Phoniatric, Audiological, Orodental and Speech Problems in a Boy with Cardio-Facio-Cutaneous Syndrome Type 3 (CFC 3) Due to a Pathogenic Variant in MAP2K1 - Case Study.

Cardio-facio-cutaneous syndrome 3 (CFC3) due to variants in MAP2K1 is a rare genetic disorder manifested mainly by short stature, facial dysmorphism, abnormalities of the cardiovascular system, skin changes, and intellectual disability. The aim of the study is the evaluation of the occurrence of pathological changes in the upper respiratory tract, orthodontic disorders, as well as voice, speech and hearing abnormalities in an 11-year-old boy with CFC3 syndrome. The lack of detailed diagnostics of speech, voice and hearing disorders, as well as the degree of their severity was an inspiration to undertake research in this field. Pathological changes in face, oral cavity, upper respiratory tract (nose, nasopharynx, larynx), and hearing organ, as well as voice and speech quality, were assessed in an 11-year-old boy with CFC3 syndrome. Pathologies of the upper respiratory tract (adenoid hypertrophy, narrowing of the nasal passages) and laryngeal asymmetry were found without significant changes in voice quality in the acoustic examination, except for the voice timbre change confirmed in narrowband spectrography. Complex audiological assessment confirmed the existence of bilateral sensorineural hearing loss. Speech pathology assessment revealed abnormalities in the structure of articulation organ, its decreased motor efficiency, imprecision, reduced coordination, as well as the presence of autistic features. Exome sequencing showed the heterozygous variant c.371C>T (p.Pro124Leu) in the MAP2K1 gene, previously described as pathogenic, thus supporting a causative relevance. Phoniatric, audiological, orodental and speech problems should be considered as features of cardio-facio-cutaneous syndrome type 3 (CFC 3) phenotype due to a pathogenic variant in MAP2K1.

Phenotypic expansion of the BPTF-related neurodevelopmental disorder with dysmorphic facies and distal limb anomalies.

Neurodevelopmental disorder with dysmorphic facies and distal limb anomalies (NEDDFL), defined primarily by developmental delay/intellectual disability, speech delay, postnatal microcephaly, and dysmorphic features, is a syndrome resulting from heterozygous variants in the dosage-sensitive bromodomain PHD finger chromatin remodeler transcription factor BPTF gene. To date, only 11 individuals with NEDDFL due to de novo BPTF variants have been described. To expand the NEDDFL phenotypic spectrum, we describe the clinical features in 25 novel individuals with 20 distinct, clinically relevant variants in BPTF, including four individuals with inherited changes in BPTF. In addition to the previously described features, individuals in this cohort exhibited mild brain abnormalities, seizures, scoliosis, and a variety of ophthalmologic complications. These results further support the broad and multi-faceted complications due to haploinsufficiency of BPTF.

Characteristic dental pattern with hypodontia and short roots in Fraser syndrome.

Fraser syndrome (FS) is a rare autosomal recessive multiple congenital malformation syndrome characterized by cryptophthalmos, cutaneous syndactyly, renal agenesis, ambiguous genitalia, and laryngotracheal anomalies. It is caused by biallelic mutations of FRAS1, FREM2, and GRIP1 genes, encoding components of a protein complex that mediates embryonic epithelial-mesenchymal interactions. Anecdotal reports have described abnormal orodental findings in FS, but no study has as yet addressed the orodental findings of FS systematically. We reviewed dental radiographs of 10 unrelated patients with FS of different genetic etiologies. Dental anomalies were present in all patients with FS and included hypodontia, dental crowding, medial diastema, and retained teeth. A very consistent pattern of shortened dental roots of most permanent teeth as well as altered length/width ratio with shortened dental crowns of upper incisors was also identified. These findings suggest that the FRAS1-FREM complex mediates critical mesenchymal-epithelial interactions during dental crown and root development. The orodental findings of FS reported herein represent a previously underestimated manifestation of the disorder with significant impact on orodental health for affected individuals. Integration of dentists and orthodontists into the multidisciplinary team for management of FS is therefore recommended.

Two unrelated families with variable expression of Fraser syndrome due to the same pathogenic variant in the FRAS1 gene.

