Regina M. Turner scite author profile

Abstract. Because it is generally accepted that a high percentage of poorly motile or immotile sperm will adversely affect male fertility, analysis of sperm motility is a central part of the evaluation of male fertility. In spite of its importance to fertility, poor sperm motility remains only a description of a pathology whose underlying cause is typically poorly understood. The present review is designed to bring the clinician up to date with the most current understanding of the mechanisms that regulate sperm motility and to raise questions about how aberrations in these mechanisms could be the underlying causes of this pathology.

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Tales From the Tail: What Do We Really Know About Sperm Motility?

Turner

2003

Journal of Andrology

166

126

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Germ cell development in equine testis tissue xenografted into mice

Rathi¹,

Honaramooz²,

Zeng³

et al. 2006

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Grafting of testis tissue from immature animals to immunodeficient mice results in complete spermatogenesis, albeit with varying efficiency in different species. The objectives of this study were to investigate if grafting of horse testis tissue would result in spermatogenesis, and to assess the effect of exogenous gonadotropins on xenograft development. Small fragments of testis tissue from 7 colts (2 week to 4 years of age) were grafted under the back skin of castrated male immunodeficient mice. For 2 donor animals, half of the mice were treated with gonadotropins. Xenografts were analyzed at 4 and 8 months post-transplantation. Spermatogenic differentiation following grafting ranged from no differentiation to progression through meiosis with appearance of haploid cells. Administration of exogenous gonadotropins appeared to support post-meiotic differentiation. For more mature donor testis samples where spermatogenesis had progressed into or through meiosis, after grafting an initial loss of differentiated germ cells was observed followed by a resurgence of spermatogenesis. However, if haploid cells had been present prior to grafting, spermatogenesis did not progress beyond meiotic division. In all host mice with spermatogenic differentiation in grafts, increased weight of the seminal vesicles compared to castrated mice showed that xenografts were releasing testosterone. These results indicate that horse spermatogenesis occurs in a mouse host albeit with low efficiency. In most cases, spermatogenesis arrested at meiosis. The underlying mechanisms of this spermatogenic arrest require further investigation.

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Effect of method and clinician on stallion sperm morphology evaluation

et al. 2011

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Real-time ultrasound measure of the fetal eye (vitreous body) for prediction of parturition date in small ponies

et al. 2006

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Regina M. Turner

Moving to the beat: a review of mammalian sperm motility regulation

Tales From the Tail: What Do We Really Know About Sperm Motility?

Germ cell development in equine testis tissue xenografted into mice

Effect of method and clinician on stallion sperm morphology evaluation

Real-time ultrasound measure of the fetal eye (vitreous body) for prediction of parturition date in small ponies

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