1993, Molecular reproduction and development.
[50] R. Balhorn,et al. Formation of intraprotamine disulfides in vitro. , 1992, Archives of biochemistry and biophysics.
[51] R. Aitken. The role of free oxygen radicals and sperm function. , 1989, International journal of andrology.
[52] B. V. Voorhis. In vitro fertilization. , 2007, BMJ.
[53] R. Aitken,et al. Significance of reactive oxygen species and antioxidants in defining the efficacy of sperm preparation techniques. , 1988, Journal of andrology.
[54] R. Aitken,et al. Cellular basis of defective sperm function and its association with the genesis of reactive oxygen species by human spermatozoa. , 1987, Journal of reproduction and fertility.
[55] B. T. Storey,et al. Spontaneous lipid peroxidation and production of hydrogen peroxide and superoxide in human spermatozoa. Superoxide dismutase as major enzyme protectant against oxygen toxicity. , 1987, Journal of andrology.
[56] Roy Jones,et al. Peroxidative breakdown of phospholipids in human spermatozoa, spermicidal properties of fatty acid peroxides, and protective action of seminal plasma. , 1979, Fertility and sterility.
[57] W K Whitten,et al. The culture of mouse embryos in vitro. , 1971 .