We report on two unrelated families of Polish origin with variable expression of Fraser syndrome (FS; MIM#219000) due to homozygosity for the same pathogenic variant, c.6963_6964dup, of FRAS1. In one family, the disorder presented with perinatal and prenatal lethality. One affected female from family 2 who was followed-up for 32 years, represented a relatively favorable long-term outcome. She displayed the typical craniofacial dysmorphism, including right cryptophthalmos, cutaneous syndactyly, abnormalities of the stomathognatic system, bilateral atresia of the external ear canals resulting in conductive hearing loss, and malformations of the larynx, spleen, kidney, and genitourinary tract. Her intellectual capacities were normal. Our observations illustrate that expression and severity of FS, even when caused by the same pathogenic variant, may be quite different ranging from a lethal disorder to a condition with multiple physical malformations but normal psychomotor development. In addition, we propose that the FRAS1 c.6963_6964dup variant may be a founder mutation in the Polish population. Therefore, it would be reasonable to test specifically for this variant first in any FS1 patient of Polish ancestry.

Chromosome (re)positioning in spermatozoa of fathers and sons - carriers of reciprocal chromosome translocation (RCT).

BACKGROUND: Non-random chromosome positioning has been observed in the nuclei of several different tissue types, including human spermatozoa. The nuclear arrangement of chromosomes can be altered in men with decreased semen parameters or increased DNA fragmentation and in males with chromosomal numerical or structural aberrations. An aim of this study was to determine whether and how the positioning of nine chromosome centromeres was (re)arranged in the spermatozoa of fathers and sons - carriers of the same reciprocal chromosome translocation (RCT). METHODS: Fluorescence in situ hybridization (FISH) was applied to analyse the positioning of sperm chromosomes in a group of 13 carriers of 11 RCTs, including two familial RCT cases: t(4;5) and t(7;10), followed by analysis of eight control individuals. Additionally, sperm chromatin integrity was evaluated using TUNEL and Aniline Blue techniques. RESULTS: In the analysed familial RCT cases, repositioning of the chromosomes occurred in a similar way when compared to the data generated in healthy controls, even if some differences between father and son were further observed. These differences might have arisen from various statuses of sperm chromatin disintegration. CONCLUSIONS: Nuclear topology appears as another aspect of epigenetic genomic regulation that may influence DNA functioning. We have re-documented that chromosomal positioning is defined in control males and that a particular RCT is reflected in the individual pattern of chromosomal topology. The present study examining the collected RCT group, including two familial cases, additionally showed that chromosomal factors (karyotype and hyperhaploidy) have superior effects, strongly influencing the chromosomal topology, when confronted with sperm chromatin integrity components (DNA fragmentation or chromatin deprotamination).

A 23-year follow-up of a male with Hajdu-Cheney syndrome due to NOTCH2 mutation.

We present a natural history of a 32-year-old man with Hajdu-Cheney syndrome (HJCYS), because of the de novo truncating mutation in the exon 34 of NOTCH2 (c.6424-6427delTCTG, p.Ser2142ArgfsX4), who has been followed up for a period of 23 years (between 9 and 32 years). During follow-up, we observed abnormalities of vision, hearing, voice, and progression of craniofacial features in the form of skeletal dysplasia with affected skull, dentition, spine, limbs, fingers, and toes. Low bone mineral density and history of fragility fractures also suggested primary osteoporosis being a clinical manifestation. According to Stengel-Rutkowski, Schimanek, and Wernheimer (1984; Human Genetics, 6, 272-295), systematic data acquisition has been used for quantitative analysis of anthropological, radiographic, and clinical features at childhood, adolescence, and young adulthood separately. A detailed phenotype description together with the results of reanalysis of 14 reports so far published on patients with HJCYS and NOTCH2 mutation showed similar phenotype evolution with age. The spectrum of observed features may improve diagnostic tools for HJCYS at different periods of the lifespan.

Clonal chromosomal aberrations in Philadelphia negative cells such as monosomy 7 and trisomy 8 may persist for years with no impact on the long term outcome in patients with chronic myeloid leukemia.

