Effects of a protein preload on gastric emptying, glycemia, and gut hormones after a carbohydrate meal in diet-controlled type 2 diabetes.
about
Emerging Evidence for the Importance of Dietary Protein Source on Glucoregulatory Markers and Type 2 Diabetes: Different Effects of Dairy, Meat, Fish, Egg, and Plant Protein FoodsWhey protein: The "whey" forward for treatment of type 2 diabetes?Dairy foods and dairy proteins in the management of type 2 diabetes: a systematic review of the clinical evidenceEffects of dairy protein and fat on the metabolic syndrome and type 2 diabetesFood portion patterns and trends among U.S. children and the relationship to total eating occasion size, 1977-2006.Protein Digestion-Derived Peptides and the Peripheral Regulation of Food Intake.Does hunger and satiety drive eating anymore? Increasing eating occasions and decreasing time between eating occasions in the United States.Pathophysiology and pharmacotherapy of gastroparesis: current and future perspectives.Effect of a low dose whey/guar preload on glycemic control in people with type 2 diabetes--a randomised controlled trialA tripeptide Diapin effectively lowers blood glucose levels in male type 2 diabetes mice by increasing blood levels of insulin and GLP-1.The impact of a pure protein load on the glucose levels in type 1 diabetes patients treated with insulin pumps.Dairy components and risk factors for cardiometabolic syndrome: recent evidence and opportunities for future research.Increased portion sizes from energy-dense foods affect total energy intake at eating occasions in US children and adolescents: patterns and trends by age group and sociodemographic characteristics, 1977-2006.Metabolic responses of healthy or prediabetic adults to bovine whey protein and sodium caseinate do not differ.Effect of macronutrient composition on short-term food intake and weight lossL-glutamine and whole protein restore first-phase insulin response and increase glucagon-like peptide-1 in type 2 diabetes patients.Continuous glucose monitoring to assess the ecologic validity of dietary glycemic index and glycemic load.Effect of different protein sources on satiation and short-term satiety when consumed as a starter.Effects of Intraduodenal Infusions of L-phenylalanine and L-glutamine on Antropyloroduodenal Motility and Plasma Cholecystokinin in Healthy MenCo-Ingestion of Whey Protein with a Carbohydrate-Rich Breakfast Does Not Affect Glycemia, Insulinemia or Subjective Appetite Following a Subsequent Meal in Healthy Males.Effects of a Macro-Nutrient Preload on Type 2 Diabetic PatientsEffect of Consuming Oat Bran Mixed in Water before a Meal on Glycemic Responses in Healthy Humans-A Pilot Study.Plasma Free Amino Acid Responses to Intraduodenal Whey Protein, and Relationships with Insulin, Glucagon-Like Peptide-1 and Energy Intake in Lean Healthy Men.Meal sequence and glucose excursion, gastric emptying and incretin secretion in type 2 diabetes: a randomised, controlled crossover, exploratory trial.Eating vegetables before carbohydrates improves postprandial glucose excursionsA comparison of satiety, glycemic index, and insulinemic index of wheat-derived soft pretzels with or without soyEffects of a D-xylose preload with or without sitagliptin on gastric emptying, glucagon-like peptide-1, and postprandial glycemia in type 2 diabetes.Milk protein for improved metabolic health: a review of the evidenceEffects of intraduodenal glutamine on incretin hormone and insulin release, the glycemic response to an intraduodenal glucose infusion, and antropyloroduodenal motility in health and type 2 diabetesOral L-arginine stimulates GLP-1 secretion to improve glucose tolerance in male miceEffect of eating vegetables before carbohydrates on glucose excursions in patients with type 2 diabetesDifferential Effects of Red Meat/Refined Grain Diet and Dairy/Chicken/Nuts/Whole Grain Diet on Glucose, Insulin and Triglyceride in a Randomized Crossover Study.Intraduodenal milk protein concentrate augments the glycemic and food intake suppressive effects of DPP-IV inhibition.Milk, dairy products, and their functional effects in humans: a narrative review of recent evidence.Relationships of the early insulin secretory response and oral disposition index with gastric emptying in subjects with normal glucose tolerance.Orange Pomace Improves Postprandial Glycemic Responses: An Acute, Randomized, Placebo-Controlled, Double-Blind, Crossover Trial in Overweight Men.Short-Term Effects of Lupin vs. Whey Supplementation on Glucose and Insulin Responses to a Standardized Meal in a Randomized Cross-Over Trial.Effects of dairy intake on hyperuricemia and gout.The future of incretin-based therapy: novel avenues--novel targets.Peripheral and central mechanisms involved in the control of food intake by dietary amino acids and proteins.
