about
A Mouse Model for Studying Nutritional Programming: Effects of Early Life Exposure to Soy Isoflavones on Bone and Reproductive HealthExposure to flaxseed and its purified lignan reduces bone strength in young but not older male rats.Serum equol, bone mineral density and biomechanical bone strength differ among four mouse strains.Interleukin-10 knockout mouse: a model for studying bone metabolism during intestinal inflammation.Exposure to purified lignan from flaxseed (Linum usitatissimum) alters bone development in female rats.A western-style diet reduces bone mass and biomechanical bone strength to a greater extent in male compared with female rats during development.Flaxseed oil and inflammation-associated bone abnormalities in interleukin-10 knockout mice.Bone abnormalities in adolescent leptin-deficient mice.Bone mass, bone strength, and their relationship in developing CD-1 mice.Femur EPA and DHA are correlated with femur biomechanical strength in young fat-1 mice.Adiponectin is a negative regulator of bone mineral and bone strength in growing mice.Flaxseed does not antagonize the effect of ultra-low-dose estrogen therapy on bone mineral density and biomechanical bone strength in ovariectomized rats.Neonatal administration of isoflavones attenuates deterioration of bone tissue in female but not male mice.Influence of longitudinal radiation exposure from microcomputed tomography scanning on skeletal muscle function and metabolic activity in female CD-1 miceRevisiting estrogen: efficacy and safety for postmenopausal bone health.Early exposure to soy isoflavones and effects on reproductive health: a review of human and animal studies.Long-term vitamin D3 supplementation does not prevent colonic inflammation or modulate bone health in IL-10 knockout mice at young adulthood.Higher PLIN5 but not PLIN3 content in isolated skeletal muscle mitochondria following acute in vivo contraction in rat hindlimb.Low vitamin D status throughout life results in an inflammatory prone status but does not alter bone mineral or strength in healthy 3-month-old CD-1 male mice.The ovariectomized rat as a model for studying alveolar bone loss in postmenopausal women.Gut microbiota-bone axis.The Interplay between Estrogen and Fetal Adrenal Cortex.Differential sclerostin and parathyroid hormone response to exercise in boys and men.PUFAs, Bone Mineral Density, and Fragility Fracture: Findings from Human StudiesIncreases in skeletal muscle ATGL and its inhibitor G0S2 following 8 weeks of endurance training in metabolically different rat skeletal muscles.Dietary strategies to optimize wound healing after periodontal and dental implant surgery: an evidence-based review.Supraphysiological Levels of Quercetin Glycosides are Required to Alter Mineralization in Saos2 Cells.Use of dietary supplements in patients seeking treatment at a periodontal clinicProviding Flaxseed Oil but Not Menhaden Oil Protects against OVX Induced Bone Loss in the Mandible of Sprague-Dawley Rats.Maternal Dietary Vitamin D Does Not Program Systemic Inflammation and Bone Health in Adult Female Mice Fed an Obesogenic DietFlavonoid intake and bone health.Isoflavones with supplemental calcium provide greater protection against the loss of bone mass and strength after ovariectomy compared to isoflavones alone.Maternal Consumption of Hesperidin and Naringin Flavanones Exerts Transient Effects to Tibia Bone Structure in Female CD-1 Offspring.Investigating the role of polyunsaturated fatty acids in bone development using animal models.Tea and bone health: Findings from human studies, potential mechanisms, and identification of knowledge gaps.Comparison of black, green and rooibos tea on osteoblast activity.Rooibos flavonoids, orientin and luteolin, stimulate mineralization in human osteoblasts through the Wnt pathway.High saturated fat diet alters the lipid composition of triacylglycerol and polar lipids in the femur of dam and offspring rats.Combined high-fat-resveratrol diet and RIP140 knockout mice reveal a novel relationship between elevated bone mitochondrial content and compromised bone microarchitecture, bone mineral mass, and bone strength in the tibia.Flaxseed and soy protein isolate, alone and in combination, differ in their effect on bone mass, biomechanical strength, and uterus in ovariectomized nude mice with MCF-7 human breast tumor xenografts.
