DOCSLIB.ORG

Disorders Detected by Invitae NIPS

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Disorders Detected by Invitae NIPS Disorders detected by Invitae NIPS DISORDER CHROMOSOME DESCRIPTION PREVALENCE COMMON TRISOMIES Down Trisomy 21 Although some pregnancies with trisomy 21 end in pregnancy loss, trisomy 21 Trisomy 21 is the syndrome often can lead to live birth. Individuals with trisomy 21 have variable physical most common features and intellectual disability. Some of the common features of trisomy 21 chromosome abnor- include heart defects, low muscle tone, and differences in facial features. In ad- mality, occurring in 1 dition, cognitive impairment can range from mild to severe. People with Down in 700 to 1 in 800 live syndrome have a higher risk for certain medical conditions, such as hearing births. problems, thyroid problems, childhood leukemia, and Alzheimer’s disease. People with Down syndrome may require supervision throughout their lives. However, many people with Down syndrome are increasingly attending school and holding jobs. Many individuals with Down syndrome live into adulthood. Edwards Trisomy 18 Although many pregnancies with trisomy 18 result in miscarriage or stillbirth, Trisomy 18 occurs syndrome trisomy 18 can result in live birth. Individuals with trisomy 18 have severe in 1 in 6000 to 1 in intellectual disability and abnormalities involving multiple organs. Some of 8000 live births. the common features of trisomy 18 include heart defects, brain abnormalities, musculoskeletal problems, cleft lip and palate, and low birth weight. Although less than 10% of babies with trisomy 18 will live past 1 year of age, some peo- ple with this condition can live years or even decades. Patau Trisomy 13 Although the majority of pregnancies with trisomy 13 result in miscarriage or Trisomy 13 occurs in syndrome stillbirth, trisomy 13 can result in live birth. Individuals with trisomy 13 have approximately 1 in severe intellectual disability and abnormalities involving multiple organs. 12,000 live births. Some of the common features of trisomy 13 include heart defects, omphalo- cele, brain abnormalities such as holoprosencephaly, cleft lip and palate, and other features. Although less than 10% of babies with trisomy 13 will live past 1 year of age, some people with this condition can live years or even decades. SEX CHROMOSOME DISORDERS Turner Monosomy X Monosomy X is a condition that is caused by having one X sex chromosome Approximately 1 in syndrome and an absent second sex chromosome (one sex chromosome instead of 2500 females are two sex chromosomes). Many pregnancies with monosomy X will result in a born with mono- pregnancy loss; however, monosomy X is compatible with continued survival somy X. and live birth. Females with monosomy X have variable phenotypes. Typically, females with monosomy X have normal intelligence; however, learning dis- abilities are possible and variable. Some of the common features of mono- somy X include heart defects, kidney abnormalities, short stature, congenital lymphedema, and primary amenorrhea. XXX 47,XXX XXX syndrome is a condition that is caused by a female having an extra copy Approximately 1 in syndrome of the X sex chromosome (three copies of the X chromosome instead of the 1000 females are usual two copies). XXX syndrome is likely to result in live birth. XXX syndrome born with XXX syn- is usually not associated with intellectual disability or severe birth defects. drome. Some of the common features of XXX syndrome include delayed speech and motor development. Females with XXX syndrome can be taller than average height. Pubertal development and fertility is usually normal. Klinefelter 47,XXY XXY syndrome is a condition that is caused by a male having an extra copy of Approximately 1 in syndrome the X sex chromosome (two copies of the X chromosome and one copy of the 600 males are born Y chromosome rather than the usual one copy of each). XXY syndrome is likely with XXY syndrome. to result in live birth. Males with XXY syndrome have variable phenotypes. Some of the common features of XXY syndrome include learning disabilities, delayed speech and language development, taller stature, hypogonadism, and risk of infertility. Jacobs 47,XYY XYY syndrome is a condition that is caused by a male having an extra copy of Approximately 1 in syndrome the Y sex chromosome (one copy of the X chromosome and two copies of the 1000 males are born Y chromosome rather than the usual one copy of each). XYY syndrome is likely with XYY syndrome. to result in live birth. Males with XYY syndrome have variable phenotypes. Some of the common features of XYY syndrome include delayed speech and language development and taller stature. There is a slightly increased risk for males with XYY syndrome to have an autism spectrum disorder or learning disability. MICRODELETION SYNDROMES 1p36 1p36 deletion 1p36 deletion syndrome is a genetic syndrome characterized by birth de- 1 in 4,000 to 1 in deletion fects, intellectual disability, and other serious medical issues. 