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Acar H., Yildirim M.S., Cora T., Ceylaner S.: Evaluation of segregation patterns of 21;21 Robertsonian translocation along with sex chromosomes and interchromosomal effects in sperm nuclei of carrier by FISH technique. Mol. Reprod. Dev., 2002; 63: 232–236AcarH.YildirimM.S.CoraT.CeylanerS.Evaluation of segregation patterns of 21;21 Robertsonian translocation along with sex chromosomes and interchromosomal effects in sperm nuclei of carrier by FISH technique20026323223610.1002/mrd.1016612203833Search in Google Scholar
Agarwal A., Mulgund A., Hamada A., Chyatte M.R.: A unique view on male infertility around the globe. Reprod. Biol. Endocrinol., 2015; 13: 37AgarwalA.MulgundA.HamadaA.ChyatteM.R.A unique view on male infertility around the globe2015133710.1186/s12958-015-0032-1442452025928197Search in Google Scholar
Anahory T., Hamamah S., Andréo B., Hédon B., Claustres M., Sarda P., Pellestor F.: Sperm segregation analysis of a (13;22) Robertsonian translocation carrier by FISH: A comparison of locus-specific probe and whole chromosome painting. Hum. Reprod., 2005; 20: 1850–1854AnahoryT.HamamahS.AndréoB.HédonB.ClaustresM.SardaP.PellestorF.Sperm segregation analysis of a (13;22) Robertsonian translocation carrier by FISH: A comparison of locus-specific probe and whole chromosome painting2005201850185410.1093/humrep/deh88615845597Search in Google Scholar
Anton E., Blanco J., Egozcue J., Vidal F.: Sperm FISH studies in seven male carriers of Robertsonian translocation t(13;14)(q10;q10). Hum. Reprod., 2004; 19: 1345–1351AntonE.BlancoJ.EgozcueJ.VidalF.Sperm FISH studies in seven male carriers of Robertsonian translocation t(13;14)(q10;q10)2004191345135110.1093/humrep/deh23215117905Search in Google Scholar
Anton E., Blanco J., Vidal F.: Meiotic behavior of three D;G Robertsonian translocations: Segregation and interchromosomal effect. J. Hum. Genet., 2010; 55: 541–545AntonE.BlancoJ.VidalF.Meiotic behavior of three D;G Robertsonian translocations: Segregation and interchromosomal effect20105554154510.1038/jhg.2010.6720555339Search in Google Scholar
Anton E., Vidal F., Blanco J.: Interchromosomal effect analyses by sperm FISH: Incidence and distribution among reorganization carriers. Syst. Biol. Reprod. Med., 2011; 57: 268–278AntonE.VidalF.BlancoJ.Interchromosomal effect analyses by sperm FISH: Incidence and distribution among reorganization carriers20115726827810.3109/19396368.2011.63368222092077Search in Google Scholar
Aurias A., Prieur M., Dutrillaux B., Lejeune J.: Systematic analysis of 95 translocations of autosomes. Hum. Genet., 1978; 45: 259–282AuriasA.PrieurM.DutrillauxB.LejeuneJ.Systematic analysis of 95 translocations of autosomes19784525928210.1007/BF00278725738728Search in Google Scholar
Baccetti B., Collodel G., Marzella R., Moretti E., Piomboni P., Scapigliati G., Serafini F.: Ultrastructural studies of spermatozoa from infertile males with Robertsonian translocations and 18, X, Y aneuploidies. Hum. Reprod., 2005; 20: 2295–2300BaccettiB.CollodelG.MarzellaR.MorettiE.PiomboniP.ScapigliatiG.SerafiniF.Ultrastructural studies of spermatozoa from infertile males with Robertsonian translocations and 18, X, Y aneuploidies2005202295230010.1093/humrep/dei05015878922Search in Google Scholar
Balasar Ö., Acar H.: Investigation of the interchromosomal effects in male carriers with structural chromosomal abnormalities using FISH. Turk. J. Urol., 2020; 46: 178–185BalasarÖ.AcarH.Investigation of the interchromosomal effects in male carriers with structural chromosomal abnormalities using FISH20204617818510.5152/tud.2020.19255721996832301691Search in Google Scholar
Bernicot I., Schneider A., Mace A., Hamamah S., Hedon B., Pellestor F., Anahory T.: Analysis using fish of sperm and embryos from two carriers of rare rob(13;21) and rob(15;22) robertsonian translocation undergoing PGD. Eur. J. Med. Genet., 2012; 55: 245–251BernicotI.SchneiderA.MaceA.HamamahS.HedonB.PellestorF.AnahoryT.Analysis using fish of sperm and embryos from two carriers of rare rob(13;21) and rob(15;22) robertsonian translocation undergoing PGD20125524525110.1016/j.ejmg.2012.02.00322406402Search in Google Scholar
Blanco J., Egozcue J., Vidal F.: Interchromosomal effects for chromosome 21 in carriers of structural chromosome reorganizations determined by fluorescencein in situ hybridization on sperm nuclei. Hum. Genet., 2000; 106: 500–505BlancoJ.EgozcueJ.VidalF.Interchromosomal effects for chromosome 21 in carriers of structural chromosome reorganizations determined by fluorescencein in situ hybridization on sperm nuclei200010650050510.1007/s004390000295Search in Google Scholar
