A quantitative ultramorphological approach for systematic assessment of sperm head regions. An example in rams

LÓPEZ ARMENGOL, MARÍA FERNANDA; JURADO, SUSANA B.; PELUFO, V; AISEN, E.G.

CRYOBIOLOGY

ACADEMIC PRESS INC ELSEVIER SCIENCE

Lugar: Colchester ; Año: 2012 vol. 64 p. 223 - 234

0011-2240

Examination of the type and frequency of damage to the head of spermatozoa using electron microscopy can be used to evaluate the quality of differently treated sperm. This report describes a systematic approach based on 29 morphological categories of sperm heads assessed from discrete regions in raw, chilled and frozen-thawed spermatozoa. Injury occurred principally at the plasma membrane and could be present or absent in all regions. In the anterior segment, when the plasma membrane is present, it can be intact, dilated, very dilated, disrupted, or contain vesicles characteristic of acrosomal reaction-like capacitation changes. When the plasma membrane is absent, the acrosome may be intact, exhibit a complete loss of contents, or retain some contents of the apical ridge and present a very dilated outer acrosomal membrane. The plasma membrane in the equatorial segment and the boundary between regions can be intact, dilated, very dilated or disrupted. The post-acrosomal plasma membrane is classified as intact, dilated or very dilated, whereas the dense lamina is intact, dilated or fragmented. The morphology of the heads most frequently observed in chilled spermatozoa consists of anterior and equatorial segments with a dilated, or dilated and disrupted plasma membrane; a boundary between regions with an intact and dilated plasma membrane; and a post-acrosomal region with an intact plasma membrane and dense lamina, both dilated. In frozen-thawed spermatozoa, the morphology of the heads is more frequently characterised by no plasma membrane and an acrosome showing complete or some loss of contents in the apical ridge and very dilated outer acrosomal membrane, presenting mostly dilated and fragmented dense lamina in the post-acrosomal region. These findings are consistent with the conclusionthat the freezing process produces an increase in the degree of damage to the cells when they are subjectedto increasing degrees of cold shock. There are still difficulties in developing a good diluent and processfor preserving the plasma membrane in ram spermatozoa. This systematisation, using differentcategories, allows characterisation of multiple transmission electron microscopy images. Thus, the differentchanges observed due to cryopreservation may be correlated.that the freezing process produces an increase in the degree of damage to the cells when they are subjectedto increasing degrees of cold shock. There are still difficulties in developing a good diluent and processfor preserving the plasma membrane in ram spermatozoa. This systematisation, using differentcategories, allows characterisation of multiple transmission electron microscopy images. Thus, the differentchanges observed due to cryopreservation may be correlated.