The appearance of clonal chromosomal aberrations in Philadelphia negative cells (CCA/Ph-) during the treatment of chronic myeloid leukemia (CML) was recently confirmed. Importance of these findings has not been clearly defined. We present data on the time of appearance, persistence, size of the CCA/Ph- clone in terms of drugs used and hematological, cytogenetic and molecular response rates. The focus was on the peripheral blood cytopenias and myelodysplastic changes in the bone marrow microscopic evaluation. In 5 out of 155 (3,2%) CML patients, the persistent presence (up to nine years) of CCA/Ph- was found (monosomy 7 and trisomy 8 in unrelated clones in two patients treated with tyrosine kinase inhibitors; trisomy 8 in two patients on imatinib; trisomy 21 in one patient on interferon alfa treatment). Aberrations were present in median 24% Ph- cells in 3-15 subsequent analyses at different cytogenetic and molecular response time points. No evident myelodysplastic changes nor transformation to MDS/AML occurred in patients with CCA/Ph-. All the patients achieved major molecular response (MMR). It seems that CCA/Ph- presence does not affect the long term outcome in patients with chronic myeloid leukemia. Further complex monitoring of the CML patients with CCA/Ph- is still needed.

Limited survivability of unbalanced progeny of carriers of a unique t(4;19)(p15.32;p13.3): a study in multiple generations.

BACKGROUND: Carriership of a reciprocal chromosomal translocation (RCT) involving the short arm of chromosome 4 (4p) may result in birth of a child with Wolf-Hirschhorn syndrome (WHS) due to monosomy 4p, a priori modified by the impact of the partner chromosome imbalance. Familial transmission studies of RCT enable obtaining empirical risk figures that are essential for genetic counseling. In this study, pedigree data from carriers of a unique t(4;19)(p15.32;p13.3), ascertained by two children with WHS phenotype, were collected through five generations and empirical risk for different pregnancy outcomes was assessed. In addition, the phenotype-karyotype correlation was studied in two unbalanced children against the phenotypes of children (literature data) with pure monosomy 4p15.32 â†’ pter and pure trisomy 19p13.3 â†’ pter, accordingly. The phenotype analysis was conducted using the catalogue of traits according to the Munich Dysmorphology Database. Pedigree segregation analysis was conducted by the direct method according to Stengel- Rutkowski et al. RESULTS: A double segment imbalance, trisomy 19p13.3 â†’ pter with monosomy 4p15.32 â†’ pter, was diagnosed in WHS progeny at birth. No essential modification of WHS phenotype by the additional trisomy 19p was observed, except for a limited survivability (death in infancy). Pedigree segregation analysis covered 39 relatives showed the probability rate for liveborn with unbalanced karyotype of 3.7 ± 3.6% (1/27), for stillbirth/neonatal death at 7.4 ± 5.0% (2/27), for miscarriage at 22.2 ± 8.0% (6/27), for the chance of having a baby without unbalanced karyotype was estimated at 66.7 ± 9.1% (18/27). In addition, the value of 7.4% for genetic counseling for any carrier of RCT at risk for single segment 19p13.3 â†’ pter imbalance at birth was evaluated as such value have not been estimated so far. CONCLUSION: Carriership of a t(4;19)(p15.32;p13.3) is at low risk for an unbalanced child at birth and for stillbirth/neonatal death but high for miscarriages. The chance of having a baby without unbalanced karyotype was estimated to be high. Monosomy 4p15.32 â†’ pter together with trisomy 19p13.3 â†’ pter as a double segment imbalance in children with WHS may be connected with a limited survivability in infancy.

ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients.

Congenital disorders of glycosylation (CDG) arise from pathogenic mutations in over 100 genes leading to impaired protein or lipid glycosylation. ALG1 encodes a ß1,4 mannosyltransferase that catalyzes the addition of the first of nine mannose moieties to form a dolichol-lipid linked oligosaccharide intermediate required for proper N-linked glycosylation. ALG1 mutations cause a rare autosomal recessive disorder termed ALG1-CDG. To date 13 mutations in 18 patients from 14 families have been described with varying degrees of clinical severity. We identified and characterized 39 previously unreported cases of ALG1-CDG from 32 families and add 26 new mutations. Pathogenicity of each mutation was confirmed based on its inability to rescue impaired growth or hypoglycosylation of a standard biomarker in an alg1-deficient yeast strain. Using this approach we could not establish a rank order comparison of biomarker glycosylation and patient phenotype, but we identified mutations with a lethal outcome in the first two years of life. The recently identified protein-linked xeno-tetrasaccharide biomarker, NeuAc-Gal-GlcNAc2 , was seen in all 27 patients tested. Our study triples the number of known patients and expands the molecular and clinical correlates of this disorder.

Meiotic and pedigree segregation analyses in carriers of t(4;8)(p16;p23.1) differing in localization of breakpoint positions at 4p subband 4p16.3 and 4p16.1.

