ESPE Yearbook of Paediatric Endocrinology

ESPE Yearbook of Paediatric Endocrinology

ISSN 1662-4009 (online)

Published by BioScientifica

Page 1 of about 3 results

ey0015.13-2 | How does paediatric endocrinology and diabetes fit in the global initiatives? | ESPEYB15

13.2 Worldwide burden of cancer attributable to disease and high body-mass index: a comparative risk assessment

J Pearson-Stuttard , B Zhou , V Kontis , J Bentham , MJ Gunter , M Ezzati

To read the full abstract: Lancet Diabetes Endocrinol 2018; 6(2):95-104As non-communicable diseases (NCDs) are reaching epidemic levels, emerging data elucidate the devastating non-metabolic long-term risks of overweight, obesity and diabetes. Using published relative risk analysis and cancer incidence estimates from the GLOBOCAN project, the authors provide a thorough risk analysis of si...
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ey0020.3-12 | Translational Highlights | ESPEYB20

3.12. Impaired bone strength and bone microstructure in a novel early-onset osteoporotic rat model with a clinically relevant PLS3 mutation

J Hu , B Zhou , X Lin , Q Zhang , F Guan , L Sun , J Liu , O Wang , Y Jiang , WB Xia , X Xing , M Li

In Brief: The study established a novel rat model with a clinically relevant PLS3 mutation, which replicates the osteoporotic phenotype of early-onset PLS3-related osteoporosis. The findings suggest that treatment with alendronate or teriparatide improves bone mass and microarchitecture, suggesting their potential as effective treatments for early-onset osteoporosis caused by PLS3 mutations.Commentary: This study is an essentia...
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ey0016.5-14 | Basic Science - Growth Plate | ESPEYB16

5.14. A radical switch in clonality reveals a stem cell niche in the epiphyseal growth plate

PT Newton , L Li , B Zhou , C Schweingruber , M Hovorakova , M Xie , X Sun , L Sandhow , AV Artemov , E Ivashkin , S Suter , V Dyachuk , M El Shahawy , A Gritli-Linde , T Bouderlique , J Petersen , A Mollbrink , J Lundeberg , G Enikolopov , H Qian , K Fried , M Kasper , E Hedlund , I Adameyko , L Savendahl , AS Chagin

Abstract: Nature. 2019 Mar;567(7747):234–238.In brief: In this article, the authors present evidence that the murine epiphyseal growth plate develops a postnatal stem cell niche with monoclonal properties, that are able to self-renew. They thereby challenge the concept of a continous depletion of progenitor cells as a limiting factor for bone growth.<p class="abste...
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Published by BioScientifica

ESPE Yearbook of Paediatric Endocrinology
ISSN 1662-4009 (Online)
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