Reproductive outcomes of intracytoplasmic sperm injection using testicular sperm and ejaculated sperm in patients with AZFc microdeletions: a systematic review and meta-analysis / 亚洲男科学杂志(英文版)

Studies have explored the assisted reproductive technology (ART) outcomes of Y-chromosome azoospermia factor c (AZFc) microdeletions, but the effect of sperm source on intracytoplasmic sperm injection (ICSI) remains unknown. To determine the ART results of ICSI using testicular sperm and ejaculated sperm from males with AZFc microdeletions, we searched Embase, Web of Science, and PubMed to conduct a systematic review and meta-analysis. The first meta-analysis results for 106 cycles in five studies showed no significant differences in the live birth rate between the testicular sperm group and the ejaculated sperm group (risk ratio: 0.97, 95% confidence interval [CI]: 0.73-1.28, P = 0.82). The second meta-analysis of 106 cycles in five studies showed no difference in the abortion rate between the testicular sperm group and ejaculated sperm group (risk ratio: 1.06, 95% CI: 0.54-2.06, P = 0.87). The third meta-analysis of 386 cycles in seven studies showed no significant difference in clinical pregnancy rates between the testicular sperm group and the ejaculated sperm group (risk ratio: 1.24, 95% CI: 0.66-2.34, P = 0.50). Inevitable heterogeneity weakened our results. However, our results indicated that testicular sperm and ejaculated sperm yield similar ART outcomes, representing a meaningful result for clinical treatment. More properly designed studies are needed to further confirm our conclusions.

Genómica de los trastornos del desarrollo neurológico / Genomics of neurodevelopmental disorders

Introduction: Neurodevelopmental disorders (NDD) are featured by a delay in the acquisition of motor functions, cognitive abilities and speech, or combined deficits in these areas with the onset before the age of 5 years. Genetic causes account for approximately a half of all NDD cases. Objective: to describe alterations of the genome implied in neurodevelopmental disorders and some aspects of their genetic counseling. Methods: Bibliographic search in Medline, Pubmed, Scielo, LILACS and Cochrane, emphasizing in the last five years, the relationship between the various genetic factors that may be involved in neurodevelopmental disorders. Results: Multiple genetic factors are involved in neurodevelopmental disorders, from gross ones such as chromosomal aneuploidies to more subtle ones such as variations in the number of copies in the genome. Special emphasis is placed on microdeletion-micro duplication syndromes as a relatively frequent cause of NDDs and their probable mechanisms of formation are explained. Final Considerations: Genetic aberrations are found in at least 30-50 percent of children with NDD. Conventional karyotyping allows the detection of chromosomal aberrations encompassing more than 5-7 Mb, which represent 5-10 percent of causative genome rearrangements in NDD. Molecular karyotyping (e.g. SNP array/array CGH) can significantly improve the yield in patients with NDD and congenital malformations(AU)

Introducción: Los trastornos del neurodesarrollo están caracterizados por retardo en la adquisición de las funciones motoras, habilidades cognitivas para el habla o el déficit combinado en estas áreas; se presenta en niños menores de 5 años de edad. Las causas genéticas están implicadas en más de la mitad de los pacientes con estos trastornos Objetivo: Examinar las alteraciones del genoma implicados en los trastornos del neurodesarrollo y algunos aspectos de su asesoramiento genético. Métodos: Búsqueda bibliográfica en Medline, Pubmed, Scielo, LILACS y Cochrane con énfasis en los últimos cinco años, acerca de la relación entre los variados factores genéticos que pueden estar involucrados en los trastornos del neurodesarrollo. Resultados: Los factores genéticos involucrados pueden ser groseros como las aneuploidías cromosómicas hasta los más sutiles como las variaciones en el número de copias en el genoma. Se describen los síndromes de microdeleción-micro duplicación como una causa relativamente frecuente de los trastornos del neurodesarrollo y se explican sus probables mecanismos de formación. Se relacionan las aneuploidías cromosómicas y las variaciones en el número de copia como causas de estos trastornos. Consideraciones finales . Las aberraciones genéticas se encuentran en 30-50 por ciento de los niños con trastornos del neurodesarrollo. El cariotipo convencional permite la detección de aberraciones cromosómicas que abarcan más de 5-7 Mb, lo que representa 5-10 por ciento de los reordenamientos genómicos causales en estos trastornos. El cariotipo molecular (por ejemplo, una matriz de SNP/ CGH de matriz) puede mejorar significativamente la certeza del diagnóstico en pacientes con trastornos del neurodesarrollo y malformaciones congénitas(AU)