1p36 deletion 10,000 newborns syndrome syndrome is caused by a deletion in the region of 1p36. Key features of this have this condition, syndrome include characteristic craniofacial features, intellectual disability, sei- with a female to zures, skeletal abnormalities, and brain and heart defects. Lifespan is variable male ratio of 2:1. but can be normal. Wolf- 4p16.3 deletion 4p- syndrome is a rare genetic syndrome characterized by birth defects, intel- 1 in 50,000 newborns Hirschhorn lectual disability, and other serious medical problems. 4p- syndrome is caused have this condition, syndrome/ by a deletion in the region of 4p16.3. Key features of the syndrome include with a 2:1 female to 4p- syndrome prenatal-onset growth deficiency followed by postnatal growth retardation male ratio. and hypotonia with muscle underdevelopment, typical craniofacial features in infancy consisting of a characteristic appearance of the nose, microcephaly, intellectual disability of variable degree, seizures, skeletal anomalies, congen- ital heart defects, hearing loss (mostly conductive), urinary tract malforma- tions, and structural brain abnormalities. Life expectancy varies depending on severity of features. Cri-du-Chat 5p15.2 deletion 5p- syndrome is a genetic syndrome characterized by birth defects, intellectual 1 in 20,000 to 1 in syndrome/ disability, and other serious medical issues. 5p- syndrome is caused by a dele- 50,000 live births 5p- syndrome tion in the region of 5p15.2. Key features of this syndrome include significant have this condition. intellectual disability, speech delay, cat-like cry, dysmorphic features, micro- cephaly and 10% mortality in first year. Prader-Willi 15q11.2-q13 Prader-Willi syndrome (PWS) is a rare genetic condition that causes difficulty 1 in 10,000 to 1 in and deletion feeding and failure to thrive in infancy, with obesity, developmental delay, and 25,000 newborns Angelman other medical problems as the child gets older. NIPT is only able to detect have PWS. 1 in syndromes PWS caused by a deletion, which accounts for ~70% of cases; the remaining 12,000 to 1 in 20,000 cases are caused by different underlying molecular mechanisms. Angelman newborns have AS. syndrome (AS) is a rare genetic syndrome that includes intellectual disability and other serious medical problems. NIPT is only able to detect AS caused be a deletion, which accounts for ~68% of cases; the remaining cases are caused by different underlying molecular mechanisms. DiGeorge 22q11.2 deletion 22q11.2 deletion syndrome is a genetic syndrome that is variable in presen- 1 in 4,000 live births syndrome tation. Many features have been reported, yet individuals with this syndrome have this condition. may have different presentations from one another. Key features of this syndrome are variable, but include intellectual disability, heart defects, palatal abnormalities, immune deficiency, and dysmorphic features. Life span is usu- ally normal, but can vary depending on severity of features. References 1. American College of Obstetricians and Gynecologists. Screening for fetal aneuploidy. Practice Bulletin No. 163. Obstet Gynecol. 2016;127:e123-e137. 2. Gardner RJM, Sutherland GR, Schaffer LG. Chromosome Abnormalities and Genetic Counseling. 5th ed. New York, NY: Oxford University Press; 2018. 3. Jones KL. Smith’s Recognizable Patterns of Human Malformation. 6th ed. Philadelphia, PA: W.B. Saunders Company; 2006. 4. Nussbaum RL, McInnes RR, Willard HF. Thompson & Thompson Genetics in Medicine. 7th ed. Philadelphia, PA: Saunders Elsevier; 2007. HEADQUARTERS | 1400 16th Street, San Francisco, CA 94103 | ONLINE | www.invitae.com | CONTACT | www.invitae.com/ contact © 2019 Invitae Corporation. All Rights Reserved. P/N F250-1.
