S. Brugo Olmedo scite author profile

A series of 10 young sterile men with acephalic spermatozoa or abnormal head-mid-piece attachments is presented. Nine of these patients had 75-100% spermatozoa with minute cephalic ends and 0-25% abnormal head-middle piece attachments. Loose heads ranged between 0-35 for each 100 spermatozoa and normal forms were rare. Two patients were brothers. On ultrastructural examination, the head was generally absent and the middle piece was covered by the plasma membrane. When present, heads implanted at abnormal angles on the middle piece. A testicular biopsy showed abnormal spermiogenesis. The implantation fossa was absent and the flagellar anlage developed independently from the nucleus, resulting in abnormal head-middle piece connections. In one patient azoospermia was induced with testosterone to attempt to increase the normal sperm clone during the rebound phenomenon, but all newly formed spermatozoa were acephalic. In another patient with high numbers of defective head-mid-piece connections, microinjections of spermatozoa resulted in four fertilized oocytes, but syngamy and cleavage did not take place, suggesting an abnormal function of the centrioles. The findings indicate that acephalic spermatozoa arise in the testis as the result of an abnormal neck development during spermiogenesis. The familial incidence and the typical phenotype strongly suggest a genetic origin of the syndrome.

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Focal spermatogenesis originates in euploid germ cells in classical Klinefelter patients

Sciurano

et al. 2009

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These results provide a rationale for the high rate of success in the testicular sperm extraction plus ICSI procedures when applied to Klinefelter patients. It is also in agreement with previous studies in the XXY-mouse model. These spermatogenic foci most probably originate from clones of spermatogonia that have randomly lost one of the X chromosomes, probably during periods of life when high spermatogonial mitotic activity occurs.

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Ultrastructural Pathology of the Sperm Flagellum: Association Between Flagellar Pathology and Fertility Prognosis in Severely Asthenozoospermic Men

Chemes¹,

Olmedo²,

Carrere³

et al. 1999

Journal of Urology

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Cytoskeletal organization defects and abortive activation in human oocytes after IVF and ICSI failure

Rawe

Olmedo²,

Nodar³

et al. 2000

126

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In this study, we analysed the distribution of beta tubulins to detect spindle and cytoplasmic microtubules, alpha acetylated tubulins for sperm microtubules and chromatin configuration in oocytes showing fertilization failure after conventional IVF or intracytoplasmic sperm injection (ICSI). A total of 450 human oocytes that failed to fertilize were studied 20-40 h after IVF or ICSI. In all, 287 oocytes were stained for immunofluorescence and chromosomal spreads were performed by Tarkowski's air-drying method in 163 IVF or ICSI oocytes that did not develop pronuclei after the extrusion of a second polar body. Immunofluorescence analysis showed that the main reason of fertilization failure after IVF was no sperm penetration (55.5%). The remaining oocytes showed different abnormal patterns, e.g. oocyte activation failure (15.1%) and defects in pronuclei apposition (19.2%). On the other hand, fertilization failure after ICSI was mainly associated to incomplete oocyte activation (39.9%), and to a lesser extent with defects in pronuclei apposition (22.6%) and failure of sperm penetration (13.3%). A further 13.3% of the ICSI oocytes arrested their development at the metaphase of the first mitotic division. The chromosomal spreads allowed the analysis of abortive activations, in which no pronuclei formed but a second polar body was extruded. Immunofluorescence and cytogenetic analysis provided a useful tool to improve infertility diagnosis and prognosis in each particular case.

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Incidence of tail structure distortions associated with dysplasia of the fibrous sheath in human spermatozoa

Rawe¹,

Galaverna²,

Acosta³

et al. 2001

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Dysplasia of the fibrous sheath (DFS) is an anomaly found in spermatozoa of severe asthenozoospermic patients. Marked hypertrophy and hyperplasia of the fibrous sheath is the common characteristic. Immunocytochemistry allowed us to visualize the distortions and incidence of tail structure abnormalities associated with this phenotype in six patients; four with a complete form and two with an incomplete form of this pathology previously diagnosed and studied by electron microscopy. Microtubules and fibrous sheaths were studied using monoclonal antibodies against alpha-acetylated tubulin and anti-FSC1 (the major protein component of the fibrous sheath). Mitochondrial sheaths were visualized using the mitochondrion-specific vital dye MitoTracker green FM(TM). Phase contrast and fluorescent microscopy of semen samples showed large numbers of spermatozoa with short, rigid, thick and irregular tails. As expected, anomalous and completely distorted fibrous sheaths, severe alterations of the axonemal microtubules and different patterns of mitochondrial sheath configurations were found. While ultrastructural studies of thin sections allow an in-depth knowledge of the internal organization of the sperm tail, fluorescence labelling of selected sperm components affords a unique view of the whole flagellum including topographical relationships of various organelles. The combination of these different approaches is essential for a comprehensive understanding of this particular pathology.

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S. Brugo Olmedo

Acephalic spermatozoa and abnormal development of the head–neck attachment: a human syndrome of genetic origin

Focal spermatogenesis originates in euploid germ cells in classical Klinefelter patients

Ultrastructural Pathology of the Sperm Flagellum: Association Between Flagellar Pathology and Fertility Prognosis in Severely Asthenozoospermic Men

Cytoskeletal organization defects and abortive activation in human oocytes after IVF and ICSI failure

Incidence of tail structure distortions associated with dysplasia of the fibrous sheath in human spermatozoa

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