Prevalence of Y chromosome microdeletion in azoospermic infertile males of Iraqi population

In human gamete development, the important period is spermatogenesis, which is organized by specific genes on Y chromosome. In some cases, the infertile men have shown microdeletions on Y chromosome, which seemed as if the structural chromosome variance is linked to the reduction of sperm count. This study aimed to determine the frequency and patterns of Y chromosome microdeletions in azoospermia factor (AZF) of Iraqi infertile males. Here, 90 azoospermic infertile males as a study group and 95 normal fertile males as control group were investigated for the microdeletion of AZF loci using numerous sequence-tagged sites. Of these 90 infertile male patients, 43 (47.8%) demonstrated Y chromosome microdeletions, in which AZFb region was the most deleted section in azoospermia patients (33.3%) followed by deletions in the AZFc region (23%), while there were no microdeletion in the AZFa region. The largest microdeletion involved in both AZFb and AZFc was detected in six azoospermic patients (6.7%). The present study demonstrated a high frequency of Y chromosome microdeletions in the infertile Iraqi patients which is not reported previously. The high frequency of deletions may be due to the association of ethnic and genetic factors. PCR-based Y chromosome screening for microdeletions has a potential to be used in infertility clinics for genetic counselling and assisted reproduction.

High frequency of Y chromosome microdeletions in male infertility patients with 45,X/46, XY mosaicism

The mosaic 45,X/46,XY karyotype is a common sex chromosomal abnormality in infertile men. Males with this mosaic karyotype can benefit from assisted reproductive therapies, but the transmitted abnormalities contain 45,X aneuploidy as well as Y chromosome microdeletions. The aim of this study was to investigate the clinical and genetic characteristics of infertile men diagnosed with 45,X/46,XY mosaicism in China. Of the 734 infertile men found to carry chromosomal abnormalities, 14 patients were carriers of 45,X/46,XY mosaicism or its variants, giving a prevalence of 0.27% (14/5269) and accounting for 1.91% (14/734) of patients with a chromosomal abnormality. There were ten cases (71.43%, 10/14) of 45,X mosaicism exhibiting AZF microdeletions. Case 1 and Case 4 had AZFc deletions, and the other eight cases had AZFb+c deletions. A high frequency of Y chromosome microdeletions were detected in male patients with 45,X/46,XY mosaicism. Preimplantation genetic diagnosis should be offered to men having intracytoplasmic sperm injection for hypospermatogenesis caused by 45,X/46,XY mosaicism, to avoid the risk of transfering AZF microdeletions in addition to X monosomy in male offspring.

The association between the two more common genetic causes of spermatogenic failure: a 7-year retrospective study / 亚洲男科学杂志(英文版)

Chromosomal abnormalities and Y chromosome microdeletions are considered to be the two more common genetic causes of spermatogenic failure. However, the relationship between chromosomal aberrations and Y chromosome microdeletions is still unclear. This study was to investigate the incidence and characteristics of chromosomal aberrations and Y chromosome microdeletions in infertile men, and to explore whether there was a correlation between the two genetic defects of spermatogenic failure. A 7-year retrospective study was conducted on 5465 infertile men with nonobstructive azoospermia or oligozoospermia. Karyotype analysis of peripheral blood lymphocytes was performed by standard G-banding techniques. Y chromosome microdeletions were screened by multiplex PCR amplification with six specific sequence-tagged site (STS) markers. Among the 5465 infertile men analyzed, 371 (6.8%) had Y chromosome microdeletions and the prevalence of microdeletions in azoospermia was 10.5% (259/2474) and in severe oligozoospermia was 6.3% (107/1705). A total of 4003 (73.2%) infertile men underwent karyotyping; 370 (9.2%) had chromosomal abnormalities and 222 (5.5%) had chromosomal polymorphisms. Karyotype analysis was performed on 272 (73.3%) patients with Y chromosome microdeletions and 77 (28.3%) had chromosomal aberrations, all of which involved sex chromosomes but not autosomes. There was a significant difference in the frequency of chromosomal abnormalities between men with and without Y chromosome microdeletions (P< 0.05).