Load more

Recommended publications
  • The Prevalence of 47, XYY Males Among Collegiate Basketball Players
    Western Michigan University ScholarWorks at WMU Master's Theses Graduate College 4-1976 The Prevalence of 47, XYY Males among Collegiate Basketball Players Joy Ann Price Follow this and additional works at: https://scholarworks.wmich.edu/masters_theses Part of the Genetics and Genomics Commons Recommended Citation Price, Joy Ann, "The Prevalence of 47, XYY Males among Collegiate Basketball Players" (1976). Master's Theses. 2377. https://scholarworks.wmich.edu/masters_theses/2377 This Masters Thesis-Open Access is brought to you for free and open access by the Graduate College at ScholarWorks at WMU. It has been accepted for inclusion in Master's Theses by an authorized administrator of ScholarWorks at WMU. For more information, please contact [email protected]. THE PREVALENCE OF 47,XYY MALES AMONG COLLEGIATE BASKETBALL PLAYERS by Joy Ann Price A Project Report Submitted to the Faculty of The Graduate College in partial fulfillment of the Specialist in Arts Degree Western Michigan University Kalamazoo, Michigan A p ri1 1976 Reproduced with permission of the copyright owner. Further reproduction prohibited without permission. ACKNOWLEDGEMENTS My appreciation and gratitude go to the members of my committee, Dr. Walter E. Johnson, Dr. Paul E. Holkeboer and Dr. Mary M. Rigney. My thanks go to them as veil as Dr. Rodney Cyrus of the University of Wisconsin-Oshkosh and Dr. W.J. Perreault of Lawrence University, whose advic encouragement and constructive criticism were most h e lp f u l. Finally, I would like to make a special note of gratitude to my husband, James H. Price, for his patience during the many ups and downs of this research.
    [Show full text]
  • The Epidemiology of Sex Chromosome Abnormalities
    Received: 12 March 2020 Revised: 11 May 2020 Accepted: 11 May 2020 DOI: 10.1002/ajmg.c.31805 RESEARCH REVIEW The epidemiology of sex chromosome abnormalities Agnethe Berglund1,2,3 | Kirstine Stochholm3 | Claus Højbjerg Gravholt2,3 1Department of Clinical Genetics, Aarhus University Hospital, Aarhus, Denmark Abstract 2Department of Molecular Medicine, Aarhus Sex chromosome abnormalities (SCAs) are characterized by gain or loss of entire sex University Hospital, Aarhus, Denmark chromosomes or parts of sex chromosomes with the best-known syndromes being 3Department of Endocrinology and Internal Medicine, Aarhus University Hospital, Aarhus, Turner syndrome, Klinefelter syndrome, 47,XXX syndrome, and 47,XYY syndrome. Denmark Since these syndromes were first described more than 60 years ago, several papers Correspondence have reported on diseases and health related problems, neurocognitive deficits, and Agnethe Berglund, Department of Clinical social challenges among affected persons. However, the generally increased comor- Genetics, Aarhus University Hospital, Aarhus, Denmark. bidity burden with specific comorbidity patterns within and across syndromes as well Email: [email protected] as early death of affected persons was not recognized until the last couple of Funding information decades, where population-based epidemiological studies were undertaken. More- Familien Hede Nielsens Fond; Novo Nordisk over, these epidemiological studies provided knowledge of an association between Fonden, Grant/Award Numbers: NNF13OC0003234, NNF15OC0016474 SCAs and a negatively reduced socioeconomic status in terms of education, income, retirement, cohabitation with a partner and parenthood. This review is on the aspects of epidemiology in Turner, Klinefelter, 47,XXX and 47,XYY syndrome. KEYWORDS 47,XXX syndrome, 47,XYY syndrome, epidemiology, Klinefelter syndrome, Turner syndrome 1 | INTRODUCTION 100 participants, and many with much fewer participants.
