Long-term Neurological Complications of COVID-19 Include Cognitive Impairment

Background The long-term health consequences of COVID-19 remain largely unclear. The aim of this study was to describe the long-term health consequences of patients with COVID-19 who have been discharged from hospital and investigate the associated risk factors, in particular disease severity. Methods We did an ambidirectional cohort study of patients with confirmed COVID-19 who had been discharged from Jin Yin-tan Hospital (Wuhan, China) between Jan 7, 2020, and May 29, 2020. Patients who died before follow-up, patients for whom follow-up would be difficult because of psychotic disorders, dementia, or re-admission to hospital, those who were unable to move freely due to concomitant osteoarthropathy or immobile before or after discharge due to diseases such as stroke or pulmonary embolism, those who declined to participate, those who could not be contacted, and those living outside of Wuhan or in nursing or welfare homes were all excluded. All patients were interviewed with a series of questionnaires for evaluation of symptoms and health-related quality of life, underwent physical examinations and a 6-min walking test, and received blood tests. A stratified sampling procedure was used to sample patients according to their highest seven-category scale during their hospital stay as 3, 4, and 5–6, to receive pulmonary function test, high resolution CT of the chest, and ultrasonography. Enrolled patients who had participated in the Lopinavir Trial for Suppression of SARS-CoV-2 in China received severe acute respiratory syndrome coronavirus 2 antibody tests. Multivariable adjusted linear or logistic regression models were used to evaluate the association between disease severity and long-term health consequences. Findings In total, 1733 of 2469 discharged patients with COVID-19 were enrolled after 736 were excluded. Patients had a median age of 57·0 (IQR 47·0–65·0) years and 897 (52%) were men. The follow-up study was done from June 16, to Sept 3, 2020, and the median follow-up time after symptom onset was 186·0 (175·0–199·0) days. Fatigue or muscle weakness (63%, 1038 of 1655) and sleep difficulties (26%, 437 of 1655) were the most common symptoms. Anxiety or depression was reported among 23% (367 of 1617) of patients. The proportions of median 6-min walking distance less than the lower limit of the normal range were 24% for those at severity scale 3, 22% for severity scale 4, and 29% for severity scale 5–6. The corresponding proportions of patients with diffusion impairment were 22% for severity scale 3, 29% for scale 4, and 56% for scale 5–6, and median CT scores were 3·0 (IQR 2·0–5·0) for severity scale 3, 4·0 (3·0–5·0) for scale 4, and 5·0 (4·0–6·0) for scale 5–6. After multivariable adjustment, patients showed an odds ratio (OR) 1·61 (95% CI 0·80–3·25) for scale 4 versus scale 3 and 4·60 (1·85–11·48) for scale 5–6 versus scale 3 for diffusion impairment; OR 0·88 (0·66–1·17) for scale 4 versus scale 3 and OR 1·77 (1·05–2·97) for scale 5–6 versus scale 3 for anxiety or depression, and OR 0·74 (0·58–0·96) for scale 4 versus scale 3 and 2·69 (1·46–4·96) for scale 5–6 versus scale 3 for fatigue or muscle weakness. Of 94 patients with blood antibodies tested at follow-up, the seropositivity (96·2% vs 58·5%) and median titres (19·0 vs 10·0) of the neutralising antibodies were significantly lower compared with at the acute phase. 107 of 822 participants without acute kidney injury and with estimated glomerular filtration rate (eGFR) 90 mL/min per 1·73 m2 or more at acute phase had eGFR less than 90 mL/min per 1·73 m2 at follow-up. Interpretation At 6 months after acute infection, COVID-19 survivors were mainly troubled with fatigue or muscle weakness, sleep difficulties, and anxiety or depression. Patients who were more severely ill during their hospital stay had more severe impaired pulmonary diffusion capacities and abnormal chest imaging manifestations, and are the main target population for intervention of long-term recovery. Funding National Natural Science Foundation of China, Chinese Academy of Medical Sciences Innovation Fund for Medical Sciences, National Key Research and Development Program of China, Major Projects of National Science and Technology on New Drug Creation and Development of Pulmonary Tuberculosis, and Peking Union Medical College Foundation.