47,XXY (Klinefelter) Archives - Page 6 of 21 - The Association for X and Y Chromosome Variations

The Remains Of A Warrior Found In Finland May Have Had Klinefelter Syndrome: NPR

“Analysis of ancient DNA found in Finland has unveiled a surprise a century later – the remains of an early medieval warrior thought to be female may have been nonbinary…In their findings, the researchers noted that the remains were “badly damaged” and that they only had a small sample to test. But through the use of modeling, they said they “found overwhelming evidence that the genetic data of the Suontaka individual most closely resemble an XXY karyotype.”

Read the full article

“1,000-Year-Old Remains May Be Of A Highly Respected Nonbinary Warrior, Study Finds.” NPR. 9 August 2021. Accessed 11 August 2021.

Rick Frith2021-08-11T14:31:27-04:00Categories: 47,XXY (Klinefelter)|

Cortical gray matter structure in boys with Klinefelter syndrome

Article title: Cortical gray matter structure in boys with Klinefelter syndrome

Author: Foland-Ross, Gil, Shrestha, Chromik, Hong, and Reiss

Date of Publication: May 4, 2021

“…[W]e conducted a rigorous analysis of KS-associated alterations in cortical gray matter structure using a surface-based analysis of cortical volume, thickness and surface area. To control for the effects of puberty and testosterone replacement therapy, we focused on pre- or early-pubertal males who had not yet initiated hormone supplementation. We hypothesized that males with KS would exhibit reduced cortical gray matter in the insula, temporal and frontal cortices relative to TD males, as well as increased cortical gray matter in the parietal and sensorimotor regions. Additionally, we explored whether KS-associated alterations in cortical gray matter were correlated with differences in cognitive and behavioral symptoms associated with this condition.”

Rick Frith2021-06-08T13:35:43-04:00Categories: 47,XXY (Klinefelter)|

A clinical algorithm for management of fertility in adolescents with Klinefelter syndrome

Article title: A clinical algorithm for management of fertility in adolescents with the Klinefelter syndrome

Author: Masterson III, Nassaub, and Ramasamya

Date of Publication: May 2020

“In this review, we will discuss contemporary management of adolescents with Klinefelter’s syndrome, with a specific focus on fertility preservation and management of hypogonadism. As urologists often see these children after evaluation by an endocrinologist, we simplify our treatment strategy by creating case scenarios and present a treatment algorithm.”

Rick Frith2021-06-08T12:54:03-04:00Categories: 47,XXY (Klinefelter)|Tags: Fertility|

Male infertility due to testicular disorders

Article title: Male infertility due to testicular disorders

Author: Sharma, Minhas, Dhillo, and Jayasena

Date of Publication: December 9, 2020

“Male infertility due to testicular failure has traditionally been viewed as unmodifiable. In the absence of effective pharmacological therapies, delivery of lifestyle advice is a potentially important treatment option. Future research efforts are needed to determine unidentified factors causative in ‘idiopathic’ male infertility and long-term follow-up studies of babies conceived through ART [assisted reproductive techniques].”

Rick Frith2021-05-18T14:38:36-04:00Categories: 47,XXY (Klinefelter)|Tags: Fertility|

Incidence of gynaecomastia in Klinefelter syndrome adolescents and outcome of testosterone treatment

Article title: Incidence of gynaecomastia in Klinefelter syndrome adolescents and outcome of testosterone treatment

Author: Butler

Date of Publication: April 2021

“The incidence of gynaecomastia in KS boys (overall 35.6%) is not increased over typically developing boys. Commencing testosterone when gynaecomastia develops with physiological dose escalation and full adherence can result in the resolution of the gynaecomastia.”

Rick Frith2022-02-16T12:47:54-05:00Categories: 47,XXY (Klinefelter)|Tags: Testosterone treatment|

Epigenetics and genomics in Klinefelter syndrome

Article Title: Epigenetics and genomics in Klinefelter syndrome

Authors: Skakkebæk, Viuff, Nielsen, and Gravholt

Date of Publication: June 2, 2020

“Since the first description of Klinefelter syndrome (KS) was published in 1942 in The Journal of Clinical Endocrinology, large inter‐individual variability in the phenotypic presentation has been demonstrated. However, our understanding of the global impact of the additional X chromosome on the genome remains an enigma. Evidence from the existing literature of KS indicates that not just one single genetic mechanism can explain the phenotype and the variable expressivity, but several mechanisms may be at play concurrently. In this review, we describe different genetic mechanisms and recent advances in the understanding of the genome, epigenome, and transcriptome of KS and the link to the phenotype and clinical heterogeneity. Future studies are needed to unite clinical data, genomic data, and basic research attempting to understand the genetics behind KS. Unraveling the genetics of KS will be of clinical relevance as it may enable the use of polygenic risk scores to predict future disease susceptibility and enable clinical risk stratification of KS patients in the future.”