Brugnon F., Janny L., Communal Y., Darcha C., Szczepaniak C., Pellestor F., Vago P., Pons-Rejraji H., Artonne C., Grizard G.: Apoptosis and meiotic segregation in ejaculated sperm from Robertsonian trans-location carrier patients. Hum. Reprod., 2010; 25: 1631–1642BrugnonF.JannyL.CommunalY.DarchaC.SzczepaniakC.PellestorF.VagoP.Pons-RejrajiH.ArtonneC.GrizardG.Apoptosis and meiotic segregation in ejaculated sperm from Robertsonian trans-location carrier patients2010251631164210.1093/humrep/deq113Search in Google Scholar
Brugnon F., Van Assche E., Verheyen G., Sion B., Boucher D., Pouly J.L., Janny L., Devroey P., Liebaers I., Van Steirteghem A.: Study of two markers of apoptosis and meiotic segregation in ejaculated sperm of chromosomal translocation carrier patients. Hum. Reprod., 2006; 21: 685–693BrugnonF.Van AsscheE.VerheyenG.SionB.BoucherD.PoulyJ.L.JannyL.DevroeyP.LiebaersI.Van SteirteghemA.Study of two markers of apoptosis and meiotic segregation in ejaculated sperm of chromosomal translocation carrier patients20062168569310.1093/humrep/dei401Search in Google Scholar
Cassuto N.G., Le Foll N., Chantot-Bastaraud S., Balet R., Bouret D., Rouen A., Bhouri R., Hyon C., Siffroi J.P.: Sperm fluorescence in situ hybridization study in nine men carrying a Robertsonian or a reciprocal translocation: Relationship between segregation modes and high-magnification sperm morphology examination. Fertil. Steril., 2011; 96: 826–832CassutoN.G.Le FollN.Chantot-BastaraudS.BaletR.BouretD.RouenA.BhouriR.HyonC.SiffroiJ.P.Sperm fluorescence in situ hybridization study in nine men carrying a Robertsonian or a reciprocal translocation: Relationship between segregation modes and high-magnification sperm morphology examination20119682683210.1016/j.fertnstert.2011.07.1143Search in Google Scholar
Chandley A.C., Maclean N., Edmond P., Fletcher J., Watson G.S.: Cytogenetics and infertility in man. II. Testicular histology and meiosis. Ann. Hum. Genet., 1976; 40: 165–176ChandleyA.C.MacleanN.EdmondP.FletcherJ.WatsonG.S.Cytogenetics and infertility in man. II. Testicular histology and meiosis19764016517610.1111/j.1469-1809.1976.tb00176.xSearch in Google Scholar
Chantot-Bastaraud S., Ravel C., Siffroi J.P.: Underlying karyotype abnormalities in IVF/ICSI patients. Reprod. Biomed. Online, 2008; 16: 514–522Chantot-BastaraudS.RavelC.SiffroiJ.P.Underlying karyotype abnormalities in IVF/ICSI patients20081651452210.1016/S1472-6483(10)60458-0Search in Google Scholar
Chen Y., Huang J., Liu P., Qiao J.: Analysis of meiotic segregation patterns and interchromosomal effects in sperm from six males with Robertsonian translocations. J. Assist. Reprod. Genet., 2007; 24: 406–411ChenY.HuangJ.LiuP.QiaoJ.Analysis of meiotic segregation patterns and interchromosomal effects in sperm from six males with Robertsonian translocations20072440641110.1007/s10815-007-9137-6345494717653848Search in Google Scholar
Choo K.H., Vissel B., Brown R., Filby R.G., Earle E.: Homologous alpha satellite sequences on human acrocentric chromosomes with selectivity for chromosomes 13, 14 and 21: Implications for recombination between nonhomologues and Robertsonian translocations. Nucleic Acids Res., 1988; 16: 1273–1284ChooK.H.VisselB.BrownR.FilbyR.G.EarleE.Homologous alpha satellite sequences on human acrocentric chromosomes with selectivity for chromosomes 13, 14 and 21: Implications for recombination between nonhomologues and Robertsonian translocations1988161273128410.1093/nar/16.4.12733363132831495Search in Google Scholar
Douet-Guilbert N., Bris M.J., Amice V., Marchetti C., Delobel B., Amice J., Braekeleer M.D., Morel F.: Interchromosomal effect in sperm of males with translocations: Report of 6 cases and review of the literature. Int. J. Androl., 2005; 28: 372–379Douet-GuilbertN.BrisM.J.AmiceV.MarchettiC.DelobelB.AmiceJ.BraekeleerM.D.MorelF.Interchromosomal effect in sperm of males with translocations: Report of 6 cases and review of the literature20052837237910.1111/j.1365-2605.2005.00571.x16300670Search in Google Scholar
Dutrillaux B., Lejeune J.: Study of progeny of individuals bearing a t(DqDq) translocation. Ann. Genet., 1970; 13: 11–18DutrillauxB.LejeuneJ.Study of progeny of individuals bearing a t(DqDq) translocation1970131118Search in Google Scholar
Egozcue S., Blanco J., Vendrell J.M, García F., Veiga A., Aran B., Barri P.N, Vidal F., Egozcue J.: Human male infertility: Chromosome anomalies, meiotic disorders, abnormal spermatozoa and recurrent abortion. Hum. Reprod. Update, 2000; 6: 93–105EgozcueS.BlancoJ.VendrellJ.MGarcíaF.VeigaA.AranB.BarriP.NVidalF.EgozcueJ.Human male infertility: Chromosome anomalies, meiotic disorders, abnormal spermatozoa and recurrent abortion200069310510.1093/humupd/6.1.9310711834Search in Google Scholar
Escudero T., Lee M., Carrel D., Blanco J., Munné S.: Analysis of chromosome abnormalities in sperm and embryos from two 45,XY,t(13;14) (q10;q10) carriers. Prenat. Diagn., 2000; 20: 599–602EscuderoT.LeeM.CarrelD.BlancoJ.MunnéS.Analysis of chromosome abnormalities in sperm and embryos from two 45,XY,t(13;14) (q10;q10) carriers20002059960210.1002/1097-0223(200007)20:7<599::AID-PD883>3.0.CO;2-QSearch in Google Scholar