    [Show full text]
  • XYY Syndrome – Jacobs Syndrome
    XYY Syndrome – Jacobs Syndrome XYY syndrome, sometimes known as Jacobs syndrome, is a sex chromosome aneuploidy that occurs in males when there are two copies of the Y chromosome instead of the expected one Y chromosome (figure 1). It is a chromosomal condition occurring in at least 1 in every 1000 male births; however, many males with XYY syndrome never come to clinical attention so it could be more common. Some males with XYY syndrome will be mosaic, where some of their cells have two Y chromosomes and the other cells have the usual one Y chromosome. Many babies that are born with XYY syndrome do not have any clinical features and symptoms. There are no fertility issues associated with XYY syndrome. Males with XYY syndrome can be very tall and may have severe acne during adolescence. The average intellectual capacity of males with XYY syndrome is within the normal range; however their IQ may be slightly lower than their siblings. Learning difficulties have been associated in some people with XYY syndrome, usually involving speech and language. There are many misconceptions about males with XYY syndrome, previously, it was sometimes called the super-male disease and was associated with being overly-aggressive and lacking in empathy. Recent studies have disproven this and they are no longer associated with XYY syndrome. What does a Non-invasive Prenatal Test (NIPT) result mean? Receiving a high probability result for XYY syndrome means that there is a significant chance that a baby will have XYY syndrome. However, NIPT is a screening test meaning in some rare instances, the baby may not actually have the condition.
    [Show full text]
  • Double Aneuploidy in Down Syndrome
    Chapter 6 Double Aneuploidy in Down Syndrome Fatma Soylemez Additional information is available at the end of the chapter http://dx.doi.org/10.5772/60438 Abstract Aneuploidy is the second most important category of chromosome mutations relat‐ ing to abnormal chromosome number. It generally arises by nondisjunction at ei‐ ther the first or second meiotic division. However, the existence of two chromosomal abnormalities involving both autosomal and sex chromosomes in the same individual is relatively a rare phenomenon. The underlying mechanism in‐ volved in the formation of double aneuploidy is not well understood. Parental ori‐ gin is studied only in a small number of cases and both nondisjunctions occurring in a single parent is an extremely rare event. This chapter reviews the characteristics of double aneuploidies in Down syndrome have been discussed in the light of the published reports. Keywords: Double aneuploidy, Down Syndrome, Klinefelter Syndrome, Chromo‐ some abnormalities 1. Introduction With the discovery in 1956 that the correct chromosome number in humans is 46, the new area of clinical cytogenetic began its rapid growth. Several major chromosomal syndromes with altered numbers of chromosomes were reported, such as Down syndrome (trisomy 21), Turner syndrome (45,X) and Klinefelter syndrome (47,XXY). Since then it has been well established that chromosome abnormalities contribute significantly to genetic disease resulting in reproductive loss, infertility, stillbirths, congenital anomalies, abnormal sexual development, mental retardation and pathogenesis of malignancy [1]. Clinical features of patients with common autosomal or sex chromosome aneuploidy is shown in Table 1. © 2015 The Author(s). Licensee InTech. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
    [Show full text]
  • Autism Spectrum Disorder Associated with 49,XYYYY: Case Report and Review of the Literature
    Demily et al. BMC Medical Genetics (2017) 18:9 DOI 10.1186/s12881-017-0371-1 CASEREPORT Open Access Autism spectrum disorder associated with 49,XYYYY: case report and review of the literature Caroline Demily1*, Alice Poisson1, Elodie Peyroux1, Valérie Gatellier1, Alain Nicolas2, Caroline Rigard1, Caroline Schluth-Bolard3, Damien Sanlaville3 and Massimiliano Rossi3 Abstract Background: Sex chromosome aneuploidies occur in approximately one in 420 live births. The most frequent abnormalities are 45,X (Turner syndrome), 47,XXX (triple X), 47,XXY (Klinefelter syndrome), and 47,XYY. The prevalence of males with more than one extra sex chromosome (e.g. 48,XXYY or 48,XXXY) is less common. However, the literature provides little information about the cognitive and behavioural phenotype and the natural history of the disease. We report the clinical, neurocognitive, social cognitive and psychiatric characterization of a patient with 49,XYYYY syndrome. Case presentation: The patient presented with a complex phenotype including a particular cognitive profile with intellectual deficiency and autism spectrum disorder (ASD) with limited interests. Moreover, social anxiety disorder with selective mutism and separation anxiety disorder were observed (DSM-5 criteria, MINI Assessment). Conclusion: It is now admitted that 49,XYYYY has unique medical, neurodevelopmental and behavioural characteristics. Interestingly, ASD is more common in groups with Y chromosome aneuploidy. This clinical report suggests that understanding the cognitive and social functioning of these patients may provide new insights into possible therapeutic strategies, as cognitive remediation or social cognitive training. Keywords: XYYYY, Autism spectrum disorder, Social cognition, Neurocognition, Behavioural disorders Background 48,XYYY and 49,XYYYY karyotypes are very rare: less Sex chromosome aneuploidies (SCA) occur in approxi- than ten cases have been described for 48,XYYY and mately one in 420 live births [1].