PURPOSE: The purpose of this study was to compare meiotic segregation in sperm cells from two carriers with t(4;8)(p16;p23.1) reciprocal chromosome translocations (RCTs), differing in localization of the breakpoint positions at the 4p subband-namely, 4p16.3 (carrier 1) and 4p16.1 (carrier 2)-and to compare data of the pedigree analyses performed by direct method. METHODS: Three-color fluorescent in situ hybridization (FISH) on sperm cells and FISH mapping for the evaluation of the breakpoint positions, data from pedigrees, and direct segregation analysis of the pedigrees were performed. RESULTS: Similar proportions of normal/balanced and unbalanced sperm cells were found in both carriers. The most common was an alternate type of segregation (about 52 % and about 48 %, respectively). Unbalanced adjacent I and adjacent II karyotypes were found in similar proportions about 15 %. The direct segregation analysis (following Stengel-Rutkowski) of the pedigree of carriers of t(4;8)(p16.1;p23.1) was performed and results were compared with the data of the pedigree segregation analysis obtained earlier through the indirect method. The probability of live-born progeny with unbalanced karyotype for carriers of t(4;8)(p16.1;p23.1) was moderately high at 18.8 %-comparable to the value obtained using the indirect method for the same carriership, which was 12 %. This was, however, markedly lower than the value of 41.2 % obtained through the pedigree segregation indirect analysis estimated for carriers of t(4;8)(p16.3;p23.1), perhaps due to the unique composition of genes present within the 4p16.1-4p 16.3 region. CONCLUSIONS: Revealed differences in pedigree segregation analysis did not correspond to the very similar profile of meiotic segregation patterns presented by carrier 1 and carrier 2. Most probably, such discordances may be due to differences in embryo survival rates arising from different genetic backgrounds.

[Systemic sclerosis. Part 2. Epigenetic factors in the pathogenesis of clinical manifestations]. / Twardzina ukladowa. Czesc 2. Czynniki epigenetyczne w patogenezie objawów klinicznych.

Systemic sclerosis is a complex autoimmune disease characterized by immune activation, fibrosis of the skin and internal organs and vasculopathy affecting predominantly the microvessels with a predilection for women. The genetic background of systemic sclerosis is still full of unanswered questions, with classical genetics able to explain only some systemic sclerosis cases. Novel advances concerning epigenetics give us new insight into pathogenesis of systemic sclerosis. This review focuses on results of recent reports on epigenetic modifications of the gene functions and X inactivation changes in pathogenesis of systemic sclerosis. Current evidence demonstrates DNA heavy methylation (FLI1, NOS3, BMPRII) and hypomethylation of regulatory genes (CD40L, CD70), histone code modifications, abnormal expression of large spectrum of microRNAs.

Co-segregation of Freiberg's infraction with a familial translocation t(5;7)(p13.3;p22.2) ascertained by a child with cri du chat syndrome and brachydactyly type A1B.

The identification of chromosomal breakpoints in association with human abnormal phenotypes can enable elucidation of gene function. We report on epiphyseal aseptic necrosis of the lesser head of the second metatarsal bone, known as Freiberg's infraction (FI), in two female carriers of the apparently balanced t(5;7)(p13.3;p22.2) ascertained by a 16-year-old girl with cri-du-chat syndrome and unusual skeletal features in association with an unbalanced translocation der(5) t(5;7)(p13.3;p22.2). Mapping of the chromosome breakpoints using fluorescent in situ hybridization (FISH) narrowed them to the coding sequence of ADAMTS12 on chromosome 5p13.3 and SDK1 on 7p22.2. In addition, several skeletal abnormalities classified as brachydactyly type A1B (BDA1B) were present in the proband and in both carriers of t(5;7)(p13.3;p22.2), suggesting a potential role of ADAMTS12 in the development of the BDA1B observed in this family.

MTRNR2L12: A Candidate Blood Marker of Early Alzheimer's Disease-Like Dementia in Adults with Down Syndrome.

Morphological abnormalities observed typically in the brains of adults with Down syndrome are identical with those present in patients with Alzheimer's disease. However, only some adults with Down syndrome suffer from early dementia, whereas others remain unaffected. We aimed to identify the genomic background responsible for this observation. We performed cognitive assessment and genome expression analysis of blood mononuclear cells in seniors with Down syndrome. Unaffected elderly patients and younger patients with severe cognitive disability or cognitive deterioration differed significantly with regard to the MTRNR2L12 gene. Our findings suggest the potential value of this gene as a blood marker of early dementia in individuals with Down syndrome.

