Analysis of the rate of force development reveals high neuromuscular fatigability in elderly patients with chronic kidney disease

Author:

Chatrenet Antoine12ORCID,Piccoli Giorgina2,Audebrand Jean Michel3,Torreggiani Massimo2,Barbieux Julien4,Vaillant Charly3,Morel Baptiste5,Durand Sylvain1,Beaune Bruno1

Affiliation:

1. Le Mans Université, Movement – Interactions – Performance, MIP, UR4334 Le Mans France

2. Department of Nephrology Centre Hospitalier Le Mans Le Mans France

3. Department of Endocrinology Centre Hospitalier Le Mans Le Mans France

4. Department of Digestive Surgery Centre Hospitalier Le Mans Le Mans France

5. Inter‐University Laboratory of Human Movement Biology (EA 7424) Université Savoie Mont Blanc Chambéry France

Abstract

AbstractBackgroundChronic kidney disease (CKD) induces muscle wasting and a reduction in the maximum voluntary force (MVF). Little is known about the neuromuscular fatigability in CKD patients, defined as the reduction of muscle force capacities during exercise. Neuromuscular fatigability is a crucial physical parameter of the daily living. The quantification of explosive force has been shown to be a sensitive means to assess neuromuscular fatigability. Thus, our study used explosive force estimates to assess neuromuscular fatigability in elderly CKD patients.MethodsInclusion criteria for CKD patients were age ≥ 60 years old and glomerular filtration rate (GFR) < 45 mL/min/1.73 m2 not on dialysis, and those for controls were GFR > 60 mL/min/1.73 m2, age and diabetes matched. The fatigability protocol focused on a handgrip task coupled with surface electromyography (sEMG). Scalars were extracted from the rate of force development (RFD): absolute and normalized time periods (50, 75, 100, 150 and 200 ms, RFD50, RFD75, RFD100, RFD150 and RFD200, respectively), peak RFD (RFDpeak in absolute; NRFDpeak normalized), time‐to‐peak RFD (t‐RFDpeak) and the relative force at RFDpeak (MVF‐RFDpeak). A statistical parametric mapping approach was performed on the force, impulse and RFD–time curves. The integrated sEMG with time at 0–30, 0–50, 0–100 and 0–200 ms time intervals relative to onset of sEMG activity was extracted and groups were compared separately for each sex.ResultsThe cohort of 159 individuals had a median age of 69 (9IQR) years and body mass index was 27.6 (6.2IQR) kg/m2. Propensity‐score‐matched groups balanced CKD patients and controls by gender with 66 males and 34 females. In scalar analysis, CKD patients manifested a higher decrement than controls in the early phase of contraction, regarding the NRFDpeak (P = 0.009; η2p = 0.034) and RFD75 and RFD100 (for both P < 0.001; η2p = 0.068 and 0.064). The one‐dimensional analysis confirmed that CKD males manifest higher and delayed neuromuscular fatigability, especially before 100 ms from onset of contraction. sEMG was lower in CKD patients than controls in the 0–100 ms (at rest: P = 0.049, Cohen's d = 0.458) and 0–200 ms (at rest: P = 0.016, Cohen's d = 0.496; during exercise: P = 0.006, Cohen's d = 0.421) time windows. Controls showed greater decrease of sEMG than CKD patients in the 0–30 ms (P = 0.020, Cohen's d = 0.533) and 0–50 ms (P = 0.010, Cohen's d = 0.640) time windows. As opposite to females, males showed almost the same differences between groups.ConclusionsOur study is the first to show that CKD patients have higher fatigability than controls, which may be associated with an impaired motor‐unit recruitment, highlighting a neural drive disturbance with CKD. Further studies are needed to confirm these findings.

Publisher

Wiley

Subject

Physiology (medical),Orthopedics and Sports Medicine

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