P50
Q26748994-4A9F5D5B-81E5-4DFB-993B-284CCCB83929Q30698757-59EE62A3-9277-4A55-8CA1-B9C90E607834Q30859151-3351F321-E82F-49D9-A604-5CD94C499FC8Q31119415-81A5B9E7-4F4B-42DF-B5D3-4ABFCAA62E29Q31990354-9B2C4C30-95BD-4256-8EEE-E5715F5D11D3Q33188802-87639BEA-5EF2-470F-B2C0-920FDBA25B50Q33216481-1F1ECA3F-B639-414B-BDF0-F7568C1D5178Q33246311-A31F52C7-AD27-4A5A-A637-B124459481ADQ33283991-01AAA2F9-0958-4DE9-B850-A72CA0163DB2Q33360673-7282BFF3-2442-4A39-98E6-E5EB8AAF2653Q33375330-570CED9A-0749-445D-985E-2D1010FB3BF3Q33524436-B214D998-9718-4A5B-A198-445756F311E4Q33531992-C78A8111-2B5A-43F2-8D5A-95BC90D59AEDQ33896111-D20BF534-31B3-4B4E-8033-97237DBC56AEQ34211142-D1EE1E1F-3E52-4E74-B106-43F916BB690AQ34247954-AC75D0EE-DB8A-4FA2-B7CE-0F5A9C65EE68Q34263578-CCA1A604-0264-4A0F-A1D1-296294964080Q34622866-F0F5C6BD-D173-423E-8AB5-0C661C0F2391Q35167841-5F9D3B44-E76B-4B23-8479-3ED3A9AA1C63Q35594595-7D9F9C61-B593-4A0E-9F69-20F85FDC37C6Q35805152-A85FDCA8-6CBC-4CE7-98FC-0A4E358E8A57Q35875730-95145B71-2B37-4DE6-A52D-1DF87A0E45E7Q36619465-4AE3FFB7-6CE0-4166-B428-D740DAE324D7Q36670984-F80B90FD-2151-4D97-A4E0-BD649A319B72Q36699692-067D05EF-ADE1-4657-A4E9-CC86C1B5DAD5Q36924816-B15D9E74-C916-4E0E-965E-0172A24C11E3Q36937871-074C1B8E-2C35-41A2-B779-005B16C7D138Q36994058-F6EAB4FB-EC4B-4B6F-96F8-5D549199BDA2Q37373800-2B707337-699E-43AB-9D1F-227D464584AAQ37463165-34624749-9DD1-4742-80C0-46E1791FA324Q37502069-6942F626-FFF0-46EB-92C5-AA8902CE3C34Q37583710-31C1D778-55E3-41E3-A2FB-12CE6F996E2EQ37729750-07DB9C5A-ACCF-42C8-B778-D09F3903958BQ38163879-C0B88450-BC51-4F9E-BBA9-979787D2B61AQ38525284-89D08F3F-462D-4AD5-A51E-ED20B3532C2BQ38793515-534C6717-C2EC-4D90-BE95-FBDD19FBC0B2Q38930778-DE577480-E1F7-4656-A838-86EEF7BCDF06Q39013310-C2B00B84-9B58-4251-B5F6-8E152C6BF0FBQ39896236-F22462F5-2C54-4F86-B372-E867A0DD80B0Q40060918-89DE459E-C6B6-4C9B-AFCB-3E36DE2344BC
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Wendy E Ward
@es
Wendy E. Ward
@en
Wendy E. Ward
@nl
Wendy E. Ward
@sl
type
label
Wendy E Ward
@es
Wendy E. Ward
@en
Wendy E. Ward
@nl
Wendy E. Ward
@sl
altLabel
Wendy E. Ward
@en
prefLabel
Wendy E Ward
@es
Wendy E. Ward
@en
Wendy E. Ward
@nl
Wendy E. Ward
@sl
P106
P1153
7202733282
P21
P31
P496
0000-0001-9518-9608
P569
2000-01-01T00:00:00Z