Abstract

BackgroundAge-related sarcopenia may cause physical dysfunction. We investigated the involvement of sarcopenia in dropped head syndrome (DHS).MethodsOur study subjects were ten elderly women with idiopathic DHS (mean age 75.1 years, range 55–89). Twenty age- and sex-matched volunteers (mean age 73.0, range 58–83) served as controls. We used a bioelectrical impedance analyzer (BIA) to analyze body composition, including appendicular skeletal muscle mass index (SMI; appendicular lean mass (kg)/(height (m))2). SMI <5.75 was considered diagnostic for sarcopenia. Cervical sagittal plane alignment: C2–7 sagittal vertical axis (SVA), C2–7 angle (C2–C7 A), and C2 slope (C2S) were also measured. We investigated sarcopenia prevalence in both groups, height, weight, BMI, lean mass arm, lean mass leg, lean mass trunk, appendicular lean mass, total lean mass, and SMI. In addition, we also examined the correlation between cervical spine alignment and SMI in DHS.ResultsSarcopenia was observed at a high rate in DHS subjects: 70% compared to 25% of healthy controls. Height, weight, BMI, lean mass arm, lean mass leg, axial lean mass, appendicular lean mass, total lean mass, and SMI all had significantly lower values in the DHS group. In particular, total lean mass, lean mass arm, and lean mass trunk were considerably lower in the DHS group. There was no correlation noted between cervical spine alignment and SMI.ConclusionsSarcopenia prevalence was high in the DHS group—70 versus 25% in the control group, suggesting the involvement of sarcopenia in DHS. In particular, axial lean mass and lean mass arm were markedly reduced in the DHS group. DHS is due to significant weakness of the neck extensor group, and chin-on-chest deformity occurs. Until the present, evaluation of DHS has been done using only MRI; no studies have systematically examined skeletal muscle mass. In the present study, muscle mass decrease was noted not only in the neck muscles but also throughout the entire body. Involvement of trunk and upper limb muscles in particular suggests a disuse atrophy of the upper body and spinal muscles. BIA can easily and systemically evaluate skeletal muscle mass. We expect it to contribute to further elucidating the pathogenesis of DHS.

Highlights

  • We investigated sarcopenia prevalence in both groups, height, weight, BMI, lean mass arm, lean mass leg, lean mass trunk, appendicular lean mass, total lean mass, and skeletal muscle mass index (SMI) (Table 1)

  • Height, weight, and BMI were significantly lower for the dropped head syndrome (DHS) group compared to controls (Fig. 2): height for the DHS group was 1.448 ± 0.044 m compared to 1.522 ± 0.072 m for controls (p = 0.0072); weight for the DHS group was 44.03 ± 6.70 kg compared to 54.33 ± 6.65 kg for controls (p = 0.0005); and BMI for the DHS group

  • We examined the role of sarcopenia in DHS

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Summary

Introduction

We investigated the involvement of sarcopenia in dropped head syndrome (DHS). Dropped head syndrome (DHS) exhibits chin-on-chest deformity due to significant weakness of the neck extensor group [1,2,3,4,5,6]. Sarcopenia is a syndrome characterized by progressive and systemic reduction in skeletal muscle mass. It carries a high risk of becoming bedridden from a fall, and there is great physical and economic loss in an aging society [7,8,9,10]. There has been no report of the involvement of whole-body skeletal muscle mass in sarcopenia

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