    [Show full text]
  • Title: CYTOGENETIC STUDY in CRIMINALS (MURDERERS): ROLE of XYY CHROMOSOME in CRIMINALITY
    Gosavi S R , Gajbe U L ,et al; Role Of XYY Chromosome In Criminality JOURNAL OF CLINICAL AND DIAGNOSTIC RESEARCH How to cite this article: GOSAVI S R , GAJBE U L, MESHRAM S W , CHIMURKAR V K . CYTOGENETIC STUDY IN CRIMINALS (MURDERERS): ROLE OF XYY CHROMOSOME IN CRIMINALITY.Journal of Clinical and Diagnostic Research [serial online] 2009 December [cited: 2009 December 7]; 3:1911-1914. Available from http://www.jcdr.net/back_issues.asp?issn=0973-709x&year=2009&month= December &volume=3&issue=6&page=1911-1914 &id=523 Journal of Clinical and Diagnostic Research. 2009 Dec ;(3):1911-1914 Gosavi S R , Gajbe U L ,et al; Role Of XYY Chromosome In Criminality ORIGINAL ARTICLE Cytogenetic Study In Criminals (Murderers): Role Of XYY Chromosome In Criminality GOSAVI S R *, GAJBE U L **, MESHRAM S W ***, CHIMURKAR V K **** ABSTRACT Crime & criminals are curse to the society. All types of advanced scientific methods should be used for detection of crime, to prove the guilt of criminal and also to see that innocent subjects are not victimized. Although there are many methods of detecting crime, cytogenetic study has a unique character of its own in its application to forensic science. The crime rates in India are increasing and approximately 5% of the criminals are murderers. The famous Danish ‘Adoption studies’ states that in addition to socio-economic factors, hereditary plays an important role in the determination of criminality. In this study an attempt has been made to find out if there is any definite association between the criminality and chromosomal aberrations.
    [Show full text]
  • Case Report Genetic Counseling for Trisomy X Syndrome Diagnosed By
    Acta Med. Nagasaki 64: 31−34− MS#AMN 07257 Case Report Genetic counseling for trisomy X syndrome diagnosed by amniocentesis: a case report Yuri HASEGAWA 1),2)*, Mikako MI Y ATA 2), Shoko MIURA 1),2), Ai NAGATA 1), Chiharu TO M O N AGA 1),2), Noriko SH IGETO M I 1), Kiyonori MIURA 1),2) 1) Department of Obstetrics and Gynecology, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki, Japan 2) Department of Genetic Counseling, Nagasaki University Hospital, Nagasaki, Japan [Introduction] Trisomy X is a sex chromosome abnormality that occurs in approximately 1 in 1,000 female births. We provided genetic coun- seling to a pregnant woman and her husband following the prenatal diagnosis of trisomy X by amniocentesis. [Case] A 27-year-old pregnant woman, gravida 2, para 1, underwent a prenatal checkup by her general practitioner. Nuchal translu- cency (NT) of 3.4 mm was detected in the fetus at 11 weeks of gestation and had disappeared by 12 weeks of gestation. The pregnant woman and her husband consulted our unit for genetic counseling at 13 weeks of gestation. Although we did not detect any NT or other abnormality in the fetus, the parents were concerned about possible abnormalities and requested amniocentesis. Amniocentesis followed by chromosomal analysis at 16 weeks of gestation revealed a 47,XXX karyotype. We explained the results and characteristics of trisomy X to the couple. The frequency of trisomy X is 1 in 1,000, and it can be characterized by tall stature, developmental delay, learning disability, anxiety, and mood disorders. However, the features of trisomy X vary and we were therefore unable to predict the newborn’s precise postnatal physical and psychological character- istics.
