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Oligozoospermic Patients (oligozoospermic + patient)

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Medical Sciences100%

Selected Abstracts

Predictors of improved seminal characteristics by varicocele repair

ANDROLOGIA, Issue 1 2009
Y. Kondo
Summary The aim of this study was to investigate predictors of the improvement of semen characteristics after low ligation for patients with varicoceles. The records of 97 oligozoospermic patients who underwent microsurgical left or bilateral inguinal varicocele repair were retrospectively evaluated. We assessed factors that could be predictors of the improvement of semen characteristics using logistic regression analysis. We evaluated age, testicular volume, varicocele grade, serum follicle-stimulating hormone (FSH), luteinising hormone, testosterone, sperm concentration and motility before low ligation. Among the 97 patients, sperm concentration improved from 6.4 ± 5.8 to 24.2 ± 35.1 million ml,1 and sperm motility increased from 32.8 ± 24.9% to 41.0 ± 14.6% in 55 patients (57%). In logistic regression analysis, pre-operative serum FSH and testosterone concentration were predictors of sperm concentration improvement. Varicocele repair improved sperm concentration and motility. Low serum FSH and high testosterone are significant factors predicting the improvement of semen characteristics before low ligation. [source]

Oligozoospermia: recent prognosis and the outcome of 73 pregnancies in oligozoospermic couples

ANDROLOGIA, Issue 3 2006
J. A. Van Zyl
Summary The minimum value for each of the five main semen parameters, below which conception rarely occurred or did not occur at all, was calculated in a group of 1884 couples complaining of primary and secondary infertility: 304 conceptions including first as well as consecutive conceptions, occurred. The parameters evaluated were (minimum value calculated in this study between brackets) volume (1.0 ml), sperm count ml,1 (2.0 million), total sperm count (4.0 million), motility (10%), forward progression (2.0 MacLeod units: scale 1,4) and normal sperm morphology (3%). The pregnancy rate in the group of 308 oligozoospermic men and the minimum value of semen parameters were the cornerstones in determining the prognosis for oligozoospermic patients. A sperm count of >2.0 million ml,1 was considered relatively adequate for eventual conception judged by the 68 of 308 (22.1%) pregnancies that occurred among oligozoospermic men in this study, provided that the other five semen parameters showed values above the minimum value. In cases where the average sperm count was <2 million ml,1, the chances for conception became rare, viz five of 308 (1.6%). The total number of pregnancies in the group classified as oligozoospermic was 73 (23.7%). With these pregnancies there was no increase in the rate of foetal wastage and congenital abnormalities. Abortion occurred in 15.09% and ectopic pregnancy in 0.9% among first and consecutive pregnancies. One infant among the 56% boys and 44% girls was born with congenital abnormalities. Most of these infants had a normal birth mass of >2500 g. [source]

The presence of germ cells in the semen of azoospermic, cryptozoospermic and severe oligozoospermic patients: stringent flow cytometric analysis and correlations with hormonal status

CLINICAL ENDOCRINOLOGY, Issue 5 2007
C. H. Yeung
Summary Objective, To understand the clinical significance of immature germ cells commonly found in ejaculates with low sperm counts by a novel and stringent flow cytometric quantitative method. Patients/measurements, A total of 65 azoospermic, 38 cryptozoospermic and 42 severe oligozoospermic patients underwent routine hormone and semen analysis. Cells from each ejaculate were stained for DNA and mitochondria and analysed as spermatozoa (HC), round spermatids (1N), primary spermatocytes (4N) or diploid cells (2N). Results, About 90% of HC particles were eliminated as contaminants of the spermatozoa population by the analysis of their laser light scatter pattern and mitochondria staining intensity. Ploidy identification accuracy was improved by selection of singlets and elimination of cell aggregates for analysis. Distribution peaks for HC, 1N and 4N cells were displayed in 53%, 56% and 25% ejaculates, respectively, with prevalence in severe oligozoospermia > cryptozoospermia > azoospermia. 1N cell numbers were correlated with 4N and HC cells. For HC and 1N cells, the number/ejaculate and the incidence of distribution peaks were correlated with serum testosterone levels, and inversely with FSH for HC, 1N and 4N cells, suggesting that the abnormal shedding of 1N and 4N germ cells is the consequence rather than the cause of spermatogenic failure in these patients. Ploidy data bear no association with clinical diagnosis except for Klinefelter patients. Conclusion, Whereas incidence of HC cells in azoospermic ejaculates may suggest minimal spermatogenic activity which evades detection by routine semen analysis, the presence of 1N and 4N cells in semen of patients provides noninvasive information about their spermatogenic status. [source]