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The present study investigated the reliability and sensitivity of a wearable near-infrared spectroscopy (wNIRS) device in moderate and heavy exercise intensity domains. On three separate days, eleven males performed an incremental test to exhaustion, and in the following visits, four submaximal constant-load bouts (i.e., test and retest) were performed in the moderate-intensity domain (100 and 130 W) and heavy-intensity domain (160 and 190 W). The local tissue oxygen saturation index (SmO2) and pulmonary oxygen uptake (V̇O2) were measured continuously. The absolute SmO2 and V̇O2 values and the change (Δ) from the 3rd to 6th min of exercise were calculated. There was good reliability for SmO2 measurements, as indicated by the high intraclass correlation coefficient analysis (ICC ≥0.84 for all) and low coefficient of variation between the two trials (CV ≤4.1% for all). Steady-state responses were observed for SmO2 and V̇O2 from the 3rd to the 6th min in the two moderate-intensity bouts (P>0.05), whereas SmO2 decreased and V̇O2 increased from the 3rd to the 6th min in the two heavy-intensity bouts (P<0.05). Together, these findings suggested that the SmO2 measured with a wNIRS device is reliable and sensitive to track local metabolic changes provoked by slight increments in exercise intensity.
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Objective:To explore the evaluation value of abnormal muscle response (AMR) monitoring in efficacy of microvascular decompression in primary hemifacial spasm.Methods:A retrospective study was performed. Sixty-four patients with primary hemifacial spasm, admitted to our hospital from April 2019 to December 2020, were chosen. All patients underwent intraoperative AMR monitoring and were divided into AMR complete-disappeared group, AMR significant-changed group and AMR not significant-changed group according to the monitoring results. The relief of spasticity symptoms among the three groups was observed one week and one year after surgery. The specificity and sensitivity of AMR monitoring in evaluating the efficacy, the relations between intraoperative AMR changes and postoperative efficacy after microvascular decompression were analyzed.Results:The specificity and sensitivity of AMR monitoring in predicting spasmodic relief after microvascular decompression were 89.7% and 66.7%, respectively, at one week, and 86.7% and 50.0%, respectively, at one year. There were statistical differences in clinical remission rate one week after microvascular decompression among AMR complete-disappeared group ( n=46), AMR significant-changed group ( n=8) and AMR not significant-changed group ( n=10, P<0.05); there were no significant differences in clinical remission rate one year after microvascular decompression among the three groups ( P>0.05). There was no significant difference in clinical remission rate one week and one year after microvascular decompression between patients having AMR complete disappearance before Teflon and patients having AMR complete disappearance after Teflon ( P>0.05). Conclusion:AMR monitoring has high specificity but modest sensitivity in predicting spasmodic relief after microvascular decompression; intraoperative AMR disappearance is associated with short-term efficacy, but it is not a reliable indicator for long-term efficacy; the time of disappearance of intraoperative AMR has no guiding significance in judging the efficacy of patients with primary hemifacial spasm.
