Exercise and metabolism in Xlab

Our research is based on Human Exercise Physiology & Metabolism - in Health and Disease. Our goal is to fully understand the mechanisms behind at all levels; from whole body to intracellular.

Exercise and metabolism in Xlab

 

 

 

Our group performs human studies to unravel the effects of exercise and physical training on metabolic health, and cardiovascular regulation in different populations. We design and run clinical and lifestyle interventions. Our laboratory is unique as it hosts an extensive range of expertise; clinical and human physiology, metabolic and cardiovascular research, histology and cell biology, biochemistry and molecular biology. We are continuously optimizing and standardizing methods to assess fitness, metabolic health, biological age, tissue pathology, mitochondria bioenergetics and function, quantitative and qualitative alterations of intracellular energy stores and organelles.

 

 

 

 

 

 

  • Skeletal muscle mitochondrial respiratory capacity is dissociated from insulin resistance. Long-term studies in patients with type 2 diabetes undergoing gastric by-pass surgery showed that while insulin sensitivity increased markedly over an almost 2 yr. period following surgery, mitochondrial respiration remained stable and unchanged (Lund et al. Acta Physiologica, 2018).

  • High Intensity Interval Training (HITT) is an effective training modality for patients with insulin resistance. It requires a minimum of time commitment, and yields similar improvements as strength and endurance training. However, the intensity is high as the modality may not be intuitively attractive for obese people with diabetes (Dela et al. Acta Physiologica, submitted).

  • Metabolism at the cellular level is regulated by intracellular compartmentalization of reactions and processes. The quality and organization of intracellular energy stores and mitochondrial networks are impaired with physical inactivity and obesity.

  • Statin treatment is used to lower cholesterol, but some side-effects are seen primarily muscle pain, which can be associated with mitochondrial function. We found that mitochondrial intrinsic respiratory capacity is increased in statin treated patients experiencing muscle pain (Dohlmann et al., JCEM, 2018).

 

 

 

 

 

 

 

 

 

 

 

 

Physical Training and Pharmacological Treatment of Type 2 Diabetes mellitus

PhD study commencing medio 2019. Arthur Ingersen, MD. Aims: In T2DM to investigate the effects of aerobic training on pancreatic β-cell function, secretory capacity and bone quality; to compare the effects of strength training and aerobic training on pancreatic β-cell secretory capacity and bone quality; and to investigate the effects of noradrenaline infusion on β-cell function and secretory capacity.

Biological Age estimation is frequently used as a health tool

In this project, we investigate the use of Biological Age technology and explore how reliable this health technology is to induce favorable changes in metabolic risk factors. This is done with three separate projects, where biological age is evaluated after 1 year in free-living subjects 1 year after, where a cross-sectional approach is used to study the estimation algorithm and finally a validation experiment.

Link between mitochondrial dynamics and function

The role of mitochondrial dynamics as a regulator of organelle function will be investigated in human biopsies and cell cultures, combining nanoscale microscopy with high resolution respirometry.

Antioxidants and mitochondrial function

Insulin resistance and type 2 diabetes are linked to increased production of reactive oxygen species from skeletal muscle mitochondria. Whether supplementation with antioxidants (glutathione) can prevent this, is investigated in patients with type 2 diabetes and matched control participants.

 

 

 

 

 

 

 

 

 

 

 

Group leaders

Jørn Wulff Helge
Professor

Mail: jhelge@sund.ku.dk
Mobile: +45 28 75 75 06

Helge Group

CV, Publications, etc.

Flemming Dela
Professor

Mail: fdela@sund.ku.dk
Mobile: +45 21 20 99 57

Dela Group

CV, Publications, etc.

Steen Larsen
Associate professor 

Mail: stelar@sund.ku.dk 
Mobile: +45 21 15 19 24

Larsen Group

CV, Publications, etc.

Forskere/gruppemedlemmer

Interne

Name Title Job responsibilities Phone E-mail
Clara Prats Gavalda Associate Professor CFIM LM +4535330706 E-mail
Elisabeth Ann Bandak Postdoc Human Movement Science   E-mail
Elise Gerlach Melhedegaard Research Assistant Xlab3 +4529459686 E-mail
Flemming Dela Professor Dela Group +4535327425 E-mail
Julien Ochala Associate Professor - Promotion Programme Ochala Group +4535335651 E-mail
Jørn Wulff Helge Professor Helge Group +4528757506 E-mail
Linn Gillberg Assistant Professor Xlab   E-mail
Maria Hansen PhD Student Dela Group   E-mail
Mikkel Thunestvedt Hansen PhD Fellow Helge Group +4535334422 E-mail
Steen Larsen Associate Professor Larsen Group +4521151924 E-mail
Thomas Nyegaard Beck Biomedical Laboratory Scientist Ochala Group   E-mail
Tine Alkjær Associate Professor Human Movement Science +4528757216 E-mail