How successful is repeat testicular sperm extraction in patients with azoospermia?

BACKGROUND: Little is known about the extraction rate in repeated sperm retrieval procedures in azoospermic patients. This study aimed to assess the feasibility of repeated sperm recovery in these patients. METHODS: A total of 1066 azoospermic men had their first sperm recovery between 1 January 1995 and 31 December 2003. A total of 381 men had obstructive azoospermia (OA), 628 nonobstructive azoospermia (NOA) and 57 showed hypospermatogenesis. RESULTS: Overall, sperm could be retrieved in all procedures in the 598 cycles performed in OA men (100%). A total of 117, 57, 24, 11, 7 and 1 men underwent, respectively, two, three, four, five, six and seven sperm retrievals; all were successful. Of the 784 procedures performed on the 628 men with NOA, sperm could be retrieved in 384 procedures (49%). During the first testicular sperm extraction (TESE) procedure, sperm could be extracted in 261 men with NOA (41.6%). A total of 103 men had a second attempt, 34 had a third attempt, 11 had a fourth attempt, 6 had a fifth attempt and 2 had a sixth attempt. In these cycles, sperm could be extracted in, respectively, 77 (74.7%), 28 (82.3%), 11 (100%), 5 (83.3%) and 2 (100%) men. CONCLUSION: Repeated TESE ensures a high sperm recovery rate even in patients with NOA. In NOA patients, studies reporting on TESE may therefore overestimate the retrieval rate by reallocating successful patients. These data also show that when no spermatozoa can be obtained after thawing cryopreserved testicular sperm for ICSI in NOA patients, a repeat TESE procedure can be planned.     

Detection of sperm in men with Y chromosome microdeletions of the AZFa,AZFb and AZFc regions

BACKGROUND: Y chromosome microdeletions are associated with severe male factor infertility. In this study, the success rate of testicular sperm retrieval was determined for men with deletions of AZF regions a, b or c. METHODS: AZF deletions were detected by PCR of 30 sequence-tagged sites within Yq emphasizing the AZFa, b and c regions. Semen analysis and diagnostic testis biopsy or testicular sperm extraction (TESE) findings were correlated with the specific AZF region deleted. RESULTS: A total of 78 men with AZF deletions included three with AZFa deletion, 11 with AZFb, 42 with AZFc, 16 with AZFb+c and six with Yq (AZFa+b+c). All men with AZFa, AZFb, AZFb+c and Yq deletions were azoospermic and no sperm were found with TESE or biopsy. Of men with isolated AZFc deletion, sperm were found in 75% (9/12) by TESE and 45% (9/20) on biopsy (56% overall); 62% (26/42) were azoospermic and 38% (16/42) severely oligozoospermic. A total of 7 patients with deletion patterns that included the complete AZFa region and 23 that included the complete AZFb region who underwent TESE or biopsy did not have sperm detected by these surgical measures. CONCLUSIONS: Microdeletion of the entire AZFa or AZFb regions of the Y chromosome portends an exceptionally poor prognosis for sperm retrieval, whereas the majority of men with AZFc deletion have sperm within the semen or testes available for use in IVF/ICSI.     

Testicular sperm extraction in azoospermic men submitted to bilateral orchidopexy

BACKGROUND: This study was carried out to evaluate whether bilateral orchidopexy represents a poor or good prognostic factor in azoospermic men undergoing testicular sperm extraction (TESE). METHODS: One hundred and seven presumed non-obstructive azoospermia (NOA) patients, according to conventional clinical parameters (volume of testis, FSH, clinical history) were submitted to testicular biopsy with TESE. Thirty men (28%) had a history of bilateral orchidopexy for cryptorchidism. RESULTS: Normal spermatogenesis or mild hypospermatogenesis was diagnosed in 12/30 ex-cryptorchid patients and in 7/77 presumed NOA patients (P = 0.0004). Conversely, pure Sertoli cell-only syndrome or complete maturation arrest was found in 10/30 ex-cryptorchid patients and in 48/77 presumed NOA patients (P = 0.0094). In 53/107 patients (49.5%), TESE allowed a positive sperm retrieval. At least one spermatozoon was observed in 22/30 ( approximately 73%) ex-cryptorchid patients and in 31/77 ( approximately 40%) presumed NOA patients (P = 0.0026). A large number of spermatozoa (equivalent to an obstructive pathology) were retrieved in 13/30 ex-cryptorchid and in 10/77 presumed NOA patients (P = 0.001). A history of bilateral orchidopexy in presumed NOA patients correlates positively for the chance of retrieving testicular spermatozoa (odds ratio 3.8; 95% confidence interval 1.41-10.21; P = 0.008). CONCLUSIONS: Although bilateral cryptorchidism is usually considered a testicular secretive dysfunction, TESE permits retrieval of a large number of spermatozoa in almost 40% of cases. Our data suggest the existence of congenital or acquired obstructive anomalies of the seminal ducts in azoospermic orchidopexed men.     

