This is the first report of significant persistent distal and cranial muscle weakness and atrophy identified by muscle imaging in patients with PC. Most reports on persistent weakness focused on proximal weakness, whereas our cases and another Japanese study [6] reported distal weakness among patients harboring a T1313M mutation in the SCN4A gene. Among the three affected members in the Japanese study, two had mild grip weakness [6].
We reviewed case reports that mentioned neurological examinations of clinically diagnosed PC patients (i.e., did not contain borderline symptoms of other phenotypes) with mutations in the SCN4A gene, and identified reports describing those positive for persistent or fixed weakness in the interictal phase. Patients described as having “no persistent/fixed weakness” or “no weakness,” or “no abnormal findings in neurological examination” were considered “no persistent weakness” cases. In the 55 papers analyzed (more than 76 pedigrees, 267 cases; Table 2), 46 patients (17.2%) had persistent weakness [3-14], 126 (47.2%) had no persistent weakness, and 95 (37.0%) had no description about weakness. Among those with persistent weakness, 8/46 (17%) were aged under 30 years, 17/46 (37%) were aged 30 years and above, and age was unknown in 21/46 (46%). Of the 46 patients with persistent weakness, 17 had proximal weakness [3-5,10-12, 14], six had mild distal hand weakness [6, 10, 14], and 23 had no description regarding weakness distribution [7, 9]. Among 51 patients carrying the SCN4A T1313M mutation described in the 13 studies (more than 14 pedigrees; Table 3), 5/51 had persistent weakness [6, 10, 13], 17/50 had no weakness, and 29/51 had no description about weakness. One unique feature of our cases was the presence of both proximal and marked distal weakness.
The marked persistent weakness, muscle atrophy, and fatty changes observed in our cases reveal the myopathic nature of the disease. As Bednardz suggested [12], the pathogenesis of sodium-channel myopathies may involve increased sodium influx and osmotic edema that strangulate T-tubules, leading to fiber necrosis and stimulation of new T-tubule proliferation, vacuolar formation [19, 20], and hyperosmotic stress with mitochondrial degeneration [21]. Persistent weakness was more prevalent among patients aged over 30 years than those under 30 years (Tables 2 and 3). Recurrent myofiber stress may be responsible for fiber damage due to necrosis. It remains unclear whether recurrent paramyotonia increases the risk of developing weakness, although it is noteworthy that permanent weakness was evident in muscles which experienced recurrent paramyotonia, and that the onset of weakness was evident after paramyotonia appeared.
In this study, we were able to detect both muscle atrophy and fatty replacement by MRI and CT imaging. An ultrasound study of 19 sodium channelopathy cases, including 10 PC cases, revealed increased echointensity in the biceps brachii and forearm flexors [22]. Our study provides further detail by showing that flexor digitorum superficialis and flexor digitorum profundus muscles were strongly involved among forearm flexors. These findings are compatible with the observations of marked finger weakness, facial muscle atrophy, and fatty changes. Moreover, muscles with severe transient weakness, such as finger, facial, and masseter muscles, were markedly myopathic among muscles.
Case III-2 is remarkable in that it is the first case of PC in which the patient presented with strabismus and an arched palate. A few reports have described strabismus among SCN4A-related myotonia cases, but none of the cases were PC patients [9, 23]. Strabismus and/or diplopia was reported in 47% of children with SCN4A-related myotonia among those with sodium channelopathies [9], indicating an overlap in phenotype. Previous reports on facial involvement and arched palate included a myopathy patient with a recessive loss-of-function mutation who did not present with myotonic features of those carrying SCN4A mutations [24, 25]. Severe facial muscle involvement may potentially explain the arched palate.
The paramyotonia observed in one of our patients improved with acetazolamide chloride and, as with previous reports [26-28], we described the electrophysiological interval changes in this patient. However, mexiletine, to which the mutated sodium channel has reduced sensitivity [29] and reportedly has beneficial effects in T1313M mutation carriers [26, 30], had no effect in the one affected patient who was treated with the drug.
In conclusion, PC patients harboring SCN4A mutations can present with persistent weakness of distal hand and cranial muscles. Phenotype varies even within a family and with age. Therapeutic approaches may counter the progression of persistent weakness.