Effects of Adjuvant Exercise and Nutrition Therapy on Muscle Fibre Biomechanics in Gastrointestinal Cancer Patients.
Michael HaugRaphaela SchwappacherCharlotte PollmannPaul RitterMena MichaelHans Joachim HermannRobert GrützmannAnke MittelstädtMarkus Friedrich NeurathYurdagül ZopfOliver FriedrichPublished in: Cancers (2024)
Patients with aggressive cancer, e.g., gastrointestinal cancer, are prone (≥50% chance) to developing cancer cachexia (CC). Little is known about the effects of CC on the biomechanical function of muscle. A promising prevention strategy was found in the form of a multi-modal therapy combining mild resistance exercise (e.g., whole-body electro-myostimulation, WB-EMS) and a protein-rich diet. In a previous study of ours, this was effective in counteracting the loss of muscle mass, yet a systematic and comprehensive assessment of active and passive single muscle fibre functions was so far absent. This pilot study investigated the biomechanical function of single muscle fibres ( rectus abdominis ) from the biopsies of conventionally treated (pre-)cachectic cancer ((pre-)CC) patients (m = 9), those receiving the multi-modal therapy comprising WB-EMS training and protein-rich nutrition (m = 3), and a control group (m = 5). Our findings not only align with previous findings showing the absolute force loss in CC that is accelerated by atrophy but also speak in favour of a different, potentially energy- and Ca 2+ -homeostasis-related effect that compromises muscle contraction (F ~0.9 mN vs. F ~0.6 mN in control patients). However, myofibrillar Ca 2+ sensitivity and the quality of contraction were unaltered (pCa50: 5.6-5.8). Single fibres from the (pre-)CC patients receiving WB-EMS training and protein supplementation were significantly more compliant ( p < 0.001 at ≥130% of resting length L 0 ). Those fibres displayed a similar softness to the ones from the control patients (axial compliance ~15 m/N at ≥130% L 0 ), while single fibres from the patients with (developing) cachexia were significantly stiffer (axial compliance ~7 m/N, p < 0.001 at ≥130% L 0 ). Adjuvant multi-modal therapy (WB-EMS training and nutritional support) contributes to maintaining the axial compliance of single fibres and potentially improves the quality of life for patients at risk of developing CC.
Keyphrases
- end stage renal disease
- ejection fraction
- papillary thyroid
- skeletal muscle
- newly diagnosed
- physical activity
- chronic kidney disease
- prognostic factors
- peritoneal dialysis
- stem cells
- squamous cell
- early stage
- mass spectrometry
- body composition
- bone marrow
- childhood cancer
- binding protein
- smoking cessation
- ultrasound guided
- high speed
- metal organic framework