Clinical relevance of Y-linked CNV screening in male infertility: new insights based on the 8-year experience of a diagnostic genetic laboratory

AZF microdeletion screening is routinely performed in the diagnostic work-up for male infertility; however, some issues remain debated. In this study, we provide insights into the sperm concentration cutoff value for routine testing, the predictive value of AZFc deletion for testicular sperm retrieval and the Y-background contribution to the interpopulation variability of deletion frequencies. In the Spanish population, partial AZFc rearrangements have been poorly explored and no data exist on partial duplications. In our study, 27/806 (3.3%) patients carried complete AZF deletions. All were azoo/cryptozoospermic, except for one whose sperm concentration was 2 × 10⁶/ml. In AZFc-deleted men, we observed a lower sperm recovery rate upon conventional TESE (9.1%) compared with the literature (60–80% with microTESE). Haplogroup E was the most represented among non-Spanish and hgr P among Spanish AZF deletion carriers. The analysis of AZFc partial rearrangements included 330 idiopathic infertile patients and 385 controls of Spanish origin. Gr/gr deletion, but not AZFc partial duplications, was significantly associated with spermatogenic impairment. Our data integrated with the literature suggest that: (1) routine AZF microdeletion testing could eventually include only men with ≤2 × 10⁶/ml; (2) classical TESE is associated with low sperm recovery rate in azoospermic AZFc-deleted men, and therefore microTESE should be preferred; (3) Y background could partially explain the differences in deletion frequencies among populations. Finally, our data on gr/gr deletion further support the inclusion of this genetic test in the work-up of infertile men, whereas partial AZFc duplications do not represent a risk for spermatogenic failure in the Spanish population.     

The incidence and possible relevance of Y-linked microdeletions in babies born after intracytoplasmic sperm injection and their infertile fathers

Microdeletions linked to deletion intervals 5 and 6 of the Ychromosome have been associated with male factor infertility.Members from at least two gene families lie in the region containingazoospermia factor (AZF), namely YRRM and DAZ. With the adventof intracytoplasmic sperm injection (ICSI), it is possible formen with severe male factor infertility to produce a child.The genetic consequences of such a procedure have been questioned.This report describes the first study of a population (32 couples)of infertile fathers and their sons born after ICSI. The objectiveswere firstly to determine the incidence and map location ofY chromosome microdeletions and to compare the frequencies withother population studies involving severe male factor infertility,and secondly to formulate a working hypothesis concerning developmentalaetiology of Y chromosome microdeletions. The incidence of microdeletionsin the ICSI population was shown to be 9.4% (within the range9–18% reported for populations of severe male factor infertilitypatients). Microdeletions in two out of three affected fatherisonpairs mapped in the region between AZFb and AZFc and the thirdinvolved a large microdeletion in AZFb and AZFc. Of three affectedfather/son pairs, microdeletions were detected in the bloodof one infertile propositus father and three babies. Assumingthat the gonomes of the ICSI-derived babies are direct reflectionsof those of their fathers' germ lines, it is possible that twoof three infertile fathers were mosaic for intact Y and microdeletedY chromosomes. In such cases, the developmental aetiology ofthe microdeletion may be due to a de-novo microdeletion arisingas a post-zygotic mitotic error in the infertile propositusfather, thus producing a mosaic individual who may or may nottransmit the deletion to his ICSI-derived sons depending onthe extent of primordial germ cell mosaicism. In one of threeaffected fathers, the microdeletion detected in his blood wasalso detected in his ICSI-derived son. In this case the de-novoevent giving rise to the microdeletion may have occurred dueto a post- (or pre-) meiotic error in the germ line of thisfather's normally fertile father (i.e. the ICSI-derived baby'sgrandfather). aetiology/intracytoplasmic sperm injection/Y-chromosome microdeletions     