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), originating from Wuhan, is spreading around the world and the outbreak continues to escalate. Patients with coronavirus disease 2019 (COVID-19) typically present with fever and respiratory illness. 1 However, little information is available on the neurological manifestations of COVID-19. Here, we report the first case of COVID-19 initially presenting with acute Guillain-Barré syndrome. On Jan 23, 2020, a woman aged 61 years presented with acute weakness in both legs and severe fatigue, progressing within 1 day. She returned from Wuhan on Jan 19, but denied fever, cough, chest pain, or diarrhoea. Her body temperature was 36·5°C, oxygen saturation was 99% on room air, and respiratory rate was 16 breaths per min. Lung auscultation showed no abnormalities. Neurological examination disclosed symmetric weakness (Medical Research Council grade 4/5) and areflexia in both legs and feet. 3 days after admission, her symptoms progressed. Muscle strength was grade 4/5 in both arms and hands and 3/5 in both legs and feet. Sensation to light touch and pinprick was decreased distally. Laboratory results on admission were clinically significant for lymphocytopenia (0·52 × 109/L, normal: 1·1–3·2 × 109/L) and thrombocytopenia (113 × 109/L, normal: 125–300 × 109/L). CSF testing (day 4) showed normal cell counts (5 × 106/L, normal: 0–8 × 106/L) and increased protein level (124 mg/dL, normal: 8–43 mg/dL). Nerve conduction studies (day 5) showed delayed distal latencies and absent F waves in early course, supporting demyelinating neuropathy (Table 1, Table 2 ). She was diagnosed with Guillain-Barré syndrome and given intravenous immunoglobulin. On day 8 (Jan 30), the patient developed dry cough and a fever of 38·2°C. Chest CT showed ground-glass opacities in both lungs. Oropharyngeal swabs were positive for SARS-CoV-2 on RT-PCR assay. She was immediately transferred to the infection isolation room and received supportive care and antiviral drugs of arbidol, lopinavir, and ritonavir. Her clinical condition improved gradually and her lymphocyte and thrombocyte counts normalised on day 20. At discharge on day 30, she had normal muscle strength in both arms and legs and return of tendon reflexes in both legs and feet. Her respiratory symptoms resolved as well. Oropharyngeal swab tests for SARS-CoV-2 were negative. Table 1 Motor nerve conduction studies Distal latency, ms Amplitude, mV Conduction velocity, m/s F latency, ms Left median nerve Wrist–abductor pollicis brevis 3·77 (normal ≤3·8) 5·90 (normal ≥4) .. .. Antecubital fossa–wrist 7·96 5·70 51 (normal ≥50) .. Left ulnar nerve Wrist-abductor digiti minimi 3·04 (normal ≤3·0) 6·60 (normal ≥6) .. Absent F (normal ≤31) Below elbow–wrist 6·54 6·80 56 (normal ≥50) .. Above elbow–below elbow 8·29 6·60 57 .. Left tibial nerve Ankle-abductor hallucis brevis 7·81 (normal ≤5·1) 7·30 (normal ≥4) .. Absent F (normal ≤56) Popliteal fossa–ankle 17·11 4·80 43 (normal ≥40) .. Right tibial nerve Ankle-abductor hallucis brevis 6·65 (normal ≤5·1) 8·00 (normal ≥4) .. Absent F (normal ≤56) Popliteal fossa–ankle 15·95 6·00 43 (normal ≥40) .. Left peroneal nerve Ankle-extensor digitorum brevis 5·21 (normal ≤5·5) 1·87 (normal ≥2) .. .. Below fibula–ankle 12·50 1·49 43 (normal ≥42) .. Right peroneal nerve Ankle–extensor digitorum brevis 11·30 (normal ≤5·5) 2·90 (normal ≥2) .. .. Below fibula–ankle 18·20 2·70 43 (normal ≥42) .. Table 2 Antidromic sensory nerve conduction studies Amplitude, μV Conduction velocity, m/s Left median nerve Digit 2–wrist 15·9 (normal ≥18) 68 (normal ≥50) Left ulnar nerve Digit 5–wrist 16·4 (normal ≥18) 61 (normal ≥50) Left superficial fibular nerve Lateral calf–lateral ankle 13·0 (normal ≥6) 52 (normal ≥40) Right superficial fibular nerve Lateral calf–lateral ankle 10·8 (normal ≥6) 55 (normal ≥40) Left sural nerve Calf–posterior ankle 15·9 (normal ≥6) 53 (normal ≥40) Right sural nerve Calf–posterior ankle 15·6 (normal ≥6) 49 (normal ≥40) On Feb 5, two relatives of the patient, who had taken care of her during her hospital stay since Jan 24, tested positive for SARS-CoV-2 and were treated in isolation. Relative 1 developed fever and cough on Feb 6, and relative 2 developed