about
Targeting mitochondria to restore failed adaptation to exercise in diabetes.Method for controlled mitochondrial perturbation during phosphorus MRS in children.Metabolic profiling of muscle contraction in lean compared with obese rodents.Insulin sensitivity is an important determinant of renal health in adolescents with type 2 diabetes.Renal function is associated with peak exercise capacity in adolescents with type 1 diabetes.Etiology of insulin resistance in youth with type 2 diabetesPeripheral insulin resistance in obese girls with hyperandrogenism is related to oxidative phosphorylation and elevated serum free fatty acids.Modeling changes in glucose and glycerol rates of appearance when true basal rates of appearance cannot be readily determinedIntrahepatic fat is increased in the neonatal offspring of obese women with gestational diabetesLipoprotein subfraction cholesterol distribution is more atherogenic in insulin resistant adolescents with type 1 diabetes.Cardiopulmonary Dysfunction and Adiponectin in Adolescents With Type 2 DiabetesMuscle protein synthesis and balance responsiveness to essential amino acids ingestion in the presence of elevated plasma free fatty acid concentrations.The StatStrip glucose monitor is suitable for use during hyperinsulinemic euglycemic clamps in a pediatric populationObese adolescents with polycystic ovarian syndrome have elevated cardiovascular disease risk markers.Ethnic and Sex Differences in Adiponectin: From Childhood to Adulthood.The role of glycemia in insulin resistance in youth with type 1 and type 2 diabetes.Youth with type 1 diabetes have worse strain and less pronounced sex differences in early echocardiographic markers of diabetic cardiomyopathy compared to their normoglycemic peers: A RESistance to InSulin in Type 1 ANd Type 2 diabetes (RESISTANT) SInsulin Resistance in Youth Without Diabetes Is Not Related to Muscle Mitochondrial Dysfunction.Severe Neuroinvasive West Nile Virus Infection in a Child with Undiagnosed Addison's Disease.Hepatic Steatosis is Common in Adolescents with Obesity and PCOS and Relates to De Novo Lipogenesis but not Insulin Resistance.Achieving ADA/ISPAD clinical guideline goals is associated with higher insulin sensitivity and cardiopulmonary fitness in adolescents with type 1 diabetes: Results from RESistance to InSulin in Type 1 ANd Type 2 diabetes (RESISTANT) and Effects of MSkeletal muscle protein accretion rates and hindlimb growth are reduced in late gestation intrauterine growth-restricted fetal sheep.Leptin is associated with cardiopulmonary fitness independent of body-mass index and insulin sensitivity in adolescents with type 1 diabetes: a brief report from the EMERALD study.Insulin resistance in type 2 diabetes youth relates to serum free fatty acids and muscle mitochondrial dysfunction.Insulin Resistance, Hyperinsulinemia, and Mitochondria Dysfunction in Nonobese Girls With Polycystic Ovarian Syndrome.Reduction of Insulin Related Preventable Severe Hypoglycemic Events in Hospitalized Children.Worldwide Dissatisfaction With the Diagnostic Process and Initial Treatment of PCOS.Oral Glucose Tolerance Test Glucose Peak Time Is Most Predictive of Prediabetes and Hepatic Steatosis in Obese Girls.Post-glucose hyperinsulinemia is black women is not what we thoughtSupplemental