Conventional multiple or microdissection testicular sperm extraction: a comparative study

BACKGROUND: Testicular sperm extraction (TESE) with ICSI is becoming the first-line treatment for non-obstructive azoospermia (NOA). Recently, the sperm retrieval rate (SRR) by microdissection TESE was reported to be higher than by conventional TESE. However, a comprehensive comparison between multiple and microdissection TESE patients including histological findings has not been reported. METHODS: Patients with NOA who underwent microdissection TESE (n = 56) or multiple TESE (n = 37) were compared. Pre-operative characteristics were similar between groups. In addition, microscopic findings during microdissection TESE also were investigated. RESULTS: Operative time was significantly longer for microdissection TESE than for multiple TESE. Histological examination suggested that spermatogenesis was relatively more impaired in the microdissection TESE group than in the multiple TESE group. Despite this, SRR by microdissection TESE (42.9%) appeared higher than by conventional TESE (35.1%) although this observation failed to reach statistical significance. Seventeen of 26 patients (65.4%) with heterogeneous tubule were successful for sperm retrieval. No severe operative complications occurred in any patient in either group, and no patient required post-operative hormone replacement to treat hypogonadism. CONCLUSIONS: Microsurgical technique is safe and may improve SRR for TESE in a variety of patients with NOA, especially patients with heterogeneous testicular tubules.     

Does intracytoplasmic sperm injection lead to a rise in the frequency of microdeletions in the AZFc region of the Y chromosome in future generations?

Microdeletions in the AZFc region of the Y chromosome are foundin oligo- and azoospermic men. These mutations were geneticallylethal before the intracytoplasmic sperm injection (ICSI) erabut they can nowadays be transmitted to next generations viaICSI. We have tried to answer the question, ‘Does ICSIlead to a significant rise in the frequency of these microdeletionsin future generations?’, by developing a mathematicalmodel for Y-linked mutations with two variables (fitness andmutation frequency). To illustrate this model we have made estimatesaccording to three imaginary scenarios. Using the assumptionsdescribed, the model predicted that the frequency of microdeletionsin the AZFc region would increase in each generation until aplateau was reached. The higher the fitness, the higher theplateau and the later the plateau would be reached. Taking realisticestimates for fitness (0.5) and spontaneous mutation frequency(0.0001), the maximum increase in men with microdeletions wouldbe twofold. This maximum would be already reached after fivegenerations. However, if the fitness of these men were improvedand approached 1.0, the mechanism of selection would disappearand finally all men would have the deletion in the AZFc region.Because of the assumptions in these scenarios, these estimateshave limitations. The model presented shows that the rise inthe frequency of men with microdeletions in the AZFc regionin future generations would be limited as long as the fitnessof these men remained limited.     

The results of 154 ICSI cycles using surgically retrieved sperm from azoospermic men

BACKGROUND: The effects of source of sperm, aetiology and sperm cryopreservation on ICSI cycles in azoospermic men were evaluated. The effect of aetiology of azoospermia on embryo development was also assessed. METHODS: This study was a retrospective analysis of 154 cycles (91 couples) using surgically retrieved sperm. Outcome measures were fertilization rate (FR), implantation rate (IR), and clinical pregnancy rate (CPR) and livebirth rate (LBR) per transfer. RESULTS: Our data demonstrated similar outcome between the use of epididymal or testicular sperm in men with obstructive azoospermic (OA). FR and IR were significantly lower (P < 0.05) using sperm from men with non-obstructive azoospermic (NOA), but although pregnancy outcome appeared lower, this did not reach statistical significance (P = 0.08). Cryopreservation of epididiymal sperm did not alter outcome, but the use of frozen-thawed testicular sperm did demonstrate a lower FR, with no statistical difference in IR or pregnancy outcome. Embryos derived from NOA sperm had impaired development beyond day 2 post-oocyte retrieval (OA, 44% <5 cell; NOA, 71% <5 cell; P = 0.002). CONCLUSIONS: The use of sperm from men with NOA significantly affects fertilization and implantation in ICSI cycles. The use of frozen-thawed testicular sperm affects fertilization rate without significantly altering pregnancy outcome. The use of such data on which to base clinical decisions needs to be supported by the meta-analyses of previous reports.     

Prognostic value of Y deletion analysis: what is the clinical prognostic value of Y chromosome microdeletion analysis?

