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  • Muscle-tendon weakness contributes to chronic fatigue syndrome in Gaucher's disease.

Muscle-tendon weakness contributes to chronic fatigue syndrome in Gaucher's disease.

Journal of orthopaedic surgery and research (2019-11-23)
Mercedes Roca-Espiau, Marcio Andrade-Campos, Jorge J Cebolla, Laura López de Frutos, Blanca Medrano-Engay, Maria-Pilar López-Royo, Pilar Giraldo
ABSTRACT

Chronic fatigue (CFg) is a prevalent symptom in Gaucher disease (GD) at diagnosis (79%) and remains in a quarter of patients after years of therapy. Bone abnormalities are present in over 70% and peripheral neuropathy in about 11% of the patients, which contributes to the disabling and debilitating complications. Our hypothesis is that other factors such as muscle-tendinous weakness could have influence in the development of CFg. We have evaluated the fiber structure and elasticity of muscle-tendinous unit by strain-elastography (S-ELA) and analyzed their influence in the CFg. S-ELA study was performed in Achilles tendon in 25 type 1 and two type 3 GD patients, all of them with fatigue and were on enzymatic replacement therapy for mean 13 years; simultaneously, bone marrow burden by MRI and calcaneus ultrasound densitometry were evaluated. Blood cell counts, plasma biomarkers, GBA1 genotyping, and SF36 quality of life scale (QoL) were also performed. descriptive and comparative test. All patients showed a normal Achilles tendinous structure. Abnormal stiff grade 2-3 was found in 17/27 (62.9%); in 11/27 (40.7%) of patients, the alteration was bilateral. There were no correlations between the S-ELA results to other variables; nevertheless, a significant correlation between the degree of tendon hardness and the low score on the QoL scales (p = 0.0035) was found. The S-ELA is a sensitive painless, fast, and low cost method to detect muscle-tendinous subclinical dysfunction that could contribute to CFg in GD. The identification of subclinical tendon alteration would be a sign of alarm, focused on the risk of development of bone complications. Intratendinous alteration in strain-elastography is an independent variable in GD patients with persistent fatigue.

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Avanti
Glucosyl(β) Sphingosine-d5, Avanti Polar Lipids