Ferfouri F., Selva J., Boitrelle F., Gomes D.M., Torre A., Albert M., Bailly M., Clement P., Vialard F.: The chromosomal risk in sperm from heterozygous Robertsonian translocation carriers is related to the sperm count and the translocation type. Fertil. Steril., 2011; 96: 1337–1343FerfouriF.SelvaJ.BoitrelleF.GomesD.M.TorreA.AlbertM.BaillyM.ClementP.VialardF.The chromosomal risk in sperm from heterozygous Robertsonian translocation carriers is related to the sperm count and the translocation type2011961337134310.1016/j.fertnstert.2011.09.008Search in Google Scholar
Ferlin A., Arredi B., Foresta C.: Genetic causes of male infertility. Reprod. Toxicol., 2006; 22: 133–141FerlinA.ArrediB.ForestaC.Genetic causes of male infertility20062213314110.1016/j.reprotox.2006.04.016Search in Google Scholar
Frydman N., Romana S., Le Lorc’h M., Vekemans M., Frydman R., Tachdjian G.: Assisting reproduction of infertile men carrying a Robertsonian translocation. Hum. Reprod., 2001; 16: 2274–2277FrydmanN.RomanaS.Le Lorc’hM.VekemansM.FrydmanR.TachdjianG.Assisting reproduction of infertile men carrying a Robertsonian translocation2001162274227710.1093/humrep/16.11.2274Search in Google Scholar
Godo A., Blanco J., Vidal F., Sandalinas M., Garcia-Guixé E., Anton E.: Altered segregation pattern and numerical chromosome abnormalities interrelate in spermatozoa from Robertsonian translocation carriers. Reprod. Biomed. Online, 2015; 31: 79–88GodoA.BlancoJ.VidalF.SandalinasM.Garcia-GuixéE.AntonE.Altered segregation pattern and numerical chromosome abnormalities interrelate in spermatozoa from Robertsonian translocation carriers201531798810.1016/j.rbmo.2015.04.003Search in Google Scholar
Haidich A.B.: Meta-analysis in medical research. Hippokratia, 2010; 14: 29–37HaidichA.B.Meta-analysis in medical research2010142937Search in Google Scholar
Hajlaoui A., Slimani W., Kammoun M., Sallem A., Braham S., Bibi M., Saad A., Mougou-Zerelli S.: Sperm fluorescent in situ hybridisation study of interchromosomal effect in six Tunisian carriers of reciprocal and Robertsonian translocations. Andrologia, 2018; 50: e12949HajlaouiA.SlimaniW.KammounM.SallemA.BrahamS.BibiM.SaadA.Mougou-ZerelliS.Sperm fluorescent in situ hybridisation study of interchromosomal effect in six Tunisian carriers of reciprocal and Robertsonian translocations201850e1294910.1111/and.12949Search in Google Scholar
Han J.Y., Choo K.H., Shaffer L.G.: Molecular cytogenetic characterization of 17 rob(13q14q) Robertsonian translocations by FISH, narrowing the region containing the breakpoints. Am. J. Hum. Genet., 1994; 55: 960–967HanJ.Y.ChooK.H.ShafferL.G.Molecular cytogenetic characterization of 17 rob(13q14q) Robertsonian translocations by FISH, narrowing the region containing the breakpoints199455960967Search in Google Scholar
Hassold T., Hunt P.: To err (meiotically) is human: The genesis of human aneuploidy. Nat. Rev. Genet., 2001; 2: 280–291HassoldT.HuntP.To err (meiotically) is human: The genesis of human aneuploidy2001228029110.1038/35066065Search in Google Scholar
Hatakeyama C., Gao H., Harmer K., Ma S.: Meiotic segregation patterns and ICSI pregnancy outcome of a rare (13;21) Robertsonian trans-location carrier: A case report. Hum. Reprod., 2006; 21: 976–979HatakeyamaC.GaoH.HarmerK.MaS.Meiotic segregation patterns and ICSI pregnancy outcome of a rare (13;21) Robertsonian trans-location carrier: A case report20062197697910.1093/humrep/dei427Search in Google Scholar
Honda H., Miharu N., Samura O., He H., Ohama K.: Meiotic segregation analysis of a 14;21 Robertsonian translocation carrier by fluorescence in situ hybridization. Hum. Genet., 2000; 106: 188–193HondaH.MiharuN.SamuraO.HeH.OhamaK.Meiotic segregation analysis of a 14;21 Robertsonian translocation carrier by fluorescence in situ hybridization200010618819310.1007/s004399900216Search in Google Scholar
Hook E.B.: Exclusion of chromosomal mosaicism: Tables of 90%, 95%, and 99% confidence limits and comments on use. Am. J. Hum. Genet., 1977; 29: 94–97HookE.B.Exclusion of chromosomal mosaicism: Tables of 90%, 95%, and 99% confidence limits and comments on use1977299497Search in Google Scholar
Ioannou D., Fortun J., Tempest H.G.: Meiotic nondisjunction and sperm aneuploidy in humans. Reproduction, 2019; 157: R15–R31IoannouD.FortunJ.TempestH.G.Meiotic nondisjunction and sperm aneuploidy in humans2019157R15R3110.1530/REP-18-0318Search in Google Scholar
Ioannou D., Tempest H.G.: Meiotic nondisjunction: Insights into the origin and significance of aneuploidy in human spermatozoa. Adv. Exp. Med. Biol., 2015; 868: 1–21IoannouD.TempestH.G.Meiotic nondisjunction: Insights into the origin and significance of aneuploidy in human spermatozoa201586812110.1007/978-3-319-18881-2_126178843Search in Google Scholar
