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Ipsilateral and Simultaneous Comparison of Responses from Acceleromyography- and Electromyography-based Neuromuscular Monitors
BACKGROUNDThe paucity of easy-to-use, reliable objective neuromuscular monitors is an obstacle to universal adoption of routine neuromuscular monitoring. Electromyography (EMG) has been proposed as the optimal neuromuscular monitoring technology since it addresses several acceleromyography limitatio...
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| Published in: | Anesthesiology (Philadelphia) 2021-10, Vol.135 (4), p.597-611 |
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| creator | Nemes, Réka Lengyel, Szabolcs Nagy, György Hampton, David R. Gray, Martyn Renew, J. Ross Tassonyi, Edömér Fülesdi, Béla Brull, Sorin J. |
| description | BACKGROUNDThe paucity of easy-to-use, reliable objective neuromuscular monitors is an obstacle to universal adoption of routine neuromuscular monitoring. Electromyography (EMG) has been proposed as the optimal neuromuscular monitoring technology since it addresses several acceleromyography limitations. This clinical study compared simultaneous neuromuscular responses recorded from induction of neuromuscular block until recovery using the acceleromyography-based TOF-Watch SX and EMG-based TetraGraph. METHODSFifty consenting patients participated. The acceleromyography and EMG devices analyzed simultaneous contractions (acceleromyography) and muscle action potentials (EMG) from the adductor pollicis muscle by synchronization via fiber optic cable link. Bland-Altman analysis described the agreement between devices during distinct phases of neuromuscular block. The primary endpoint was agreement of acceleromyography- and EMG-derived normalized train-of-four ratios greater than or equal to 80%. Secondary endpoints were agreement in the recovery train-of-four ratio range less than 80% and agreement of baseline train-of-four ratios between the devices. RESULTSAcceleromyography showed normalized train-of-four ratio greater than or equal to 80% earlier than EMG. When acceleromyography showed train-of-four ratio greater than or equal to 80% (n = 2,929), the bias was 1.3 toward acceleromyography (limits of agreement, -14.0 to 16.6). When EMG showed train-of-four ratio greater than or equal to 80% (n = 2,284), the bias was -0.5 toward EMG (-14.7 to 13.6). In the acceleromyography range train-of-four ratio less than 80% (n = 2,802), the bias was 2.1 (-16.1 to 20.2), and in the EMG range train-of-four ratio less than 80% (n = 3,447), it was 2.6 (-14.4 to 19.6). Baseline train-of-four ratios were higher and more variable with acceleromyography than with EMG. CONCLUSIONSBias was lower than in previous studies. Limits of agreement were wider than expected because acceleromyography readings varied more than EMG both at baseline and during recovery. The EMG-based monitor had higher precision and greater repeatability than acceleromyography. This difference between monitors was even greater when EMG data were compared to raw (nonnormalized) acceleromyography measurements. The EMG monitor is a better indicator of adequate recovery from neuromuscular block and readiness for safe tracheal extubation than the acceleromyography monitor. EDITOR’S PERSPECTIVE |
| doi_str_mv | 10.1097/ALN.0000000000003896 |