fatigue and mild cough on Feb 8. Both relatives had lymphocytopenia and radiological abnormalities. In the neurology department, a total of eight close contacts (including two neurologists and six nurses) were isolated for clinical monitoring. They had no signs or symptoms of infection and tested negative for SARS-CoV-2. To the best of our knowledge, this is the first case of SARS-CoV-2 infection associated with Guillain-Barré syndrome. Given the patient's travel history to Wuhan, where outbreaks of SARS-CoV-2 were occurring, she was probably infected during her stay in Wuhan. We consider that the virus was transmitted to her relatives during her hospital stay. Retrospectively, the patient's initial laboratory abnormalities (lymphocytopenia and thrombocytopenia), which were consistent with clinical characteristics of patients with COVID-19, 2 indicated the presence of SARS-CoV-2 infection on admission. The early presentation of COVID-19 can be non-specific (fever in only 43·8% of patients on admission 2 ). Considering the temporal association, we speculate that SARS-CoV-2 infection might have been responsible for the development of Guillain-Barré syndrome in this patient. Furthermore, the onset of Guillain-Barré syndrome symptoms in this patient overlapped with the period of SARS-CoV-2 infection. Hence Guillain-Barré syndrome associated with SARS-CoV-2 might follow the pattern of a parainfectious profile, instead of the classic postinfectious profile, as reported in Guillain-Barré syndrome associated with Zika virus.3, 4 However, the limitation of this case is absence of microbiological testing on admission. Besides, the patient's fever and respiratory symptoms developed 7 days after the onset of Guillain-Barré syndrome symptoms. Therefore, it is prudent to consider the alternative explanation that the patient coincidentally developed Guillain-Barré syndrome of unknown cause and acquired SARS-CoV-2 infection nosocomially; although, there was no report of COVID-19 in the neurological ward during her stay nor in her close contacts (except for her two relatives). Overall, this single case report only suggests a possible association between Guillain-Barré syndrome and SARS-CoV-2 infection, and more cases with epidemiological data are necessary to support a causal relationship. This case also suggests the need to consider potential neurological symptoms of SARS-CoV-2 infection. Furthermore, this report should alert clinicians to the risk of inadvertent SARS-CoV-2 infection, even if they work outside of the emergency or infectious disease department.

To report two patients infected with severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) who acutely presented with Miller Fisher syndrome and polyneuritis cranialis, respectively. Patient data were obtained from medical records from the University Hospital “Príncipe de Asturias”, Alcalá de Henares, Madrid, Spain and from the University Hospital “12 de Octubre”, Madrid, Spain. The first patient was a 50-year-old man who presented with anosmia, ageusia, right internuclear ophthalmoparesis, right fascicular oculomotor palsy, ataxia, areflexia, albuminocytologic dissociation and positive testing for GD1b-IgG antibodies. Five days before, he had developed a cough, malaise, headache, low back pain, and a fever. The second patient was a 39-year-old man who presented with ageusia, bilateral abducens palsy, areflexia and albuminocytologic dissociation. Three days before, he had developed diarrhea, a low-grade fever, and a poor general condition. The oropharyngeal swab test for coronavirus disease 2019 (COVID-19) by qualitative real-time reverse-transcriptase–polymerase-chain-reaction assay was positive in both patients and negative in the cerebrospinal fluid. The first patient was treated with intravenous immunoglobulin and the second, with acetaminophen. Two weeks later, both patients made a complete neurological recovery, except for residual anosmia and ageusia in the first case. Our two cases highlight the rare occurrence of Miller Fisher syndrome and polyneuritis cranialis during the COVID-2 pandemic. Neurological manifestations may occur because of an aberrant immune response to COVID-19. The full clinical spectrum of neurological symptoms in patients with COVID-19 remains to be characterized.