Jarmuz-Szymczak M., Janiszewska J., Szyfter K., Shaffer L.G.: Narrowing the localization of the region breakpoint in most frequent Robertsonian translocations. Chromosome. Res., 2014; 22: 517–532Jarmuz-SzymczakM.JaniszewskaJ.SzyfterK.ShafferL.G.Narrowing the localization of the region breakpoint in most frequent Robertsonian translocations20142251753210.1007/s10577-014-9439-3425799625179263Search in Google Scholar
Kékesi A., Erdei E., Török M., Drávucz S., Tóth A.: Segregation of chromosomes in spermatozoa of four Hungarian translocation carriers. Fertil. Steril., 2007; 88: 212.e5–11KékesiA.ErdeiE.TörökM.DrávuczS.TóthA.Segregation of chromosomes in spermatozoa of four Hungarian translocation carriers200788212.e51110.1016/j.fertnstert.2006.11.09717274993Search in Google Scholar
Kim S.R., Shaffer L.G.: Roberstonian translocations: Mechanisms of formation, aneuploidy, and uniparental disomy and diagnostic considerations. Genet. Test., 2002; 6: 163–168KimS.R.ShafferL.G.Roberstonian translocations: Mechanisms of formation, aneuploidy, and uniparental disomy and diagnostic considerations2002616316810.1089/10906570276140331512490055Search in Google Scholar
Kirkpatrick G., Ferguson K.A., Gao H., Tang S., Chow V., Yuen B.H., Ma S.: A comparison of sperm aneuploidy rates between infertile men with normal and abnormal karyotypes. Hum. Reprod., 2008; 23: 1679–1683KirkpatrickG.FergusonK.A.GaoH.TangS.ChowV.YuenB.H.MaS.A comparison of sperm aneuploidy rates between infertile men with normal and abnormal karyotypes2008231679168310.1093/humrep/den12618436578Search in Google Scholar
Kirkpatrick G., Ren H., Liehr T., Chow V., Ma S.: Meiotic and sperm aneuploidy studies in three carriers of Robertsonian translocations and small supernumerary marker chromosomes. Fertil. Steril., 2015; 103: 1162–1169KirkpatrickG.RenH.LiehrT.ChowV.MaS.Meiotic and sperm aneuploidy studies in three carriers of Robertsonian translocations and small supernumerary marker chromosomes20151031162116910.1016/j.fertnstert.2015.02.00625796321Search in Google Scholar
Lamotte A., Martinez G., Devillard F., Hograindleur J.P., Satre V., Coutton C., Harbuz R., Amblard F., Lespinasse J., Benchaib M., Bessonnat J., Brouillet S., Hennebicq S.: Is sperm FISH analysis still useful for Robertsonian translocations? Meiotic analysis for 23 patients and review of the literature. Basic. Clin. Androl., 2018; 28: 5LamotteA.MartinezG.DevillardF.HograindleurJ.P.SatreV.CouttonC.HarbuzR.AmblardF.LespinasseJ.BenchaibM.BessonnatJ.BrouilletS.HennebicqS.Is sperm FISH analysis still useful for Robertsonian translocations? Meiotic analysis for 23 patients and review of the literature201828510.1186/s12610-018-0069-z593704829760927Search in Google Scholar
Luciani J.M., Guichaoua M.R., Mattei A., Morazzani M.R.: Pachytene analysis of a man with a 13q;14q translocation and infertility. Behavior of the trivalent and nonrandom association with the sex vesicle. Cytogenet. Cell Genet., 1984; 38: 14–22LucianiJ.M.GuichaouaM.R.MatteiA.MorazzaniM.R.Pachytene analysis of a man with a 13q;14q translocation and infertility. Behavior of the trivalent and nonrandom association with the sex vesicle198438142210.1159/0001320236200272Search in Google Scholar
Machev N., Gosset P., Warter S., Treger M., Schillinger M., Viville S.: Fluorescence in situ hybridization sperm analysis of six translocation carriers provides evidence of an interchromosomal effect. Fertil. Steril., 2005; 84: 365–373MachevN.GossetP.WarterS.TregerM.SchillingerM.VivilleS.Fluorescence in situ hybridization sperm analysis of six translocation carriers provides evidence of an interchromosomal effect20058436537310.1016/j.fertnstert.2005.03.02616084877Search in Google Scholar
Mahjoub M., Mehdi M., Brahem S., Elghezal H., Ibala S., Saad A.: Chromosomal segregation in spermatozoa of five Robertsonian translocation carriers t(13;14). J. Assist. Reprod. Genet., 2011; 28: 607–613MahjoubM.MehdiM.BrahemS.ElghezalH.IbalaS.SaadA.Chromosomal segregation in spermatozoa of five Robertsonian translocation carriers t(13;14)20112860761310.1007/s10815-011-9560-6316205521448573Search in Google Scholar
Martin R.H.: Cytogenetic analysis of sperm from a male heterozygous for a 13;14 Robertsonian translocation. Hum. Genet., 1988; 80: 357–361MartinR.H.Cytogenetic analysis of sperm from a male heterozygous for a 13;14 Robertsonian translocation19888035736110.1007/BF002736513198113Search in Google Scholar
Martin R.H., Ko E., Hildebrand K.: Analysis of sperm chromosome complements from a man heterozygous for a robertsonian translocation 45,XY,t(15q;22q). Am. J. Med. Genet., 1992; 43: 855–857MartinR.H.KoE.HildebrandK.Analysis of sperm chromosome complements from a man heterozygous for a robertsonian translocation 45,XY,t(15q;22q)19924385585710.1002/ajmg.13204305201642275Search in Google Scholar