In many centres, Y chromosome deletion analysis is still not performed routinely and if so, the results are used for genetic counselling but are not considered as having a useful prognostic value. The type of deletion (AZFa, b or c) has been proposed as a potential prognostic factor for sperm retrieval in men undergoing TESE. AZFc deletions and partial AZFb deletions are associated with sperm retrieval in approximately 50% of cases while in the case of a patient with complete AZFb deletion the probability of finding mature spermatozoa is virtually nil. Therefore the extent and position of a Y microdeletion is important (complete or partial). The prognostic value of Y chromosome deletion analysis in cases of oligozoospermia is important when one considers the progressive decrease of sperm number over time in men with AZFc deletions. Cryo-conservation of spermatozoa in these cases could avoid invasive techniques, such as TESE/ICSI, in the future. Male offspring that are conceived by ICSI or IVF techniques from father with oligozoospermia or azoospermia would also benefit from knowledge of their Y status, since the identification of the genetic defect will render future medical or surgical therapies unnecessary. Y microdeletion screening is therefore important, not only to define the aetiology of spermatogenic failure, but also because it gives precious information for a more appropriate clinical management of both the infertile male and his future male child.     

Outcome of testicular sperm retrieval procedures in non-obstructive azoospermia: percutaneous aspiration versus open biopsy

The aim of this study was to evaluate whether the extraction of testicular spermatozoa with percutaneous versus open biopsy has an effect on the treatment outcome with intracytoplasmic sperm injection (ICSI) in men with non-obstructive azoospermia. Regardless of testicular size, follicle stimulating hormone concentration, and previous biopsy result, percutaneous testicular sperm aspiration (PTSA) using a 21-gauge butterfly needle was attempted first and if this failed testicular sperm extraction (TESE) was performed. In 63 men spermatozoa were found with PTSA whereas in 228 men TESE had to be undertaken. More men in the PTSA group had previously been diagnosed with hypospermatogenesis (82 versus 50%). Compared with the PTSA group, more men in the TESE group had germ cell aplasia (27 versus 10%) or maturation arrest (22 versus 8%). There was no difference between the groups regarding mean age of men and their partners, duration of stimulation, oestradiol concentration on the day of human chorionic gonadotrophin, number of oocytes retrieved, fertilization rate, and embryo quality between the two groups. The number of embryos transferred (4.38 versus 3.90) was significantly higher in the PTSA group (P < 0.05), reflecting the increased number of embryos available for transfer. Implantation rate per embryo was 20.7% in the PTSA and 13.3% in the TESE group (P < 0.05). Clinical pregnancy rates were 46 and 29% in the PTSA and TESE groups respectively (P < 0.05). Clinical abortion rates were similar (21.2 versus 24%). It is concluded that in men with non-obstructive azoospermia, easier sperm retrieval, which is most likely indicative of a more favourable histopathology, is associated with higher implantation rates per embryo.     

ICSI using testicular sperm in male hypogonadotrophic hypogonadism unresponsive to gonadotrophin therapy

BACKGROUND: The aim of this study was to assess the use of testicular sperm for ICSI in azoospermic men with hypogonadotrophic hypogonadism unresponsive to gonadotrophin therapy. METHODS: Fifteen patients with hypogonadotrophic hypogonadism who remained azoospermic after hormonal treatment underwent testicular sperm extraction (TESE) and ICSI. These men were recruited from the Egyptian IVF centre over a period of 4 years. All patients were given 75 IU hMG thrice weekly and 5000 IU hCG once or twice weekly for >/=6 months prior to attempting ICSI/TESE. RESULTS: In 11 out of 15 patients (73%), sperm could be retrieved from testicular tissue and were used for ICSI. Two chemical pregnancies resulted but no clinical pregnancies. Nine patients continued gonadotrophin therapy for another 6 months. Sperm appeared in the ejaculate of three of them. The remaining six patients underwent another ICSI cycle, one using cryopreserved sperm and five underwent a second TESE. One chemical pregnancy and three clinical pregnancies were established. One ongoing, one singleton and one twin pregnancies resulted in the delivery of three healthy babies. In total, of 17 ICSI cycles performed using testicular sperm retrieval, the fertilization rate was 41.7% and the cumulative pregnancy rate was 20%. CONCLUSIONS: The use of testicular sperm for ICSI is a treatment option that can be offered to azoospermic males with hypogonadotrophic hypogonadism either not responding or reluctant to continue hormonal treatment. However, prolonged hormonal treatment may improve TESE/ICSI results.     