Oxygen Improves In Vivo Mitochondrial Oxidative Phosphorylation Flux in Sedentary Obese Adults With Type 2 Diabetes.A Structured Neonatal Parenting Elective: An Approach for Parenting Leave During ResidencySerum uromodulin inversely associates with aortic stiffness in youth with type 1 diabetes: A brief report from EMERALD studyAdvances in stable isotope tracer methodology part 1: hepatic metabolism via isotopomer analysis and postprandial lipolysis modelingYouth With Type 1 Diabetes Have Adipose, Hepatic, and Peripheral Insulin ResistanceYouth with type 2 diabetes have hepatic, peripheral, and adipose insulin resistanceMetformin Improves Insulin Sensitivity and Vascular Health in Youth With Type 1 Diabetes MellitusUnderstanding cardiovascular disease risk in women with polycystic ovary syndromeMuscle Insulin Resistance in Youth with Obesity and Normoglycemia is Associated with Altered Fat MetabolismIncidence of Hypertension Among Children Treated With Adrenocorticotropic Hormone (ACTH) or Prednisolone for Infantile SpasmsAmino acid and fatty acid metabolomic profile during fasting and hyperinsulinemia in girls with polycystic ovarian syndrome
P50
Q33919949-4458484D-AA88-4113-99EC-FBD914783542Q34090567-D2ABADAA-87EC-4E59-8328-04E0D4CEE78EQ34150194-46CA39DB-1CF3-4AF4-88BB-11A1EA4A8B14Q34392364-5BF75E3C-B22C-47A1-97AA-1BBE2920FE0DQ34762311-24D858AE-33B2-4303-A62D-35152ECC4AFEQ34974105-02D6E32E-3942-4F08-86D2-938968CCCC53Q35572930-B7E210EB-4DBB-4702-8084-8A3B98BEEB89Q36637876-590B7891-70B0-4FD6-A1C4-1648E2BD8331Q36724415-3E10C191-6D44-464E-BC27-A1B6ED99003EQ36951888-EF602D69-9556-440F-BAF1-856C12A238B6Q37090768-4DE928EA-E5E2-4F42-BE8E-2CEE1AF969A0Q37315753-8E6C5827-4ED3-41D7-81E6-A7832F26C7B7Q37718921-5404EDBD-4C69-4514-B936-DE2061F527B4Q39016504-EF8F3415-7C2B-44A3-93D9-626D13AD2C4CQ39413827-6AB4CE97-BD0D-41F1-A203-489141F5226AQ39510183-C97954D2-0FEC-475A-8F69-53C13BBE68F8Q39805797-CA2070FC-1AA9-42D9-B1BD-AD1526E3BDDEQ40333934-2CF6E534-DF2A-490B-9967-1D4BB764C2D2Q41922648-A1653AFB-0761-4E95-B3BF-9DF195B152DCQ42759522-9DAA52CA-09B8-40AB-B5D7-4DB0F4C2FBFBQ47725249-21D10DD8-C162-4502-AE0E-66740016881CQ47756591-36B4CDAB-05DD-4521-832C-71934141792AQ47936691-B8591776-64DE-4C56-A94C-DE91578D1710Q48035545-9A98AD44-915D-48F1-8001-D0451DD503C6Q51249806-CCDC8221-1E1E-4AB2-A93A-5D3A9AD3FAEBQ51286648-696BFA57-DEDC-448C-A34B-147C70073284Q54686098-4A314976-FE6C-4990-9310-BD17DCB2CEF0Q55420946-56D00B08-A174-4DF0-B97C-320E5DFB4EAEQ58114784-0E90C644-C4E5-41AD-9643-DDDA6437BF27Q64997678-5E8B8909-29B3-44A5-8685-F310DDDDB9D4Q89656470-C08528EF-6953-473C-9380-94B22DD9BB97Q90023810-4E83C8D1-5F70-44B5-9118-53A995B68D55Q90286903-45BC19AB-1DC6-4D82-A4A3-138348344DABQ90312756-ECA18959-B894-4664-91B7-73E3EC1E0438Q90613030-32813D80-142A-477C-976D-EB3657293B48Q90632528-595BC18C-BB73-4D39-AC99-432105039B4BQ90678498-2CDCA47C-CA96-47E1-BD95-56CE3391BD6BQ90978589-8B002843-0FAD-4864-BFC6-7E49826E554BQ91459191-16E177EA-9AAE-4ADC-8EC3-DCD0B13BD1ADQ91500148-98BBA79A-547B-4A8D-99B2-642C991BB2A2
P50
description
researcher ORCID ID = 0000-0003-1593-1695
@en
wetenschapper
@nl
name
Melanie G Cree
@ast
Melanie G Cree
@en
Melanie G Cree
@nl
type
label
Melanie G Cree
@ast
Melanie G Cree
@en
Melanie G Cree
@nl
prefLabel
Melanie G Cree
@ast
Melanie G Cree
@en
Melanie G Cree
@nl
P31
P496
0000-0003-1593-1695