PS 10-19 Serum cortisone and cortisol/cortisone ratio as tool to identify subjects with severe and partial 11beta-hydroxysteroid dehydrogenase type 2 deficiencies
link https://doi.org/10.1097/01.hjh.0000500822.40592.64account_box Carvajal Maldonado, Cristian Andrésaccount_box Tapia Castillo, Alejandraaccount_box Martínez Aguayo, Alejandro Gregorioaccount_box Valdivia, Carolinaaccount_box Campino Johnson, María Del Carmenaccount_box Baudrand Biggs, Rene Felipeaccount_box Allende Sanzana, Fidel Alejandroaccount_box Pinochet Valenzuela, Constanzaaccount_box Iturrieta González, Virginia Andreaaccount_box Lizama, Jaimeaccount_box Solari Gajardo, Sandraaccount_box Fardella Bello, Carlos Enrique
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Objective: To report the phenotype of patients with AME by clinical and biochemical study, and expanding the study to their families and unrelated subjects to assess the value of F/E ratio as a biomarker partial deficiency of 11βHSD2.Design and Method: We evaluated 2 AME patients and their families. Family 1: A 17 years-old male with a homozygous Asp223Asn (D223N) mutation in HSD11B2, his mother (33 years) and sister (8 years); and Family 2: A 2 years-old girl with a homozygous Arg213Cys (R213C) mutation in HSD11B2, his father (30 years), her mother (30 years) and sister (6 years). We measured serum potassium, aldosterone, plasma renin activity (PRA), microalbuminuria, NGAL and F/E ratio (HPLC-MS). Reference ranges (RR), percentiles (p) and cut-off points for F, E and F/E serum were determined on data obtained from adult and pediatric normotensive subjects (F/E children RR: 1.63 to 5.15 and F/E adults RR:2.6–7.8]). Genetic analyses were performed by PCR-HRM and DNA sequencing.Results: Family 1: Index case (mut D223N) with classical AME features and a high serum F/E ratio (28.8 (> p99)). His mother and sister were normotensive and heterozygous for the same mutation D223N without clinical and biochemical abnormalities but with high F/E ratios (13.1 (p97) and 7.4 (p97)), respectively). Family 2: Index case (mut R213C) with classical AME and and a high F/E (175 (>p99)). His father, mother and sister were heterozygous for R123C, and are clinically and biochemically normal except for high F/E ratios (p92, p93 and p85, respectively).Conclusions: A F/E ratio greater than p90 –often associated to a cortisone lesser than p30- in relatives of subjects with AME suggests that partial heterozygous alterations or deficit in HSD11B2 are able to be identified by studying the serum cortisone and F/E ratio without prior clinical or biochemical features of classic AME such as AH, suppressed PRA and hypokalemia.
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| Autor | Carvajal Maldonado, Cristian Andrés Tapia Castillo, Alejandra Martínez Aguayo, Alejandro Gregorio Valdivia, Carolina Campino Johnson, María Del Carmen Baudrand Biggs, Rene Felipe Allende Sanzana, Fidel Alejandro Pinochet Valenzuela, Constanza Iturrieta González, Virginia Andrea Lizama, Jaime Solari Gajardo, Sandra Fardella Bello, Carlos Enrique |
| Título | PS 10-19 Serum cortisone and cortisol/cortisone ratio as tool to identify subjects with severe and partial 11beta-hydroxysteroid dehydrogenase type 2 deficiencies |
| ISSN | 0263-6352 |
| ISSN electrónico | 1473-5598 |
| Volumen | 34 |
| Página inicio | E329 |
| Página final | E329 |
| Fecha de publicación | 2016 |
| Resumen | Objective: To report the phenotype of patients with AME by clinical and biochemical study, and expanding the study to their families and unrelated subjects to assess the value of F/E ratio as a biomarker partial deficiency of 11βHSD2.Design and Method: We evaluated 2 AME patients and their families. Family 1: A 17 years-old male with a homozygous Asp223Asn (D223N) mutation in HSD11B2, his mother (33 years) and sister (8 years); and Family 2: A 2 years-old girl with a homozygous Arg213Cys (R213C) mutation in HSD11B2, his father (30 years), her mother (30 years) and sister (6 years). We measured serum potassium, aldosterone, plasma renin activity (PRA), microalbuminuria, NGAL and F/E ratio (HPLC-MS). Reference ranges (RR), percentiles (p) and cut-off points for F, E and F/E serum were determined on data obtained from adult and pediatric normotensive subjects (F/E children RR: 1.63 to 5.15 and F/E adults RR:2.6–7.8]). Genetic analyses were performed by PCR-HRM and DNA sequencing.Results: Family 1: Index case (mut D223N) with classical AME features and a high serum F/E ratio (28.8 (> p99)). His mother and sister were normotensive and heterozygous for the same mutation D223N without clinical and biochemical abnormalities but with high F/E ratios (13.1 (p97) and 7.4 (p97)), respectively). Family 2: Index case (mut R213C) with classical AME and and a high F/E (175 (>p99)). His father, mother and sister were heterozygous for R123C, and are clinically and biochemically normal except for high F/E ratios (p92, p93 and p85, respectively).Conclusions: A F/E ratio greater than p90 –often associated to a cortisone lesser than p30- in relatives of subjects with AME suggests that partial heterozygous alterations or deficit in HSD11B2 are able to be identified by studying the serum cortisone and F/E ratio without prior clinical or biochemical features of classic AME such as AH, suppressed PRA and hypokalemia. |
| Derechos | acceso restringido |
| DOI | 10.1097/01.hjh.0000500822.40592.64 |
| Editorial | LIPPINCOTT WILLIAMS & WILKINS |
| Enlace | |
| Id de publicación en WoS | WOS:000440372402103 |
| Paginación | 1 página |
| Tipo de documento | póster de congreso |