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Ross ; Tassonyi, Edömér ; Fülesdi, Béla ; Brull, Sorin J.</creator><creatorcontrib>Nemes, Réka ; Lengyel, Szabolcs ; Nagy, György ; Hampton, David R. ; Gray, Martyn ; Renew, J. Ross ; Tassonyi, Edömér ; Fülesdi, Béla ; Brull, Sorin J.</creatorcontrib><description>BACKGROUNDThe paucity of easy-to-use, reliable objective neuromuscular monitors is an obstacle to universal adoption of routine neuromuscular monitoring. Electromyography (EMG) has been proposed as the optimal neuromuscular monitoring technology since it addresses several acceleromyography limitations. This clinical study compared simultaneous neuromuscular responses recorded from induction of neuromuscular block until recovery using the acceleromyography-based TOF-Watch SX and EMG-based TetraGraph. METHODSFifty consenting patients participated. The acceleromyography and EMG devices analyzed simultaneous contractions (acceleromyography) and muscle action potentials (EMG) from the adductor pollicis muscle by synchronization via fiber optic cable link. Bland-Altman analysis described the agreement between devices during distinct phases of neuromuscular block. The primary endpoint was agreement of acceleromyography- and EMG-derived normalized train-of-four ratios greater than or equal to 80%. Secondary endpoints were agreement in the recovery train-of-four ratio range less than 80% and agreement of baseline train-of-four ratios between the devices. RESULTSAcceleromyography showed normalized train-of-four ratio greater than or equal to 80% earlier than EMG. When acceleromyography showed train-of-four ratio greater than or equal to 80% (n = 2,929), the bias was 1.3 toward acceleromyography (limits of agreement, -14.0 to 16.6). When EMG showed train-of-four ratio greater than or equal to 80% (n = 2,284), the bias was -0.5 toward EMG (-14.7 to 13.6). In the acceleromyography range train-of-four ratio less than 80% (n = 2,802), the bias was 2.1 (-16.1 to 20.2), and in the EMG range train-of-four ratio less than 80% (n = 3,447), it was 2.6 (-14.4 to 19.6). Baseline train-of-four ratios were higher and more variable with acceleromyography than with EMG. CONCLUSIONSBias was lower than in previous studies. Limits of agreement were wider than expected because acceleromyography readings varied more than EMG both at baseline and during recovery. The EMG-based monitor had higher precision and greater repeatability than acceleromyography. This difference between monitors was even greater when EMG data were compared to raw (nonnormalized) acceleromyography measurements. The EMG monitor is a better indicator of adequate recovery from neuromuscular block and readiness for safe tracheal extubation than the acceleromyography monitor. EDITOR’S PERSPECTIVE</description><identifier>ISSN: 0003-3022</identifier><identifier>EISSN: 1528-1175</identifier><identifier>DOI: 10.1097/ALN.0000000000003896</identifier><language>eng</language><publisher>Lippincott Williams & Wilkins</publisher><ispartof>Anesthesiology (Philadelphia), 2021-10, Vol.135 (4), p.597-611</ispartof><rights>Lippincott Williams & Wilkins</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c3759-bfea0a10199d06d1111b278632e1898dad403b952bba9f60d111a5f11db5e003</citedby><cites>FETCH-LOGICAL-c3759-bfea0a10199d06d1111b278632e1898dad403b952bba9f60d111a5f11db5e003</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Nemes, Réka</creatorcontrib><creatorcontrib>Lengyel, Szabolcs</creatorcontrib><creatorcontrib>Nagy, György</creatorcontrib><creatorcontrib>Hampton, David R.</creatorcontrib><creatorcontrib>Gray, Martyn</creatorcontrib><creatorcontrib>Renew, J. Ross</creatorcontrib><creatorcontrib>Tassonyi, Edömér</creatorcontrib><creatorcontrib>Fülesdi, Béla</creatorcontrib><creatorcontrib>Brull, Sorin J.