Chromosome analysis of spermatozoa extracted from testes of men with non-obstructive azoospermia

Infertile men with azoospermia now have the possibility of fathering children by testicular sperm extraction combined with intracytoplasmic sperm injection. However, there are concerns about the risk of chromosomal abnormalities in their spermatozoa. We have studied aneuploidy frequencies for chromosomes 13, 21, X and Y by multicolour fluorescence in-situ hybridization (FISH) in testicular spermatozoa extracted from three men with non-obstructive azoospermia. The men were 34-37 years of age and had normal follicle-stimulating hormone (FSH) concentrations and normal 46,XY somatic karyotypes. A total of 3324 spermatozoa was analysed. The infertile patients had an elevated frequency of disomy for chromosomes 13, 21, XY disomy compared to controls but none of these reached statistical significance. Also there was no significant difference in the sex ratio or the frequency of diploidy in azoospermic patients compared to normal control donors. This first report on chromosomal aneuploidy in spermatozoa extracted from testes of patients with non-obstructive azoospermia suggests that some azoospermic men do not have a substantially increased risk of chromosomally abnormal spermatozoa.     

Fluorescence in-situ hybridization of sex chromosomes in spermatozoa and spare preimplantation embryos of a Klinefelter 46,XY/47,XXY male

It has been suggested recently that 47,XXY germ cells are able to progress through meiosis to produce hyperhaploid spermatozoa. We report on a 46,XY/47,XXY Klinefelter patient whose spermatozoa were recovered from the ejaculate and used for intracytoplasmic sperm injection (ICSI). Fluorescence in-situ hybridization (FISH) analysis of the patient's spermatozoa and of spare preimplantation embryos with DNA probes specific for chromosomes X, Y and 18 revealed sex chromosome hyperploidy in 3.9% of the sperm nuclei analysed (2.23% XY18, 1.12% XX18, 0.56% YY18), while only three out of 10 spare embryos analysed were normal for chromosomes tested. The abnormalities included two diploid mosaic embryos with the majority of the blastomeres normal for the chromosomes tested, and five embryos with mostly abnormal blastomeres and chaotic chromosome X, Y and 18 patterns. None of the embryos analysed showed a XXY1818 or XXX1818 chromosome complement. The frequency of sex chromosome hyperploidy in the spermatozoa of the mosaic Klinefelter patient was higher than the mean reported for karyotypically normal males, supporting the hypothesis that 47,XXY germ cells are able to complete meiosis and produce aneuploid spermatozoa. However, most of the spermatozoa analysed were normal for sex chromosomes, and ICSI of the patient's spermatozoa did not result in a spare embryo with a uniform 47,XXY or 47,XXX chromosome complement. Instead, fertilization produced a high percentage of mosaic embryos with chaotic chromosome arrangements.     

Aneuploidy rate in spermatozoa of selected men with abnormal semen parameters

A large proportion of patients with oligoasthenoteratozoospermia (OAT) have an abnormal karyotype and hence they produce aneuploid gametes. However, a normal karyotype does not exclude the chance of having germ cell aneuploidy, since an altered intra-testicular environment not only damages spermatogenesis, but may also disrupt the mechanisms controlling chromosomal segregation during meiosis. Therefore, this study was undertaken to evaluate the rate of aneuploidy in the spermatozoa of selected patients with abnormal sperm parameters. For this purpose, sperm aneuploidy rate for chromosomes 8, 12, 18, X and Y was evaluated by multicolour fluorescence in-situ hybridization (FISH) in nine patients with teratozoospermia alone and 19 OAT patients of presumably testicular origin. Thirteen normozoospermic healthy men served as controls. Patients with teratozoospermia or OAT had significantly greater disomy and diploidy rates compared with controls, whereas the rate of nullisomy was similar. XY disomy was very low in all groups, suggesting that chromosomal non-disjunction occurs mainly during the second meiotic division. Autosome 12 disomy rate was low in both patients and controls. There was a marked variability of total sperm aneuploidy rate in both groups of patients. Sperm aneuploidy rate was negatively correlated with sperm concentration and particularly with the percentage of normal forms. In conclusion, patients with teratozoospermia or OAT have an increased rate of sperm aneuploidy. This increase is similar in both groups, suggesting that teratozoospermia may be the critical sperm parameter associated with aneuploidy.     