Complex balanced chromosomal translocation t(2;5;13) (p21;p15;q22) in a woman with four reproductive failures.

BACKGROUND: Balanced complex translocations (BCTs) are rare events, they may result in reproductive failures: spontaneous abortions, missed abortions, stillbirths, congenital malformations in children, and male infertility. BCTs belong to the group of complex chromosome rearrangements (CCRs) - up to date about 260 cases were described. RESULTS: The described patient and her husband were referred to genetic counseling clinic because of four reproductive failures. GTG-banded chromosome analysis revealed presence of apparently balanced complex translocation t(2;5;13), which was verified and confirmed by molecular cytogenetics with single copy probes. This complex aberration was most likely responsible for reproductive failures in our patient. Since no high resolution molecular karyotyping (microarrays) was used, this rearrangement can only be considered to be balanced at cytogenetic level. DISCUSSION: Due to small number of reported cases of CCRs/BCTs and individual as well as unique character of such rearrangements, genetic counseling for CCRs carriers is complex and requires detailed pedigree analysis, as well as extended clinical and genetic testing.

Recurrence risks for different pregnancy outcomes and meiotic segregation analysis of spermatozoa in carriers of t(1;11)(p36.22;q12.2).

Cumulative data obtained from two relatively large pedigrees of a unique reciprocal chromosomal translocation (RCT) t(1;11)(p36.22;q12.2) ascertained by three miscarriages (pedigree 1) and the birth of newborn with hydrocephalus and myelomeningocele (pedigree 2) were used to estimate recurrence risks for different pregnancy outcomes. Submicroscopic molecular characterization by fluorescent in situ hybridization (FISH) of RCT break points in representative carriers showed similar rearrangements in both families. Meiotic segregation patterns after sperm analysis by three-color FISH of one male carrier showed all possible outcomes resulting from 2:2 and 3:1 segregations. On the basis of empirical survival data, we suggest that only one form of chromosome imbalance resulting in monosomy 1p36.22→pter with trisomy 11q12.2→qter may be observed in progeny at birth. Segregation analysis of these pedigrees was performed by the indirect method of Stengel-Rutkowski and showed that probability rate for malformed child at birth due to an unbalanced karyotype was 3/48 (6.2±3.5%) after ascertainment correction. The risk for stillbirths/early neonatal deaths was -/48 (<1.1%) and for miscarriages was 17/48 (35.4±6.9%). However, the probability rate for children with a normal phenotype at birth was 28/48 (58.3±7.1%). The results obtained from this study may be used to determine the risks for the various pregnancy outcomes for carriers of t(1;11)(p36.22;q12.2) and can be used for genetic counseling of carriers of this rearrangement.

Cytogenetic and molecular analyses of de novo translocation dic(9;13)(p11.2;p12) in an infertile male.

BACKGROUND: Whole arm t(9;13)(p11;p12) translocations are rare and have been described only a few times; all of the previously reported cases were familial. RESULTS: We present here an infertile male carrier with a whole-arm reciprocal translocation dic(9;13)(p11.2;p12) revealed by GTG-, C-, and NOR-banding karyotypes with no mature sperm cells in his ejaculate. FISH and genome-wide 400 K CGH microarray (Agilent) analyses demonstrated a balanced chromosome complement and further characterised the abnormality as a dicentric chromosome (9;13): dic(9;13)(pter→p11.2::p12→qter),neo(9)(pter→p12→neo→p11.2). An analysis of the patient's ejaculated cells identified immature germ cells at different phases of spermatogenesis but no mature spermatozoa. Most (82.5%) of the germ cells were recognised as spermatocytes at stage I, and the cell nuclei were most frequently found in pachytene I (41.8%). We have also undertaken FISH analysis and documented an increased rate of aneuploidy of chromosomes 15, 18, X and Y in the peripheral blood leukocytes of our patient. To study the aneuploidy risk in leukocytes, we have additionally included 9 patients with non-obstructive azoospermia with normal karyotypes. CONCLUSIONS: We propose that the azoospermia observed in the patient with the dic(9;13)(p11.2;p12) translocation was most likely a consequence of a very high proportion (90%) of association between XY bivalents and quadrivalent formations in prophase I.