Mau-Holzmann U.A.: Somatic chromosomal abnormalities in infertile men and women. Cytogenet. Genome. Res., 2005; 111: 317–336Mau-HolzmannU.A.Somatic chromosomal abnormalities in infertile men and women200511131733610.1159/00008690616192711Search in Google Scholar
Mayeur A., Ahdad N., Hesters L., Brisset S., Romana S., Tosca L., Tachdjian G., Frydman N.: Chromosomal translocations and semen quality: A study on 144 male translocation carriers. Reprod. Biomed. Online, 2019; 38: 46–55MayeurA.AhdadN.HestersL.BrissetS.RomanaS.ToscaL.TachdjianG.FrydmanN.Chromosomal translocations and semen quality: A study on 144 male translocation carriers201938465510.1016/j.rbmo.2018.10.00330518499Search in Google Scholar
McGowan-Jordan J., Simons A., Schmid M.: ISCN 2016: An International System for Human Cytogenomic Nomenclature (2016). Karger, Basel 2016McGowan-JordanJ.SimonsA.SchmidM.KargerBasel201610.1159/isbn.978-3-318-06861-0Search in Google Scholar
Mennicke K., Diercks P., Schlieker H., Bals-Pratsch M., al Hasani S., Diedrich K., Schwinger E.: Molecular cytogenetic diagnostics in sperm. Int. J. Androl., 1997; 20: 11–19MennickeK.DiercksP.SchliekerH.Bals-PratschM.al HasaniS.DiedrichK.SchwingerE.Molecular cytogenetic diagnostics in sperm1997201119Search in Google Scholar
Moradkhani K., Puechberty J., Bhatt S., Lespinasse J., Vago P., Lefort G., Sarda P., Hamamah S., Pellestor F.: Rare Robertsonian translocations and meiotic behaviour: Sperm FISH analysis of t(13;15) and t(14;15) translocations: a case report. Hum. Reprod., 2006; 21: 3193–3198MoradkhaniK.PuechbertyJ.BhattS.LespinasseJ.VagoP.LefortG.SardaP.HamamahS.PellestorF.Rare Robertsonian translocations and meiotic behaviour: Sperm FISH analysis of t(13;15) and t(14;15) translocations: a case report2006213193319810.1093/humrep/del31416917122Search in Google Scholar
Moradkhani K., Puechberty J., Bhatt S., Vago P., Janny L., Lefort G., Hamamah S., Sarda P., Pellestor F.: Meiotic segregation of rare Robertsonian translocations: Sperm analysis of three t(14q;22q) cases. Hum. Reprod., 2006; 21: 1166–1171MoradkhaniK.PuechbertyJ.BhattS.VagoP.JannyL.LefortG.HamamahS.SardaP.PellestorF.Meiotic segregation of rare Robertsonian translocations: Sperm analysis of three t(14q;22q) cases2006211166117110.1093/humrep/dei47716439506Search in Google Scholar
Morel F., Roux C., Bresson J.L.: FISH analysis of the chromosomal status of spermatozoa from three men with 45,XY,der(13;14)(q10;q10) karyotype. Mol. Hum. Reprod., 2001; 7: 483–488MorelF.RouxC.BressonJ.L.FISH analysis of the chromosomal status of spermatozoa from three men with 45,XY,der(13;14)(q10;q10) karyotype2001748348810.1093/molehr/7.5.48311331672Search in Google Scholar
Nielsen J., Wohlert M.: Chromosome abnormalities found among 34,910 newborn children: Results from a 13-year incidence study in Arhus, Denmark. Hum. Genet., 1991; 87: 81–83NielsenJ.WohlertM.Chromosome abnormalities found among 34,910 newborn children: Results from a 13-year incidence study in Arhus, Denmark199187818310.1007/BF012130972037286Search in Google Scholar
Nishikawa N., Sato T., Suzumori N., Sonta S., Suzumori K.: Meiotic segregation analysis in male translocation carriers by using fluorescent in situ hybridization. Int. J. Androl., 2008; 31: 60–66NishikawaN.SatoT.SuzumoriN.SontaS.SuzumoriK.Meiotic segregation analysis in male translocation carriers by using fluorescent in situ hybridization200831606610.1111/j.1365-2605.2007.00759.x17459123Search in Google Scholar
Ogawa S., Araki S., Araki Y., Ohno M., Sato I.: Chromosome analysis of human spermatozoa from an oligoasthenozoospermic carrier for a 13;14 Robertsonian translocation by their injection into mouse oocytes. Hum. Reprod., 2000; 15: 1136–1139OgawaS.ArakiS.ArakiY.OhnoM.SatoI.Chromosome analysis of human spermatozoa from an oligoasthenozoospermic carrier for a 13;14 Robertsonian translocation by their injection into mouse oocytes2000151136113910.1093/humrep/15.5.113610783366Search in Google Scholar
Ogur G., Van Assche E., Vegetti W., Verheyen G., Tournaye H., Bonduelle M., Van Steirteghem A., Liebaers I.: Chromosomal segregation in spermatozoa of 14 Robertsonian translocation carriers. Mol. Hum. Reprod., 2006; 12: 209–215OgurG.Van AsscheE.VegettiW.VerheyenG.TournayeH.BonduelleM.Van SteirteghemA.LiebaersI.Chromosomal segregation in spermatozoa of 14 Robertsonian translocation carriers20061220921510.1093/molehr/gah25316524928Search in Google Scholar