Rick Frith2021-03-03T15:01:38-05:00Categories: 47,XXY (Klinefelter)|

What microRNAs could tell us about the human X chromosome

Article Title: What microRNAs could tell us about the human X chromosome

Authors: Di Palo, Siniscalchi, Salerno, Russo, Gravholt and Potenza

Date of Publication: April 30, 2020

“MicroRNAs (miRNA) are small-non coding RNAs endowed with great regulatory power, thus playing key roles not only in almost all physiological pathways, but also in the pathogenesis of several diseases. Surprisingly, genomic distribution analysis revealed the highest density of miRNA sequences on the X chromosome; this evolutionary conserved mammalian feature equips females with a larger miRNA machinery than males. However, miRNAs contribution to some X-related conditions, properties or functions is still poorly explored. With the aim to support and focus research in the field, this review analyzes the literature and databases about X-linked miRNAs, trying to understand how miRNAs could contribute to emerging gender-biased functions and pathological mechanisms, such as immunity and cancer. A fine map of miRNA sequences on the X chromosome is reported, and their known functions are discussed; in addition, bioinformatics functional analyses of the whole X-linked miRNA targetome (predicted and validated) were performed. The emerging scenario points to different gaps in the knowledge that should be filled with future experimental investigations, also in terms of possible implications and pathological perspectives for X chromosome aneuploidy syndromes, such as Turner and Klinefelter syndromes.”

Rick Frith2021-03-03T14:31:39-05:00Categories: 47,XXX (trisomy x), 47,XXY (Klinefelter), 47,XYY, 48,XXXY, 48,XXYY, All Variations|

Social Management Training in Males With 47,XXY (Klinefelter Syndrome)

Article Title: Social Management Training in Males With 47,XXY (Klinefelter Syndrome): A Pilot Study of a Neurocognitive-Behavioral Treatment Targeting Social, Emotional, and Behavioral Problems

Authors: Martin, Van Rijn, Bierman, and Swaab

Date of Publication: January 1, 2021

“Klinefelter syndrome (47,XXY) is associated with problems in social interaction and behavioral adaptation. Sixteen adolescents and adult men with 47,XXY enrolled in a pilot study evaluating the effectiveness of Social Management Training (SMT), a novel neurocognitive-behavioral treatment program targeted at improving social, emotional, and behavioral functioning. Participants reported improved emotional stability from pre- to post-test (5 months). Informants reported reductions in internalizing and externalizing symptoms, including improvement in self-regulation. Although informants did not report changes in autism-like symptoms, increased awareness of social challenges was found. SMT may improve emotional stability, self-regulation, and self-reflection in people males with Klinefelter syndrome. This potentially efficacious treatment approach may prove to be a promising psychosocial therapeutic intervention for this population.”

Rick Frith2023-01-17T14:19:56-05:00Categories: 47,XXY (Klinefelter)|Tags: Social Behavior|

From mini‐puberty to pre‐puberty: early impairment of the hypothalamus-pituitary-gonadal axis (KS)

Article Title: From mini‐puberty to pre‐puberty: early impairment of the hypothalamus-pituitary-gonadal axis with normal testicular function in children with non-mosaic Klinefelter syndrome

Authors: Spaziani, Granato, Liberati, Rossi, Tahani, Pozza, Gianfrilli, Papi, Anzuini, Lenzi, Tarani, and Radicioni

Date of Publication: May 6, 2020

“Purpose Klinefelter syndrome (KS) is a genetic disorder caused by the presence of an extra X chromosome in males. The aim of this study was to evaluate the hypothalamic–pituitary–gonadal (HPG) axis and the clinical profile of KS boys from mini-puberty to early childhood…Conclusions No hormonal signs of tubular or interstitial damage were found in KS infants. The presence of higher levels of gonadotropins, INHB and testosterone during mini-puberty and pre-puberty may be interpreted as an alteration of the HPG axis in KS infants.”

Rick Frith2021-01-14T11:18:32-05:00Categories: 47,XXY (Klinefelter)|

A review of neurocognitive functioning of children with sex chromosome trisomies

Article Title: A review of neurocognitive functioning of children with sex chromosome trisomies: Identifying targets for early intervention

Authors: Van Rijn, Urbanus, and Swaab

Date of Publication: July 2, 2019

“Results of the reviewed studies show that although traditionally, the focus has been on language and intelligence (IQ) in this population, recent studies suggest that executive functioning and social cognition may also be significantly affected already in childhood. These findings suggest that neuropsychological screening of children diagnosed with SCT should be extended, to also include executive functioning and social cognition. Knowledge about these neurocognitive risks is important to improve clinical care and help identify targets for early support and intervention programs to accommodate for the needs of individuals with SCT.”

Rick Frith2021-01-13T13:26:28-05:00Categories: 47,XXX (trisomy x), 47,XXY (Klinefelter), 47,XYY|Tags: Early Intervention|