Genetic Screening for Chromosomal Abnormalities and Y Chromosome Microdeletions in 846 Infertile Korean Men

BACKGROUND: Chromosomal abnormalities are confirmed as one of the frequent causes of male infertility. The microdeletion of the azoospermia factor (AZF) region in the Y chromosome was discovered as another frequent genetic cause associated with male infertility. The aim of this study was to evaluate the frequency and type of chromosomal abnormalities and Y chromosome microdeletions in Korean infertile men. METHODS: A total of 846 infertile men with azoospermia and severe oligozoospermia were included for genetic screening. Cytogenetic analyses using G-banding and screening for Y chromosome microdeletions by multiplex PCR for AZF genes were performed. RESULTS: Chromosomal abnormalities were detected in 112 infertile men (13.2%). Of these, Klinefelter's syndrome was the most common (55.4%, 62/112), followed by balanced translocation including translocation between sex chromosome and autosome (14.3%), Yq deletion (13.4%), X/XY mosaicism with Yq deletion (12.5%), and XX male (4.5%). The overall prevalence of Y chromosome microdeletions was 9.2% (78/846). Most microdeletions were in the AZFc region (51.3%) with a low incidence in AZFa (7.7 %) and AZFb (6.4 %). Combined deletions involving the AZFbc and AZFabc regions were detected in 26.9 % and 7.7 % of men, respectively. Among the infertile men with Y chromosome microdeletions, the incidence of chromosomal abnormality was 25.6% (20/78). CONCLUSIONS: There was a high incidence (20.1%) of chromosomal abnormalities and Y chromosome microdeletions in Korean infertile men. These findings strongly suggest that genetic screening for chromosomal abnormalities and Y chromosome microdeletions should be performed, and genetic counseling should be provided before starting assisted reproductive techniques.

Genome-wide copy number variations analysis in 64 patients with unexplained intellectual disability / 中华实用儿科临床杂志

Objective To investigate the genetic basis of patients with intellectual disability,and to assess the application of single nucleotide polymorphisms (SNP)-array in the molecular diagnosis of intellectual disability.Methods Sixty-four patients with intellectual disability who were identified in Maternal and Child Health Hospital of Guangxi Zhuang Autonomous Region from January 2013 to June of 2015 were enrolled.Genomic DNA was extracted from peripheral blood and was analyzed with Illumina Humancyto SNP-12 300K gene array chip.All identified copy number variants (CNVs) were analyzed with references from databases such as ClinVar,DECIPHER,OMIM and DGV(Database of Genomic Variants),as well as comprehensive literature review from PubMed database to determine the pathogenicity of CNVs.Results Sixteen cases of the above 64 patients were found to have CNVs with genomic alterations,including 6 cases microdeletions/microduplications associated with known syndromes,3 cases microdeletions and microduplications with clear clinical relevance (non-syndrome),1 case numerical chromosome aberration,1 case unbalanced translocation and 5 cases CNVs of unknown clinical significance.The detection rate was 25% (16/64 cases).Among these 16 abnormalities,6 cases of them could not be detected by using karyotyping analysis because their sizes were less than 5 Mb,and the smallest detected missing fragment was 0.53 Mb.Conclusion SNP-array gene chip technique with the advantages of higher efficiency,high-resolution and good accuracy,which can be applied to the genetic diagnosis of intellectual disability.

Y-chromosome microdeletions in nonobstructive azoospermia and severe oligozoospermia / 亚洲男科学杂志(英文版)

The aim of the present work was to present the outcomes of the patients with Y-chromosome microdeletions treated by intracytoplasmic sperm injection (ICSI), either using fresh (TESE) or frozen-thawed (TESE-C) testicular sperm and ejaculated sperm (EJAC). The originality of this work resides in the comparisons between the different types of Y-microdeletions (AZFa, AZFb, and AZFc) and treatments, with detailed demographic, stimulation, embryological, clinical, and newborn (NB) outcomes. Of 125 patients with Y-microdeletions, 33 patients presented severe oligozoospermia (18 performed ICSI with ejaculated sperm) and 92 secretory azoospermia (65 went for TESE with 40 having successful sperm retrieval and performed ICSI). There were 51 TESE treatment cycles and 43 TESE-C treatment cycles, with a birth of 19 NB (2 in AZFa/TESE-C, 12 in AZFc/TESE, and 5 in AZFc/TESE-C). Of the 29 EJAC cycles, there was a birth of 8 NB (in AZFc). In TESE and EJAC cycles, there were no significant differences in embryological and clinical parameters. In TESE-C cycles, there was a significant lower oocyte maturity rate, embryo cleavage rate and mean number of embryos transferred in AZFb, and a higher mean number of oocytes and lower fertilization rate in AZFc. In conclusion, although patients with AZFc microdeletions presented a high testicular sperm recovery rate and acceptable clinical outcomes, cases with AZFa and AZFb microdeletions presented a poor prognosis. Due to the reported heredity of microdeletions, patients should be informed about the infertile consequences on NB and the possibility of using preimplantation genetic diagnosis for female sex selection.

