3. INTRODUCTION
Is a rare, sporadic, adult-onset, clinically isolated LMN syndrome due to the degeneration of LMNs,
including anterior horn cells and brainstem motor nuclei
The term PMA was first coined by the French neurologist Aran in 1850 to describe patients with
progressive muscle atrophy of presumed myopathic cause
Later, Duchenne also claimed the first description of PMA
Therefore, PMA is sometimes referred to as Aran-Duchenne or Duchenne-Aran disease
In 1853, Cruveilhier provided the first evidence of PMA being a neurogenic disorder based on the
atrophy of the ventral spinal roots and the motor nerves found on autopsy of Aran’s patients.
Visser J, de Jong JM, de Visser M. The history of progressive muscular atrophy: syndrome or disease? Neurology 2008;70:723–7
4. EPIDEMIOLOGY
PMA accounts for 2.5% to 11% of MND
Incidence: 0.02 per 100,000
Male/female ratio, 3:1– 7.5:1
Age of onset: 63.4 + 11.7 years
Liewluck T, Saperstein DS. Progressive muscular atrophy. Neurologic clinics. 2015 Nov 1;33(4):761-73.
5. CLINICAL PRESENTATION
LMN features, distal asymmetric
Symmetric proximal in 20 % cases
Bulbar involvement in 40 % cases at a later time
About 22% to 35% of patients with the initial diagnosis of PMA develop UMN features at a later time
Visser J, van den Berg-Vos RM, Franssen H, et al. Disease course and prognostic factors of progressive muscular atrophy. Arch Neurol 2007;64:522–8.
Kim WK, Liu X, Sandner J, et al. Study of 962 patients indicates progressive muscular atrophy is a form of ALS. Neurology 2009;73:1686–92
Statland JM, Barohn RJ, McVey AL, et al. Patterns of weakness, classification of motor neuron disease & clinical diagnosis of sporadic ALS. Neurol Clin 2015, in press.
6. PATOPHYSIOLOGY
Anterior horn cell degeneration
Corticospinal degeneration
(1) ALS-like pathology (combined UMN and LMN degeneration with TDP-43-positive cytoplasmic
inclusions) in 61.5% of patients
(2) isolated LMN degeneration with TDP- 43-positive inclusions in 23% of patients
(3) combined UMN and LMN degeneration with FUS-positive inclusions in 15.5% of patients
Genetic mutation
Liewluck T, Saperstein DS. Progressive muscular atrophy. Neurologic clinics. 2015 Nov 1;33(4):761-73.
7. DIAGNOSIS
Clinical and electrophysiologic features of LMN dysfunction in 2 or more different myotomal
distributions (bulbar, cervical, thoracic, and lumbosacral)
Evidence of disease progression over time
Exclusion of other LMN syndromes
Liewluck T, Saperstein DS. Progressive muscular atrophy. Neurologic clinics. 2015 Nov 1;33(4):761-73.
8. ELECTROPHYSIOLOGY TESTING
Electrophysiologic features of LMN dysfunction in 2 or more different myotomal distributions (bulbar,
cervical, thoracic, and lumbosacral)
Needle electromyography (EMG) could help to show fasciculations in deep muscles that are not visible
on examination and provide evidence of LMN dysfunction (large polyphasic motor unit potentials with
reduced recruitment) in clinically affected and nonaffected areas
Liewluck T, Saperstein DS. Progressive muscular atrophy. Neurologic clinics. 2015 Nov 1;33(4):761-73.
9. DIFFERENTIAL DIAGNOSIS
Other MNDs
Motor neuropathies
Neuromuscular junction disorders
Myopathies
Liewluck T, Saperstein DS. Progressive muscular atrophy. Neurologic clinics. 2015 Nov 1;33(4):761-73.
10. MANAGEMENT AND PROGNOSIS
No definitive treatment supportive treatment
The rate of progression in patients with PMA varies from slow (over years and decades) to very rapid
(months to a year)
The median survival duration after onset in patients with PMA is about 12 months longer than in patients
with ALS (48.3 vs 36 months)
Kim WK, Liu X, Sandner J, et al. Study of 962 patients indicates progressive muscular atrophy is a form of ALS. Neurology 2009;73:1686–