Round spermatids from infertile men exhibit decreased protamine-1 and -2 mRNA

During spermiogenesis, histone-to-protamine exchange causes chromatin condensation. Spermatozoa from infertile men are known to exhibit an increased protamine-1 (PRM1) to protamine-2 (PRM2) protein ratio. Since patients undergoing testicular sperm extraction (TESE) followed by intracytoplasmic sperm injection (ICSI) reveal low fertilization rates, whether the outcome of ICSI could be related to the percentage of round spermatids expressing PRM1-mRNA and PRM2-mRNA was investigated. Applying in-situ hybridization, 55 testicular biopsies from men undergoing TESE/ICSI were investigated. The percentage of PRM1-mRNA and PRM2-mRNA positive spermatids was significantly (P < 0.0001) decreased in men with at least qualitatively normal spermatogenesis (PRM1-mRNA: 58.4 +/- 13.8%; PRM2-mRNA: 56.4 +/- 11.3%) and impaired spermatogenesis (PRM1-mRNA: 32.6 +/- 10.8%; PRM2-mRNA: 31.7 +/- 11.1%) compared with men with obstructive azoospermia and quantitatively normal spermatogenesis (PRM1-mRNA: 79.9 +/- 4.6%; PRM2-mRNA: 78.1 +/- 5.7%). A positive correlation (r(PRM1) = 0.733; r(PRM2) = 0.784; P < 0.001) was demonstrated between the score and the percentage of PRM1-mRNA and PRM2-mRNA positive spermatids. While successful fertilization was neither related to the score, nor to the percentage of PRM1-mRNA and PRM2-mRNA positive spermatids, a significant (P < 0.05) relationship was demonstrated between successful fertilization and the PRM1-mRNA to PRM2-mRNA ratio. Therefore, the PRM1-mRNA to PRM2-mRNA ratio in round spermatids may serve as a possible predictive factor for the outcome of ICSI.     

Correlation between semen parameters and sperm aneuploidy rates investigated by fluorescence in-situ hybridization in infertile men

Spermatozoa from 32 infertile patients and 13 controls with normal semen parameters were analysed using dual and triple colour fluorescence in-situ hybridization (FISH) techniques, in order to investigate the rates of aneuploidy for chromosomes 13, 18, 21, X and Y. The patients were divided into three groups according to their karyotypes or the karyotypes of their offspring: 15 were infertile men with abnormal semen parameters and normal karyotypes (group 1), 13 were infertile men with abnormal karyotypes and normal or abnormal semen (group 2) and four were infertile men with abnormal semen and normal karyotypes but whose wives conceived a child (or a fetus) with a numerical chromosomal abnormality through an intracytoplasmic sperm injection cycle (group 3). Patients with abnormal semen parameters showed a significantly higher aneuploidy rate for the investigated chromosomes in their spermatozoa compared to controls (P < 0.005). Our data suggest the presence of a correlation between poor semen parameters and an increase in aneuploidy rate of chromosomes 13, 18, 21, X and Y in spermatozoa (r = -0.81071, P < 0.002); therefore the risk of a chromosomal aneuploidy in spermatozoa seems to be inversely correlated to sperm concentration and total progressive motility. Patients with abnormal karyotypes showed a higher incidence of diploidy and chromosomal aneuploidies compared to controls (P < 0.002). This strongly suggests the presence of an interchromosomal effect of the cytogenetic rearrangement. Men who fathered a child with an abnormal karyotype through intracytoplasmic sperm injection did not present a higher aneuploidy rate for the investigated chromosomes in spermatozoa compared to patients with infertility due to a similar male factor but showed higher incidence of chromosomal aneuploidy compared to normal controls.     