</creatorcontrib><title>Ipsilateral and Simultaneous Comparison of Responses from Acceleromyography- and Electromyography-based Neuromuscular Monitors</title><title>Anesthesiology (Philadelphia)</title><description>BACKGROUNDThe paucity of easy-to-use, reliable objective neuromuscular monitors is an obstacle to universal adoption of routine neuromuscular monitoring. Electromyography (EMG) has been proposed as the optimal neuromuscular monitoring technology since it addresses several acceleromyography limitations. This clinical study compared simultaneous neuromuscular responses recorded from induction of neuromuscular block until recovery using the acceleromyography-based TOF-Watch SX and EMG-based TetraGraph. METHODSFifty consenting patients participated. The acceleromyography and EMG devices analyzed simultaneous contractions (acceleromyography) and muscle action potentials (EMG) from the adductor pollicis muscle by synchronization via fiber optic cable link. Bland-Altman analysis described the agreement between devices during distinct phases of neuromuscular block. The primary endpoint was agreement of acceleromyography- and EMG-derived normalized train-of-four ratios greater than or equal to 80%. Secondary endpoints were agreement in the recovery train-of-four ratio range less than 80% and agreement of baseline train-of-four ratios between the devices. RESULTSAcceleromyography showed normalized train-of-four ratio greater than or equal to 80% earlier than EMG. When acceleromyography showed train-of-four ratio greater than or equal to 80% (n = 2,929), the bias was 1.3 toward acceleromyography (limits of agreement, -14.0 to 16.6). When EMG showed train-of-four ratio greater than or equal to 80% (n = 2,284), the bias was -0.5 toward EMG (-14.7 to 13.6). In the acceleromyography range train-of-four ratio less than 80% (n = 2,802), the bias was 2.1 (-16.1 to 20.2), and in the EMG range train-of-four ratio less than 80% (n = 3,447), it was 2.6 (-14.4 to 19.6). Baseline train-of-four ratios were higher and more variable with acceleromyography than with EMG. CONCLUSIONSBias was lower than in previous studies. Limits of agreement were wider than expected because acceleromyography readings varied more than EMG both at baseline and during recovery. The EMG-based monitor had higher precision and greater repeatability than acceleromyography. This difference between monitors was even greater when EMG data were compared to raw (nonnormalized) acceleromyography measurements. The EMG monitor is a better indicator of adequate recovery from neuromuscular block and readiness for safe tracheal extubation than the acceleromyography monitor. EDITOR’S PERSPECTIVE</description><issn>0003-3022</issn><issn>1528-1175</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNpdUMFOwzAMjRBIjMEfcMiRSyFOl7U5TtOASWNIsHuVti4rpE2JW6Fd-HYyhgTCkmX76fnJfoxdgrgGoZOb2Wp9Lf5EnOrpERuBkmkEkKhjNtqjUSykPGVnRK9hTFScjtjnsqPamh69sdy0JX-um8H2pkU3EJ-7pjO-JtdyV_EnpM61hMQr7xo-Kwq0GLqde_Gm2-6ib4GFxaL_i-aGsORrHAI4UDFY4_mDa-veeTpnJ5WxhBc_dcw2t4vN_D5aPd4t57NVVMSJ0lFeoREGBGhdimkJIXKZpNNYIqQ6LU05EXGulcxzo6up2DOMqgDKXGH4fMyuDrKdd-8DUp81NYXr7eHPTCqVyBhgIgN1cqAW3hF5rLLO143xuwxEtnc7C25n_93-XftwNphJb3b4QJ9t0dh-e6CriYykkAD7IQoJOv4CueOExg</recordid><startdate>20211001</startdate><enddate>20211001</enddate><creator>Nemes, Réka</creator><creator>Lengyel, Szabolcs</creator><creator>Nagy, György</creator><creator>Hampton, David R.</creator><creator>Gray, Martyn</creator><creator>Renew, J. Ross</creator><creator>Tassonyi, Edömér</creator><creator>Fülesdi, Béla</creator><creator>Brull, Sorin J.</creator><general>Lippincott Williams & Wilkins</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20211001</creationdate><title>Ipsilateral and Simultaneous Comparison of Responses from Acceleromyography- and Electromyography-based Neuromuscular Monitors</title><author>Nemes, Réka ; Lengyel, Szabolcs ; Nagy, György ; Hampton, David R. ; Gray, Martyn ; Renew, J. Ross ; Tassonyi, Edömér ; Fülesdi, Béla ; Brull, Sorin J.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3759-bfea0a10199d06d1111b278632e1898dad403b952bba9f60d111a5f11db5e003</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2021</creationdate><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Nemes, Réka</creatorcontrib><creatorcontrib>Lengyel, Szabolcs</creatorcontrib><creatorcontrib>Nagy, György</creatorcontrib><creatorcontrib>Hampton, David R.