[Risk estimation of different pregnancy outcomes in the families of carriers of reciprocal chromosomal translocations involving chromosome 20]. / Ocena prawdopodobienstwa wystapienia róznych patologii ciazy w rodzinach nosicieli translokacji chromosomowych wzajemnych angazujacych chromosom 20.

UNLABELLED: Carriership of reciprocal chromosome translocation (RCT) in a family may be the reason for malformation at birth, stillbirth, early neonatal death, and miscarriage due to unbalanced karyotype (monosomy/trisomy). The size of chromosome segments determined by the breakpoint position, kind of chromosome involved and the carrier gender may influence the probability rate for each category of the unfavorable pregnancy outcome in the family of the carrier of a particular RCT Until now, the literature lacks reports on the risk values for particular forms of pregnancy outcomes in case of single segment imbalance, both the short (p) and the long arm (q) of chromosome 20. OBJECTIVE: The aim of the study was to evaluate individual risk rates for unbalanced offspring at birth for single segment imbalance in the form of trisomy/monosomy and a separate evaluation risk figures for different pregnancy outcomes, depending on the size of the involved chromosome segment, its origin and carrier gender in families of RCT carriers involving chromosome 20 (RCT-20). In addition, practical application of the obtained results in the family with unique RCT t(13;20)(q14.1;p11.21) carriership has been shown. MATERIAL AND METHODS: Total empirical data of 50 families (219 pregnancies) were collected from 19 pedigrees of RCT-20 carriers coming from different collections of RCT and available references. Cytogenetic studies were performed by GTG technique. The probability rates of particular type of pathology related to the total number of pregnancies after ascertainment correction have been done by segregation analysis according to the method of Stengel-Rutkowski and Stene. RESULTS: The probability rate for unbalanced offspring at birth for carriers of RCT-20p was calculated as 5.5 +/- 1.8% (9/164) (medium risk). Considering parental gender of the carrier for maternal (MAT) and paternal (PAT) carriers, the probability rate values were similar i.e. 4.8 +/- 2.3% (4/84) and 4.9 +/- 2.8% (3/61), respectively. The risk figures for stillbirth/early neonatal deaths were found as 0.6 +/- 0.6% (1/164) (low risk), but separately for MAT and PAT carriers they were: 1.2 +/- 1.2% (1/84) and < 0.8% (-/61), respectively. Risk figures for miscarriages were estimated as 28.6 +/- 3.5% (47/164) (high risk), with 32.1 +/- 5.1% (27/84) for maternal carriers and 32.7 +/- 6% (20/61) for paternal carriers. The risk figures for unbalanced offspring at birth for carriers of RCT-20q were calculated as about 2.6% (0/20) (low risk), for stillbirth/early neonatal death about 2.6% (-/20) (low risk) and for miscarriage 50 +/- 11.2% (10/20) (high risk). CONCLUSIONS: 1. The probability rates for unbalanced offspring at birth and for different categories of unfavorable outcomes show differences depending on the origin and the size of chromosome 20 segment. 2. There are no differences in the value of risk figures for particular form of pregnancy pathology in relation to carrier's gender.

Chromatin structure analysis of spermatozoa from reciprocal chromosome translocation (RCT) carriers with known meiotic segregation patterns.

The presence of reciprocal chromosome translocations (RCTs), as well as sperm chromatin disturbances, is known to exert negative influence on male fertility. The aim of this study was to identify an association between chromosome structural rearrangements in male RCT carriers and sperm seminological parameters (concentration, motility, morphology), chromatin status (fragmentation and maturity), meiotic segregation pattern and observed chromosomal hyperhaploidy. Sperm samples originated from ten male RCT carriers with reproductive failure/success. TUNEL assay (DNA fragmentation) and chromomycin A3 (CMA3)/aniline blue (AB) staining (chromatin maturity) were used to analyze sperm chromatin status while fluorescent in situ hybridization (FISH) was applied to observe meiotic segregation patterns and hyperhaploidy in spermatozoa. We found that the mean level of sperm DNA fragmentation in the RCT carrier group (18.0 ± 11.9%) was significantly higher (p=0.0006) than the mean of the control group (7.5 ± 4.3%). There was no correlation observed between sperm DNA fragmentation levels (5.6-38.0%) and the frequency of genetically normal/balanced gametes (34.3-62.4%), sperm seminological quality or revealed reproductive failure. In contrast, a correlation between the frequencies of genetically normal/balanced spermatozoa and of gametes with mature chromatin was observed (CMA3: R=0.4524, p=0.2604; AB: R=0.5238, p=0.1827). A statistically significant increase in the hyperhaploidy level of selected chromosomes in all analyzed RCT carriers was documented but was not correlated to sperm seminology or fertility status. Further evaluation and additional assays toward sperm chromatin quality assessment in RCT carriers is suggested to explain the complexity of genomic structural rearrangements and its possible relevance to reproductive success or failure.