The role of sperm aneuploidy as a predictor of the success of intracytoplasmic sperm injection?

BACKGROUND: We present the first powered prospective study to assess whether sperm aneuploidy can predict the outcome of ICSI. METHODS: Our null hypothesis was that aneuploidy rates (AR) are identical in men who achieve successful (Group A) and unsuccessful (Group B) ICSI outcome. A power calculation yielded a sample number of 56 to achieve 80% power to reject our hypothesis at the 5% significance level. Samples for testing were obtained on the day of embryo transfer and tests were performed on raw pre-preparation samples. Sperm AR of chromosomes 13, 18, 21, X/Y were assessed using fluorescence in-situ hybridization (FISH) techniques (mean of 1223 sperm). RESULTS: There was no significant difference in any patient, seminal, cycle or laboratory characteristic between groups that may have affected outcome. Total AR (2.37 versus 1.18%, P = 0.01), as well as AR of chromosomes 18, X/Y and 18 + X/Y (1.48 versus 0.67%, P = 0.005) were significantly higher in Group B compared with Group A. Regression analysis confirmed these differences to be independent of other variables and showed a 2.6-fold change in odds of achieving a pregnancy for every 1% change in total AR. CONCLUSIONS: Our findings confirm a potential role for aneuploidy testing in the work-up of ICSI patients as a predictor of success, as well as in future genetic counselling. If confirmed, there may also be a place for a study of preimplantation genetic screening to improve ICSI success in men found to have high AR and ICSI failure.     

Ultrastructural nuclear defects and increased chromosome aneuploidies in spermatozoa with elongated heads

BACKGROUND: Cellular and molecular mechanisms leading to elongated sperm heads are not known. We have analysed the nuclear status of spermatozoa with elongated heads. METHODS: Fourteen men with at least 30% of spermatozoa with an elongated nucleus were studied and compared with five fertile men as controls. Sperm morphology was analysed by a quantitative ultrastructural analysis. Sperm chromosomal content was assessed by three-colour fluorescence in-situ hybridization (chromosomes X, Y, 18). Y chromosome microdeletion and karyotype were analysed. RESULTS: Elongated sperm head rates of the patients were 46.9% (30-75 versus 0-2% in the control group) by light microscopy and 34.4% by electron microscopy. In all patients, the chromatin was poorly condensed in elongated sperm heads (50% of elongated nuclei). No anomalies of sperm biochemical markers were found. All the men showed normal karyotype (46,XY) and absence of Y chromosome microdeletion. Aneuploidy rates of gonosomes and chromosome 18 were significantly increased in patients (1.64- and 3.6-fold, P = 0.006 and 0.026, respectively). CONCLUSIONS: This study demonstrates that impaired chromatin compaction and slightly increased chromosome aneuploidies are found in spermatozoa with an elongated head, suggesting possible mechanisms such as meiotic non-disjunctions or spermiogenesis anomalies.     

Pregnancies after intracytoplasmic sperm injection with cryopreserved testicular spermatozoa

In 25 patients (14 suffering from obstructive azoospermia, sixfrom non-obstructive azoospermia, three from astheno-azoospermiaand two from absence of ejaculation) spermatozoa were extractedfrom testicular biopsies. Intracytoplasmic sperm injection (ICSI)with fresh testicular spermatozoa was performed in 18 cases;spermatozoa in excess were cryopreserved in pills. No pregnancieswere achieved. In the remaining seven patients, testicular spermatozoawere retrieved and cryopreserved during a diagnostic testicularbiopsy. After thawing, sperm motility was assessed in 17 cases(68%), and 18 ICSI with cryopreserved testicular spermatozoawere performed. The mean two-pronuclear (2PN) fertilizationrate was 59%, the mean cleavage rate was 92%, and six clinicalpregnancies were achieved, all of them still ongoing (pregnancyrate 33%). A comparison of the results of ICSI carried out withfresh or cryopreserved testicular spermatozoa showed that themean 2PN fertilization rates per cycle (53 compared with 55%),mean cleavage rates per cycle (99 compared with 96%) and embryoquality were not significantly different In conclusion, cryopreservationof testicular spermatozoa is feasible, even in patients withnon-obstructive azoospermia, and the results of ICSI with frozen-thawedtesticular spermatozoa are similar to those obtained using freshtesticular spermatozoa. Cryopreservation of testicular spermatozoamay avoid repetition of testicular biopsies to retrieve spermatozoafor successive ICSI cycles in patients in whom the only sourceof motile spermatozoa is the testicle.     