Estandarización de un sistema PCR multiplex para la determinación molecular de infertilidad masculina idiopática

Objetivo: Diseñar y optimizar sistemas de reacción en cadena de polimerasa individuales y multiplex para la detección de microdeleciones de genes asociados a infertilidad masculina en el cromosoma Y. Métodos: Se estandarizaron sistemas de reacción en cadena de polimerasa multiplex utilizando oligonucleótidos STS (Sequence Target Site) específicos asociados a infertilidad masculina, con previa estandarización de cada par de oligos en reacciones individuales. Resultados: Se logró estandarizar 7 sistemas individuales y 2 sistemas multiplex de alta sensibilidad y especificidad que pueden indicar la presencia o ausencia de un gen, en este caso, son utilizados para indicar la mutación por microdeleción de algún fragmento específico de Yq que conlleva a la inactivación de un gen. Conclusiones: Se pudo realizar la estandarización de dos sistemas multiplex para el análisis de microdeleciones del cromosoma Y asociados a infertilidad masculina como una herramienta molecular para el diagnóstico rápido y preciso de esta patología. El amplificado del marcador RBM1 no pudo ser incluido en ninguna de los dos multiplex estandarizados, no obstante, se sugiere el estudio de otros marcadores de infertilidad masculina que puedan ser incluidos en la estandarización de nuevos multiplex.

Objective: To design and optimize individual systems and multiplex polymerase chain reaction for detection of microdeletions of male infertility associated genes on the Y chromosome. Methods: multiplex polymerase chain reaction systems were standardized using oligonucleotides STS (Sequence Target Site) specific to male infertility associated with prior standardization of each pair of oligos in individual reactions. Results: It was possible to standardize 7 individual systems and two multiplex systems high sensitivity and specificity that may indicate the presence or absence of a gene, in this case, are used to indicate the mutation microdeletion of a specific fragment Yq leading to the inactivation of a gene. Conclusions: standardization could make two multiplex systems for the analysis of microdeletions of the Y chromosome associated with male infertility as a molecular tool for rapid and accurate diagnosis of this disease. The amplified RBM1 marker could not be included in either standard multiplex, despite the studies of other markers of male infertility is suggested to be included in new in the standardization of new multiplexes.

Y Chromosome Microdeletions and Partial AZFc Deletions in Infertile Men from South India.

Aim: Yq microdeletions involving the azoospermia factor (AZF) region are the second most frequent genetic cause of spermatogenic failure next to Klinefelter syndrome. These deletions occur in about 10-15 percent of men with azoospermia and severe oligozoospermia. Molecular screening for AZF deletions has become mandatory in the work-up of infertile men. Further, partial AZFc deletions categorized as gr/gr, b2/b3, b1/b3 and b2/b4 deletions have also been known to affect spermatogenesis. This study aimed to screen for both classical AZF deletions in 250 karyotypically normal infertile men from south India and partial AZFc deletions as a case-control analysis involving 108 fertile men. Methods: PCR amplification involving two multiplex reactions was carried out using primers for six STSs sY84, sY86 (AZFa), sY127, sY134 (AZFb), and sY254, sY255 (AZFc) with two internal controls (SRY, ZFY). Further, those men who showed deletions with one or both STSs sY1291 and sY1191 were subsequently tested with sY1189 and sY1192 to detect partial AZFc deletions. Results: One individual showed deletion of all the three AZF regions while two men had only AZFc deletion. Deletion of partial AZFb (sY127) was seen besides complete AZFc region in the fourth patient. The gr/gr, b2/b3 and b1/b3 deletions were detected in 24 (9.6%), one (0.4%) and nine (3.6%) infertile men in comparison with five, one and two fertile men respectively. The b2/b4 deletion was observed in a single azoospermic individual. Conclusion: Screening for AZF deletions would help in not only determining the cause for male infertility but also in its management and accurate genetic counselling.

