Bone microarchitecture is impaired in adolescent amenorrheic athletes compared with eumenorrheic athletes and nonathletic controls.
about
The female athlete triadClinical imaging of bone microarchitecture with HR-pQCT2014 Female Athlete Triad Coalition Consensus Statement on Treatment and Return to Play of the Female Athlete Triad: 1st International Conference held in San Francisco, California, May 2012 and 2nd International Conference held in Indianapolis, IndiTreatment strategies for the female athlete triad in the adolescent athlete: current perspectivesOxytocin secretion is related to measures of energy homeostasis in young amenorrheic athletes.Current perspectives on the etiology and manifestation of the "silent" component of the Female Athlete TriadIrisin levels are lower in young amenorrheic athletes compared with eumenorrheic athletes and non-athletes and are associated with bone density and strength estimatesThe Role of Body Weight on Bone in Anorexia Nervosa: A HR-pQCT Study.Effects of age and starting age upon side asymmetry in the arms of veteran tennis players: a cross-sectional study.Fractures in Relation to Menstrual Status and Bone Parameters in Young Athletes.Higher ghrelin and lower leptin secretion are associated with lower LH secretion in young amenorrheic athletes compared with eumenorrheic athletes and controlsCortisol secretory parameters in young exercisers in relation to LH secretion and bone parameters.Cortical microstructure and estimated bone strength in young amenorrheic athletes, eumenorrheic athletes and non-athletesAltered trabecular bone morphology in adolescent and young adult athletes with menstrual dysfunction.Neuroendocrine mechanisms in athletes.Hip structural analysis in adolescent and young adult oligoamenorrheic and eumenorrheic athletes and nonathletesNocturnal oxytocin secretion is lower in amenorrheic athletes than nonathletes and associated with bone microarchitecture and finite element analysis parameters.Update on the female athlete triad.Sclerostin and Pref-1 have differential effects on bone mineral density and strength parameters in adolescent athletes compared with non-athletes.Comparison of Site-Specific Bone Mineral Densities between Endurance Runners and Sprinters in Adolescent Women.Effects of hypogonadism on bone metabolism in female adolescents and young adults.Reduced energy availability: implications for bone health in physically active populations.The Unexplored Crossroads of the Female Athlete Triad and Iron Deficiency: A Narrative Review.Bone Health in Athletes.Racial Differences in Bone Microarchitecture and Estimated Strength at the Distal Radius and Distal Tibia in Older Adolescent Girls: a Cross-Sectional Study.Exercise during energy restriction mitigates bone loss but not alterations in estrogen status or metabolic hormones.The role of physical activity in early adulthood and middle-age on bone health after menopause in epidemiological population from Silesia Osteo Active Study.The Epidemiology of Stress Fractures in Collegiate Student-Athletes, 2004-2005 Through 2013-2014 Academic Years.Assessment and clinical management of bone disease in adults with eating disorders: a review.Current Status of the Female Athlete Triad: Update and Future Directions.Food Versus Pharmacy: Assessment of Nutritional and Pharmacological Strategies to Improve Bone Health in Energy-Deficient Exercising Women.Precision of bone density and micro-architectural properties at the distal radius and tibia in children: an HR-pQCT study.Unique effects of energy versus estrogen deficiency on multiple components of bone strength in exercising women.Misunderstanding the female athlete triad: refuting the IOC consensus statement on Relative Energy Deficiency in Sport (RED-S).Fat and Lean Mass Predict Bone Mass During Energy Restriction in Sedentary and Exercising RodentsLongitudinal Adaptations of Bone Mass, Geometry, and Metabolism in Adolescent Male Athletes: The PRO-BONE Study
P2860
Q24605890-35CF3B83-2F16-4C32-BAEE-F0C54BE8A8DBQ27010454-DD979049-41A3-4D59-8EC0-1B8BE959D904Q28306617-28052FEB-9260-4542-A83B-2B905DBF9790Q33553544-C1C98F05-E0DE-4F48-8E34-95709EF623D9Q33568999-D71A3945-E486-4F51-95ED-525604F61A56Q33583494-B453A48D-C766-455F-B7AF-A99F93A5BCA1Q33754566-57699B7E-87B5-401B-963E-36566427841CQ33841942-F87020E4-AB97-410B-8E1F-012E6C821AE3Q35095033-E199C490-CF32-4D9E-9EC1-D77D60600BABQ35602914-CF6FEBF0-EBC7-40CB-80B4-6630B579319CQ35900597-D9F942B0-A049-4D94-91DF-3DB088C6C8B8Q36237295-C94E8048-DEEC-41E4-B768-215D3CA40349Q36352721-A9931879-1A67-4F7F-91AD-78BD69BE85E3Q36556103-3D578405-CBA8-4505-884B-37CAB89B5030Q36557087-54F61BD0-F790-44E8-922E-01F6CAA5D074Q36736477-5A1893C5-48C0-4E7F-8CE4-B7CF2310166FQ36921383-3AF5CCD4-9743-420A-AB37-DDEB32AE557BQ36986567-AFB428D1-809F-447E-AC2B-FA135A3688C1Q37086296-D505CB89-7622-4EE6-9958-D628613FD085Q37535409-CB61D187-56D8-4115-A0CD-CAC895406A4FQ37978208-718787B9-4038-4BE9-B4CF-59E780019CE8Q38655503-17F95A81-92D9-4F35-AD1E-3A80A0991594Q38746268-F608BE8F-E5FB-4599-9DCC-F58C713ABE68Q39002200-09688E25-CFA4-49AE-AEC6-1BBAED3B6160Q39624719-2A94B8AF-DD58-4167-9418-7356524646A6Q39809273-640C7630-7212-498F-BF39-309E76FFA74CQ40522761-6185C6AD-6120-4B13-8569-7FCBCFA5C37BQ46146562-F537CE44-4CDD-4FFF-A53E-BE60149F4867Q47163664-A4135E2B-C9D3-4C65-9CB0-B1970054AFA1Q47611138-80F87307-4D42-4A54-B3FA-B0CDDC4B3DA6Q47661965-D2EA6F0A-07FF-4C01-9C88-B02184AC7D56Q47664345-424B9CB8-E329-4928-9F6F-4F3D5F20A8DBQ47905221-5B3E6198-82F8-4382-AD5D-857561D1CC11Q50465398-EE11558B-EB88-415C-9947-466613F1453CQ57821492-702983B6-C586-415E-B991-B330F7770214Q57916707-29CE0A3E-F5A3-4541-88AB-2809606579AB
P2860
Bone microarchitecture is impaired in adolescent amenorrheic athletes compared with eumenorrheic athletes and nonathletic controls.
description
2011 nî lūn-bûn
@nan
2011 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Bone microarchitecture is impa ...... etes and nonathletic controls.
@ast
Bone microarchitecture is impa ...... etes and nonathletic controls.
@en
type
label
Bone microarchitecture is impa ...... etes and nonathletic controls.
@ast
Bone microarchitecture is impa ...... etes and nonathletic controls.
@en
prefLabel
Bone microarchitecture is impa ...... etes and nonathletic controls.
@ast
Bone microarchitecture is impa ...... etes and nonathletic controls.
@en
P2093
P2860
P356
P1476
Bone microarchitecture is impa ...... etes and nonathletic controls.
@en
P2093
Alexander P Taylor
Dorota Chapko
Kathryn E Ackerman
Madhusmita Misra
Melissa Russell
Nara Mendes
Taraneh Nazem
P2860
P304
P356
10.1210/JC.2011-1614
P407
P577
2011-08-03T00:00:00Z