Chromosomal factors of infertility in candidate couples for ICSI: an equal risk of constitutional aberrations in women and men

To assess the frequency of chromosomal aberrations in French candidates for intracytoplasmic sperm injection (ICSI), and to explore the existence of a female chromosomal factor in some cases of couple infertility, a collaborative retrospective clinical and cytogenetic study was performed, launched by the Association des Cytogénéticiens de Langue Franciaise (ACLF). The karyotypes of 3208 patients [2196 men (68.4%), 1012 (31.6%) women] included in ICSI programmes over a 3-year period in France were collected. A total of 183 aberrant karyotypes was diagnosed, corresponding to an abnormality frequency of 6.1% (134/2196) for men and 4.84% (49/1012) for women. The following frequencies of abnormalities were observed respectively for men and women: 1.23% (n = 27) and 0.69% (n = 7) for reciprocal translocations, 0.82% (n = 18) and 0.69% (n = 7) for Robertsonian translocations, 0.13% (n = 3) and 0.69% (n = 7) for inversions, 3.32% (n = 73) and 2.77% (n = 28) for numerical sex chromosome aberrations, and 0.59% (n = 13) and 0% for other structural aberrations. Among the male patients of this latter group, 0.40% (n = 9) had a Y chromosome abnormality. Among the male patients with numerical sex chromosome abnormalities, 2.23% (n = 49) were 47,XXY, 0.32% (n = 7) were 47,XYY, and 0.77% (n = 17) had a mosaicism for numerical sex chromosome anomalies. All the female patients with sex chromosome abnormalities (2.77%, n = 28) had mosaicism for numerical sex chromosome anomalies. Even if these cases-the significance of which was sometimes questioned-were disregarded in the analysis, 2.08% (21/1012) of abnormal karyotypes remained in women. An overall increased frequency of chromosomal aberrations was found, and this confirmed that in some cases of poor reproductive outcome there may be a contribution of maternal chromosome aberrations. Indeed, the existence of a chromosome abnormality in the female partner was associated with the group of infertile men in which there was no apparent cause of infertility.     

Andrology: Natural spermatoceles in irreversible obstructive azoospermia--reservoirs of viable spermatozoa for assisted conception

Fine needle aspiration of asymptomatic spermatoceles detectedin five men with obstructive azoospermia was evaluated as aminimally invasive method of sperm retrieval for assisted conception.Sperm preparations adequate for in-vitro fertilization wereinitially obtained from three men, but there was failure offertilization in all three cycles. However, intracytoplasmicsperm injection (ICSI) in three couples resulted in fertilizationof 58% of metaphase II oocytes, with embryo transfers in fiveof six cycles. A successful pregnancy and delivery resultedfrom spermato zoa from a man with an irreversible vasectomy,for whom previous epididymal microaspiration and ICSI had beenunsuccessful. Spermatoceles were found in 4% of men with irreversibleobstructive azoospermia referred for assisted conception. Thesepatients should therefore be examined very carefully for smallcysts near the epididymis, because fine needle aspiration, usuallywithout anaesthesia, can instantly locate a ready source ofviable spermatozoa for LCSI This is less invasive than the alternativesperm retrieval procedures, which are more traumatic and requirelocal or general anaesthesia.     