    [Show full text]
  • Sex Chromosome Variations
    Sex Chromosome Variations Chromosome Conditions Chromosomes are structures that hold our genetic information; the information that tells our bodies how to grow and function. As humans, we typically have a total of 46 chromosomes or 23 pairs ­ one set inherited from our mother through the egg and one from our father through the sperm. Chromosome conditions refer to situations where a baby has extra or missing chromosomes. These conditions usually do not run in families. There is nothing you can do to cause or prevent a chromosome condition. For many of these conditions, the chance increases with the age of the mother, but there are babies born with chromosome conditions to mothers of all ages. Pregnancies where the baby has a chromosome condition have a higher risk for miscarriage. Sex chromosome variations are caused by extra or missing X or Y chromosomes. Sex Chromosome Variations ● Examples of sex chromosome variations include Turner syndrome (45,X), Klinefelter syndrome (47,XXY), 47,XYY syndrome and Trisomy X (47,XXX). ● Children with sex chromosome variations usually have typical intellectual ability, however, they may have learning differences. 2 ● Some of these conditions are associated with a higher chance for health concerns that are often treatable. ● Because these conditions can be so mild, some individuals may go through life without ever even knowing they have a sex chromosome variation. You can find more information and videos about prenatal genetic testing options at: www.doh.wa.gov and ​ ​ www.geneticsupportfoundation.org.
    [Show full text]
  • XYYY Syndrome FTNP
    Support and Information Rare Chromosome Disorder Support Group, G1, The Stables, Station Road West, Oxted, Surrey RH8 9EE, United Kingdom Tel/Fax: +44(0)1883 723356 [email protected] III www.rarechromo.org Join Unique for family links, information and support. Unique is a charity without government funding, existing entirely on donations and grants. If you can, please make a donation via our website at www.rarechromo.org Please help us to help you! XYYY syndrome AXYS - Association for X and Y chromosome variations www.genetic.org Unique lists external message boards and websites in order to be helpful to families looking for information and support. This does not imply that we endorse their content or have any responsibility for it. This information guide is not a substitute for personal medical advice. Families should consult a medically qualified clinician in all matters relating to genetic diagnosis, management and health. Information on genetic changes is a very fast-moving field and while the information in this guide is believed to be the best available at the time of publication, some facts may later change. Unique does its best to keep abreast of changing information and to review its published guides as needed. The guide was compiled by Unique and reviewed by Nicole Tartaglia, MD, fellow in Developmental- Behavioural Pediatrics, UC-Davis Medical Center MIND Institute, and by Professor Maj Hultén BSc PhD MD FRCPath, Professor of Reproductive Genetics, University of Warwick, UK 2005. (PM) Copyright © Unique 2005 Rare Chromosome Disorder Support Group Charity Number 1110661 Registered in England and Wales Company Number 5460413 rrraraaarrrreeeecccchhhhrrrroooommmmoooo....oooorrrrgggg 12 References XYYY syndrome Growing up with XYYY syndrome The text XYYY syndrome, also called Triple Y syndrome or contains 48,XYYY syndrome , is a chromosome condition that references to only affects boys and men.
    [Show full text]
  • Psychiatry, Sociopathy and the XYY Chromosome Syndrome
    Tulsa Law Review Volume 6 Issue 3 1970 Psychiatry, Sociopathy and the XYY Chromosome Syndrome David B. Saxe Follow this and additional works at: https://digitalcommons.law.utulsa.edu/tlr Part of the Law Commons Recommended Citation David B. Saxe, Psychiatry, Sociopathy and the XYY Chromosome Syndrome, 6 Tulsa L. J. 243 (2013). Available at: https://digitalcommons.law.utulsa.edu/tlr/vol6/iss3/4 This Casenote/Comment is brought to you for free and open access by TU Law Digital Commons. It has been accepted for inclusion in Tulsa Law Review by an authorized editor of TU Law Digital Commons. For more information, please contact [email protected]. Saxe: Psychiatry, Sociopathy and the XYY Chromosome Syndrome 19701 XYY CHROMOSOME PSYCHIATRY, SOCIOPATHY AND THE XYY CHROMOSOME SYNDROME DAVID B. SAxE* 1. Introduction On October 13, 1968, Daniel Hugon, a tall, chronic drifter of low mentality was convicted by a French court for the strangulation-murder of an elderly prostitute in the Pigalle district of Paris. Daniel Hugon has an XYY chromosome.1 In the summer of 1966, eight nurses were brutally mur- dered in Chicago. Richard Speck, who was convicted of the mass murder, is a tall individual of low mentality and acned faced, who has spent a considerable period of his life in conflict with law enforcement authorities. He, also, has an XYY chromosome syndrome. On October 9, 1968, Lawrence E. Hannell was acquitted on the grounds of insanity of the murder of a seventy-seven year old widow. Lawrence E. Hannell is tall and has an XYY chromosome syndrome.2 On August 22, 1968, Mrs.
