ABSTRACT
Syndromic autism spectrum conditions (ASC), such as Klinefelter syndrome, also manifest hypogonadism. Compared to the popular Extreme Male Brain theory, the Enhanced Perceptual Functioning model explains the connection between ASC, savant traits, and giftedness more seamlessly, and their co-emergence with atypical sexual differentiation. Overexcitability of primary sensory inputs generates a relative enhancement of local to global processing of stimuli, hindering the abstraction of communication signals, in contrast to the extraordinary local information processing skills in some individuals. Weaker inhibitory function through gamma-aminobutyric acid type A (GABAA) receptors and the atypicality of synapse formation lead to this difference, and the formation of unique neural circuits that process external information. Additionally, deficiency in monitoring inner sensory information leads to alexithymia (inability to distinguish one's own emotions), which can be caused by hypoactivity of estrogen and oxytocin in the interoceptive neural circuits, comprising the anterior insular and cingulate gyri. These areas are also part of the Salience Network, which switches between the Central Executive Network for external tasks and the Default Mode Network for self-referential mind wandering. Exploring the possibility that estrogen deficiency since early development interrupts GABA shift, causing sensory processing atypicality, it helps to evaluate the co-occurrence of ASC with attention deficit hyperactivity disorder, dyslexia, and schizophrenia based on phenotypic and physiological bases. It also provides clues for understanding the common underpinnings of these neurodevelopmental disorders and gifted populations.
Subject(s)
Androgens , Autism Spectrum Disorder , Estrogens , Humans , Androgens/deficiency , Androgens/metabolism , Estrogens/metabolism , Estrogens/deficiency , Autism Spectrum Disorder/metabolism , Autism Spectrum Disorder/physiopathology , Male , Sex Differentiation/physiology , Klinefelter Syndrome/physiopathology , Klinefelter Syndrome/metabolism , Perception/physiology , Brain/metabolismABSTRACT
CONTEXT: Experimental studies on Klinefelter syndrome (KS) reported increased intratesticular testosterone (T) levels coexisting with reduced circulating levels. Abnormalities in testicular microcirculation have been claimed; however, no studies investigated in vivo testicular blood flow dynamics in humans with KS. OBJECTIVE: To analyze the testicular microcirculation in KS by contrast-enhanced ultrasonography (CEUS) and correlate vascular parameters with endocrine function. DESIGN AND SETTING: Prospective study. University setting. PATIENTS: Sixty-eight testicular scans, 34 testes from 19 T-naïve subjects with KS and 34 testes from age-matched eugonadal men (control) who underwent CEUS for incidental nonpalpable testicular lesions. MAIN OUTCOMES: CEUS kinetic parameters. RESULTS: CEUS revealed slower testicular perfusion kinetics in subjects with KS than in age-matched controls. Specifically, the wash-in time (Pâ =â 0.018), mean transit time (Pâ =â 0.035), time to peak (Pâ <â 0.001), and wash-out time (Pâ =â 0.004) were all prolonged. Faster testicular blood flow was associated with higher total T levels. Principal component analysis and multiple linear regression analyses confirmed the findings and supported a role for reduced venous blood flow as independent predictor of total T levels. CONCLUSIONS: Testicular venous blood flow is altered in KS and independently predicts T peripheral release.
Subject(s)
Azoospermia/pathology , Hypogonadism/pathology , Klinefelter Syndrome/physiopathology , Spermatogenesis , Testis/pathology , Testosterone/blood , Adult , Azoospermia/blood , Case-Control Studies , Follow-Up Studies , Humans , Hypogonadism/blood , Male , Prognosis , Prospective Studies , Testis/blood supply , Testis/metabolismABSTRACT
AIM: To study sex differences in attention-deficit/hyperactivity disorder (ADHD) symptoms, we explored whether X chromosome absence or excess is independently associated with deficits in attention and hyperactivity, executive function, and processing speed. METHOD: We assessed 116 children (ages 3y 10mo-11y 11mo, mean 8y 5mo, SD 1y 11mo) with a variable number of sex chromosomes: 36 females with Turner syndrome (45, X0), 20 males with Klinefelter syndrome (47, XXY), 37 typically developing females (XX), and 23 typically developing males (XY). RESULTS: X chromosome absence was associated with increased attention problems, hyperactivity, and deficits in inhibitory control, compared with female children with XX (all p<0.003). Conversely, X chromosome excess was associated with weakness in working memory (p=0.018) and approached significance for attention problems (p=0.071) but not with hyperactivity, or weakness in inhibitory control relative to male children with XY. Using non-parametric effect size to quantify the clinical effect revealed that X chromosome absence affected attention, hyperactivity, executive function, and processing speed (all r>0.4), while X excess affected in-laboratory as well as parent-reported working memory (all r>0.4). INTERPRETATION: Our observations provide compelling evidence that the absence or excess of an X chromosome distinctly affects cognition and behaviors associated with ADHD.
Subject(s)
Attention Deficit Disorder with Hyperactivity/genetics , Attention Deficit Disorder with Hyperactivity/physiopathology , Chromosomes, Human, X/genetics , Executive Function/physiology , Inhibition, Psychological , Memory, Short-Term/physiology , Psychomotor Performance/physiology , Sex Characteristics , Child , Child, Preschool , Female , Humans , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Male , Turner Syndrome/genetics , Turner Syndrome/physiopathologyABSTRACT
BACKGROUND: We aimed to investigate the clinical characteristics and islet ß-cell function in patients with Klinefelter syndrome (KS) and hyperglycemia. METHODS: This is a retrospective study. In total, 22 patients diagnosed with KS were identified from the electronic medical record system, including 9 patients with hyperglycemia (total patients with hyperglycemia, THG-KS group) and 5 hyperglycemic KS patients with oral glucose tolerance test (OGTT) results (HG-KS group). An additional 5 subjects with hyperglycemia and 5 normal glucose tolerance (NGT) subjects matched based on body mass index were included as the HG group and NGT group, respectively. Data from clinical and laboratory examinations were collected. We further performed a literature review of KS and hyperglycemia. RESULTS: We found that KS patients developed abnormal glucose metabolism earlier in life than those without KS, and the median age was 17 years, ranging from 10 years to 19 years. Six of 17 (35.3%) patients were diagnosed with diabetes mellitus and 3 of 17 (17.6%) patients were diagnosed with prediabetes. Among 10 patients with both fasting blood glucose and insulin results recorded, there were 8 out of 17 (47.1%) KS patients had insulin resistance. The prevalence of hypertension and dyslipidemia was higher in patients with hyperglycemia and KS than in patients with NGT KS. Compared with the HG group, insulin sensitivity levels were lower in HG-KS group, whereas homeostasis model assessment of ß-cell function levels (p = 0.047) were significantly, indicating higher insulin secretion levels in the HG-KS group. CONCLUSIONS: KS patients develop hyperglycemia earlier in life than those without KS and show lower insulin sensitivity and higher insulin secretion. These patients also have a higher prevalence of other metabolic diseases and may have different frequencies of developing KS-related symptoms.
Subject(s)
Glucose Metabolism Disorders/epidemiology , Klinefelter Syndrome/epidemiology , Klinefelter Syndrome/physiopathology , Adolescent , Child , China/epidemiology , Diabetes Mellitus/epidemiology , Dyslipidemias/epidemiology , Hospitals , Humans , Hyperglycemia/epidemiology , Hypertension/epidemiology , Insulin Resistance , Insulin-Secreting Cells/physiology , Male , Prediabetic State/epidemiology , Retrospective Studies , Young AdultABSTRACT
INTRODUCTION: In our study, we sought answers to many questions about male infertility from a different perspective. The first step in male infertility is anamnesis, physical examination and sperm count. The European Academy of Andrology recommends examination of genetic causes in individuals with fewer than 5million/ml semen counts. The American Urological Association and American Society for Reproductive Medicine have guidelines recommending performing karyotype and AZF subgroup deletion testing in azoospermia and fewer than 5 million sperm total count. Klinefelter syndrome and Y chromosome microdeletions are still very important in male infertility. Based on patients with Klinefelter syndrome or Y microdeletion, we sought answers to many questions in male infertility. MATERIALS AND METHODS: In the presented study 327 male patients with having fewer than 15millionsperm/ml detected in at least two consecutive sperm analysis were examined. Patients were divided into sub-groups according to the presence of semen count, chromosomal anomaly and Y microdeletion. In addition, FSH, LH and testosterone levels were analyzed. RESULTS: Numerical chromosomal anomalies were observed in 34 (10.4%) of 327 patients, and all of these anomalies were found as 47, XXY. Individuals with no AZF microdeletion constituted 95.1% (n=311) of the study group. The overall frequency of AZF microdeletions was 4.9% (16/327). No AZF microdeletions were detected for the patients who have sperm counts above 2million/ml. FSH, LH and testosterone levels were found significantly different between the groups. DISCUSSION: The results of our study provide another layer of evidence to demonstrate the controversial threshold value of the EAA. In light of our data and current literature, we recommend to set the threshold value at 2million/ml for semen analysis. Further studies conducted in different ethnic groups and larger patient groups would contribute to clarify what exact value should be used to apply genetic tests
INTRODUCCIÓN: En nuestro estudio, buscamos respuestas a muchas preguntas relativas a la infertilidad masculina, desde una perspectiva diferente. El primer paso en la infertilidad masculina es la anamnesis, el examen físico y el recuento seminal. La Academia Europea de Andrología recomienda el examen de las causas genéticas en individuos con menos de 5millones/ml de recuento seminal. La Asociación Americana de Urología y la Sociedad Americana de Medicina Reproductiva cuentan con directrices que recomiendan la realización de pruebas de cariotipos y deleción del subgrupo AZF en los casos de azoospermia y un recuento seminal total inferior a 5millones/ml. El síndrome de Klinefelter y las micro-deleciones del cromosoma Y siguen siendo muy importantes en la infertilidad masculina. Basándonos en los pacientes con síndrome de Klinefelter o micro-deleción del cromosoma Y, buscamos respuestas a muchas cuestiones de la infertilidad masculina. MATERIALES Y MÉTODOS: En el presente estudio examinamos 327 varones con valores inferiores a 15 millones de esperma/ml detectados en al menos 2 análisis seminales consecutivos. Dividimos a los pacientes en subgrupos con arreglo a la presencia de recuento seminal, anomalía cromosómica y micro-deleción del cromosoma Y. Además, analizamos los niveles de FSH, LH y testosterona. RESULTADOS: Se observaron anomalías cromosómicas numéricas en 34 (10,4%) de los 327 pacientes, encontrándose dichas anomalías como 47, XXY. Los individuos sin micro-deleción AZF constituyeron el 95,1% (n=311) del grupo de estudio. La frecuencia general de las micro-deleciones AZF fue del 4,9% (16/327). No se detectaron micro-deleciones AZF para los pacientes con recuentos seminales superiores a 2millones/ml. Los niveles de FSH, LH y testosterona fueron significativamente diferentes entre los grupos. DISCUSIÓN: Los resultados de nuestro estudio aportan otra evidencia para demostrar el controvertido valor umbral de EAA. A la luz de nuestros datos y de la literatura actual, recomendamos establecer el valor umbral en 2millones/ml para el análisis seminal. Los futuros estudios a realizar en diferentes grupos étnicos y muestras de mayor tamaño de pacientes contribuirían a clarificar qué valor exacto debería utilizarse para solicitar pruebas genéticas
Subject(s)
Humans , Male , Adult , Azoospermia/diagnosis , Azoospermia/genetics , Oligospermia/genetics , Infertility, Male/genetics , Chromosome Aberrations , Sex Chromosome Disorders of Sex Development/genetics , Cohort Studies , Azoospermia/physiopathology , Oligospermia/physiopathology , Infertility, Male/physiopathology , Y Chromosome/genetics , Klinefelter Syndrome/physiopathology , Retrospective StudiesABSTRACT
49,XXXXY is a rare chromosomal variation characterized by deficits in motor, language, and cognitive domains. This study reports on the neurological function and dysmorphic features in the largest cohort to date. Seventy-two boys with 49,XXXXY were evaluated on a variety of domains including a neurological examination and neuromotor assessments including the Beery Buktenica Developmental Test of Visual-Motor Integration, Sixth Edition, the Bayley Scales of Infant and Toddler Development, Third Edition (BSID-III), and the Bruininks-Oseretsky Test of Motor Proficiency, Second Edition. Results supported previous literature by describing high occurrences of truncal and extremity hypotonia, which significantly impacts on motor milestones and ambulation in this population. The boys presented with dysmorphic features including epicanthal folds, frontal bossing, and synophrys. Visual perception skills were mildly impaired and cranial nerves were typically intact, however capabilities in motor coordination and fine motor precision were greatly delayed, supporting deficits in refined and controlled hand movements versus widespread visual deficits. Preschool boys treated with testosterone replacement had significantly increased scores when compared to the untreated group on the BSID-III Psychomotor Development Index, further supporting previous research indicating that testosterone replacement may have a positive impact on neurodevelopmental outcomes in males with additional X chromosomes. Boys with 49,XXXXY may benefit from hormonal treatment in conjunction with early intervention services to address their significant motor deficits.
Subject(s)
Klinefelter Syndrome/genetics , Language Development Disorders/genetics , Nervous System Diseases/genetics , Sex Chromosome Disorders/genetics , Child Development/physiology , Child, Preschool , Chromosomes, Human, X/genetics , Chromosomes, Human, Y/genetics , Humans , Infant , Klinefelter Syndrome/epidemiology , Klinefelter Syndrome/physiopathology , Language , Language Development Disorders/epidemiology , Language Development Disorders/physiopathology , Male , Motor Skills/physiology , Nervous System Diseases/physiopathology , Sex Chromosome Disorders/physiopathologyABSTRACT
49,XXXXY is an X and Y chromosome variation that occurs in 1:85,000 to 1:100,000 live male births. Previous case studies have described boys with this disorder to be shorter than average when compared with boys with only one extra chromosome and with the mean stature in a small cohort reported to range from the seventh to 33rd percentile. The origin behind the possible differences in height between boys with 47,XXY and 49,XXXXY is currently unknown, however one study hypothesized that it was due to a difference in the expression of the SHOX gene. This study reports on the anthropometric measurements of 84 boys with 49,XXXXY. Forty-five percent of children with 49,XXXXY were found to be below the third percentile in height at the time of evaluation. In addition, 7.14% of the cohort were diagnosed and given treatment for growth hormone deficiency (GHD). The analysis of this cohort demonstrates that the below average heights seen throughout childhood in this population potentially begins prenatally and suggests that boys with 49,XXXXY may be at a higher risk for intrauterine growth restriction (IUGR) and GHD. Future research is needed to investigate the etiology of the poor growth in boys with 49,XXXXY and evaluate the incidence of GHD and IUGR in this population.
Subject(s)
Dwarfism, Pituitary/genetics , Fetal Growth Retardation/genetics , Klinefelter Syndrome/genetics , Short Stature Homeobox Protein/genetics , Anthropometry , Child , Child, Preschool , Chromosomes, Human, X/genetics , Chromosomes, Human, Y/genetics , Dwarfism, Pituitary/complications , Dwarfism, Pituitary/diagnostic imaging , Dwarfism, Pituitary/physiopathology , Fetal Growth Retardation/diagnostic imaging , Fetal Growth Retardation/physiopathology , Growth Hormone/deficiency , Growth Hormone/genetics , Humans , Infant , Infant, Newborn , Klinefelter Syndrome/complications , Klinefelter Syndrome/diagnostic imaging , Klinefelter Syndrome/physiopathology , Male , Sex Chromosome AberrationsABSTRACT
49,XXXXY was previously associated with profound to severe intellectual deficits. However, prior research papers on the cognitive profiles of this population were confounded by small samples sizes, wide age spreads, and incomplete histories of testosterone replacement therapy. This study is the first comprehensive, international investigation of the neurocognitive aspects of 49,XXXXY, and the potential effects of biological treatment on this profile. Sixty-seven boys from infancy to 11 years of age were enrolled in this longitudinal study, with the majority of boys postnatally diagnosed though chromosomal analysis. These boys received a comprehensive neurocognitive evaluation tailored to specific language-based deficits and cognitive challenges. Results revealed higher neurocognitive capacities, both verbally and nonverbally, than previously reported in this disorder. Infant boys with 49,XXXXY who received early hormonal therapy (EHT) had significantly higher scores on the cognitive domain of the Bayley Scales of Infant Development than untreated infants (p = .013). In addition, treated school-aged participants had significantly better scaled scores than untreated boys in form completion (p = .042), a task that requires deductive reasoning, on nonverbal testing on the Leiter International Performance Scales. This study indicates greater cognitive capacities with a wide range of abilities in the child with 49,XXXXY, thus warranting further investigation to identify and understand the critical influences on the etiology and the variability of those capacities.
Subject(s)
Cognition Disorders/drug therapy , Klinefelter Syndrome/drug therapy , Language Development Disorders/drug therapy , Neurocognitive Disorders/drug therapy , Aneuploidy , Child , Child, Preschool , Chromosomes, Human, X/genetics , Chromosomes, Human, Y/genetics , Cognition Disorders/complications , Cognition Disorders/genetics , Cognition Disorders/physiopathology , Hormone Replacement Therapy , Humans , Infant , Infant, Newborn , Klinefelter Syndrome/complications , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Language Development Disorders/complications , Language Development Disorders/genetics , Language Development Disorders/physiopathology , Longitudinal Studies , Male , Neurocognitive Disorders/complications , Neurocognitive Disorders/genetics , Neurocognitive Disorders/physiopathologyABSTRACT
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. PATIENTS AND METHODS: In this retrospective, cross-sectional, population study, 145 KS boys and 97 controls aged 0-11.9 years were recruited. Serum FSH, LH, testosterone (T), Inhibin B (INHB), sex hormone binding globulin (SHBG) and anti-Müllerian hormone (AMH) were determined. Auxological parameters were assessed. To better represent the hormonal and clinical changes that appear in childhood, the entire population was divided into 3 groups: ≤ 6 months (group 1; mini-puberty); > 6 months and ≤ 8 years (group 2; early childhood); > 8 and ≤ 12 years (group 3; mid childhood). RESULTS: During mini-puberty (group 1), FSH and LH were significantly higher in KS infants than controls (p < 0.05), as were INHB and T (respectively p < 0.0001 and p < 0.005). INHB was also significantly higher in KS than controls in group 2 (p < 0.05). AMH appeared higher in KS than in controls in all groups, but the difference was only statistically significant in group 2 (p < 0.05). No significant differences were found in height, weight, testicular volume, and penile length. 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.
Subject(s)
Gonadal Steroid Hormones/metabolism , Gonads/pathology , Hypothalamo-Hypophyseal System/pathology , Klinefelter Syndrome/physiopathology , Puberty , Testis/physiopathology , Case-Control Studies , Child , Child, Preschool , Cross-Sectional Studies , Female , Follow-Up Studies , Gonads/metabolism , Humans , Hypothalamo-Hypophyseal System/metabolism , Infant , Infant, Newborn , Male , Prognosis , Retrospective StudiesABSTRACT
49,XXXXY is the rarest X and Y chromosomal variation, with an incidence of 1 in 80,000-100,000 live male births and has been associated with numerous musculoskeletal abnormalities. Data was collected from an international cohort of boys with 49,XXXXY over 10 years. Children were evaluated by a multidisciplinary team consisting of a pediatric orthopedist, a neurogeneticist, a neurodevelopmentalist, and two physical therapists. Increased rates of torticollis (32.4%), hamstring tightness (42%), radioulnar synostosis (67.6%), pes planus (65.2%), and other foot abnormalities (86.9%) were observed. Several anomalies increased with age, specifically hamstring tightness, kyphosis, and scoliosis. The elucidation of the orthopedic profile of this population is necessary in order to provide healthcare providers with current medical information. This research further supports the necessity for the comprehensive multidisciplinary treatment of boys with 49,XXXXY.
Subject(s)
Chromosomes, Human, X/genetics , Klinefelter Syndrome/diagnosis , Musculoskeletal Abnormalities/diagnosis , Rare Diseases/diagnosis , Adolescent , Child , Child, Preschool , Chromosomes, Human, Y , Flatfoot/complications , Flatfoot/diagnosis , Flatfoot/genetics , Flatfoot/physiopathology , Hamstring Tendons/diagnostic imaging , Hamstring Tendons/physiopathology , Humans , Infant , Klinefelter Syndrome/complications , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Kyphosis/complications , Kyphosis/diagnosis , Kyphosis/genetics , Kyphosis/physiopathology , Male , Musculoskeletal Abnormalities/complications , Musculoskeletal Abnormalities/genetics , Musculoskeletal Abnormalities/physiopathology , Radius/abnormalities , Radius/physiopathology , Rare Diseases/complications , Rare Diseases/genetics , Rare Diseases/physiopathology , Scoliosis/complications , Scoliosis/diagnosis , Scoliosis/genetics , Scoliosis/physiopathology , Synostosis/complications , Synostosis/diagnosis , Synostosis/genetics , Synostosis/physiopathology , Torticollis/complications , Torticollis/diagnosis , Torticollis/genetics , Torticollis/physiopathology , Ulna/abnormalities , Ulna/physiopathologyABSTRACT
Klinefelter syndrome is the most common congenital abnormality causing primary hypogonadism and predisposing to a state of hypercoagulability. We report the case of a 37-year-old man, of Algerian nationality, diagnosed with Klinefelter syndrome admitted to the hospital via the emergency room for acute chest pain and dyspnea. The patient arrived in Tunisia 36 hours ago. On admission, body temperature was 38.2°C, blood pressure, pulse and respiratory rate were 130/70 mmHg, 120/minute and 26/minute, respectively. He had an oxygen saturation of 87% in room air. His electrocardiography revealed a complete right bundle-branch block, chest X-Ray was normal. In front of the clinical presentation and the origin of the patient coming from an endemic country, COVID-19 infection was suspected but ruled out by pharyngeal swabs testing negative by real-time reverse-transcription polymerase chain reaction test and massive pulmonary embolism was diagnosed from his chest computed tomography images. The symptoms improved with anticoagulation treatment.
Subject(s)
COVID-19/diagnosis , Klinefelter Syndrome/physiopathology , Pulmonary Embolism/diagnosis , Respiratory Distress Syndrome/diagnosis , Adult , Bundle-Branch Block/diagnosis , Chest Pain/etiology , Dyspnea/etiology , Electrocardiography , Emergency Service, Hospital , Humans , Male , Respiratory Distress Syndrome/etiology , Tomography, X-Ray ComputedABSTRACT
Hypergonadotropic hypogonadism is a major feature of Klinefelter syndrome (KS), assumed to be caused by testicular hormone resistance. It was previously shown that intratesticular testosterone levels in vivo and Leydig cell function in vitro seem to be normal indicating other functional constraints. We hypothesized that impaired testicular vascularization/blood flow could be a co-factor to the observed hypergonadotropic hypogonadism. We evaluated the testicular vascular system by measuring blood vessel sizes during postnatal development and testis blood flow in adult 41,XXY* mice. Proportional distribution and size of blood vessels were analyzed during testicular development (1, 3, 5, 7, 10, 21 dpp, 15 wpp). While ratios of the vessel/testis area were different at 15 wpp only, a lower number of smaller and mid-sized blood vessels were detected in adult KS mice. For testicular blood flow determination we applied contrast enhanced ultrasound. Floating and reperfusion time for testicular blood flow was increased in 41,XXY* mice (floating: XY* 28.8 ± 1.69 s vs XXY* 44.6 ± 5.6 s, p = 0.0192; reperfusion XY* 19.7 ± 2.8 s vs XXY*: 29.9 ± 6.2 s, p = 0.0134), indicating a diminished blood supply. Our data strengthen the concept that an impaired vascularization either in conjunction or as a result of altered KS testicular architecture contributes to hormone resistance.
Subject(s)
Klinefelter Syndrome/physiopathology , Testis/blood supply , Testis/growth & development , Animals , Blood Circulation , Blood Vessels/diagnostic imaging , Disease Models, Animal , Hypogonadism/physiopathology , Klinefelter Syndrome/blood , Leydig Cells , Male , Mice , Mice, Transgenic , Spermatogenesis/genetics , Testosterone/blood , Ultrasonography/methodsABSTRACT
Sex chromosome trisomies (SCT), including Klinefelter syndrome/XXY, Trisomy X, and XYY syndrome, occur in 1 of every 500 births. The past decades of research have resulted in a broadening of known associated medical comorbidities as well as advances in psychological research. This review summarizes what is known about early neurodevelopmental, behavioral, and medical manifestations in young children with SCT. We focus on recent research and unanswered questions related to the risk for neurodevelopmental disorders that commonly present in the first years of life and discuss the medical and endocrine manifestations of SCT at this young age. The increasing rate of prenatal SCT diagnoses provides the opportunity to address gaps in the existing literature in a new birth cohort, leading to development of the eXtraordinarY Babies Study. This study aims to better describe and compare the natural history of SCT conditions, identify predictors of positive and negative outcomes in SCT, evaluate developmental and autism screening measures commonly used in primary care practices for the SCT population, and build a rich data set linked to a bank of biological samples for future study. Results from this study and ongoing international research efforts will inform evidence-based care and improve health and neurodevelopmental outcomes.
Subject(s)
Klinefelter Syndrome/diagnosis , Prenatal Diagnosis , Sex Chromosome Disorders of Sex Development/diagnosis , Sex Chromosome Disorders/diagnosis , Trisomy/diagnosis , Child , Child, Preschool , Chromosomes, Human, X/genetics , Female , Humans , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Male , Neurodevelopmental Disorders/diagnosis , Neurodevelopmental Disorders/genetics , Neurodevelopmental Disorders/physiopathology , Pregnancy , Prospective Studies , Risk Factors , Sex Chromosome Aberrations , Sex Chromosome Disorders/physiopathology , Sex Chromosome Disorders of Sex Development/genetics , Sex Chromosome Disorders of Sex Development/physiopathology , Sex Chromosomes/genetics , Trisomy/genetics , Trisomy/physiopathology , XYY KaryotypeABSTRACT
Klinefelter syndrome (KS; 47,XXY) impacts neurodevelopment and is associated with an increased risk of cognitive, psychological and social impairments, although significant heterogeneity in the neurodevelopmental profile is seen. KS is characterized by a specific cognitive profile with predominantly verbal deficits, preserved function in non-verbal and visuo-spatial domains, executive dysfunction and social impairments, and by an increased vulnerability toward psychiatric disorders. The neurobiological underpinnings of the observed neuropsychological profile have not been established. A distinct pattern of both global and regional brain volumetric differences has been demonstrated in addition to preliminary findings of functional brain alterations related to auditory, motor, language and social processing. When present, the combination of cognitive, psychological and social challenges has the potential to negatively affect quality of life. This review intends to provide information and insight to the neuropsychological outcome and brain correlates of KS. Possible clinical intervention and future directions of research will be discussed.
Subject(s)
Brain/diagnostic imaging , Cognition Disorders/diagnostic imaging , Functional Neuroimaging , Klinefelter Syndrome/diagnostic imaging , Brain/physiopathology , Cognition Disorders/physiopathology , Humans , Klinefelter Syndrome/physiopathology , Klinefelter Syndrome/psychology , Quality of LifeABSTRACT
A few studies have examined neuropsychological functions, sleep, and mental health combined in Klinefelter syndrome (KS; 47,XXY). We investigated neuropsychological functions with standard tests, sleep with actigraphy, and self-reported mental health in 30 men with KS (Mean age = 36.7 years) compared to 21 controls (Mean age = 36.8 years). Men with KS scored significantly lower on mental speed, attention span, working memory, inhibition, and set-shifting tests, as well as overall IQ (mean effect size difference Cohen's d = 0.79). Men with KS had significantly longer night wakes, with no differences in other sleep variables (mean d = 0.34). Men with KS reported poorer mental health than controls (mean d = 1.16). Regression analyses showed neuropsychological functions explained variance in some sleep domains for men with KS but not for controls. Neuropsychological functions explained variance in some mental health domains for controls. For men with KS, however, verbal IQ was the only significant predictor of mental health. Altogether, men with KS display problems in neuropsychological functions and mental health but do not appear different from controls on most sleep parameters. Our findings indicate that relations between neuropsychological functions, sleep, and mental health differ between men with KS and controls.
Subject(s)
Cognition Disorders/physiopathology , Klinefelter Syndrome/physiopathology , Mental Health , Sleep/physiology , Adult , Attention/physiology , Humans , Male , Middle Aged , Neuropsychological TestsABSTRACT
Sex chromosome aneuploidies (SCA) are associated with an increased risk for specific learning disorders (SLD). Individuals with Klinefelter Syndrome (KS) show an increased incidence of developmental dyslexia and individuals with Turner Syndrome (TS) are often affected by developmental dyscalculia. Accordingly, KS frequently coincides with verbal deficits, and TS with visual-spatial impairments. Though neurocognitive profiles of KS and TS are well-established, little is known about the neurobiology underling learning in SCA. This review summarizes current structural and functional magnetic resonance imaging (MRI) studies in KS and TS related to literacy and mathematical skills. It includes studies that focus on correlates between brain anatomy and cognition in SCA and on functional brain responses during learning-related tasks and at rest. We highlight important neural circuits that are related to domain-specific skills of literacy and mathematics. We discuss how identifying neuroendophenotypes of learning in SCA might contribute to developing a novel framework for SLD that accounts for potential genetic effects on learning, and from the X and Y chromosomes specifically. Future research directions are considered to establish clear brain-behavior relationships that might ultimately improve the treatment of SLD in SCA across development.
Subject(s)
Klinefelter Syndrome/diagnostic imaging , Sex Chromosome Aberrations , Specific Learning Disorder/diagnostic imaging , Turner Syndrome/diagnostic imaging , Aneuploidy , Brain/diagnostic imaging , Brain/physiopathology , Female , Humans , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Literacy/psychology , Magnetic Resonance Imaging , Male , Mathematics , Sex Chromosomes/genetics , Specific Learning Disorder/genetics , Specific Learning Disorder/physiopathology , Turner Syndrome/genetics , Turner Syndrome/physiopathologyABSTRACT
This cross-sectional study examined the neurodevelopment of a large, prenatally diagnosed population of boys with 47,XXY; investigated the potentially positive effects of early hormonal therapy (EHT) on language, cognition, and motor in this population; and identified novel at risk biomarkers associated with 47,XXY. Two-hundred and seventy two evaluations were collected from 148 prenatally diagnosed boys with 47,XXY between 0 and 36 months and separated into one of three groups, depending on visit age: Y1 (0-12 months; n = 100), Y2 (13-24 months; n = 90), and Y3 (25-36 months; n = 82). Those who received EHT (administered by 12 months) were further separated (Y1, n = 37; Y2, n = 34; Y3, n = 30). Neurodevelopmental evaluations consisted of Preschool Language Scales, Early Language Milestone Scale, and Bayley Scales of Infant and Toddler Development and evaluated the effect of EHT on auditory comprehension, expressive communication, receptive language, cognition, and motor. EHT was found to be associated with a positive effect within the first year of life in these domains, as well as in the second and third year of life. Additionally, three novel at-risk biomarkers were identified in this cohort: feeding difficulties in infancy, positional torticollis, and the need for orthotics. The positive effects of EHT observed in language, cognition, and motor at variable stages within the first 3 years of life provide additional evidence into the possible efficacy of early biological treatment for boys with 47,XXY to address the neurodevelopmental dysfunction.
Subject(s)
Hormones/administration & dosage , Klinefelter Syndrome/drug therapy , Prenatal Diagnosis , Sex Chromosome Disorders/drug therapy , XYY Karyotype/drug therapy , Biomarkers/blood , Child, Preschool , Cognition/drug effects , Cognition/physiology , Female , Hormones/adverse effects , Humans , Infant , Klinefelter Syndrome/diagnosis , Klinefelter Syndrome/genetics , Klinefelter Syndrome/physiopathology , Male , Neurodevelopmental Disorders/diagnosis , Neurodevelopmental Disorders/epidemiology , Neurodevelopmental Disorders/genetics , Neurodevelopmental Disorders/physiopathology , Pregnancy , Risk Factors , Sex Chromosome Disorders/diagnosis , Sex Chromosome Disorders/genetics , Sex Chromosome Disorders/physiopathology , XYY Karyotype/diagnosis , XYY Karyotype/genetics , XYY Karyotype/physiopathologyABSTRACT
We provide an in-depth review of the role of androgens in male maturation and development, from the fetal stage through adolescence into emerging adulthood, and discuss the treatment of disorders of androgen production throughout these time periods. Testosterone, the primary androgen produced by males, has both anabolic and androgenic effects. Androgen exposure induces virilization and anabolic body composition changes during fetal development, influences growth and virilization during infancy, and stimulates development of secondary sexual characteristics, growth acceleration, bone mass accrual, and alterations of body composition during puberty. Disorders of androgen production may be subdivided into hypo- or hypergonadotropic hypogonadism. Hypogonadotropic hypogonadism may be either congenital or acquired (resulting from cranial radiation, trauma, or less common causes). Hypergonadotropic hypogonadism occurs in males with Klinefelter syndrome and may occur in response to pelvic radiation, certain chemotherapeutic agents, and less common causes. These disorders all require testosterone replacement therapy during pubertal maturation and many require lifelong replacement. Androgen (or gonadotropin) therapy is clearly beneficial in those with persistent hypogonadism and self-limited delayed puberty and is now widely used in transgender male adolescents. With more widespread use and newer formulations approved for adults, data from long-term randomized placebo-controlled trials are needed to enable pediatricians to identify the optimal age of initiation, route of administration, and dosing frequency to address the unique needs of their patients.
Subject(s)
Androgens/physiology , Hypogonadism/drug therapy , Sexual Development , Testosterone/physiology , Adolescent , Androgens/blood , Androgens/therapeutic use , Child , Child, Preschool , Hormone Replacement Therapy , Humans , Hypogonadism/physiopathology , Infant , Klinefelter Syndrome/drug therapy , Klinefelter Syndrome/physiopathology , Male , Puberty , Testosterone/blood , Testosterone/therapeutic useABSTRACT
49,XXXXY is a rare X and Y chromosome variation that occurs in 1:85,000 to 1:100,000 live male births and is notable for variable motor, speech, and behavioral deficits. Case studies have described boys with this disorder as shy, impulsive, and aggressive with low frustration tolerances; however, previous studies have been limited due to cohort size. This study reports on the largest cohort of boys with 49,XXXXY to date with an emphasis on the prevalence of anxiety-related symptoms and sociability from preschool to adolescence. The Child Behavior Checklist, Behavior Rating Inventory of Executive Function, 2nd edition, and Social Responsiveness Scale, 2nd edition were completed by parents on a cohort of 69. The cohort demonstrated deficits in social cognition and communication beginning in preschool, however, presented with consistent social awareness and motivation for social activities not previously appreciated in this disorder. In addition, signs of anxiety presented during preschool years and increased in severity with age, particularly in internalizing problems. Boys with 49,XXXXY presented with wide behavioral variability across all ages and domains. Further research into the potential influences of culture, birth order, biological treatment, and frequency of services is needed to better define the behavioral phenotype of children with this disorder.
