about
Reduced bone mass and muscle strength in male 5α-reductase type 1 inactivated miceReproductive hormones and interleukin-6 in serious leisure male athletesTestosterone and the male skeleton: a dual mode of actionRepression of Runx2 by androgen receptor (AR) in osteoblasts and prostate cancer cells: AR binds Runx2 and abrogates its recruitment to DNADiscovery and therapeutic promise of selective androgen receptor modulatorsBiology of Bone Tissue: Structure, Function, and Factors That Influence Bone CellsEffects of weight-bearing activities on bone mineral content and density in children and adolescents: a meta-analysisNuclear receptors in bone physiology and diseasesAlcohol abuse: critical pathophysiological processes and contribution to disease burdenAndrogen receptor (AR) pathophysiological roles in androgen-related diseases in skin, bone/muscle, metabolic syndrome and neuron/immune systems: lessons learned from mice lacking AR in specific cellsBone health and associated metabolic complications in neuromuscular diseasesA concise review of testosterone and bone healthSynthetic androgens as designer supplementsRegulation of adult bone turnover by sex steroidsRegulation of male fertility by the bone-derived hormone osteocalcinBicc1 is a genetic determinant of osteoblastogenesis and bone mineral density.Altered TNSALP expression and phosphate regulation contribute to reduced mineralization in mice lacking androgen receptor.Does adiposity status influence femoral cortical strength in rodent models of growth hormone deficiency?Hormone replacement therapy and physical function in healthy older men. Time to talk hormones?Male osteoporosis and androgenic therapy: from testosterone to SARMs.Minireview: osteoprotective action of estrogens is mediated by osteoclastic estrogen receptor-alphaEffects of Adrenal Androgen Levels on Bone Age Advancement in Prepubertal Children: Using the Ewha Birth and Growth Cohort Study.Metastasin S100A4 is a mediator of sex hormone-dependent formation of the cortical bone.Sex steroids, periodontal health, and tooth loss in older menTherapies for musculoskeletal disease: can we treat two birds with one stone?The ESR1 (6q25) locus is associated with calcaneal ultrasound parameters and radial volumetric bone mineral density in European men.Androgen receptor (AR) in osteocytes is important for the maintenance of male skeletal integrity: evidence from targeted AR disruption in mouse osteocytes.Effect of GH/IGF-1 on Bone Metabolism and Osteoporsosis.Profiling insulin like factor 3 (INSL3) signaling in human osteoblasts.Understanding extranuclear (nongenomic) androgen signaling: what a frog oocyte can tell us about human biologyProtein kinase Cα (PKCα) regulates bone architecture and osteoblast activity.Bone mineral density, body composition and bone turnover in patients with congenital hypogonadotropic hypogonadism.The effect of estrogen on bone requires ERα in nonhematopoietic cells but is enhanced by ERα in hematopoietic cellsDeterminants of bone microarchitecture and mechanical properties in obese menDeciphering the selective androgen receptor modulators paradigm.Biological and biochemical consequences of global deletion of exon 3 from the ER alpha geneAndrogens and estrogens in skeletal sexual dimorphism.Sex steroid actions in male boneBiomedical consequences of alcohol use disorders in the HIV-infected hostEstrogens and Androgens in Skeletal Physiology and Pathophysiology.
P2860
Q21135319-7FF6E394-7DA3-445C-B744-2667F24E4D73Q23916806-43898FE1-AFA2-4A72-8C97-C2CE567AEDFCQ24594450-8F3D9A3F-342D-4402-9278-AC7E04699C0AQ24641909-1126368A-0B44-4892-9168-5405DAEFEB70Q24680356-E89439E8-4035-46BC-A018-6574501EFBD3Q26801599-3C5223A4-946A-420E-BD66-0BF42C833F1CQ26825238-2F582615-C36F-4436-A4D5-1ACAE9ADD2FAQ26853017-F99A499A-7625-4913-9652-B1C9C49C3E5AQ27010642-3880E295-0956-406E-9F10-CAFB9AF8D374Q27013914-D19ED21F-B516-40B1-A59C-B761A4FE0EC7Q27025688-DF24183D-2E6C-4AC7-B528-AFDA3F084B57Q28066891-901A399F-EFD1-4F5F-95F6-D4B35BF29B79Q28263449-A6D5B917-35A5-4BB8-8D38-1C6A08815A1EQ28281007-676E4688-FBDE-4151-9500-DF79A7BD3F79Q28300656-1B0E2DF3-485B-4052-B368-64346A67D84FQ30412670-EE335381-2C81-4B90-9D4F-B4B115C14331Q30484858-013AC52C-4CD5-4502-93BC-71DDA395719AQ33383753-C878F48B-2047-4366-94CB-43ACF269D36CQ33569163-2432042E-B3AE-452F-9C1A-09C5332C1239Q33610301-4C806386-F61D-4430-AD83-77E88AFB760CQ33637546-DD745A37-792D-445D-A8DE-8EE909501DDBQ33661409-525788A0-B921-4D95-8A6A-3E60ED044A0FQ33669642-D3907A58-EF66-4F72-8F67-E6EDF1204246Q33736698-230BB490-EA05-403F-B4C5-937CC748CE77Q33851441-68009AF3-2B1F-40A3-9243-64ACE2CC61BEQ33961723-CA0A270F-969D-410C-99E8-BF4621245403Q34032944-4E4578B6-F53F-43E1-9322-41831F45EDD7Q34043294-E71D7100-2081-40E9-9E12-F1530DB667C2Q34117906-8EF63802-0AA9-4AF6-B1A0-851AF495FDA3Q34167106-3D018546-76C9-4234-9606-09063CADAE36Q34170640-F7B7FB9C-4C0C-414B-B8D6-0B83B96C1F03Q34247406-740F3B40-EDE3-48BD-9DFA-B826B3EC04B0Q34295211-D4A2F672-8195-434C-BD0C-CF24B7653EB7Q34296684-62D21D06-7892-4CA3-8E93-AC819BA06C72Q34317005-D15FA23C-EA94-4B48-83D8-86BB505C1442Q34352842-4A130C89-D670-40DB-B687-8012EEB76A83Q34395346-9BD08875-A4B8-4AD7-8C25-BB9122F1DA41Q34437537-54D453C8-BA8B-4D7B-9548-2DD40C7E3685Q34464076-AB290DDF-5B23-4633-ADAB-7E852D2954D6Q34543980-881D31E4-C7E5-44B4-9806-077F9FCAF83D
P2860
description
im Juni 2004 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2004
@uk
name
Androgens and Bone
@en
Androgens and Bone
@nl
type
label
Androgens and Bone
@en
Androgens and Bone
@nl
prefLabel
Androgens and Bone
@en
Androgens and Bone
@nl
P2093
P356
P1433
P1476
Androgens and Bone
@en
P2093
Dirk Vanderschueren
Marie K. Lindberg
Roger Bouillon
Steven Boonen
P304
P356
10.1210/ER.2003-0003
P577
2004-06-01T00:00:00Z