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Coronavirus disease 2019 (COVID-19), apart from commonly involving the respiratory system, has its impact on the central nervous system; with a wide spectrum of clinical presentations ranging from headaches to ischemic strokes. The ongoing research regarding this novel disease has found that there is a very high prevalence of thrombotic episodes, e...
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Background:
Although it is known that the new coronavirus disease (COVID-19), which was first seen in Wuhan, China, in December 2019 and has affected the whole world, mainly targets the respiratory tract, cases of this disease with a wide clinical spectrum are emerging as information is shared.
Case report:
We present the case of a pregnant woma...
Citations
... Patients with LIS have preserved cognitive function and the ability to communicate through vertical or lateral eye movement or blinking the upper eyelid. 1 The prevalence and incidence of LIS is unknown partly because the disease has high mortality rate in an acute setting; but also, only a handful of cases are reported each year. 2 The etiologies of LIS involve damage to the paramedian base of the pons due to ischemic stroke, pontine hemorrhage, brain tumors, infection/abscess of the pons, central pontine myelinolysis, and trauma. 3,4 Locked-in syndrome has 3 main subtypes: classical, partial, and total. The classical form is defined by total immobility, with the preservation of the ability to perform vertical eye movements, blink, and maintain a normal level of consciousness. 3 In the acute setting, computed tomography (CT) or magnetic resonance imaging (MRI) of the brain helps characterize the causative agent to establish a treatment earlier. ...
Locked-in syndrome (LIS) is an uncommon neurologic disorder that manifests in quadriplegia and anarthria with preserved cognition and self-awareness. Generally, patients with LIS may live for years with preserved quality of life and cognitive function, but with severe disability. There are 3 types of LIS: classic, partial, and total. The classical form is defined by total immobility, with preservation of the ability to perform vertical eye movements, blink, and maintain a normal level of consciousness. We present an unusual case of classical LIS in a 54-year-old man who presented initially with acute-onset left lower extremity weakness and dysarthria with radiographic evidence of extensive, acute right paramedian pontine infarction and high-grade vertebral artery stenosis. However, a week later, the patient developed sudden-onset aphonia, bilateral facial palsy, and quadriplegia with repeat magnetic resonance imaging of the brain showing expansion of right paramedian pontine stroke to also involve the left paramedian pons, without significant change to the vertebral stenosis and basilar artery patency.
The locked-in syndrome (LiS) is characterized by quadriplegia with preserved vertical eye and eyelid movements and retained cognitive abilities. Subcategorization, aetiologies and the anatomical foundation of LiS are discussed. The damage of different structures in the pons, mesencephalon and thalamus are attributed to symptoms of classical, complete and incomplete LiS and the locked-in plus syndrome, which is characterized by additional impairments of consciousness, making the clinical distinction to other chronic disorders of consciousness at times difficult. Other differential diagnoses are cognitive motor dissociation (CMD) and akinetic mutism. Treatment options are reviewed and an early, interdisciplinary and aggressive approach, including the provision of psychological support and coping strategies is favoured. The establishment of communication is a main goal of rehabilitation. Finally, the quality of life of LiS patients and ethical implications are considered. While patients with LiS report a high quality of life and well-being, medical professionals and caregivers have largely pessimistic perceptions. The negative view on life with LiS must be overthought and the autonomy and dignity of LiS patients prioritized. Knowledge has to be disseminated, diagnostics accelerated and technical support system development promoted. More well-designed research but also more awareness of the needs of LiS patients and their perception as individual persons is needed to enable a life with LiS that is worth living.
During COVID-19 pandemic, a wide variety of stroke typologies have been described in patients affected by SARS-CoV-2. Investigating the case reports of acute stroke in COVID-19 patients, published since the beginning of the pandemic, we tried to trace the pathogenic mechanisms of stroke during SARS-CoV-2 infection. We conducted a systematic review analyzing demographic data, cerebrovascular risk factors, NIHSS score, vascular territory involvement and laboratory findings of 168 patients described in 89 studies, from a pool of 1243 records. Based on our results, we have identified different stroke profiles: (1) cerebral large vessel disease (CLVD) profile with a low disability, simultaneous onset of COVID-19 and stroke symptoms, good outcome and low serum levels of D-dimer and CRP; (2) intracranial bleeding (IB) profile with high disability, poor outcome and low levels of serum markers of inflammation and coagulopathy; (3) CLVD profile with a short time-lapse between COVID-19 symptoms and stroke onset, high neurological disability and very high systemic inflammatory markers; (4) multiple thrombo-embolic disease (MTED) profile with older patients, many comorbidities, disabling stroke, poor outcome, evident alteration of coagulation tests and high serum levels of both D-dimer and CRP. We therefore summarized these different profiles in a spectrum similar to that of visible light, where the violet–blue band included IB and CSVD with low inflammation and prothrombotic activity, the green–yellow band included CLVD with high inflammation and moderate prothrombotic activity and the orange–red band for MTED with moderate-high levels of inflammation and very high prothrombotic activity.