In-vitro fertilization treatment for severe male factor: the fertilization potential of immotile spermatozoa obtained by testicular extraction

A retrospective analysis in 50 couples of 53 cycles of intracytoplasmic sperm injection (ICSI) with immotile spermatozoa from testicular-retrieved spermatozoa was performed to evaluate whether total immotile spermatozoa achieved after testicular sperm extraction could fertilize ova and result in pregnancies. We assessed the efficacy of ICSI with totally immotile testicular spermatozoa extracted from the testes of azoospermic patients with severe spermatogenic failure (group 1) and compared these results with those from spermatozoa which were recovered after several hours of incubation and were motile (group 2) at the time of injection. In 19 cycles, only totally immotile spermatozoa were injected at the time of ICSI. For the remaining 34 cycles, at least one motile spermatozoon was found for injection. The oocyte fertilization rates were 51% for group 1 and 62% for group 2 (P < 0.02). Eighteen of 19 cycles in group 1 (90%) and all 34 (100%) cycles in group 2 had embryos for replacement. The mean number of embryos per cycle was 5.2 +/- 0.8 and 7.5 +/- 0.9 in groups 1 and 2 respectively; this and the embryo quality (cumulative embryo scoring = 40 +/- 8 for group 1 and 50 +/- 7 for group 2), and clinical pregnancy rates (15.8% per oocyte retrieval in group 1 and 23.5% in group 2) were not significantly different between groups. Fertilization, cleavage and pregnancy can be achieved with intracytoplasmic testicular sperm injection from patients with immotile spermatozoa, at levels comparable with those of ICSI using motile spermatozoa.     

Andrology: Successful treatment of severe male factor infertility in 100 consecutive cycles using intracytoplasmic sperm injection

In this report, we present the results of our first 100 consecutivecycles of intracytoplasmic sperm injection (ICSI). Overall,fertilization occurred in 98% of cycles and embryos were transferredin 94% (2.6 embryos per cycle). About 50% of patients had embryosfrozen. The overall fertilization rate was 71%, of which 4%were abnormally fertilized (three pronuclei). A total of 30clinical pregnancies were established (32% per transfer), resultingin 18 singleton, six twin and one triplet ongoing pregnancies.The implantation rate per embryo was 15%. There were no significantdifferences in the fertilization or pregnancy rates betweenpatients Who had only occasional motile spermatozoa in the ejaculate,semen that was too poor for routine in-vitro fertilization (IVF),or who had failed routine IVF and/or subzonal sperm injection(SUZI). A group of 18 patients were treated with both ICSI androutine IVF on their first cycle because of the high likelihoodof failed fertilization due to poor sperm morphology (<20%normal). In this group, ICSI oocytes had a fertilization rateof 76% compared to only 15% for the routine IVF (control) oocytes,and six patients conceived after transfer of ICSI embryos (33%),indicating that ICSI can be used successfully on 50% of theoocytes if fertilization failure is expected. Similarly, patientswho had failed to become pregnant with SUZI achieved excellentresults after ICSI. There were no significant differences betweenICSI and routine IVF in the proportions of grade 1, 2 or 3 embryoson day 3 post-oocyte recovery. In conclusion, we have achievedresults comparable to those reported from Belgium and we havefound that ICSI is universally applicable to all forms of severemale factor infertility. ICSI produces fertilization, pregnancyand freezing rates comparable to routine IVF with normozoospermicsamples and has none of the drawbacks of other assisted fertilizationtechniques.     

