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Ramesh Srinivasan Department of Paediatric Endocrinology, Royal Victoria Infirmary, Newcastle-upon-Tyne Hospitals NHS Trust, Newcastle-upon-Tyne NE1 4LP, UK

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Stephen Ball Department of Endocrinology, Royal Victoria Infirmary, Newcastle-upon-Tyne NE1 4LP, UK
The Medical School, Newcastle University, Newcastle NE24HH, UK

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Martin Ward-Platt Ward 35, Royal Victoria Infirmary, Newcastle-upon-Tyne NE1 4LP, UK

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David Bourn The Institute of Genetic Medicine, Newcastle University, International Centre for Life, Central Parkway, Newcastle-upon-Tyne NE1 3BZ, UK

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Ciaron McAnulty The Institute of Genetic Medicine, Newcastle University, International Centre for Life, Central Parkway, Newcastle-upon-Tyne NE1 3BZ, UK

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Tim Cheetham Department of Paediatric Endocrinology, Royal Victoria Infirmary, Newcastle-upon-Tyne Hospitals NHS Trust, Newcastle-upon-Tyne NE1 4LP, UK
The Institute of Genetic Medicine, Newcastle University, International Centre for Life, Central Parkway, Newcastle-upon-Tyne NE1 3BZ, UK

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Summary

Aim: Differentiating familial cranial diabetes insipidus (CDI) from primary polydipsia can be difficult. We report the diagnostic utility of genetic testing as a means of confirming or excluding this diagnosis.

Patient and methods: The index case presented at 3 months with polydipsia. He was diagnosed with familial CDI based on a positive family history combined with what was considered to be suspicious symptomatology and biochemistry. He was treated with desmopressin (DDAVP) but re-presented at 5 months of age with hyponatraemia and the DDAVP was stopped. Gene sequencing of the vasopressin gene in father and his offspring was undertaken to establish the underlying molecular defect.

Results: Both father and daughter were found to have the pathogenic mutation c.242T>C (p.Leu81Pro) in exon 2 of the AVP gene consistent with a diagnosis of familial diabetes insipidus. The index case did not have the pathogenic mutation and the family could be reassured that he would not require intervention with DDAVP.

Conclusions: Gene sequencing of AVP gene can have a valuable role in predicting whether or not a child is at risk of developing CDI in future. This can help to prevent family uncertainty and unnecessary treatment with its associated risks.

Learning points

  • Differentiating patients with familial cranial diabetes insipidus from those with primary polydipsia is not always straightforward.

  • Molecular genetic analysis of the vasopressin gene is a valuable way of confirming or refuting a diagnosis of familial CDI in difficult cases and is a valuable way of identifying individuals who will develop CDI in later childhood. This information can be of great value to families.

Taxonomy:
Clinical Overview, Gland/Organ, Pituitary, Topic, Genetics and mutation, Pituitary, Hormone, AVP, Condition/ Syndrome, Diabetes insipidus - neurogenic/central, Hyponatraemia, Patient Demographics, Age, Paediatric, Gender, Male, Ethnicity, White, Country of Treatment, United Kingdom, Diagnosis and Treatment, Signs and Symptoms, Polydipsia, Investigation, Genetic analysis, Serum osmolality, Sodium, Urine osmolality, Water deprivation, Medication, Desmopressin, Related Disciplines, Genetics, Publication Details, Case Report Type, Error in diagnosis/pitfalls and caveats
DOI:
https://doi.org/10.1530/EDM-13-0068
Volume/Issue:
Volume 2013: Issue 1
Open access