ESPE Yearbook of Paediatric Endocrinology

ESPE Yearbook of Paediatric Endocrinology

ISSN 1662-4009 (online)

Published by BioScientifica

Page 22 of about 261 results

ey0019.9-7 | Fertility issues and reproductive outcomes in childhood cancer survivors | ESPEYB19

9.7. Fertility status among long-term childhood acute lymphoblastic leukaemia survivors enrolled between 1971 and 1998 in EORTC CLG studies: results of the 58 late adverse effects study

Rossi G. , Kicinski M. , Suciu S. , Vandecruys E. , Plat G. , Uyttebroeck A. , Paillard C. , Barbati M. , Dresse M.F. , Simon P. , Minckes O. , Pluchart C. , Ferster A. , Freycon C. , Millot F. , van der Werfften Bosch J. , Chantrain C. , Paulus R. , de Rojas T. , de Schaetzen G. , Rohrlich P. , Benoit Y. , Piette C.

On behalf of the European Organisation for Research and Treatment of Cancer (EORTC) Children’s Leukemia Group (CLG)caroline.piette@chuliege.be Human Reproduction, 2022; 37: 44–53. PMID: 34788455.Brief Summary: This case-control study evaluated fertility status in childhood acute lymphoblastic leukaemia (ALL) survivors enrolled in the European Organisation for Research and Treatment of Ca...
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ey0019.14-7 | Steroidogenesis and beyond | ESPEYB19

14.7. Placental uptake and metabolism of 25(OH)vitamin D determine its activity within the fetoplacental unit

B Ashley , C Simner , A Manousopoulou , C Jenkinson , F Hey , JM Frost , FI Rezwan , CH White , EM Lofthouse , E Hyde , LDF Cooke , S Barton , P Mahon , EM Curtis , RJ Moon , SR Crozier , HM Inskip , KM Godfrey , JW Holloway , C Cooper , KS Jones , RM Lewis , M Hewison , SDD Garbis , MR Branco , NC Harvey , JK Cleal

eLife 2022;11:e71094 doi: 10.7554/eLife.71094Brief summary: Using placental perfusion, placental fragment culture and primary term human cytotrophoblast culture experiments, the authors signify the relationship between maternal vitamin D, placental vitamin D metabolism and fetal vitamin D exposure.In this study, the uptake of radio-labelled vitamin D (13C-25(OH)D...
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ey0019.15-3 | Obesity | ESPEYB19

15.3. Obesity-associated GNAS mutations and the melanocortin pathway

E Mendes de Oliveira , JM Keogh , F Talbot , E Henning , R Ahmed , A Perdikari , R Bounds , N Wasiluk , V Ayinampudi , I Barroso , J Mokrosinski , D Jyothish , S Lim , S Gupta , M Kershaw , C Matei , P Partha , T Randell , A McAulay , LC Wilson , T Cheetham , EC Crowne , P Clayton , IS Farooqi

N Engl J Med. 2021;385(17):1581-92. doi: 10.1056/NEJMoa2103329.PubMed ID: 34614324Brief Summary: The authors performed whole exome sequencing in 2548 children with severe obesity and identified 22 GNAS mutation carriers, almost all of which disrupted melanocortin 4 receptor (MC4R) signaling.The gene GNAS encodes the stimulatory G-protein alpha subunit pr...
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ey0017.2-9 | Neonatal Diabetes Mellitus | ESPEYB17

2.9. Long-term metabolic and socio educational outcomes of transient neonatal diabetes: A longitudinal and cross-sectional study

F Le Bourgeois , Baz B Beltrand J , Riveline JP Julla JB , A Simon , I Flechtner , M Ait Djoudi , AL Fauret-Amsellem , Y Vial , R Scharfmann , J Sommet , P Boudou , H Cave , M Polak , JF Gautier , KTNDM Long-Term Follow-Up Study Group Busiah

To read the full abstract: Diabetes Care. 2020 Apr 9. pii: dc190324. doi: 10.2337/dc19-0324. [Epub ahead of print]. PMID: 32273272TransientNeonatalDiabetes (TNDM) develops in the first six months of life, and then remits only to relapse again during adolescence and adulthood. The three main genetic causes of TNDM are: 1) 6q24 abnormalities, 2) activating mutations in genes encoding the ATP-sensi...
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ey0017.3-9 | New genes | ESPEYB17

3.9. Digenic inheritance of mutations in EPHA2 and SLC26A4 in Pendred syndrome

M Li , SY Nishio , C Naruse , M Riddell , S Sapski , T Katsuno , T Hikita , F Mizapourshafiyi , FM Smith , LT Cooper , MG Lee , M Asano , T Boettger , M Krueger , A Wietelmann , J Graumann , BW Day , AW Boyd , S Offermanns , SI Kitajiri , SI Usami , M Nakayama

To read the full abstract: Nat Commun. 2020;11:1343.Li et al. describe a new genetic mechanism causing Pendred syndrome and extend evidence for an oligogenic origin of congenital hypothyroidism (CH). Autosomal recessive mutations in Pendrin (PDS/SCL26A4 ) were described in 1997 to cause Pendred syndrome [1]. However, over the years patients with either only heterozygous or even no mutation in PDS/SLC26A4 have been diag...
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ey0017.4-12 | New paradigms | ESPEYB17