</creatorcontrib><creatorcontrib>Gray, Martyn</creatorcontrib><creatorcontrib>Renew, J. Ross</creatorcontrib><creatorcontrib>Tassonyi, Edömér</creatorcontrib><creatorcontrib>Fülesdi, Béla</creatorcontrib><creatorcontrib>Brull, Sorin J.</creatorcontrib><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Anesthesiology (Philadelphia)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Nemes, Réka</au><au>Lengyel, Szabolcs</au><au>Nagy, György</au><au>Hampton, David R.</au><au>Gray, Martyn</au><au>Renew, J. Ross</au><au>Tassonyi, Edömér</au><au>Fülesdi, Béla</au><au>Brull, Sorin J.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ipsilateral and Simultaneous Comparison of Responses from Acceleromyography- and Electromyography-based Neuromuscular Monitors</atitle><jtitle>Anesthesiology (Philadelphia)</jtitle><date>2021-10-01</date><risdate>2021</risdate><volume>135</volume><issue>4</issue><spage>597</spage><epage>611</epage><pages>597-611</pages><issn>0003-3022</issn><eissn>1528-1175</eissn><abstract>BACKGROUNDThe paucity of easy-to-use, reliable objective neuromuscular monitors is an obstacle to universal adoption of routine neuromuscular monitoring. Electromyography (EMG) has been proposed as the optimal neuromuscular monitoring technology since it addresses several acceleromyography limitations. This clinical study compared simultaneous neuromuscular responses recorded from induction of neuromuscular block until recovery using the acceleromyography-based TOF-Watch SX and EMG-based TetraGraph. METHODSFifty consenting patients participated. The acceleromyography and EMG devices analyzed simultaneous contractions (acceleromyography) and muscle action potentials (EMG) from the adductor pollicis muscle by synchronization via fiber optic cable link. Bland-Altman analysis described the agreement between devices during distinct phases of neuromuscular block. The primary endpoint was agreement of acceleromyography- and EMG-derived normalized train-of-four ratios greater than or equal to 80%. Secondary endpoints were agreement in the recovery train-of-four ratio range less than 80% and agreement of baseline train-of-four ratios between the devices. RESULTSAcceleromyography showed normalized train-of-four ratio greater than or equal to 80% earlier than EMG. When acceleromyography showed train-of-four ratio greater than or equal to 80% (n = 2,929), the bias was 1.3 toward acceleromyography (limits of agreement, -14.0 to 16.6). When EMG showed train-of-four ratio greater than or equal to 80% (n = 2,284), the bias was -0.5 toward EMG (-14.7 to 13.6). In the acceleromyography range train-of-four ratio less than 80% (n = 2,802), the bias was 2.1 (-16.1 to 20.2), and in the EMG range train-of-four ratio less than 80% (n = 3,447), it was 2.6 (-14.4 to 19.6). Baseline train-of-four ratios were higher and more variable with acceleromyography than with EMG. CONCLUSIONSBias was lower than in previous studies. Limits of agreement were wider than expected because acceleromyography readings varied more than EMG both at baseline and during recovery. The EMG-based monitor had higher precision and greater repeatability than acceleromyography. This difference between monitors was even greater when EMG data were compared to raw (nonnormalized) acceleromyography measurements. The EMG monitor is a better indicator of adequate recovery from neuromuscular block and readiness for safe tracheal extubation than the acceleromyography monitor. EDITOR’S PERSPECTIVE</abstract><pub>Lippincott Williams & Wilkins</pub><doi>10.1097/ALN.0000000000003896</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record> |
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| title | Ipsilateral and Simultaneous Comparison of Responses from Acceleromyography- and Electromyography-based Neuromuscular Monitors |
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