Infertilidade masculina decorrente de microdeleções no cromossomo Y / Male infertility caused by microdeletions on Y chromosome

Objetivo: Abordar a infertilidade masculina causada pela microdeleção no cromossomo Y e apresentar possíveis tratamentos por meio das técnicas de reprodução humana assistida. Métodos: Levantamento de dados da literatura científica na área da medicina reprodutiva. Resultados: Quando comparadas com outras causas de infertilidade, as microdeleções do cromossomo Y são relativamente frequentes. O cromossomo Y é essencial para a determinação sexual masculina e no seu braço longo há regiões responsáveis pela espermatogênese. São elas AZFa, AZFb e AZFc. Essas regiões podem ser deletadas e por conter múltiplos genes essenciais para a espermatogênese podem causar infertilidade masculina. Graças aos avanços da medicina, hoje vários casos de infertilidade são tratáveis por meio das técnicas de reprodução assistida. Dentre as técnicas, a MSOME se destaca por ser uma metodologia que seleciona apenas espermatozoides morfologicamente normais para serem usados na inseminação e aumentar as chances de gestação. Conclusões: A infertilidade masculina tem aumentado consideravelmente nos últimos anos e as causas genéticas são uma das grandes consequências disso. As microdeleções do cromossomo Y podem causar desde uma oligozoospermia leve a uma azoospermia, a depender da região AZF afetada. Para as causas mais leves, o casal pode recorrer a algumas técnicas de reprodução assistida e para as causas mais graves a solução para o casal pode ser usar gametas doados.(AU)

Objective: Address male infertility caused by microdeletions on Y chromosome and present possible treatment through assisted human reproduction techniques. Methods: Survey data from the scientific literature in the field of reproductive medicine. Results: When compared with other causes of infertility, the microdeletions on Y chromosome are the relatively frequent. The Y chromosome is essential for male sex determination and there are in his long arm regions responsible for spermatogenesi, it's they AZFa, AZFb and AZFc. Such regions may be deleted causing male infertility by contain multiple genes essential for spermatogenesis. Thanks to advances in medicine, now several cases of infertility are treatable through assisted reproduction techniques. Among the techniques, the MSOME stands out as a methodology that selects only morphologically normal sperm to be used in insemination increasing the chances of pregnancy. Conclusions: Male infertility has increased considerably in recent years and the genetic causes are one ofthe major consequences ofthis. Y chromosome microdeletions can cause mild oligozoospermia or azoospermia depending on the AZF region affected. For lighter causes, the couple may use some assisted reproductive techniques and to the most serious causes the solution to the couple is using donated gametes.(AU)

Multiplex ligation-dependant probe amplification study of children with idiopathic mental retardation in South India.

BACKGROUND: Mental retardation (MR) is a heterogeneous dysfunction of the central nervous system exhibiting complex phenotypes and has an estimated prevalence of 1-3% in the general population. However, in about 50% of the children diagnosed with any form of intellectual disability or developmental delay the cause goes undetected contributing to idiopathic intellectual disability. MATERIALS AND METHODS: A total of 122 children with developmental delay/MR were studied to identify the microscopic and submicroscopic chromosome rearrangements by using the conventional cytogenetics and multiplex ligation dependent probe amplification (MLPA) analysis using SALSA MLPA kits from Microbiology Research Centre Holland [MRC] Holland. RESULTS: All the recruited children were selected for this study, after thorough clinical assessment and metaphases prepared were analyzed by using automated karyotyping system. None was found to have chromosomal abnormality; MLPA analysis was carried out in all subjects and identified in 11 (9%) patients. CONCLUSION: Karyotype analysis in combination with MLPA assays for submicroscopic micro-deletions may be recommended for children with idiopathic MR.

Pedigree analysis on the relationship between small Y and azoospermia factor microdeletion / 中华泌尿外科杂志

Objective To study the relationship between small Y and azoospermia factor (AZF)microdeletions and the effect on male infertility.Methods Data of 379 infertile males of chromosomal karyotype analysis from May 2010 to October 2011 were investigated.Patients with small Y chromosome were also performed C banding and AZF microdeletions,and their fathers and brothers were offered the same examinations.Results Eight patients were small Y chromosome,and their fathers or brothers' chromosome karyotypes were consistent with the probands.Among the 8 cases,there were 3 patients with AZF microdeletions,while their fathers and brothers didn't have microdeletions.Another 5 cases of small Y and their fathers did not exist AZF microdeletions.Conclusions The small Y karyotype is not the key factors that cause male infertility.The reason for infertile patients with small Y and AZF microdeletions was maybe the microdeletions.However,patients with small Y but without AZF microdeletions are not important to male infertility.