Olszewska M., Fraczek M., Huleyuk N., Czernikiewicz A., Wiland E., Boksa M., Zastavna D., Panasiuk B., Midro A.T., Kurpisz M.: Chromatin structure analysis of spermatozoa from reciprocal chromosome trans-location (RCT) carriers with known meiotic segregation patterns. Reprod. Biol., 2013; 13: 209–220OlszewskaM.FraczekM.HuleyukN.CzernikiewiczA.WilandE.BoksaM.ZastavnaD.PanasiukB.MidroA.T.KurpiszM.Chromatin structure analysis of spermatozoa from reciprocal chromosome trans-location (RCT) carriers with known meiotic segregation patterns20131320922010.1016/j.repbio.2013.06.00224011192Search in Google Scholar
Olszewska M., Huleyuk N., Fraczek M., Zastavna D., Wiland E., Kurpisz M.: Sperm FISH and chromatin integrity in spermatozoa from a t(6;10;11) carrier. Reproduction, 2014; 147: 659–670OlszewskaM.HuleyukN.FraczekM.ZastavnaD.WilandE.KurpiszM.Sperm FISH and chromatin integrity in spermatozoa from a t(6;10;11) carrier201414765967010.1530/REP-13-053324713394Search in Google Scholar
Page S.L., Shaffer L.G.: Nonhomologous Robertsonian translocations form predominantly during female meiosis. Nat. Genet., 1997; 15: 231–232PageS.L.ShafferL.G.Nonhomologous Robertsonian translocations form predominantly during female meiosis19971523123210.1038/ng0397-2319054929Search in Google Scholar
Page S.L., Shin J.C., Han J.Y., Choo K.H., Shaffer L.G.: Breakpoint diversity illustrates distinct mechanisms for Robertsonian translocation formation. Hum. Mol. Genet., 1996; 5: 1279–1288PageS.L.ShinJ.C.HanJ.Y.ChooK.H.ShafferL.G.Breakpoint diversity illustrates distinct mechanisms for Robertsonian translocation formation199651279128810.1093/hmg/5.9.12798872467Search in Google Scholar
Pellestor F.: Analysis of meiotic segregation in a man heterozygous for a 13;15 Robertsonian translocation and a review of the literature. Hum. Genet., 1990; 85: 49–54PellestorF.Analysis of meiotic segregation in a man heterozygous for a 13;15 Robertsonian translocation and a review of the literature199085495410.1007/BF002763252358303Search in Google Scholar
Pellestor F., Imbert I., Andréo B., Lefort G.: Study of the occurrence of interchromosomal effect in spermatozoa of chromosomal rearrangement carriers by fluorescence in-situ hybridization and primed in-situ labelling techniques. Hum. Reprod., 2001; 16: 1155–1164PellestorF.ImbertI.AndréoB.LefortG.Study of the occurrence of interchromosomal effect in spermatozoa of chromosomal rearrangement carriers by fluorescence in-situ hybridization and primed in-situ labelling techniques2001161155116410.1093/humrep/16.6.115511387286Search in Google Scholar
Pellestor F., Sele B., Jalbert H.: Chromosome analysis of spermatozoa from a male heterozygous for a 13;14 Robertsonian translocation. Hum. Genet., 1987; 76: 116–120PellestorF.SeleB.JalbertH.Chromosome analysis of spermatozoa from a male heterozygous for a 13;14 Robertsonian translocation19877611612010.1007/BF002849053475245Search in Google Scholar
Perrin A., Morel F., Douet-Guilbert N., Le Bris M.J., Amice J., Amice V., De Braekeleer M.: A study of meiotic segregation of chromosomes in spermatozoa of translocation carriers using fluorescent in situ hybridisation. Andrologia, 2010; 42: 27–34PerrinA.MorelF.Douet-GuilbertN.Le BrisM.J.AmiceJ.AmiceV.De BraekeleerM.A study of meiotic segregation of chromosomes in spermatozoa of translocation carriers using fluorescent in situ hybridisation201042273410.1111/j.1439-0272.2009.00951.x20078513Search in Google Scholar
Perrin A., Nguyen M.H., Bujan L., Vialard F., Amice V., Guéganic N., Douet-Guilbert N., De Braekeleer M., Morel F.: DNA fragmentation is higher in spermatozoa with chromosomally unbalanced content in men with a structural chromosomal rearrangement. Andrology, 2013; 1: 632–638PerrinA.NguyenM.H.BujanL.VialardF.AmiceV.GuéganicN.Douet-GuilbertN.De BraekeleerM.MorelF.DNA fragmentation is higher in spermatozoa with chromosomally unbalanced content in men with a structural chromosomal rearrangement2013163263810.1111/j.2047-2927.2013.00100.x23785022Search in Google Scholar
Pylyp L.Y., Zukin V.D., Bilko N.M.: Chromosomal segregation in sperm of Robertsonian translocation carriers. J. Assist. Reprod. Genet., 2013; 30: 1141–1145PylypL.Y.ZukinV.D.BilkoN.M.Chromosomal segregation in sperm of Robertsonian translocation carriers2013301141114510.1007/s10815-013-0067-1380054023893157Search in Google Scholar
Rives N., Ravel C., Duchesne V., Siffroi J.P., Mousset-Siméon N., Macé B.: Molecular cytogenetics analysis with whole chromosome paint probes of sperm nuclei from a (13;15) Robertsonian translocation carrier. J. Hum. Genet., 2005; 50: 360–364RivesN.RavelC.DuchesneV.SiffroiJ.P.Mousset-SiméonN.MacéB.Molecular cytogenetics analysis with whole chromosome paint probes of sperm nuclei from a (13;15) Robertsonian translocation carrier20055036036410.1007/s10038-005-0259-316025187Search in Google Scholar
