Inclusions of pathogenic deposits containing TAR DNA-binding protein 43 (TDP-43) are evident in the brain and spinal cord of patients that present across a spectrum of neurodegenerative diseases. For instance, the majority of patients with sporadic amyotrophic lateral sclerosis (up to 97%) and a substantial proportion of patients with frontotemporal lobar degeneration (~45%) exhibit TDP-43 positive neuronal inclusions, suggesting a role for this protein in disease pathogenesis. In addition, TDP-43 inclusions are evident in familial ALS phenotypes linked to multiple gene mutations including the TDP-43 gene coding (TARDBP) and unrelated genes (eg, C9orf72). While TDP-43 is an essential RNA/DNA binding protein critical for RNA-related metabolism, determining the pathophysiological mechanisms through which TDP-43 mediates neurodegeneration appears complex, and unravelling these molecular processes seems critical for the development of effective therapies. This review highlights the key physiological functions of the TDP-43 protein, while considering an expanding spectrum of neurodegenerative diseases associated with pathogenic TDP-43 deposition, and dissecting key molecular pathways through which TDP-43 may mediate neurodegeneration.
Background Management of acute ischaemic stroke is time critical. Reducing time to treatment with thrombolysis is strongly associated with improved outcomes in properly selected patients. However, there are barriers to ensuring timely treatment in the hospital setting. Aim To determine if simple, no‐cost protocol changes could improve time to treatment for acute ischaemic stroke at a busy tertiary hospital. Methods Prospectively collected routine clinical data were compared retrospectively before and after a protocol change designed to mirror the successful model from Helsinki University Central Hospital. Consecutive patients who activated a ‘code stroke’ (presentation consistent with acute stroke, eligible for acute stroke therapy) during working hours were included. Results Prior to the protocol change, 143 patients activated a code stroke, and 30 patients received thrombolysis. Following the protocol change, 134 patients activated a code stroke, and 14 patients received thrombolysis. The median time to administer thrombolysis was reduced from 76 min (interquartile range 54–91) to 33 min (27–44), P < 0.01. The median time to perform diagnostic computed tomography was unchanged between the two groups, 23 (14–54) min versus 22 (9–49) min, P = 0.12. However, this was reduced on subgroup analysis of patients whose arrival was pre‐notified by the ambulance service, 16 (9–22) min versus 8 (4–14) min, P < 0.01. Conclusion Time to treatment in acute stroke was dramatically improved with a simple intervention. This was achieved without a large stroke team or additional funding, making it highly accessible to other health services also seeking to improve their stroke service.
The M/P ratio was disproportionately reduced in PSP, suggesting its potential as a clinical marker of the PSP syndrome. Larger studies of pathologically confirmed cases are needed to establish the M/P ratio as a biomarker of PSP pathology.
Background and purpose Tremor in chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is underrecognized, and the pathophysiology remains incompletely understood. This study evaluated tremor in CIDP and tested the hypothesis, established in other demyelinating neuropathies, that tremor occurs due to mistimed peripheral inputs affecting central motor processing. Additionally, the tremor stability index (TSI) was calculated with the hypothesis that CIDP‐related tremor is more variable than other tremor disorders. Methods Consecutive patients with typical CIDP were prospectively recruited from neuromuscular clinics. Alternative causes of neuropathy and tremor were excluded. Cross‐sectional clinical assessment and extensive tremor study recordings were undertaken. Pearson correlation coefficient was used to compare nerve conduction studies and tremor characteristics, and t‐test was used for comparisons between groups. Results Twenty‐four patients with CIDP were included. Upper limb postural and action tremor was present in 66% and was mild according to the Essential Tremor Rating Assessment Scale. Tremor did not significantly impact disability. Surface electromyography (EMG) found high‐frequency spectral peaks in deltoid (13.73 ± 0.66 Hz), biceps brachii (11.82 ± 0.91 Hz), and extensor carpi radialis (11.87 ± 0.91 Hz) muscles, with lower peaks in abductor pollicis brevis EMG (6.07 ± 0.45 Hz) and index finger accelerometry (6.53 ± 0.42 Hz). Tremor was unchanged by weight loading but correlated with ulnar nerve F‐wave latency and median nerve sensory amplitude. TSI (2.3 ± 0.1) was significantly higher than essential tremor. Conclusions Postural tremor is a common feature in CIDP. Tremor was unaffected by weight loading, typical of centrally generated tremors, although there was a correlation with peripheral nerve abnormalities. The high beat‐to‐beat variability on TSI and gradation of peak frequencies further suggest a complex pathophysiology. These findings may assist clinicians with the diagnosis of neuropathic tremor.
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