clinical electrophysiology
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2021 ◽  
Vol 26 (7) ◽  
pp. 4600
Author(s):  
D. S. Lebedev ◽  
E. N. Mikhailov ◽  
N. M. Neminuschiy ◽  
E. Z. Golukhova ◽  
V. E. Babokin ◽  
...  

Russian Society of Cardiology (RSC).With the participation of Russian Scientific Society of Clinical Electrophysiology, Arrhythmology and Cardiac Pacing, Russian Association of Pediatric Cardiologists, Society for Holter Monitoring and Noninvasive Electrocardiology.Approved by the Scientific and Practical Council of the Russian Ministry of Health.


2021 ◽  
Vol 26 (7) ◽  
pp. 4594
Author(s):  
M. G. Arakelyan ◽  
L. A. Bockeria ◽  
E. Yu. Vasilieva ◽  
S. P. Golitsyn ◽  
E. Z. Golukhova ◽  
...  

Russian Society of Cardiology (RSC).With the participation of Russian Scientific Society of Clinical Electrophysiology, Arrhythmology and Cardiac Pacing, Russian Association of Cardiovascular Surgeons.Approved by the Scientific and Practical Council of the Russian Ministry of Health.


2021 ◽  
Vol 6 (1) ◽  
pp. e000751
Author(s):  
Xiaofan Jiang ◽  
Taha Bhatti ◽  
Ambreen Tariq ◽  
Katie M Williams ◽  
Isabelle Chow ◽  
...  

ObjectiveAn electronegative electroretinogram (ERG) can indicate important ocular or systemic disease. This study explored the prevalence of electronegative responses to dark-adapted stimuli in a largely healthy cohort.Methods and Analysis211 participants recruited from the TwinsUK cohort underwent ERG testing incorporating international standard (International Society for Clinical Electrophysiology of Vision (ISCEV)) protocols and additional stimuli. Responses were recorded using conductive fibre electrodes, following pupil dilation and 20 min dark adaptation. Responses analysed were to the ISCEV standard and strong flashes (3.0 and 10 cd/m2 s), and to additional white flashes (0.67–67 cd/m2 s). A-wave and b-wave amplitudes were extracted; b:a ratios were calculated and proportions of eyes with ratios<1 were noted.ResultsMean (SD) age was 62.4 (11.4) years (median, 64.3; range 23–86 years). 93% were female. Mean (SD) b:a ratios for right and left eyes, respectively, were 1.86 (0.33) and 1.81 (0.29) for the standard flash, and 1.62 (0.25) and 1.58 (0.23) for the stronger flash; average b:a ratio was lower for the stronger flash (p<0.0001). No waveforms were electronegative. For additional flashes, b:a ratio decreased with increasing flash strength. No electronegative waveforms were seen except in three eyes (0.7%) for the strongest flash; in some cases, drift in the waveform may have artefactually reduced the b:a ratio.ConclusionFor standard dark-adapted stimuli, no participants had electronegative waveforms. The findings support the notion that electronegative waveforms (in response to standard flash strengths) are unusual, and should prompt further investigation.


2021 ◽  
Vol 26 (5) ◽  
pp. 4484
Author(s):  
L. A. Bokeria ◽  
E. Z. Golukhova ◽  
S. V. Popov ◽  
E. A. Artyukhina ◽  
V. A. Bazaev ◽  
...  

With the participation: All-Russian Scientific Society of Specialists in Clinical Electrophysiology, Arrhythmology and Pacing, Russian Association of Cardiovascular SurgeonsEndorsed by: Research and Practical Council of the Ministry of Health of the Russian Federation 


Eye ◽  
2021 ◽  
Author(s):  
Oliver R. Marmoy ◽  
Suresh Viswanathan

AbstractClinical electrophysiological assessment of optic nerve and retinal ganglion cell function can be performed using the Pattern Electroretinogram (PERG), Visual Evoked Potential (VEP) and the Photopic Negative Response (PhNR) amongst other more specialised techniques. In this review, we describe these electrophysiological techniques and their application in diseases affecting the optic nerve and retinal ganglion cells with the exception of glaucoma. The disease groups discussed include hereditary, compressive, toxic/nutritional, traumatic, vascular, inflammatory and intracranial causes for optic nerve or retinal ganglion cell dysfunction. The benefits of objective, electrophysiological measurement of the retinal ganglion cells and optic nerve are discussed, as are their applications in clinical diagnosis of disease, determining prognosis, monitoring progression and response to novel therapies.


2021 ◽  
Vol 1 (58) ◽  
pp. 28-31
Author(s):  
Paweł Życiński ◽  
Dawid Miśkowiec

Clinical electrophysiology (EP) had undergone tremendous technological development in the last years. Along with more and more complex EP procedures, including advanced radiofrequency catheter ablations, the need for a safe and effective analgetic and sedation approach become imperative. Sedation in the EP laboratory range from intravenous sedation techniques to general anesthesia. In our review, we discuss current analgosedation approaches in the EP lab, with particular emphasis on the type of procedure performed.


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