P2860
Q26741760-DDD44E75-E122-4216-8ED6-37EAAE4EFE07Q26777875-618AE43A-CA40-45AF-A8CC-88BCA77649FFQ26862875-FD900917-AEB4-4B68-AFF0-85F2122415F1Q27008539-910E6632-D094-45C6-A116-C573CD08BF0DQ30500250-E60C6769-2C54-489D-865B-1602A409A233Q33593471-1C95023B-2930-4011-B3B4-29969ED07426Q33790561-E6364A81-4231-40B4-9AD7-B1831F0489B8Q34344032-35533DB9-EDD8-4484-97A6-7A819069368BQ34438901-04B53944-EC8A-4994-A6F6-42EDCEC1BCA5Q35080438-8DC70EBC-6E6A-4FDF-B830-20B90169A492Q35125594-277F7301-3946-4C37-81E5-7A315A5D037BQ35244994-732F494B-52F6-4334-B3E8-CD90EDDB5F6FQ35335580-C992B467-A801-41F1-83F1-AB77125024EFQ35570476-B88C9E60-A0B4-465C-A901-31738D6A3B27Q35584652-2C7C57DF-3B21-49CF-A3ED-6F1AC18F2FDCQ35585816-48E0FC70-4B5D-4AF6-9809-239C8FEC56FDQ35656431-0A765D4B-1186-4986-A195-EA2A4A76886FQ35808974-4C7C9B16-95F4-4D48-A376-4EE30BA498ECQ35834493-CB6FD77D-B597-44CC-BC6F-0A9B5ADB2291Q35939803-06582EEC-E45A-4C6E-9FA5-11C64D7C7AF8Q36097412-A53602A6-42F2-4CA1-9238-4A837A6596BBQ36115748-10D74D11-2F22-4715-BBAA-75FE4DF3E7B3Q36507384-707D8C59-731C-4238-B578-ABD609ADE9E9Q36547683-FF0BAF43-7F49-4677-949A-6FF3C9D117BEQ36907442-FBA0B03C-D117-4D3F-8795-919AC27E3B9CQ36940917-CB6799A0-37A4-49EC-817E-1A0A4079003CQ36942072-4A3566BB-7716-4192-B33F-874FE6904C1EQ36988174-F8AAE48B-6182-4483-8C9F-00851C51184DQ37022735-29ADC565-86E7-4A3B-8C0A-B0A8DF0CDB99Q37240144-2985E0BC-FE22-402F-845B-C114F399129BQ37440339-4117527D-D433-4538-B915-463AE7FFA37FQ37463210-95FAAF21-7116-4614-81BE-EE55D52189BFQ37578125-C10C4E60-AA94-4B5E-B3C5-19B6E0AF5375Q37633826-BDD28D6E-DF44-4BDF-83AA-F25ECA7B9F0AQ37670247-717F8978-091B-4859-862D-7A6CDA007A27Q37673197-0AF8F8B6-E8AC-455B-9773-806C2F123D4DQ37742881-E7CFCB7B-F9A4-47EB-A75C-43F527900080Q37824294-6F1853C2-49E6-47A5-947F-7FFEFCF898A8Q37913528-ED507189-F452-45EA-90BE-9AD2E08C2AE0Q38014156-7E968385-38A6-4534-963D-BE563E6CCC97
P2860
Effects of a protein preload on gastric emptying, glycemia, and gut hormones after a carbohydrate meal in diet-controlled type 2 diabetes.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 June 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@en
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@nl
type
label
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@en
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@nl
prefLabel
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@en
Effects of a protein preload o ...... et-controlled type 2 diabetes.
@nl
P2093
P2860
P356
P1433
P1476
Effects of a protein preload o ...... iet-controlled type 2 diabetes
@en
P2093
Anne F Maddox
Christopher K Rayner
Judith M Wishart
Julie E Stevens
Kimberly Cukier
Michael Horowitz
P2860
P304
P356
10.2337/DC09-0723
P407
P577
2009-06-18T00:00:00Z