Rogenhofer N., Dürl S., Ochsenkühn R., Neusser M., Aichinger E., Thaler C.J., Müller S.: Case report: Elevated sperm aneuploidy levels in an infertile Robertsonian translocation t(21;21) carrier with possible interchromosomal effect. J. Assist. Reprod. Genet., 2012; 29: 343–346RogenhoferN.DürlS.OchsenkühnR.NeusserM.AichingerE.ThalerC.J.MüllerS.Case report: Elevated sperm aneuploidy levels in an infertile Robertsonian translocation t(21;21) carrier with possible interchromosomal effect20122934334610.1007/s10815-012-9720-3330998922318294Search in Google Scholar
Rouen A., Balet R., Dorna M., Hyon C., Pollet-Villard X., Chantot-Bastaraud S., Joyé N., Portnoï M.F., Cassuto N.G., Siffroi J.P.: Discontinuous gradient centrifugation (DGC) decreases the proportion of chromosomally unbalanced spermatozoa in chromosomal rearrangement carriers. Hum. Reprod., 2013; 28: 2003–2009RouenA.BaletR.DornaM.HyonC.Pollet-VillardX.Chantot-BastaraudS.JoyéN.PortnoïM.F.CassutoN.G.SiffroiJ.P.Discontinuous gradient centrifugation (DGC) decreases the proportion of chromosomally unbalanced spermatozoa in chromosomal rearrangement carriers2013282003200910.1093/humrep/det12123633550Search in Google Scholar
Rouen A., Carlier L., Heide S., Egloff M., Marzin P., Ader F., Schwartz M., Rogers E., Joyé N., Balet R., Lédée N., Prat-Ellenberg L., Cassuto N.G., Siffroi J.P.: Potential selection of genetically balanced spermatozoa based on the hypo-osmotic swelling test in chromosomal rearrangement carriers. Reprod. Biomed. Online, 2017; 35: 372–378RouenA.CarlierL.HeideS.EgloffM.MarzinP.AderF.SchwartzM.RogersE.JoyéN.BaletR.LédéeN.Prat-EllenbergL.CassutoN.G.SiffroiJ.P.Potential selection of genetically balanced spermatozoa based on the hypo-osmotic swelling test in chromosomal rearrangement carriers20173537237810.1016/j.rbmo.2017.06.01728711302Search in Google Scholar
Rousseaux S., Chevret E., Monteil M., Cozzi J., Pelletier R., Delafontaine D., Sèle B.: Sperm nuclei analysis of a Robertsonian t(14q21q) carrier, by FISH, using three plasmids and two YAC probes. Hum. Genet., 1995; 96: 655–660RousseauxS.ChevretE.MonteilM.CozziJ.PelletierR.DelafontaineD.SèleB.Sperm nuclei analysis of a Robertsonian t(14q21q) carrier, by FISH, using three plasmids and two YAC probes19959665566010.1007/BF002102948522322Search in Google Scholar
Roux C., Tripogney C., Morel F., Joanne C., Fellmann F., Clavequin M.C., Bresson J.L.: Segregation of chromosomes in sperm of Robertsonian translocation carriers. Cytogenet. Genome. Res., 2005; 111: 291–296RouxC.TripogneyC.MorelF.JoanneC.FellmannF.ClavequinM.C.BressonJ.L.Segregation of chromosomes in sperm of Robertsonian translocation carriers200511129129610.1159/00008690216192707Search in Google Scholar
Sarrate Z., Vidal F., Blanco J.: Role of sperm fluorescent in situ hybridization studies in infertile patients: Indications, study approach, and clinical relevance. Fertil. Steril., 2010; 93: 1892–1902SarrateZ.VidalF.BlancoJ.Role of sperm fluorescent in situ hybridization studies in infertile patients: Indications, study approach, and clinical relevance2010931892190210.1016/j.fertnstert.2008.12.13919254793Search in Google Scholar
Scriven P.N., Flinter F.A, Braude P.R., Ogilvie C.M.: Robertsonian translocations – reproductive risks and indications for preimplantation genetic diagnosis. Hum. Reprod., 2001; 16: 2267–2273ScrivenP.N.FlinterF.ABraudeP.R.OgilvieC.M.Robertsonian translocations – reproductive risks and indications for preimplantation genetic diagnosis2001162267227310.1093/humrep/16.11.226711679502Search in Google Scholar
Seabright M.: A rapid banding technique for human chromosomes. Lancet, 1971; 2: 971–972SeabrightM.A rapid banding technique for human chromosomes1971297197210.1016/S0140-6736(71)90287-XSearch in Google Scholar
Shi Q., Martin R.H.: Aneuploidy in human spermatozoa: FISH analysis in men with constitutional chromosomal abnormalities, and in infertile men. Reproduction, 2001; 121: 655–666ShiQ.MartinR.H.Aneuploidy in human spermatozoa: FISH analysis in men with constitutional chromosomal abnormalities, and in infertile men200112165566610.1530/rep.0.121065511427153Search in Google Scholar
Sobotka V., Vozdova M., Heracek J., Rubes J.: A rare Robertsonian translocation rob(14;22) carrier with azoospermia, meiotic defects, and testicular sperm aneuploidy. Syst. Biol. Reprod. Med., 2015; 61: 245–250SobotkaV.VozdovaM.HeracekJ.RubesJ.A rare Robertsonian translocation rob(14;22) carrier with azoospermia, meiotic defects, and testicular sperm aneuploidy20156124525010.3109/19396368.2015.104508926043179Search in Google Scholar
Song J., Li X., Sun L., Xu S., Liu N., Yao Y., Liu Z., Wang W., Rong H., Wang B.: A family with Robertsonian translocation: A potential mechanism of speciation in humans. Mol. Cytogenet., 2016; 9: 48SongJ.LiX.SunL.XuS.LiuN.YaoY.LiuZ.WangW.RongH.WangB.A family with Robertsonian translocation: A potential mechanism of speciation in humans201694810.1186/s13039-016-0255-7491278927330563Search in Google Scholar
