ライフサイエンスコーパス: muscle twitch

1 sponsible were those activated by the evoked muscle twitch.

2 Mice lacking Kcnc3 also exhibit muscle twitches.

3 argue has formal similarity to the skeletal muscle twitch, albeit manifest over a much longer time s

4 included neck pain, problems with attention, muscle twitches and anxiety.

5 One sciatic nerve was stimulated to induce muscle twitch, and the other nerve remained unstimulated

6 Heartbeats, muscle twitches, and lightning-fast thoughts are all man

7 /delta intrusions, frequent transitions, and muscle twitches are common traits in fibromyalgia.

8 so nontoxic in vivo, had no effect on evoked muscle twitch, but was able to cleave syntaxin.

9 have been of the motor cortex where a focal muscle twitch can be produced, called the motor-evoked p

10 ABA/glycine release, resulted in exaggerated muscle twitches during REM sleep that were similar to th

11 eous electromyography recordings also showed muscle twitches during sleep and the dissociation of the

12 tonia, taking the form of exaggerated phasic muscle twitches, during REM sleep.

13 y triggers hundreds of thousands of skeletal muscle twitches each day; sensory feedback from the resu

14 higher threshold) afferents activated by the muscle twitch evoked by electrical stimulation of the fa

15 4AP (1-2 mg/kg) increased nerve-evoked whole muscle twitch force and electromyograms (EMG) to a great

16 toxic to mice, had no effect on nerve-evoked muscle twitch in vitro, and was not able to cleave synta

17 enting with 2 months of diffuse, involuntary muscle twitching in the absence of myasthenic symptoms,

18 TMS of motor cortex can produce a muscle twitch or block movement; TMS of occipital cortex

19 subtle convulsive movements such as rhythmic muscle twitches or tonic eye deviation).

20 roduced early defects in the rate of cardiac muscle twitch relaxation and ventricular torsion.

21 Prior to overt symptoms, muscle twitch rise and relaxation time constants both in

22 Additionally, we found reductions in muscle twitch tension rise times, becoming faster than c

23 Furthermore, nerve-evoked muscle twitch tension was reduced.

24 tic transmission and an increase in skeletal muscle twitch tension.

25 In addition, slow muscle twitch, tetanus tension, and susceptibility to in

26 eduction of ACh release that compromised the muscle twitch triggered by the nerve stimulation.

27 uration curves for electrical stimulation of muscle twitches were measured for each group and chronax