about
Insulin-Sensitizing Effects of Omega-3 Fatty Acids: Lost in Translation?Influence of omega-3 fatty acids on skeletal muscle protein metabolism and mitochondrial bioenergetics in older adults.Effects of Dietary n-3 Fatty Acids on Hepatic and Peripheral Insulin Sensitivity in Insulin-Resistant Humans.Differential Effect of Endurance Training on Mitochondrial Protein Damage, Degradation, and Acetylation in the Context of Aging.1α,25-Dihydroxyvitamin D3 Regulates Mitochondrial Oxygen Consumption and Dynamics in Human Skeletal Muscle CellsAltered Skeletal Muscle Mitochondrial Proteome As the Basis of Disruption of Mitochondrial Function in Diabetic Mice.Adipocyte mitochondrial function is reduced in human obesity independent of fat cell sizeEnhanced Protein Translation Underlies Improved Metabolic and Physical Adaptations to Different Exercise Training Modes in Young and Old Humans.A longitudinal study of whole body, tissue, and cellular physiology in a mouse model of fibrosing NASH with high fidelity to the human condition.1α,25-dihydroxyvitamin D3 mitigates cancer cell mediated mitochondrial dysfunction in human skeletal muscle cells.Very-long-chain ω-3 fatty acid supplements and adipose tissue functions: a randomized controlled trial.Urinary Metabolites Associated with Blood Pressure on a Low- or High-Sodium Diet.Mitochondrial ADP Sensitivity and Transport: New Insights Into Diet-Induced Mitochondrial ImpairmentsHyperglucagonemia Mitigates the Effect of Metformin on Glucose Production in PrediabetesAttenuated activation of the unfolded protein response following exercise in skeletal muscle of older adultsEPA and DHA elicit distinct transcriptional responses to high-fat feeding in skeletal muscle and liverHigh fat diet consumption results in mitochondrial dysfunction, oxidative stress, and oligodendrocyte loss in the central nervous systemTFAM Enhances Fat Oxidation and Attenuates High-Fat Diet-Induced Insulin Resistance in Skeletal MuscleImpaired cardiac performance, protein synthesis, and mitochondrial function in tumor-bearing miceA comprehensive protocol for multiplatform metabolomics analysis in patient-derived skin fibroblastsThe clinical impact and biological mechanisms of skeletal muscle agingEndurance exercise as a countermeasure for aging. Diabetes 2008;57:2933–2942
P50
Q26748802-47A0C9BB-0020-462D-B413-E2288BEBB6E0Q33657412-32EFEED3-9A9B-478D-A567-8F3DF4B7AEACQ35769516-AFB1D7F9-0340-4BA6-B634-2FC48787BC9DQ36181495-9FDE28CE-6939-49D4-B61E-CB67EF5FA606Q36466239-532749ED-D210-4EAE-87A8-903F88CDCEDFQ36608779-28EDA4D7-E767-4358-BF5B-EDBB72C13604Q37554753-799A0E74-2843-4116-90C7-0AD98C63FBC6Q45370600-12ADB425-8DF2-4F06-99F3-267D15126629Q46413321-4A693619-59EE-40A5-A031-0604BE4A52FAQ49793906-77902455-E9A2-403B-987A-2918E402ACFEQ51047392-E31B2BAE-6A16-418C-8434-471937FF9DBBQ52647670-B43841DF-AE6B-4A59-9BD0-B6DA12DF16D5Q57786920-040658B3-6B88-4E3D-9664-89AE86B2B331Q88785823-CB2B61EA-835A-430B-9D5D-B6CC37B0182DQ90125640-1044B307-478F-4E98-B206-70DE5E1793EBQ91551601-A83A9B8D-15E8-4400-9A93-33B12B300EC2Q91804187-841799A6-E175-470F-86A2-9E71522CDBF9Q92020435-BB9D4464-013F-4A2E-87C1-6CD18148B58BQ92085669-1B703479-0E8B-4943-8AC8-862891735A22Q92259889-EEE8E87D-56A5-4439-B7E2-7AF34FCBF898Q92289162-F41A84E3-9B73-44D0-B843-D2FF1FCF7D39Q93560896-AFABF4CB-2A1A-4CBF-9161-A57C65EC634C
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Ian R Lanza
@en
Ian R Lanza
@nl
type
label
Ian R Lanza
@en
Ian R Lanza
@nl
prefLabel
Ian R Lanza
@en
Ian R Lanza
@nl
P108
P31
P496
0000-0002-9858-3384