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Objective:To determine the appropriate degree of neuromuscular block (NMB) for abnormal muscle response (AMR) monitoring during microvascular decompression.Methods:Fifty American Society of Anesthesiologists physical status Ⅰ or Ⅱ patients of both sexes, aged 20-64 yr, with body mass index≤30 kg/m 2, who were diagnosed with facial spasm before surgery, scheduled for elective microvascular decompression, were selected.Anesthesia was induced with midazolam 0.05-0.10 mg/kg, sufentanil 0.3-0.5 μg/kg and propofol 1.5-2.5 mg/kg. After patients lost consciousness, electrophysiological monitoring was performed, the zygomatic branch of the facial nerve was stimulated, and the baseline of AMR was recorded in the mental muscle.NMB was monitored with TOF-Watch SX monitor.After rocuronium 0.6 mg/kg was intravenously injected, the amplitude and latency of AMR were measured at different degrees of NMB (100%, 75%, 50% and 25%). The amplitude reservation ratio (the ratio of the amplitude of AMR monitored to the baseline value) was calculated.Linear correlation of the amplitude reservation ratio or latency of AMR with the degree of NMB was analyzed.The criteria for determining the appropriate degree of NMB in AMR monitoring were: 1.amplitude reservation ratio of AMR≥50%; 2.no body movement during electrical stimulatation of facial nerve. Results:No patients had any body movement during electrical stimulation performed at different degrees of NMB.The amplitude reservation ratio ( Y) was negatively correlated with the degree of NMB ( X) ( r=-0.943, t=-42.73, P<0.001), the linear regression equation of the interaction between the degree of NMB ( X) and the amplitude reservation ratio (Y) was Y=90.36-0.894 7 X, and the coefficient of determination R2 was 0.8804 ( F=1825.41, P<0.001). The amplitude reservation ratio ( Y) was positively correlated with the degree of NMB ( X) ( r=0.879, t=28.67, P<0.001) in the latency period, the linear regression equation of the interaction between the degree of NMB ( X) and the latency ( Y) was Y=10.77+ 0.074 3 X, and the coefficient of determination R2 was 0.7681 ( F=821.30, P<0.001). The estimated appropriate degree of NMB for AMR monitoring during microvascular decompression was 25%-45%. Conclusions:The appropriate degree of NMB for AMR monitoring during microvascular decompression was 25%-45%.
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【Objective】 To investigate the feasibility of using surface electromyography (SEMG) for the detection of abnormal muscle response (AMR) in patients with hemifacial spasm (HFS). 【Methods】 We retrospectively reviewed the clinical data of HFS patients who underwent microvascular decompression (MVD) in our hospital between June 2019 and December 2020. Patients who received both surface electrode (preoperative) and needle electrode (intraoperative) detection of AMR were included. SEMG recorded from two stimulation-recording sites, namely, zygomatic-mentalis and mandibular marginal-orbicularis oculi, was selected for analyzing the characteristics of AMR. The positive rates of AMR detected by these two kinds of electrodes were comprehensively compared. 【Results】 Totally 77 patients were included in this study. When detected with surface electrodes, the positive rate, latency and amplitude of AMR recorded at zygomatic-mentalis oculi were 90.9% (70/77), (10.87±1.86) ms and (202.8±47.4) μV, and at mandibular marginal-orbicularis oculi were 92.2% (71/77), (10.41±1.83) ms and (211.1±54.1) μV, respectively. AMR was detected in 74 patients (96.1%) with surface electrodes. There was no significant difference in positive rate, latency and amplitude of AMR between these two stimulation-recording methods. When detected with needle electrodes, the positive rate of AMR recorded at zygomatic-mentalis oculi was 98.7% (76/77), which was significantly higher than the rate 89.6% (69/77) recorded at mandibular marginal-orbicularis oculi (P=0.016). The latency and amplitude of AMR recorded at zygomatic-mentalis were (10.63±1.39) ms and (83.5±27.2) μV, and at mandibular marginal-orbicularis oculi were (10.31±1.18) ms and (58.6±21.4) μV. There was no significant difference in latency between the two stimulation-recording methods, but the amplitude recorded at mandibular marginal-orbicularis oculi was significantly lower (P=0.041). AMR was detected in 76 patients (98.7%) with needle electrodes. There was no significant difference in the detection rate of AMR between surface electrodes and needle electrodes (P=0.500), the results were moderately consistent (Kappa=0.490, P<0.001). 【Conclusion】 The detection efficiency of surface electrodes for AMR is similar to that of needle electrode. With its non-invasive characteristic, the surface electrode can be routinely used for electrophysiological evaluation of HFS.