[Probability rate of unbalanced offspring at birth and risk of unfavorable pregnancy outcomes in families of carriers of chromosomal reciprocal translocations involving chromosome 7]. / Ocena prawdopodobienstwa urodzenia dziecka z niezrównowafonym kariotypem oraz ryzyka wystqpienia róznych patologii ciazy w rodzinach nosicieli translokacji chromosomowych wzajemnych angazujacych chromosom 7.

INTRODUCTION: Carriership of reciprocal chromosomal translocation (RCT) may be the reason the occurrence of congenital malformations in the offspring, early neonatal death, stillbirth, and recurrent miscarriages due to unbalanced karyotype of gametes. The probability rate for individual categories of unfavorable outcomes depends on the kind of chromosome involved and is individually variable. OBJECTIVES: The aim of study was to estimate the probability rates for unbalanced offspring and to evaluate the risk for different categories of unfavorable pregnancy outcomes, depending on the size of chromosomal segment with differentiation between maternal/paternal origin of the reciprocal chromosomal translocations involving chromosome 7p (RCT-7p) and 7q (RCT-7q). In addition, the use of the obtained results has been illustrated by the example of a family with unique RCT t(7;9)(p21.3,p23). MATERIAL AND METHODS: Empirical and cytogenetic data on 341 pregnancies and offspring of 133 carriers were collected from 69 pedigrees of carriers of RCT-7p and RCT-7q at risk for a single 7 segment imbalance. The probability rates of particular form of pregnancy pathology have been calculated according to the method of Stengel-Rutkowski and Stene, including all forms of meiotic segregation and their survival rates after fertilization to term childbirth. RESULTS: The probability rates for unbalanced offspring for carriers of RCT-7p after 2:2 disjunction and adjacent-1 segregation were calculated as 5.5% +/- 2.2% (6/108); for maternal (MAT) and paternal (PAT) carriers were about < 1% (0/56) and 13.6 +/- 5.2% (6/44) (p = 0.04) respectively. Considering different segment lengths of 7p, the following values for shorter and longer segments were obtained: 23.0 +/- 11.7% (3/13) for 7p21-->pter; 3.3 +/- 3.3% (1/30) for 7p 14-->pter and 3.1 +/- 2.1% (2/65) for 7p 1-->pter The risk figures for stillbirth/earl neonatal death were estimated at 2.8 +/- 1.6% (3/108), but for miscarriage were calculated at 25.9 +/- 4.2% (28/108) for carriers RCT-7p. The probability rates for unbalanced offspring at birth for carriers of RCT-7q were calculated as 2.7 +/- 1.5% (3/111); for MAT and PAT carriers were 3.5 +/- 2.0% (3/86) and < 2.6% (0/19) respectively. Considering different segment lengths of 7q, the following values for shorter and longer segments were obtained: 6.2 +/- 6.1% (1/16) for 7q33-->qter; 5.3 +/- 3.6% (2/38) for 7q32-->qter and < 0.82% (0/57) for 7q11-->qter. The risk figures for stillbirth/early neonatal death were estimated at 9.9 +/- 2.8% (11/111), but for miscarriage were calculated at 34.2 +/-4.5% (38/111) for carriers RCT-7q. The probability estimated values for unbalanced fetuses, evaluated prenatally in the second trimester of pregnancy for carriers of RCT-7p and RCT-7q were similar i.e. 41.7 +/- 14.2% (5/12) and 46.7 +/-12.9% (7/15), respectively. CONCLUSIONS: 1. The probability rates for unbalanced offspring and the risk values for individual categories of unfavorable outcomes for carriers of RCT-7 are different and depend on the size of chromosome 7 segment involved in RCT 2. The probability rate for unbalanced offspring for paternal carriers of RCT-7p is higher than for maternal carriers (p = 0.04). 3. It is suggested that the probability rate for unbalanced offspring for maternal carriers of RCT-7q may be higher than for paternal carriers.