4.12. IGSF1 Deficiency results in human and murine somatotrope neurosecretory hyperfunction

SD Joustra , F Roelfsema , ASP van Trotsenburg , HJ Schneider , RP Kosilek , HM Kroon , JG Logan , NC Butterfield , X Zhou , C Toufaily , B Bak , MO Turgeon , E Brule , FJ Steyn , M Gurnell , O Koulouri , P Le Tissier , P Fontanaud , JHD Bassett , GR Williams , W Oostdijk , JM Wit , AM Pereira , NR Biermasz , DJ Bernard , N Schoenmakers

To read the full abstract: J Clin Endocrinol Metab, March 2020, 105(3):e70–e84A cohort of 21 adult males (aged 19 to 89 years) harboring hemizygous pathogenic IGSF1 gene mutations underwent anthropometry, endocrine testing, testis ultrasonography, and body composition assessment to define the pathophysiological role of IGSF1 in influencing GH secretion. In addition, two lines of Igsf1 -deficient male mice were use...
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ey0017.5-12 | Advances in Skeletal Biology | ESPEYB17

5.12. Lipid availability determines fate of skeletal progenitor cells via SOX9

N van Gastel , S Stegen , G Eelen , S Schoors , A Carlier , VW Daniels , N Baryawno , D Przybylski , M Depypere , PJ Stiers , D Lambrechts , R Van Looveren , S Torrekens , A Sharda , P Agostinis , D Lambrechts , F Maes , JV Swinnen , L Geris , H Van Oosterwyck , B Thienpont , P Carmeliet , DT Scadden , G Carmeliet

To read the full abstract: Nature 2020;579:111–117.In brief: In large fracture calluses, skeletal progenitors activate the chondrogenesis program, whereas in smaller calluses, direct osteogenesis is the preferred path. Here, the authors show that lipid availability determines whether skeletal stem cells repair a fracture through endochondral bone formation or direct ossificati...
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ey0017.6-8 | Differences/Disorders of Sex Development: Genetics | ESPEYB17

6.8. Pathogenic variants in the DEAH-box RNA helicase DHX37 are a frequent cause of 46,XY gonadal dysgenesis and 46,XY testicular regression syndrome

K McElreavey , A Jorgensen , C Eozenou , T Merel , J Bignon-Topalovic , DS Tan , D Houzelstein , F Buonocore , N Warr , RGG Kay , M Peycelon , JP Siffroi , I Mazen , JC Achermann , Y Shcherbak , J Leger , A Sallai , JC Carel , L Martinerie , R Le Ru , GS Conway , B Mignot , L Van Maldergem , R Bertalan , E Globa , R Brauner , R Jauch , S Nef , A Greenfield , A Bashamboo

To read the full abstract: Genet Med. 2020, Jan; 22: 150-9. doi: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6944638/pdf/41436_2019_Article_606.pdfMassive parallel sequencing of 145 46,XY DSD patients revealed 13 individuals with heterozygous missense pathogenic variants in the RNA helicase DHX37, explaining 11% of cases of 46,XY gonadal d...
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ey0017.6-12 | Differences/Disorders of Sex Development: Clinical Studies | ESPEYB17

6.12. Clinical but not histological outcomes in males with 45,X/46,XY mosaicism vary depending on reason for diagnosis

ML Ljubicic , A Jorgensen , C Acerini , J Andrade , A Balsamo , S Bertelloni , M Cools , RT Cuccaro , F Darendeliler , CE Fluck , RP Grinspon , A Maciel-Guerra , T Guran , SE Hannema , AK Lucas-Herald , O Hiort , PM Holterhus , C Lichiardopol , LHJ Looijenga , R Ortolano , S Riedl , SF Ahmed , A Juul

To read the full abstract: J Clin Endocrinol Metab. 2019, Oct 1; 104: 4366–81. doi: https://www.ncbi.nlm.nih.gov/pubmed/31127831This retrospective observational study compared long-term health outcomes between 46,X/46,XY individuals diagnosed early in life due to genital anomalies (n =35) and those diagnosed later due other reasons (n =28). Data came from 16 clinic...
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ey0017.8-10 | New Hope | ESPEYB17

8.10. Combined gestational age- and birth weight-adjusted cutoffs for newborn screening of congenital adrenal hyperplasia

N Pode-Shakked , A Blau , B Pode-Shakked , D Tiosano , N Weintrob , O Eyal , A Zung , F Levy-Khademi , Y Tenenbaum-Rakover , D Zangen , D Gillis , O Pinhas-Hamiel , N Loewenthal , L de Vries , Z Landau , M Rachmiel , A Abu-Libdeh , A Eliakim , D Strich , I Koren , A German , J Sack , S Almashanu

To read the full abstract: J Clin Endocrinol Metab. 2019; 104(8): 3172–3180. PMID: 30865229.Congenital adrenal hyperplasia (CAH) due to 21-hydroxylase deficiency was among the first genetic disorders included in newborn screening (NBS) programs worldwide, based on 17-hydroxyprogesterone (17OHP) concentrations determined in dried blood spots (1). However, the success of NBS for...
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ESPE Yearbook of Paediatric Endocrinology
ISSN 1662-4009 (Online)
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