    [Show full text]
  • Molecular Diagnostic Testing for Klinefelter Syndrome and Other Male Sex Chromosome Aneuploidies
    Hager et al. International Journal of Pediatric Endocrinology 2012, 2012:8 http://www.ijpeonline.com/content/2012/1/8 RESEARCH Open Access Molecular diagnostic testing for Klinefelter syndrome and other male sex chromosome aneuploidies Karl Hager1*, Kori Jennings1, Seiyu Hosono1, Susan Howell2, Jeffrey R Gruen3,4,5,6, Scott A Rivkees3,4,7, Nicole R Tartaglia2 and Henry M Rinder8 Abstract Background: Male sex chromosome aneuploidies are underdiagnosed despite concomitant physical and behavioral manifestations. Objective: To develop a non-invasive, rapid and high-throughput molecular diagnostic assay for detection of male sex chromosome aneuploidies, including 47,XXY (Klinefelter), 47,XYY, 48,XXYY and 48,XXXY syndromes. Methods: The assay utilizes three XYM and four XA markers to interrogate Y:X and X:autosome ratios, respectively. The seven markers were PCR amplified using genomic DNA isolated from a cohort of 323 males with aneuploid (n = 117) and 46,XY (n = 206) karyotypes. The resulting PCR products were subjected to Pyrosequencing, a quantitative DNA sequencing method. Results: Receiver operator characteristic (ROC) curves were used to establish thresholds for the discrimination of aneuploid from normal samples. The XYM markers permitted the identification of 47,XXY, 48,XXXY and 47,XYY syndromes with 100% sensitivity and specificity in both purified DNA and buccal swab samples. The 48,XXYY karyotype was delineated by XA marker data from 46,XY; an X allele threshold of 43% also permitted detection of 48,XXYY with 100% sensitivity and specificity. Analysis of X chromosome-specific biallelic SNPs demonstrated that 43 of 45 individuals (96%) with 48,XXYY karyotype had two distinct X chromosomes, while 2 (4%) had a duplicate X, providing evidence that 48,XXYY may result from nondisjunction during early mitotic divisions of a 46,XY embryo.
    [Show full text]
  • XYY Syndrome (Jacobs Syndrome)
    General information about positive NIPT results What testing could be considered? My patient’s NIPT is positive for XYY syndrome (Jacobs syndrome). What does this mean? Your patient’s NIPT result • Specialized genetic tests such as karyotyping, fluorescence in suggests the presence of an extra copy of the Y chromosome. situ hybridization (FISH), qPCR and microarray are available to NIPT is a screening test; false positives can occur. The actual confirm the presence of XYY syndrome. chance for the pregnancy to have XYY syndrome depends on • These confirmatory tests are generally performed on cells from many factor, including the patient’s clinical and family history. chorionic villus sampling (CVS) or amniocentesis during Next steps to consider: You should discuss the results pregnancy, on cord blood or peripheral blood sample after the and the potential clinical implications with your patient. The baby is born, or on products of conception (POC) in case of American College of Obstetricians and Gynecologists and the a miscarriage. Society for Maternal-Fetal Medicine state, “All women with a • Ultrasound evaluation is not expected to be useful in aiding with positive cell-free DNA test result should have further detailed a prenatal diagnosis of XYY syndrome, as ultrasound is usually counseling and testing and should have a diagnostic procedure normal. A normal ultrasound cannot exclude this condition. before any irreversible action is taken.”1 Confirmation prior to birth can also help with pregnancy and neonatal management. Resources for
    [Show full text]