Syme R.M., Martin R.H.: Meiotic segregation of a 21;22 Robertsonian translocation. Hum. Reprod., 1992; 7: 825–829SymeR.M.MartinR.H.Meiotic segregation of a 21;22 Robertsonian translocation1992782582910.1093/oxfordjournals.humrep.a1377441500482Search in Google Scholar
Tempest H.G., Ko E., Rademaker A., Chan P., Robaire B., Martin R.H.: Intra-individual and inter-individual variations in sperm aneuploidy frequencies in normal men. Fertil. Steril., 2009; 91: 185–192TempestH.G.KoE.RademakerA.ChanP.RobaireB.MartinR.H.Intra-individual and inter-individual variations in sperm aneuploidy frequencies in normal men20099118519210.1016/j.fertnstert.2007.11.00218440524Search in Google Scholar
Therman E., Susman B., Denniston C.: The nonrandom participation of human acrocentric chromosomes in Robertsonian translocations. Ann. Hum. Genet., 1989; 53: 49–65ThermanE.SusmanB.DennistonC.The nonrandom participation of human acrocentric chromosomes in Robertsonian translocations198953496510.1111/j.1469-1809.1989.tb01121.x2658738Search in Google Scholar
Vegetti W., Van Assche E., Frias A., Verheyen G., Bianchi M.M., Bonduelle M., Liebaers I., Van Steirteghem A.: Correlation between semen parameters and sperm aneuploidy rates investigated by fluorescence in-situ hybridization in infertile men. Hum. Reprod., 2000; 15: 351–365VegettiW.Van AsscheE.FriasA.VerheyenG.BianchiM.M.BonduelleM.LiebaersI.Van SteirteghemA.Correlation between semen parameters and sperm aneuploidy rates investigated by fluorescence in-situ hybridization in infertile men20001535136510.1093/humrep/15.2.35110655307Search in Google Scholar
Veld P.A., Weber R.F., Los F.J., den Hollander N., Dhont M., Pieters M.H., Van Hemel J.O.: Two cases of Robertsonian translocations in oligozoospermic males and their consequences for pregnancies induced by intracytoplasmic sperm injection. Hum. Reprod., 1997; 12: 1642–1644VeldP.A.WeberR.F.LosF.J.den HollanderN.DhontM.PietersM.H.Van HemelJ.O.Two cases of Robertsonian translocations in oligozoospermic males and their consequences for pregnancies induced by intracytoplasmic sperm injection1997121642164410.1093/humrep/12.8.16429308785Search in Google Scholar
Vozdova M., Oracova E., Kasikova K., Prinosilova P., Rybar R., Horinova V., Gaillyova R., Rubes J.: Balanced chromosomal translocations in men: Relationships among semen parameters, chromatin integrity, sperm meiotic segregation and aneuploidy. J. Assist. Reprod. Genet., 2013; 30: 391–405VozdovaM.OracovaE.KasikovaK.PrinosilovaP.RybarR.HorinovaV.GaillyovaR.RubesJ.Balanced chromosomal translocations in men: Relationships among semen parameters, chromatin integrity, sperm meiotic segregation and aneuploidy20133039140510.1007/s10815-012-9921-9360767723318982Search in Google Scholar
Wang B., Nie B., Tang D., Li R., Liu X., Song J., Wang W., Liu Z.: Analysis of meiotic segregation patterns and interchromosomal effects in sperm from 13 Robertsonian translocations. Balkan J. Med. Genet., 2017; 20: 43–50WangB.NieB.TangD.LiR.LiuX.SongJ.WangW.LiuZ.Analysis of meiotic segregation patterns and interchromosomal effects in sperm from 13 Robertsonian translocations201720435010.1515/bjmg-2017-0003559682128924540Search in Google Scholar
Wiland E., Olszewska M., Huleyuk N., Chernykh V.B., Kurpisz M.: The effect of Robertsonian translocation on the intranuclear positioning of NORs (nucleolar organizing regions) in human sperm cells. Sci. Rep., 2019; 9: 2213WilandE.OlszewskaM.HuleyukN.ChernykhV.B.KurpiszM.The effect of Robertsonian translocation on the intranuclear positioning of NORs (nucleolar organizing regions) in human sperm cells20199221310.1038/s41598-019-38478-x637938630778082Search in Google Scholar
World Health Organization: WHO laboratory manual for the examination and processing of human semen, 5th ed. World Health Organization, 2010World Health Organization5th ed.World Health Organization2010Search in Google Scholar
Xu S., Tang D., Fang K., Xia Y., Song J., Wang W., Cheng M., Wang B.: Analysis of meiotic segregation patterns and interchromosomal effects in sperm from a Robertsonian translocation family. Biomedical Res., 2014; 25: 233–239XuS.TangD.FangK.XiaY.SongJ.WangW.ChengM.WangB.Analysis of meiotic segregation patterns and interchromosomal effects in sperm from a Robertsonian translocation family201425233239Search in Google Scholar
Zhao W.W., Wu M., Chen F., Jiang S., Su H., Linag J., Deng C., Hu C., Yu S.: Robertsonian translocations: An overview of 872 Robertsonian translocations identified in a diagnostic laboratory in China. PLoS One, 2015; 10: 0122647ZhaoW.W.WuM.ChenF.JiangS.SuH.LinagJ.DengC.HuC.YuS.Robertsonian translocations: An overview of 872 Robertsonian translocations identified in a diagnostic laboratory in China201510012264710.1371/journal.pone.0122647441670525932913Search in Google Scholar