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| ID | Type | Description | Link |
|---|---|---|---|
| 2020-A01559-30 | Registry Identifier | ID-RCB |
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| Name | Class |
|---|---|
| URC-CIC Paris Descartes Necker Cochin | OTHER |
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The purpose of this study is to determine the prevalence of brainstem dysfunction in critically ill ventilated and deeply sedated patients hospitalized in the Intensive Care Unit (ICU) for a SARS-CoV-s2 infection.
The recent development of the pandemic due to the SARS-CoV-2 virus has showed that a substantial proportion of patients developed a severe condition requiring critical care, notably because of acute respiratory distress syndrome requiring mechanical ventilation and deep sedation. Outside of this coronavirus infection, this situation is classically associated with a high prevalence of brainstem dysfunction, even in the absence of brain injury. This dysfunction, either structural or functional, can be detected using appropriate clinical tools such as the BRASS score and/or using the quantitative analysis of EKG and EEG. Crucially, brainstem dysfunction is associated not only with ICU complications such as delirium, but also with a poorer survival.
Moreover, some reports of encephalitis cases and the presence of anosmia/agueusia raised the question of whether the virus could directly invade the central nervous system.
For these two reasons, it is reasonable to assume that brainstem dysfunction is particularly prevalent in critically ill patients infected with SARS-CoV-2 and that this dysfunction could be one of the major determinant of patients outcome.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| group 1 | Experimental | Major patients, admitted in intensive care for a SARS-CoV-2 infection and requiring mechanical ventilation and deep sedation (with or without neuromuscular blockade) |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Brainstem Responses Assessment Sedation Score (BRASS) | Diagnostic Test | It consists of a standardized evaluation of brainstem reflexes with a score of 1 attributed for absence of pupillary light reflex, cough reflex and the combined absence of grimace and oculocephalic reflex, a score of 2 for absent corneal reflex and a score of 3 for absent grimace in the presence of oculocephalic The resulting sum ranges from 0 to 7. It will be performed at two times points: a first time under sedation and a second time 3 to 5 days after sedation weaning. |
| Measure | Description | Time Frame |
|---|---|---|
| Brainstem dysfunction prevalence | Clinical cranial nerves anomalies using validated scale (BRASS score- ranges from 0 to 7 - ) in deeply sedated patient (RASS <-3) | At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessation |
| Measure | Description | Time Frame |
|---|---|---|
| Brainstem dysfunction prevalence after sedation weaning | Clinical cranial nerves anomalies using validated scale (BRASS score) | Day 4 to day 7 after sedation weaning |
| Link between brainstem dysfunction and clinical dysautonomia |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Bertrand HERMANN, MD, PhD | Assistance Publique - Hôpitaux de Paris | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Hôpital Cochin | Paris | 75014 | France | |||
| HEGP |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 28441453 | Background | Rohaut B, Porcher R, Hissem T, Heming N, Chillet P, Djedaini K, Moneger G, Kandelman S, Allary J, Cariou A, Sonneville R, Polito A, Antona M, Azabou E, Annane D, Siami S, Chretien F, Mantz J, Sharshar T; Groupe d'Exploration Neurologique en Reanimation (GENER). Brainstem response patterns in deeply-sedated critically-ill patients predict 28-day mortality. PLoS One. 2017 Apr 25;12(4):e0176012. doi: 10.1371/journal.pone.0176012. eCollection 2017. | |
| 35135966 |
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| ID | Term |
|---|---|
| D000086382 | COVID-19 |
| D003693 | Delirium |
| D001342 | Autonomic Nervous System Diseases |
| ID | Term |
|---|---|
| D011024 | Pneumonia, Viral |
| D011014 | Pneumonia |
| D012141 | Respiratory Tract Infections |
| D007239 | Infections |
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| ID | Term |
|---|---|
| D004569 | Electroencephalography |
| ID | Term |
|---|---|
| D003943 | Diagnostic Techniques, Neurological |
| D019937 | Diagnostic Techniques and Procedures |
| D003933 | Diagnosis |
| D004568 | Electrodiagnosis |
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|
| Electroencephalogram with EKG lead | Diagnostic Test | A 20 minutes clinical (12 electrodes) EEG with an EKG lead will be performed a first time under sedation and a second time 3 to 5 days after sedation weaning. These EEG recordings will allow to measure the sympathic-parasympathetic ratio using spectral analysis of the EKG and also to measure quantitative markers of brain EEG activity (spectral power and connectivity in delta, theta, alpha, beta and gamma band; complexity). |