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Objective:To compare the treatment efficacy of microvascular decompression (MVD) in hemifacial spasm (HFS) patients with stable disappearance of abnormal muscle response (AMR) and recurrence of AM.Methods:A total of 1705 HFS patients who received MVD and accepted AMR monitoring during the whole process were selected in our hospital from January 2014 to January 2019. According to the intraoperative AMR monitoring results, these patients were divided into AMR stable disappearance group and AMR recurrence group. All patients were followed up for 12-68 months; the delayed cure rate and total cure rate were compared between the two groups.Results:Among the 1158 patients from AMR stable disappearance group, 1086 patients were cured immediately after surgery, 48 were cured within 0.2-3 months of surgery, and 24 patients were not effective. Among the 547 patient from AMR recurrence group, 301 patients achieved immediate cure after surgery, 232 patients had delayed cure in the follow up period (ranged from 0.5 to 6 months), and 14 patients were not effective. The total cure rate showed no significant difference between the two groups (97.9% vs. 97.4%, P>0.05), but the delayed cure rate in patients from AMR recurrence group was significantly higher than that from AMR stable disappearance group (42.4% vs. 4.1%, P<0.05). Re-examination of AMR at the end of surgery showed that AMR disappeared again in 294 patients from the AMR recurrence group without intracranial intervention, and AMR continued to exist in 253 patients at the end of surgery. Conclusion:After complete intraoperative decompression of HFS by MVD, the AMR recurrence does not require immediate re-operative exploration and decompression, which can still ensure excellent curative effect and has a relatively high probability of delayed cure; and the evaluation of its curative effect should be extended to at least one year after surgery.
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Objective To explore the causes of persistent abnormal muscle response (AMR) after microvascular decompression (MVD) for hemifacial spasm (HFS) and the clinical outcomes of these patients.Methods MVD was performed under intraoperative electrophysiological monitoring of AMR in 372 HFS patients in 2014.Before MVD,the characteristic AMR of HFS was recorded in 326 patients.The patients were divided into two groups based on whether AMR disappeared or persisted following MVD;21 patients showed persistent AMR after successful MVD while AMR disappeared after decompression in the other 305 patients.The clinical features,treatment efficacy and postoperative complications were compared between these two groups.Results Gender,side of depression and mean age between the two groups showed no significant differences (P>0.05).The immediate postoperative cure rate of the AMR disappeared group (88.9%) was significantly higher than that in the AMR persisted group (28.6%,P<0.05).The follow-up cure rate showed no significant difference between the two groups (P>0.05),and the postoperative and follow-up complications showed no significant differences (P>0.05).Conclusion The long duration of HFS patients may be responsible for persistent AMR after successful decompression,and it is more likely for these patients to get delayed cured;their long-term outcomes showed no difference as compared with those in patients with disappeared AMR after MVD.
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OBJECTIVE: To evaluate the usefulness of electrodiagnostic studies in hemifacial spasm patients by comparing abnormal muscle response (AMR) and irregular bursting discharge (IBD) before and after the surgery of hemifacial spasm. METHOD: Fifty nine patients who had been diagnosed with hemifacial spasm and underwent microvascular decompression (MVD) were chosen. The AMR was carried out in three different ways; 1) abnormal response of orbicularis oris when stimulating the supraorbital branch of trigeminal nerve (AMR1), 2) abnormal response of mentalis when stimulating the zygomatic branch of facial nerve (AMR2) and 3) abnormal response of orbicularis oculi when stimulating the marginal mandibular branch of facial nerve (AMR3). We identified the correlation between the loss of IBD and the AMR results per each method, the results of the electrodiagnostic studies according to the onset duration, and the point of follow up time. RESULTS: The AMR and IBD decreased or disappeared after the surgery. AMR which had a significant statistical correlation with the changes of IBD, were AMR2 and AMR3. No definite changes were seen regarding the onset duration. According to the studies done during the follow up period, there was a significant reduction in lateral spread and IBD as the length of the follow up period lengthened. CONCLUSION: Investigation of pre- and postoperative electrodiagnostic study, especially abnormal muscle response (facio- facial reflex) is very helpful in predicting the outcome of operation and the overall prognosis.