Adrian Waeckerlin scite author profile

Background and Purpose: Case series indicating cerebrovascular disorders in coronavirus disease 2019 (COVID-19) have been published. Comprehensive workups, including clinical characteristics, laboratory, electroencephalography, neuroimaging, and cerebrospinal fluid findings, are needed to understand the mechanisms. Methods: We evaluated 32 consecutive critically ill patients with COVID-19 treated at a tertiary care center from March 9 to April 3, 2020, for concomitant severe central nervous system involvement. Patients identified underwent computed tomography, magnetic resonance imaging, electroencephalography, cerebrospinal fluid analysis, and autopsy in case of death. Results: Of 32 critically ill patients with COVID-19, 8 (25%) had severe central nervous system involvement. Two presented with lacunar ischemic stroke in the early phase and 6 with prolonged impaired consciousness after termination of analgosedation. In all but one with delayed wake-up, neuroimaging or autopsy showed multiple cerebral microbleeds, in 3 with additional subarachnoid hemorrhage and in 2 with additional small ischemic lesions. In 3 patients, intracranial vessel wall sequence magnetic resonance imaging was performed for the first time to our knowledge. All showed contrast enhancement of vessel walls in large cerebral arteries, suggesting vascular wall pathologies with an inflammatory component. Reverse transcription-polymerase chain reactions for SARS-CoV-2 in cerebrospinal fluid were all negative. No intrathecal SARS-CoV-2-specific IgG synthesis was detectable. Conclusions: Different mechanisms of cerebrovascular disorders might be involved in COVID-19. Acute ischemic stroke might occur early. In a later phase, microinfarctions and vessel wall contrast enhancement occur, indicating small and large cerebral vessels involvement. Central nervous system disorders associated with COVID-19 may lead to long-term disabilities. Mechanisms should be urgently investigated to develop neuroprotective strategies.

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Improving time-sensitive processes in the intensive care unit: the example of 'doortoneedle time' in acute myocardial infarction

Bonetti

Waeckerlin²,

Schuepfer³

et al. 2000

International Journal for Quality in Health Care

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Formal process analysis, followed by implementation of revised guidelines resulted in a significant reduction of 'door-to-needle time'. An initial dramatic but transient reduction of 'door-to-needle time' was considered observational and must not be mistaken as the definite new level of performance. We conclude that formal process analysis techniques are suited to improve processes in the intensive care unit.

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Central Nervous System Disorders in Severe SARS-CoV-2 Infection: detailed clinical work-up of eight cases

Keller

Brandi

Winklhofer

et al. 2020

Preprint

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Objective Case series with different clinical presentations indicating central nervous system (CNS) involvement in coronavirus disease 2019 (COVID-19) have been published. Comprehensive work-ups including clinical characteristics, laboratory, electroencephalography (EEG), neuroimaging and cerebrospinal fluid (CSF) findings are needed to understand the mechanisms.DesignWe evaluated 32 consecutive patients with severe SARS-CoV-2 infection treated at a tertiary care centre from March 09 to April 03, 2020 for concomitant severe central nervous system (CNS) symptoms occurring during their critical disease state. Those with CNS disorders were examined in detail regarding clinical characteristics and undergoing additional examinations, e.g. computed tomography (CT), magnetic resonance imaging (MRI), (EEG), (CSF) analysis and autopsy if they had died.ResultsOf 32 critically ill patients with COVID-19 eight (18%) had severe CNS involvement (mean [SD] age, 67.6 [6.8] years; seven men; two patients died). All eight patients had cardiovascular risk factors, most frequently arterial hypertension. Two patients presented with lacunar ischemic stroke and one with status epilepticus in the early phase. As most common presentation, six patients presented with prolonged impaired consciousness after termination of analgosedation. In all but one with delayed wake-up, neuroimaging or autopsy showed multiple cerebral microbleeds, in three of them with additional subarachnoid haemorrhage and in another two with additional small ischemic lesions. In three patients intracranial vessel wall sequence MRI was performed, for the first time to our knowledge. All cases showed contrast-enhancement of vessel walls in large and middle-sized cerebral arteries, suggesting vascular wall pathologies with an inflammatory component. CSF analysis showed normal cells counts and chemistry. RT-PCRs for SARS-CoV-2 in CSF were all negative, and no intrathecal SARS-CoV-2 specific IgG synthesis was detectable.ConclusionsCNS disorders are common in patients with severe COVID-19. Different mechanisms might be involved. Besides unspecific encephalopathy and encephalitic syndromes, large vessel strokes might occur early after disease onset. In a later phase, microbleeds and microinfarctions indicate potential CNS small vessel disease. MRI vessel wall contrast enhancement suggests cerebral vascular wall pathologies with an inflammatory component. CNS disorders associated with COVID-19 may lead to long-term disabilities aggravating socio-economic damage. The mechanisms have to be investigated urgently in order to develop preventive and therapeutic neuroprotective strategies.

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