Jari-Joonas Eskelinen

Overview

Explore the profile of Jari-Joonas Eskelinen including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 16

Citations 347

Followers 0

Related Specialties

Endocrinology

Physiology

Orthopedics

Top 10 Co-Authors

Kari K Kalliokoski

Jarna C Hannukainen

Eliisa Loyttyniemi

Kirsi A Virtanen

Kumail K Motiani

Marja A Heiskanen

Pirjo Nuutila

Juhani Knuuti

Virva Saunavaara

Ilkka H A Heinonen

Published In

J Appl Physiol (1985)

Med Sci Sports Exerc

Diabetologia

Am J Physiol Heart Circ Physiol

J Cereb Blood Flow Metab

Affiliations

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Recent Articles

Exercise training improves adipose tissue metabolism and vasculature regardless of baseline glucose tolerance and sex

Honkala S, Motiani P, Kivela R, Hemanthakumar K, Tolvanen E, Motiani K, et al.

BMJ Open Diabetes Res Care . 2020 Aug; 8(1). PMID: 32816872

Introduction: We investigated the effects of a supervised progressive sprint interval training (SIT) and moderate-intensity continuous training (MICT) on adipocyte morphology and adipose tissue metabolism and function; we also tested...

Bone Marrow Metabolism Is Impaired in Insulin Resistance and Improves After Exercise Training

Ojala R, Motiani K, Ivaska K, Arponen M, Eskelinen J, Virtanen K, et al.

J Clin Endocrinol Metab . 2020 Aug; 105(12). PMID: 32785654

Context: Exercise training improves bone mineral density, but little is known about the effects of training on bone marrow (BM) metabolism. BM insulin sensitivity has been suggested to play an...

Exercise Training Modulates Gut Microbiota Profile and Improves Endotoxemia

Motiani K, Carmen Collado M, Eskelinen J, Virtanen K, Loyttyniemi E, Salminen S, et al.

Med Sci Sports Exerc . 2019 Aug; 52(1):94-104. PMID: 31425383

Introduction: Intestinal metabolism and microbiota profiles are impaired in obesity and insulin resistance. Moreover, dysbiotic gut microbiota has been suggested to promote systemic low-grade inflammation and insulin resistance through the...

Effects of short-term sprint interval and moderate-intensity continuous training on liver fat content, lipoprotein profile, and substrate uptake: a randomized trial

Motiani K, Savolainen A, Toivanen J, Eskelinen J, Yli-Karjanmaa M, Virtanen K, et al.

J Appl Physiol (1985) . 2019 Apr; 126(6):1756-1768. PMID: 30998125

Type 2 diabetes (T2D) and increased liver fat content (LFC) alter lipoprotein profile and composition and impair liver substrate uptake. Exercise training mitigates T2D and reduces LFC, but the benefits...

Intramyocellular lipid accumulation after sprint interval and moderate-intensity continuous training in healthy and diabetic subjects

Sjoros T, Saunavaara V, Loyttyniemi E, Koivumaki M, Heinonen I, Eskelinen J, et al.

Physiol Rep . 2019 Feb; 7(3):e13980. PMID: 30740933

The effects of sprint interval training (SIT) on intramyocellular (IMCL) and extramyocellular (EMCL) lipid accumulation are unclear. We tested the effects of SIT and moderate-intensity continuous training (MICT) on IMCL...

Comment on 'Exercise training decreases pancreatic fat content and improves beta cell function regardless of baseline glucose tolerance: a randomised controlled trial'. Reply to Amini P and Moharamzadeh S [letter]

Heiskanen M, Motiani K, Mari A, Eskelinen J, Virtanen K, Loyttyniemi E, et al.

Diabetologia . 2018 Nov; 62(1):204-206. PMID: 30406809

No abstract available.

Exercise training decreases pancreatic fat content and improves beta cell function regardless of baseline glucose tolerance: a randomised controlled trial

Heiskanen M, Motiani K, Mari A, Saunavaara V, Eskelinen J, Virtanen K, et al.

Diabetologia . 2018 May; 61(8):1817-1828. PMID: 29717337

Aims/hypothesis: Pancreatic fat accumulation may contribute to the development of beta cell dysfunction. Exercise training improves whole-body insulin sensitivity, but its effects on pancreatic fat content and beta cell dysfunction...

Short-term interval training alters brain glucose metabolism in subjects with insulin resistance

Honkala S, Johansson J, Motiani K, Eskelinen J, Virtanen K, Loyttyniemi E, et al.

J Cereb Blood Flow Metab . 2017 Sep; 38(10):1828-1838. PMID: 28959911

Brain insulin-stimulated glucose uptake (GU) is increased in obese and insulin resistant subjects but normalizes after weight loss along with improved whole-body insulin sensitivity. Our aim was to study whether...

Sprint interval training decreases left-ventricular glucose uptake compared to moderate-intensity continuous training in subjects with type 2 diabetes or prediabetes

Heiskanen M, Sjoros T, Heinonen I, Loyttyniemi E, Koivumaki M, Motiani K, et al.

Sci Rep . 2017 Sep; 7(1):10531. PMID: 28874821

Type 2 diabetes mellitus (T2DM) is associated with reduced myocardial glucose uptake (GU) and increased free fatty acid uptake (FFAU). Sprint interval training (SIT) improves physical exercise capacity and metabolic...

10.

Exercise Training Reduces Intrathoracic Fat Regardless of Defective Glucose Tolerance

Honkala S, Motiani K, Eskelinen J, Savolainen A, Saunavaara V, Virtanen K, et al.

Med Sci Sports Exerc . 2017 Jun; 49(7):1313-1322. PMID: 28628064

Purpose: Epicardial (EAT) and pericardial (PAT) fat masses and myocardial triglyceride content (MTC) are enlarged in obesity and insulin resistance. We studied whether the high-intensity interval training (HIIT) and moderate-intensity...