The low frequency of Y chromosome microdeletions in subfertile males in a Sinhalese population of Sri Lanka.

Aims: This study was designed to determine the prevalence of azoospermia factor (AZF) microdeletions on the Y chromosome in Sri Lankan Sinhalese infertile men with azoospermia and severe oligozoospermia. Settings and Design: The patient group was 207 karyotypically normal infertile Sinhalese males. Materials and Methods: The presence of 13 sequence-tagged site (STS) markers in the AZF region was tested using multiplex polymerase chain reaction (M-PCR). One hundred and twenty unselected men were also studied as a control group. Results: Three (1.5%) had classic Y chromosome microdeletions in the AZFc sub-region. Conclusions: These results suggest a much lower Y chromosome microdeletion frequency than previously thought, even among a strictly selected group of sub-fertile males in Sri Lanka.

Chromosomal and molecular abnormalities in a group of Brazilian infertile men with severe oligozoospermia or non-obstructive azoospermia attending an infertility service

PURPOSE: To determine the frequency of genetic alterations in a population of Brazilian infertile men with severe oligozoospermia or non-obstructive azoospermia. MATERIALS AND METHODS: Retrospective study of a group of 143 infertile men with severe oligozoospermia or non-obstructive azoospermia from the Andrology Outpatient Clinic of the Human Reproduction Service at the ABC School of Medicine. Of these patients, 100 had severe oligozoospermia, and 43 non-obstructive azoospermia. All patients underwent a genetic study which included karyotype analysis and Y-microdeletion investigation. RESULTS: Genetic abnormalities were found in 18.8 percent of the studied patients. Chromosomal abnormalities were found in 6.2 percent of the patients, being more prevalent in the azoospermia group (11.6 percent) than in the oligozoospermia group (4 percent). Chromosomal variants were found in 8.3 percent, and Y-chromosome microdeletions in 4.2 percent of patients. CONCLUSION: The high frequency of genetic alterations (18.8 percent) in our series justified performing a genetic investigation in a population with idiopathic infertility, as results may help determine the prognosis, as well as the choice of an assisted reproduction technique. Moreover, a genetic investigation could minimize the risk of transmitting genetic abnormalities to future generations such as genetic male infertility, mental retardation, genital ambiguity and/or birth defects.

Analysis of chromosomal abnormality and Y chromosome microdeletions in Chinese infertile men / 中华泌尿外科杂志

Objective To study the relationship between chromosomal abnormality and Y chromosome microdeletions and male infertility. Methods Lymphocytes were cultured from peripheral blood of 1975 male infertility patients and stained with Giemsa. The chromosomes were analyzed under microscope. Y chromosome specific sequence tags (STS) were selected, then the Y chromosome microdeletions in AZF regions were screened by polymerase chain reaction (PCR) in azoospermia and oligozoospermia patients. Results There were 305 cases of detected chromosomal abnormalities (15.44%) in the 1975 cases. There were 101 cases (5.11 %) with autosome abnormalities which clinically manifested as oligozoospermia and teratospermia. There were 204 cases (10. 33%) of sexual chromosome abnormalities and the patients were mainly characterized with Klinefelter's syndrome. Y chromosome microdeletions were detected in 109 (14.97 %) of the 728 cases of azoospermia or oligozoospermia. The most common microdeletion of Y chromosome was AZFc (62.39%) and these patients were characterized with azoospermia and oligozoospermia. Five patients (4. 59%) who suffered Y chromosome microdeletion in AZFa region and AZFb region were characterized with azoospermia. Fifteen cases (13.76%) with microdeletion in AZFb region and AZFc region were mainly characterized with azoospermia. There were 6 cases (5. 50 % ) of microdeletion in AZFa, AZFb and AZFc regions,these patients were all characterized with azoospermia. Conclusions Both Chromosome abnormalities and Y chromosome microdeletions are important causes for male infertility.