Frequency of hyper-, hypohaploidy and diploidy in ejaculate, epididymal and testicular germ cells of infertile patients

The hypothesis that sperm aneuploidy and diploidy increase as a function of spermatogenesis impairment was addressed. Ejaculated semen samples from a series of men (n = 22) with very low total normal motile count (1 x 10(6)) was analysed in terms of sperm aneuploidy and diploidy by in-situ hybridization and compared with controls (n = 10). Germ cell aneuploidy was also analysed in an additional series of infertile patients presenting unexplained infertility (n = 3), congenital absence of the vas deferens (CAVD) (n = 6) and non-obstructive azoospermia (n = 3) undergoing IVF, microsurgical epididymal sperm aspiration (MESA)/ICSI and testicular sperm extraction (TESE)/ICSI cycles respectively. In-situ hybridization for chromosomes 1, 17, X and Y was performed on ejaculate, epididymal and testicular spermatozoa. Significantly higher sperm aneuploidy and diploidy rates where found (for the four chromosomes analysed) in spermatozoa from oligoasthenoteratozoospermia (OAT) over controls (18 versus 2.28% and 2.8 versus 0.13% respectively; P < 0.001). Testicular germ cells had even higher rates of sperm aneuploidy and diploidy. However, in this group it was difficult to determine whether the cells analysed were dysmorphic spermatozoa or spermatids. The data warrant further investigation on the cytogenetic abnormalities found in most germ cells identified in testicular tissue biopsies of azoospermic patients.     

Non-reproductive heritable disorders in infertile couples and their first degree relatives

The genetic safety of intracytoplasmic sperm injection (ICSI) remains a matter of continuing debate. One source of concern is the limited knowledge about the general genetic constitution and background of patients who need sophisticated reproductive technology to procreate. It has been postulated that such individuals could be carriers of genetic lesions that might result in an increased prevalence of heritable disorders among their offspring. To investigate this issue, we determined the frequency of potentially heritable non-reproductive diseases in 621 infertile couples and their first degree relatives. A total of 1302 fertile couples who underwent genetic counselling prior to prenatal diagnosis served as controls. The infertile patients had a slightly higher prevalence of potentially heritable non-reproductive disorders ('significant genetic risk factors') than the controls (1. 9 versus 0.9%; P = 0.015). In contrast, such diseases were less prevalent in their families than in the fertile couples' families. Our data do not support the hypothesis that their familial genetic background predisposes children born after ICSI to malformations or other non-reproductive genetic diseases.     

Incidence of aneuploid spermatozoa among infertile men studied by multicolor fluorescence in situ hybridization

We studied by fluorescence in situ hybridization the frequency of aneuploidy in spermatozoa of 12 infertile men: 8 with normal or nearly normal semen analysis values and 4 with oligo-astheno-teratozoospermia. The control group consisted of 18 normal healthy fertile men. Probes for chromosome 1 and 7 were used and 10,000 spermatozoa per individual were scored. The hybridization efficiency was good (higher than 98%). In the group with nearly normal semen analysis values the frequencies of spermatozoa disomic for chromosome 1 or chromosome 7 were 0.08% and 0.07%, respectively, and not elevated compared to controls (0.10% and 0.06%, respectively). The frequency of diploid spermatozoa was 0.17%, not significantly different from the control group (0.15%) either. In the group of oligo-astheno-teratozoospermic men both the frequencies of disomic cells for chromosome 1 (0.22%) and for chromosome 7 (0.13%) and of diploid spermatozoa (0.56%) were significantly higher compared to controls, although this was mainly due to one patient with high frequencies of hyperploid sperm. The results indicate that infertility may be a risk factor for chromosomal aneuploidy in spermatozoa. Am. J. Med. Genet. 71:115–121, 1997. © 1997 Wiley-Liss, Inc.     