|
|
Analysis of the sympathico-parasympathetic ratio (using spectral analysis of the EKG signal) according to the presence or absence of brainstem dysfunction and its severity
| At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessationn |
| Link between brainstem dysfunction and clinical dysautonomia after sedation weaning | Analysis of the sympathico-parasympathetic ratio (using spectral analysis of the EKG signal) according to the presence or absence of brainstem dysfunction and its severity | 4 to 7 days after sedation weaning |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG power | EEG power in delta, theta, alpha, beta and gamma frequency bands according to the presence or absence of brainstem dysfunction and its severity | At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessation |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG power after sedation weaning | EEG power in delta, theta, alpha, beta and gamma frequency bands according to the presence or absence of brainstem dysfunction and its severity | Day 4 to day 7 after sedation weaning. |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG functional connectivity | EEG functional connectivity using weighted Symbolic Mutual Information and weighted Phase Lag Index according to the presence or absence of brainstem dysfunction and its severity | At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessation |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG functional connectivity, after sedation weaning | EEG functional connectivity using weighted Symbolic Mutual Information and weighted Phase Lag Index according to the presence or absence of brainstem dysfunction and its severity | Day 4 to day 7 after sedation weaning. |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG complexity | EEG complexity using Kolmogorov complexity and permutation entropy according to the presence or absence of brainstem dysfunction and its severity | At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessation |
| Characterization of brainstem dysfunction in COVID-19 patients: EEG complexity after sedation weaning | EEG complexity using Kolmogorov complexity and permutation entropy according to the presence or absence of brainstem dysfunction and its severity | Day 4 to day 7 after sedation weaning. |
| Characterization of brainstem dysfunction in COVID-19 patients: multivariate classification | Multivariate classification of the presence or absence of brainstem dysfunction using support vector machine and extra-trees algorithm based on the EEG derived quantitative features presented above | At inclusion or in patients with neuromuscular blockade 12h-72h following neuromuscular blocking agent cessation |
| Characterization of brainstem dysfunction in COVID-19 patients: multivariate classification after sedation weaning | Multivariate classification of the presence or absence of brainstem dysfunction using support vector machine and extra-trees algorithm based on the EEG derived quantitative features presented above | Day 4 to day 7 after sedation weaning. |
| Duration of mechanical ventilation | at ICU discharge up to 28 days |
| Mortality | at ICU discharge up to 28 days |
| Duration of hospitalisation | at hospital discharge up to 90 days |
| Duration of coma, disturbance of consciousness, delirium | at ICU discharge up to 28 days |
| Neurological functional evolution with mRankin | Using validated functional scale modified Rankin (mRankin) for independence assessment (mRankin ranges from 0 to 6 with higher scores indicating more severe disability) | 90 days after inclusion |
| Neurological functional evolution with GOSE | Using validated functional scale Glasgow Outcome Scale Extended (GOSE) for independence assessment (GOSE ranges from 1 to 8 with higher scores indicating less severe disability outcome) | 90 days after inclusion |
| Paris |
| 75015 |
| France |
| Result |
| Benghanem S, Cariou A, Diehl JL, Marchi A, Charpentier J, Augy JL, Hauw-Berlemont C, Gavaret M, Pene F, Mira JP, Sharshar T, Hermann B. Early Clinical and Electrophysiological Brain Dysfunction Is Associated With ICU Outcomes in COVID-19 Critically Ill Patients With Acute Respiratory Distress Syndrome: A Prospective Bicentric Observational Study. Crit Care Med. 2022 Jul 1;50(7):1103-1115. doi: 10.1097/CCM.0000000000005491. Epub 2022 Feb 9. |
| D014777 |
| Virus Diseases |
| D018352 | Coronavirus Infections |
| D003333 | Coronaviridae Infections |
| D030341 | Nidovirales Infections |
| D012327 | RNA Virus Infections |
| D008171 | Lung Diseases |
| D012140 | Respiratory Tract Diseases |
| D003221 | Confusion |
| D019954 | Neurobehavioral Manifestations |
| D009461 | Neurologic Manifestations |
| D009422 | Nervous System Diseases |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D019965 | Neurocognitive Disorders |
| D001523 | Mental Disorders |