Detection of Y Chromosomal Microdeletions in Patients with Spermatogenic Failure / 中国医科大学学报

Objective To explore the relationship between Y chromosomal microdeletions and chromosome karyotype,clinical phenotypes and sex hormone levels in patients with spermatogenic failure.Methods SRY gene,ZFY gene and 6 sequence-tagged-sites in AZFa,AZFb and AZFc were detected with multiplex polymerase chain reaction in 42 non-obstructive azoospermic and 39 severe oligozoospermic men.Results Ten cases (12.35%) of microdeletions were found in 81 non-obstructive azoospermic (6 cases) or severe oligozoospermic patients (4 cases).Among the 10 patients with Y chromosomal microdeletions, 1 had deletion of AZFa+AZFb+AZFc,2 AZFb+AZFc, 1 AZFb and 6 AZFc.Conclusion Microdeletions in the long arm of Y chromosome were associated with spermatogenic failure.Screening for Y chromosomal microdeletions in azoospermic or severe oligozoospermic patients should be of necessity and significance.

A386G transition in DAZL gene is not associated with spermatogenic failure in Tamil Nadu, South India.

The DAZ-like (DAZL) gene located on the short arm of autosomal chromosome 3 (3p24), an essential master gene for the premeiotic development of male and female germ cells, is the father of the Y-chromosome DAZ gene cluster and encodes for RNA-binding proteins. Reported instances of positive association of DAZL gene mutations with infertility in men have been found in a Taiwanese population but not in Caucasians. There is no study from Tamil Nadu, South India, to demonstrate the role of DAZL gene in male infertility; we, therefore, analyzed a total of 287 men, including 147 infertile and 140 normozoospermic fertile controls from rural areas of Tamil Nadu, South India, to assess the phenotypic effect of DAZL mutations in this region of the world. Interestingly, all our samples showed absence of the A386G (T54A) mutation that was found to be associated with spermatogenic failure in the Taiwanese population. Therefore, we suggest that the A386G (T54A) mutation is not associated with male infertility in Tamil Nadu, South India.

Y chromosome microdeletions in Brazilian fertility clinic patients

Microdeletions in Yq are associated with defects in spermatogenesis, while those in the AZF region are considered critical for germ cell development. We examined microdeletions in the Y chromosomes of patients attended at the Laboratory of Human Reproduction of the Clinical Hospital of the Federal University of Goiás as part of a screening of patients who plan to undergo assisted reproduction. Analysis was made of the AZF region of the Y chromosome in men who had altered spermograms to detect possible microdeletions in Yq. Twenty-three patients with azoospermia and 40 with severe oligozoospermia were analyzed by PCR for the detection of six sequence-tagged sites: sY84 and sY86 for AZFa, sY127 and sY134 for AZFb, and sY254 and sY255 for AZFc. Microdeletions were detected in 28 patients, including 10 azoospermics and 18 severe oligozoospermics. The patients with azoospermia had 43.4% of their microdeletions in the AZFa region, 8.6% in the AZFb region and 17.4% in the AZFc region. In the severe oligozoospermics, 40% were in the AZFa region, 5% in the AZFb region and 5% in the AZFc region. We conclude that microdeletions can be the cause of idiopathic male infertility, supporting conclusions from previous studies.

Molecular Study And Review Of The Literature On Microdeletions Of The Y Chromosome Detected By STS-PCR In Infertile Patients.

The authors report a cytogenetic and molecular study performed on 130 sterile men. Using cytogenetic analysis they detected chromosome abnormalities (15.4%) in 20 men. In the remaining 110 patients with normal karyotype, they used STS-PCR with specific primers for interval 6 of Y chromosome detecting 17 microdeletions (15%). Reviewing the literature, they found 102 microdeletions within 1539 sterile men (6.6%). According to Vogt's classification, in total, 13 microdeletions were within AZFa (12.7%), 27 within AZFb (26.4%) and 62 within AZFc (60.7%). Microdeletions of oligozoospermic patients were mostly clustered at the terminal part of AZFc within subinterval 6E, supporting the hypothesis of a specific locus for oligozoospermia in this subinterval. As regards to the realtionship between microdeletions and histology phenotype, a review of 75 testis biopsies showed that Sertoly Cells Only (SCO) was mostly confined in AZFa, while spermatogenesis arrest in AZFb and AZFc. No relationship was noted between the size and the number of microdeletions and the severity of the phenotype. The authors conclude that the review of literature confirms that microdeletions in interval 6 of the Y chromosome are strongly related with sterility in men.