10, 15 reciprocal translocation in an infertile man: ultrastructural and fluorescence in-situ hybridization sperm study: case report

BACKGROUND: Peculiar sperm defects are described in a sterile man heterozygous for a balanced translocation t(10;15) (q26;q12). As this structural reorganization was absent in the parents, the translocation must have appeared de novo in the present patient. METHODS: Spermatozoa were analysed under light and transmission electron microscopy (TEM). Fluorescence in-situ hybridization (FISH) was performed on the lymphocyte karyotype. Aneuploidy frequencies of chromosomes 18, X and Y in sperm nuclei, not involved in the translocation, were investigated using three-colour FISH. Dual- colour FISH was used to evaluate segregation of chromosomes 10, 15 in decondensed sperm nuclei. Moreover, three-colour FISH, using telomeric probes for chromosomes 10, 15 was performed in order to distinguish balanced and unbalanced gametes. RESULTS AND CONCLUSIONS: Overall, structural characteristics indicate general immaturity of the germinal cells. FISH sperm analysis detected an increase in chromosome 18 disomy (0.81%) suggesting an interchromosomal effect. A high frequency of diploidies, particularly 18,18,X,X and 18,18,X,Y, was also found. FISH segregation analysis for chromosomes 10, 15 indicated that 32.8% were balanced gametes, whereas 68.2% were unbalanced. Taken together, these data demonstrate in a male carrier of a reciprocal translocation t(10;15) the presence of diffuse ultrastructural sperm alterations and a high frequency of sperm aneuploidies. The existence of a correlation among these factors is proposed.     

Mosaic status in lymphocytes of infertile men with or without Klinefelter syndrome

BACKGROUND: Gonosomal aneuploidies such as Klinefelter syndrome (47,XXY) are the most frequent chromosomal aberration in infertile men. Normally the chromosomal status of patients is detected by karyotyping of up to 20 metaphase spreads of lymphocyte nuclei, whereby low grade mosaicism may be overlooked. To test whether Klinefelter patients with 47,XXY karyotype or infertile men with 46,XY karyotype represent gonosomal mosaicisms, we performed meta- and interphase fluorescence in situ hybridization (FISH) on 45 men. METHODS AND RESULTS: A total of 400 interphase and 40 metaphase lymphocyte nuclei per patient were scored after hybridization with DNA probes specific for chromosomes X and Y, and chromosome 9 as a control. On the basis of conventional karyotype, hormone levels and clinical appearance, patients were subdivided into 18 Klinefelter syndrome patients with 47,XXY (group I), 11 Klinefelter syndrome-like patients with normal karyotype, 46,XY (group II) and six non-Klinefelter-like infertile patients with normal 46,XY karyotype (group III). Ten normal men (group IV) served as controls. Testicular volume in the Klinefelter group I was smaller compared with group II (P = 0.016), group III (P < 0.001) and group IV (P < 0.001). In addition, testicular volumes in group II were lower compared with group III and group IV (P < 0.004). No significant differences between the aneuploidy rate analysed by FISH in interphase nuclei and metaphases were found in either single patients or groups. Patients with Klinefelter syndrome, 47,XXY (group I) or with symptoms similar to those in Klinefelter patients 46,XY (group II) showed a similar aneuploidy rate (group I 7.1 +/- 4.0% and group II 4.6 +/- 3.4%) and two 47,XXY patients with a high prevalence for normal 46,XY lymphocytes had sperm in their ejaculate. However, in general, no correlations between FISH mosaic status and serum hormone parameters, nor with ejaculate parameters were found. CONCLUSIONS: The results suggest that 47,XXY patients with an increased incidence of XY cells (average of 4.2 +/- 2.3) may have a higher probability of germ cells as we found sperm only in the ejaculate of Klinefelter syndrome patients with mosaic 46,XY cells (6.0 and 7.0%). On the other hand, 46,XY patients with mosaic sex chromosome aneuploidies detected by FISH analysis more often show symptoms of hypogonadism phenotypically resembling Klinefelter syndrome.     