Partial deletions are associated with an increased risk of complete deletion in AZFc: a new insight into the role of partial AZFc deletions in male infertility

Background

The AZFc region on the human Y chromosome has been found to be functionally important in spermatogenesis. Complete AZFc deletion is one of the most frequent causes of male infertility and the roles of partial AZFc deletions (gr/gr and b2/b3 deletions) in spermatogenesis are controversial.

Methods

To further study the roles of partial AZFc deletions in spermatogenic impairment and the relationship between complete and partial AZFc deletions, these deletions were typed and quantitative analysis of DAZ gene copies and Y chromosome haplogrouping were performed for seven pedigrees of complete AZFc deletion carriers, comprising 296 infertile and 280 healthy Chinese men.

Results

Neither the gr/gr nor the b2/b3 deletion was found to be associated with spermatogenic failure. In one pedigree, a complete AZFc deletion was observed to result from the gr/gr deletion, suggesting that complete deletions of AZFc can be preceded by partial deletions. In addition, a new gr/gr‐deleted Y haplogroup Q1 was identified and the reported fixation of the b2/b3 deletion in haplogroup N confirmed. The frequency of complete AZFc deletion in haplogroups Q1 and N was significantly higher than that in the other haplogroupsm with fewer partial deletions. Duplications of DAZ gene copies were also observed in this study.

Conclusions

To date, these observations comprise the first evidence showing that partial AZFc deletions can increase the risk of complete AZFc deletion. The susceptibility of partial AZFc deletions to complete AZFc deletion deserves further examination, especially in the populations or Y haplogroups abundant in partial AZFc deletions.     

Factors influencing the outcome of ICSI in patients with obstructive and non-obstructive azoospermia: a comparative study

BACKGROUND: Factors influencing success of sperm retrieval in azoospermic patients and outcome of ICSI were evaluated. METHODS AND RESULTS: Uni- and multifactorial analysis were performed using logistic and stepwise analysis, following surgical sperm retrieval by percutaneous epididymal sperm aspiration (55 cycles) or testicular sperm extraction (142 cycles) in 52 and 123 patients with obstructive azoospermia (OA) and non-obstructive azoospermia (NOA) respectively. ICSI cycles using fresh or cryopreserved-thawed sperm were included. Sperm were retrieved to allow ICSI in 100 and 41% of OA and NOA patients, with no significant correlation with patients' age or FSH level. Occurrence of pregnancy was significantly correlated with female age (90th quantile: 38 years), number of oocytes retrieved (10th quantile: five oocytes) and number of oocytes injected (10th quantile: four oocytes). Sperm origin (epididymal versus testicular), status (fresh or thawed), male partner's age, and serum FSH had no significant effect upon implantation rate, pregnancy rate per embryo transfer or spontaneous miscarriage rate. CONCLUSIONS: In OA patients ICSI should be planned in conjunction with surgical sperm retrieval. In contrast, the lack of efficient non-invasive parameters to predict sperm retrieval in NOA suggests that elective surgical sperm retrieval may be offered to these patients prior to ovarian stimulation of their partners, especially when donor back-up is not an alternative. Female factors such as age and ovarian reserve have significant impact upon clinical success rates.     

Andrology: Micromanipulation improves in-vitro fertilization results after epididymal or testicular sperm aspiration in patients with congenital absence of the vas deferens

In all, 58 couples suffering from infertility because of congenitalbilateral absence of the vas deferens underwent a total of 67combined microsurgical epididymal aspiration or testicular spermextraction (TESE) and in-vitro fertilization (TVT) treatments.The oocytes recovered were inseminated by either the microdropletIVF technique (n=20), subzonal insemination (SUZI; n= 10) orintracyto-plasmic sperm injection (ICSI; n= 37). Of the ICSIcycles, 12 were performed using spermatozoa obtained by TESE.Fertilization rates for epididymal spermatozoa were significantlyhigher for SUZI (17.9%, 17/95) and ICSI (34.4%, 137/398) thanfor microdroplet IVF (5.2%, 18/343) cycles. The proportion ofcycles in which fertilization was achieved was higher in theSUZI (80%) and ICSI (95%) cycles than in the IVF cycles (45%).Delivery or an ongoing pregnancy was achieved in one (5%) IVFcycle, two (20%) SUZI cycles and seven (18.9%) ICSI cycles.SUZI or ICSI using epididymal or testicular spermatozoa significantlyimproved the oocyte fertility rate. The ICSI procedure was especiallyadvantageous in patients for whom spermatozoa were obtainedfrom a testicular biopsy.     

Outcome of first and repeated testicular sperm extraction and ICSI in patients with non-obstructive azoospermia

BACKGROUND: It is unclear whether or not testicular sperm extraction (TESE) should be repeated for patients in whom no sperm were found during their first TESE attempt. METHODS AND RESULTS: The outcome of repeated TESE was evaluated in patients with non-obstructive azoospermia (NOA) after failing to obtain sperm in their first extraction attempt, or having used all available cryopreserved testicular tissue. Out of 83 patients with NOA, patients repeated TESE two (n = 22), three (n = 8), four (n = 6) and five (n = 3) times. Distribution of main testicular histology included germ cell aplasia (55%), maturation arrest (29%) and germ cell hypoplasia (16%). The first TESE yielded mature sperm for ICSI in 39% of patients (sp+), and failed in the remaining 61% (sp-). A second TESE yielded mature sperm in 1/4 from the sp- group and in 16/18 from the sp+ group. At the third, fourth and fifth trials, 8/8, 5/6 and 3/3 of the original sp+ patients were sp+ again respectively. Compared with the outcome of the first trial, all further trials did not differ statistically in the rate of fertilization (54 versus 49%), implantation (9.5 versus 5.4%), or clinical pregnancy/cycle (19 versus 15%). No pregnancies were achieved among the three patients after their fifth TESE. Pregnancies occurred in all histological groups, except maturation arrest. CONCLUSIONS: The outcome of repeated TESE cycles, up to the fourth trial, justifies the procedure.     

Pregnancy outcome and neonatal data of children born after ICSI using testicular sperm in obstructive and non-obstructive azoospermia

BACKGROUND: Registries on outcome of ICSI pregnancies obtained with testicular sperm do not differentiate between obstructive (OA) and non-obstructive azoospermia (NOA). We evaluated the pregnancy outcome and neonatal data on children born after ICSI using testicular sperm of men with histologically proven OA or NOA. METHODS: Pregnancies obtained after ICSI using testicular sperm of men with defined NOA (n = 70) were compared with those of men with OA (n = 204). RESULTS: Multiple birth rates in NOA and OA couples, respectively, were 21 versus 27% (P = NS), overall preterm delivery rates were 38 versus 26% (NS), and prematurity rates were 24 versus 13% for singletons (NS) and 86 versus 54% for twins (relative risk 1.59, 95% confidence interval 1.04-2.42). Median gestational age for singletons was 38.3 versus 39.3 weeks, respectively (P < 0.05). The low birth weight rates were 34 versus 31%, respectively (NS). The early perinatal mortality rate was 66 versus 15 per 1000 births, respectively, (NS). Major congenital malformations were observed in 4 versus 3%, respectively, of the live born babies (NS). Prenatal karyotypes showed 7% de-novo abnormalities in the NOA group versus 1% in the OA group (NS). CONCLUSIONS: Our data do not show differences between NOA and OA pregnancies except for a strong tendency towards a lower gestational age in singletons and a higher percentage of premature twins in the NOA group. Although our data are based on a limited sample, the differences observed call for further analysis. Given the low pregnancy rates after ICSI with NOA, a multicentre study, differentiating NOA and OA patients, would be recommended.     

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.     

Testicular sperm retrieval by percutaneous fine needle sperm aspiration compared with testicular sperm extraction by open biopsy in men with non-obstructive azoospermia

The efficiency of testicular sperm retrieval by testicular fine needle aspiration (TEFNA) was compared with open biopsy and testicular sperm extraction (TESE), in 37 rigorously selected patients with non- obstructive azoospermia. All patients underwent TEFNA and TESE consecutively. Thus, each patient served as his own control. The case was regarded as successful if at least one testicular spermatozoon was found allowing intracytoplasmic sperm injection (ICSI) of at least one oocyte. The mean age of the male patients was 32.7 years (range 24-47). Whereas by TEFNA spermatozoa enabling performance of ICSI were found in only four patients out of 37 (11%), open biopsy and TESE yielded spermatozoa in 16 cases (43%). The negative predictive value of high serum follicle stimulating hormone (FSH) concentrations (> or =10 IU/l) (predicting failure to find spermatozoa for ICSI) was low (38.4%). The positive predictive value (predicting the chance to find spermatozoa for ICSI) of normal-sized testicle was not different from that of small- sized (<15 ml) testicle (50%). Complications included one case of testicular bleeding following fine needle aspiration, treated locally, and two cases of extratunical haematomata following TESE requiring no intervention. In patients with non-obstructive azoospermia, TEFNA has a significantly lower yield compared to TESE. Performance of ICSI with testicular sperm in these cases resulted in satisfactory fertilization and high embryo transfer rates. The implantation and pregnancy rates per embryo transfer were 13 and 29% respectively. Neither serum FSH values nor testicular size were predictive of the chances to find spermatozoa for ICSI. Some complications may occur even following TEFNA.      

Y chromosome deletions in azoospermic and severely oligozoospermic men undergoing intracytoplasmic sperm injection after testicular sperm extraction

Y chromosome deletions encompassing the AZFc region have been reported in 13% of azoospermic men and 7% of severely oligozoospermic men. We examined the impact of these Y deletions on the severity of testicular defects in 51 azoospermic men undergoing intracytoplasmic sperm injection (ICSI) after testicular sperm extraction (TESE) and 30 men with severe oligozoospermia undergoing ICSI after ejaculation of spermatozoa. In addition, five azoospermic patients shown previously to have Y chromosome deletions underwent histological evaluation of their previously obtained testis biopsy specimens. A further 27 azoospermic men underwent TESE-ICSI, but not Y chromosome DNA testing. Ten of 51 azoospermic men (20%) who underwent TESE-ICSI and Y-DNA testing were found to be deleted for portions of the Y chromosome AZFc region. Of these 10, five had spermatozoa retrievable from the testis, and in two cases the wives became pregnant. Of the 41 azoospermic men with no Y chromosome deletion, 22 (54%) had spermatozoa retrievable from the testis, and in 12 cases (29%) the wives became pregnant. Four of 30 (13%) severely oligozoospermic patients were found to be deleted for AZFc and in three (75%) of these pregnancy was achieved. The other 26 severely oligozoospermic couples who had no AZFc deletions underwent ICSI, and 12 (46%) have an ongoing or delivered pregnancy. The embryo implantation rate was not significantly different for azoospermic (22%), oligozoospermic (16%), Y-deleted (14%) or Y-intact (18%) men. Of the total of 19 infertile men who had Y chromosome deletions, 14 had deletions within Y chromosome intervals 6D-6F, in the AZFc region. Twelve of those 14 had some spermatozoa (however few in number) in the ejaculate or testis. Five of the Y-deleted men had deletions that extended more proximally on the Y chromosome, and in none of these could any spermatozoa be observed in either ejaculate or testis. These results support the concept that, in azoospermic or oligozoospermic men with Y chromosome deletions limited to intervals 6D-6F (AZFc), there are generally very small numbers of testicular or ejaculated spermatozoa. Larger Y deletions, including and extending beyond the AZFc region and encompassing more Y genes, tend to be associated with a total absence of testicular spermatozoa. In those cases where spermatozoa were retrieved, the presence of Y deletions had no obvious impact on fertilization or pregnancy rate.      

Seminal haploid cell detection by flow cytometry in non-obstructive azoospermia: a good predictive parameter for testicular sperm extraction

BACKGROUND: Testicular sperm extraction (TESE) associated with ICSI gives patients suffering from non-obstructive azoospermia (NOA) the possibility of becoming a father. The success rate of TESE based on sperm recovery is approximately 50%, and the commonly used non-invasive parameters are not predictive enough. Only the invasive testis biopsy has a good prognostic value. The aim of this study was to evaluate the prognostic value of the detection of seminal haploid cells by flow cytometry (FCM) in order to avoid unnecessary testicular biopsy. METHODS: For 37 NOA patients undergoing testicular biopsy, we measured testis size, serum FSH and inhibin B levels and carried out seminal cytology, seminal FCM analysis and histological examination. RESULTS: Sperm were found in 18 biopsies. These results were correlated with cytology, FCM analysis and the histological examination. FCM was more sensitive than cytology (100 versus 59%) but less specific (67 versus 83.5%) whereas the histological observation of complete spermatogenesis appeared to be less sensitive (50%) but more specific (100%). CONCLUSION: Detection of seminal haploid cells by FCM appears to be an interesting non-invasive technique which can predict TESE results and improve the management of NOA patients.