Similar pulmonary functional outcomes at 3 months in critical COVID-19 survivors hospitalized during the first, second, and third pandemic waves (preprint)

Introduction: Despite improvements in the management of COVID-19 patients, we still don’t know whether pharmacological treatments and improvements in ventilatory support have changed outcomes for intensive care unit (ICU) survivors of the three consecutive waves (w) of the pandemic. The objective of this study was to assess pulmonary functional outcomes, radiologic pattern, and quality of life (QoL) in ICU COVID-19 survivors at 3 months, according to pandemic wave. Methods All patients admitted to the ICU for COVID-19 acute respiratory distress syndrome (ARDS) at two university hospitals were prospectively included and assessed 3 months post-ICU discharge by chest CT, pulmonary function test (PFT), 6-minute walking distance test (6MWDT), respiratory muscle strength (RMS) test, and Short Form 36 (SF-36) questionnaire. Results Eighty-four ARDS COVID-19 survivors were included. Hospital length of stay was shorter during w3 vs w1 (23.4 ± 14.2 days vs 34.7 ± 20.8 days, p = 0.03). