Review

. 2023 Mar;108(3):166-171.

doi: 10.1136/archdischild-2020-320831. Epub 2022 Aug 10.

Klinefelter syndrome: going beyond the diagnosis

Gary Butler^{1

2}, Umasuthan Srirangalingam³, Jennie Faithfull³, Philippa Sangster⁴, Senthil Senniappan⁵, Rod Mitchell^{6

7}

Affiliations

¹ Paediatric and Adolescent Endocrinology, University College London Hospitals NHS Foundation Trust, London, UK gary.butler@ucl.ac.uk.
² UCL Great Ormond Street Institute of Child Health, London, UK.
³ Endocrinology, University College London Hospitals NHS Foundation Trust, London, UK.
⁴ Urology and Andrology, University College London Hospitals NHS Foundation Trust, London, UK.
⁵ Endocrinology, Alder Hey Children's NHS Foundation Trust, Liverpool, UK.
⁶ MRC Centre for Reproductive Health, University of Edinburgh Division of Reproductive and Developmental Sciences, Edinburgh, UK.
⁷ Department of Diabetes and Endocrinology, Royal Hospital for Sick Children, Edinburgh, UK.

PMID: 35948402
PMCID: PMC7614197
DOI: 10.1136/archdischild-2020-320831

Review

Klinefelter syndrome: going beyond the diagnosis

Gary Butler et al. Arch Dis Child. 2023 Mar.

. 2023 Mar;108(3):166-171.

doi: 10.1136/archdischild-2020-320831. Epub 2022 Aug 10.

Authors

Gary Butler^{1

2}, Umasuthan Srirangalingam³, Jennie Faithfull³, Philippa Sangster⁴, Senthil Senniappan⁵, Rod Mitchell^{6

7}

Affiliations

¹ Paediatric and Adolescent Endocrinology, University College London Hospitals NHS Foundation Trust, London, UK gary.butler@ucl.ac.uk.
² UCL Great Ormond Street Institute of Child Health, London, UK.
³ Endocrinology, University College London Hospitals NHS Foundation Trust, London, UK.
⁴ Urology and Andrology, University College London Hospitals NHS Foundation Trust, London, UK.
⁵ Endocrinology, Alder Hey Children's NHS Foundation Trust, Liverpool, UK.
⁶ MRC Centre for Reproductive Health, University of Edinburgh Division of Reproductive and Developmental Sciences, Edinburgh, UK.
⁷ Department of Diabetes and Endocrinology, Royal Hospital for Sick Children, Edinburgh, UK.

PMID: 35948402
PMCID: PMC7614197
DOI: 10.1136/archdischild-2020-320831

Abstract

Although Klinefelter syndrome (KS) is common, it is rarely recognised in childhood, sometimes being identified with speech or developmental delay or incidental antenatal diagnosis. The only regular feature is testicular dysfunction. Postnatal gonadotropin surge (mini-puberty) may be lower, but treatment with testosterone needs prospective studies. The onset of puberty is at the normal age and biochemical hypogonadism does not typically occur until late puberty. Testosterone supplementation can be considered then or earlier for clinical hypogonadism. The size at birth is normal, but growth acceleration is more rapid in early and mid-childhood, with adult height greater than mid-parental height. Extreme tall stature is unusual. The incidence of adolescent gynaecomastia (35.6%) is not increased compared with typically developing boys and can be reduced or resolved by testosterone supplementation, potentially preventing the need for surgery. Around two-thirds require speech and language therapy or developmental support and early institution of therapy is important. Provision of psychological support may be helpful in ameliorating these experiences and provide opportunities to develop strategies to recognise, process and express feelings and thoughts. Boys with KS are at increased risk of impairment in social cognition and less accurate perceptions of social emotional cues. The concept of likely fertility problems needs introduction alongside regular reviews of puberty and sexual function in adolescents. Although there is now greater success in harvesting sperm through techniques such as testicular sperm extraction, it is more successful in later than in early adolescence. In vitro maturation of germ cells is still experimental.

Keywords: child development; endocrinology; genetics; growth; mental health.

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Conflict of interest statement

Competing interests: None declared.

Figures

**Figure**
Diurnal variation profiles 09.00-21.00h of free testosterone concentrations, measured in saliva. Unpublished data from 10 XXY boys (52 diurnal profiles) and 13 XY boys at Tanner stage G1, 6 XXY boys (10 diurnal profiles) and 25 XY boys at Tanner stage G3, and 11 XXY boys (20 diurnal profiles) and 13 XY boys at Tanner stage G5. XXY and XY boys were recruited by newborn population screening [1] and the mean testosterone concentrations in the XXY boys are compared with the 95% confidence intervals (CI) from XY controls by pubertal stage based on data from [40]. The plasma testosterone equivalent is approximately 10 times higher (regression equation for conversion: *salivary free testosterone (pmol/l) = 9.8 plasma testosterone (nmol/l) + 34.5* [40]).

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Klinefelter syndrome: going beyond the diagnosis

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Klinefelter syndrome: going beyond the diagnosis

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