Background: Ultrasonography (USG) of the diaphragm is a promising alternative to pulmonary function tests (PFT) for assessing respiratory function in amyotrophic lateral sclerosis/motor neuron disease (ALS/MND).
Methods:We studied 33 patients fulfilling Awaji criteria (definite = 14; probable = 12; possible = 7) and 33 age and gender-matched controls. Diaphragm thickness was measured using USG at the end of expiration (DTex) and end of inspiration (DTin).The thickness ratio (TR) was calculated as DTin/DTex. The mean age at onset and duration were 49.73 ± 12.7 years and 13.57 ± 9.7 months, respectively. Men = 25 (75.8%); Limb onset ALS/MND = 24 patients (72.7%); bulbar onset = 9 (27.3%).Results: Compared to controls, ALS/MND patients had reduced mean DTex (2.22 ± 0.29 mm vs. 2.02 ± 0.32 mm, p = .012) and DTin (4.0 ± 0.71 mm vs. 3.41 ± 0.38 mm, p < .001). PFTs done in 31 patients showed restrictive abnormality in 80.6%. Significant positive correlation was seen between percentage of predicted forced vital capacity (FVC%) and DTin (p = .009) and TR (p = .037) but not with DTex (p = .852). No significant correlation was seen between diaphragmatic thickness and other PFT parameters or ALSFRS scores.
Conclusion:The diaphragmatic thickness showed a significant decrease in ALS/MND as compared to controls. End-inspiratory diaphragmatic thickness and TR correlated well with %FVC. Thus, diaphragmatic USG could be a potential alternative to PFTs in assessing respiratory function in ALS/MND patients having the advantage of less patient participation and ease of performing in late stages of ALS/MND.
Background and objectives
Muscle ultrasound (MUS) is an emerging noninvasive tool to identify fasciculations in amyotrophic lateral sclerosis (ALS). We assessed the utility of MUS in detecting fasciculations in suspected ALS patients.
Methods
Thirty‐three patients (25 men) with possible (n = 7), probable (n = 12), or definite ALS according to Awaji criteria were studied. Electromyography was done in biceps brachii, quadriceps, and thoracic paraspinal muscles and MUS in biceps, triceps, deltoid, abductor‐digiti‐minimi, quadriceps, hamstrings, tibialis anterior, thoracic paraspinal, and tongue muscles.
Results
The age at onset and illness duration was 49.73 ± 12.7 years and 13.57 ± 9.7 months, respectively. Limb‐onset = 24 patients (72.7%) and bulbar‐onset = 9 (27.3%). Totally 561 muscles were examined by MUS. Fasciculations were detected in 84.3% of muscles, 98.4% with and 73% without clinical fasciculations (p < 0.001). Fasciculation detection rate (FDR) by MUS was significantly higher in muscles with wasting (95.6%) than without wasting (77.6%, p < 0.001). Compared with EMG, FDR was significantly higher with MUS in quadriceps (81.8% vs. 51.5%, p = 0.002) and thoracic paraspinal muscles (75.8% vs. 42.4%, p = 0.013). The proportion of patients with definite ALS increased from 42% by clinical examination to 70% after combining EMG and MUS findings.
Conclusions
MUS is more sensitive in detecting fasciculations than electromyography (EMG) and provides a safer, faster, painless, and noninvasive alternative to EMG in detecting fasciculations in ALS.
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