Andrology: Intracytoplasmic sperm injection (ICSI) for severe semen abnormalities: dissecting the tail of spermatozoa at the tip

Recently, several investigators have emphasized that damagingthe membrane of spermatozoa by compressing the mid-piece orcutting the mid-portion of the tail prior to injection yieldsbetter results than using motile spermatozoa in intracytoplasmicsperm injection (ICSI). Here we report our experience usinga modified immobilization technique of dissecting the tail ofthe spermatozoon at the tip in 78 cycles on 60 patients. In55 treatment cycles purely using this modified technique, 468mature oocytes were injected. A total of 35 oocytes (7.5%) wereinjured. Of the intact oocytes, 282 (65.1%) were normally fertilizedand 266 (94.3%) subsequently cleaved. A single pronucleus wasobserved in 16 (3.7%) oocytes, and three pronuclei were notedin 11 (2.5%) oocytes. Embryo transfers were performed in 54cycles, and 18 women (32.7%) achieved clinical pregnancies.In 23 cycles, we compared the effects of these three immobilizationtechniques on the sibling oocytes obtained from the same patientregarding normal fertilization, abnormal fertilization, andembryo cleavage and quality. The results were comparable amongthem. Seven pregnancies (30.4%) were achieved in this series.Dissecting a sperm tail at the tip is easily and quickly performedand achieves permanent immobilization. Compression of the mid-pieceis also easy, but usually takes several actions to achieve immobilization.Cutting the tail at the mid-portion requires more skill. Therefore,dissecting the tail of the spermatozoon at the tip may providean alternative method to immobilize the spermatozoon permanentlyprior to ICSI.     

Chromosome analysis of epididymal and testicular sperm in azoospermic patients undergoing ICSI

BACKGROUND: Although ICSI provides a way of treating azoospermic men, concern has been raised about the potential risk for transmission of genetic abnormalities to the offspring. We quantified the incidence of chromosomal abnormalities in epididymal and testicular sperm retrieved from azoospermic patients undergoing ICSI. METHODS: Individual testicular sperm were collected from testicular biopsies with an ICSI pipette, and epididymal sperm were retrieved by microsurgical epididymal sperm aspiration. Samples were processed by fluorescent in-situ hybridization (FISH) for chromosomes 18, 21, X and Y and the results compared with those from normal ejaculated samples. RESULTS: The overall aneuploidy rate of 11.4% in men with non-obstructive azoospermia was significantly higher (P = 0.0001) than the 1.8% detected in epididymal sperm from men with obstructive azoospermia and also the 1.5% found in ejaculated sperm. No significant difference was found between the epididymal and ejaculated samples. When the chromosomal abnormalities were analysed, gonosomal disomy was the most recurrent abnormality in both obstructive and non-obstructive azoospermic patients, while autosomal disomy was the most frequent in ejaculated sperm. CONCLUSIONS: Sperm of non-obstructive azoospermic men had a higher incidence of chromosomal abnormalities, of which sex chromosome aneuploidy was the most predominant. Genetic counselling should be offered to all couples considering infertility treatment by ICSI with testicular sperm.     

Sperm aneuploidy in fathers of children with paternally and maternally inherited Klinefelter syndrome

BACKGROUND: It is unclear whether frequency of sperm aneuploidy is associated with risk of fathering children with trisomy. METHODS: We recruited 36 families with a boy with Klinefelter syndrome (KS), interviewed the fathers about their exposures and medical history, received a semen sample from each father, and collected blood samples from the mother, father and child. We applied a multicolour fluorescent in-situ hybridization assay to compare the frequencies of sperm carrying XY aneuploidy and disomies X, Y and 21 in fathers of maternally and paternally inherited KS cases. RESULTS: Inheritance of the extra X chromosome was paternal in 10 and maternal in 26 families. Fathers of paternal KS cases produced higher frequencies of XY sperm (P = 0.02) than fathers of maternal KS cases. After controlling for age, the major confounding variable, the difference between the two groups was no longer significant (P less-than-or-equal 0.2). Also, there were no significant differences between the parental origin groups for disomy X, Y or 21. CONCLUSIONS: Men who fathered a child with a Klinefelter syndrome produced higher frequencies of XY sperm aneuploidy, which is explained, in part, by both paternal age and parent of origin.