Subject(s)
Anxiety Disorders/genetics , Anxiety/genetics , Klinefelter Syndrome/genetics , Problem Behavior/psychology , Anxiety/physiopathology , Anxiety Disorders/epidemiology , Anxiety Disorders/physiopathology , Child , Child, Preschool , Chromosomes, Human, X/genetics , Chromosomes, Human, Y/genetics , Communication , Female , Humans , Infant , Klinefelter Syndrome/epidemiology , Klinefelter Syndrome/physiopathology , Klinefelter Syndrome/psychology , Male , Motivation/genetics , Sex Chromosomes/genetics , Social Behavior , Social SkillsABSTRACT
BACKGROUND: Klinefelter syndrome (KS) has been defined by sex chromosome aneuploidies (classically 47, XXY) in the male patient. The peripubertal timeframe in KS patients has been associated with the initiation of progressive testicular fibrosis, loss of spermatogonial stem cells (SSC), hypogonadism and impaired fertility. Less than half of KS patients are positive for spermatozoa in the ejaculate or testis via semen analysis or testicular sperm extraction, respectively. However, the chance of finding spermatogonia including a sub-population of SSCs in KS testes has not been well defined. Given the recent demonstration of successful cell culture for mouse and human SSCs, it could be feasible to isolate and propagate SSCs and transplant the cells back to the patient or to differentiate them in vitro to haploid cells. OBJECTIVE AND RATIONALE: The main objective of this study was to meta-analyse the currently available data from KS patients to identify the prevalence of KS patients with spermatogonia on testicular biopsy across four age groups (year): fetal/infantile (age ≤ 1), prepubertal (age 1 ≤ x ≤ 10), peripubertal/adolescent (age 10 < x < 18) and adult (age ≥ 18) ages. Additionally, the association of endocrine parameters with presence or absence of spermatogonia was tested to obtain a more powered analysis of whether FSH, LH, testosterone and inhibin B can serve as predictive markers for successful spermatogonia retrieval. SEARCH METHODS: A thorough Medline/PubMed search was conducted using the following search terms: 'Klinefelter, germ cells, spermatogenesis and spermatogonia', yielding results from 1 October 1965 to 3 February 2019. Relevant articles were added from the bibliographies of selected articles. Exclusion criteria included non-English language, abstracts only, non-human data and review papers. OUTCOMES: A total of 751 papers were identified with independent review returning 36 papers with relevant information for meta-analysis on 386 patients. For the most part, articles were case reports, case-controlled series and cohort studies (level IV-VI evidence). Spermatogonial cells were present in all of the fetal/infantile and 83% of the prepubertal patients' testes, and in 42.7% and 48.5% of the peripubertal and adult groups, respectively were positive for spermatogonia. Additionally, 26 of the 56 (46.4%) peripubertal/adolescent and 37 of the 152 (24.3%) adult patients negative for spermatozoa were positive for spermatogonia (P < 0.05). In peripubertal/adolescent patients, the mean ± SEM level for FSH was 12.88 ± 3.13 IU/L for spermatogonia positive patients and 30.42 ± 4.05 IU/L for spermatogonia negative patients (P = 0.001); the mean ± SEM level LH levels were 4.36 ± 1.31 and 11.43 ± 1.68 IU/L for spermatogonia positive and negative, respectively (P < 0.01); the mean ± SEM level for testosterone levels were 5.04 ± 1.37 and 9.05 ± 0.94 nmol/L (equal to 145 ± 40 and 261 ± 27 and ng/dl) for the spermatogonia positive and negative groups, respectively (P < 0.05), while the difference in means for inhibin B was not statistically significant (P > 0.05). A similar analysis in the adult group showed the FSH levels in spermatogonia positive and negative patients to be 25.77 ± 2.78 and 36.12 ± 2.90 IU/L, respectively (mean ± SEM level, P < 0.05). All other hormone measurements were not statistically significantly different between groups. WIDER IMPLICATIONS: While azoospermia is a common finding in the KS patient population, many patients are positive for spermatogonia. Recent advances in SSC in vitro propagation, transplantation and differentiation open new avenues for these patients for fertility preservation. This would offer a new subset of KS patients a chance of biological paternity. Data surrounding the hormonal profiles of KS patients and their relation to fertility should be interpreted with caution as a paucity of adequately powered data exists. Future work is needed to clarify the utility of FSH, LH, testosterone and inhibin B as biomarkers for successful retrieval of spermatogonia.
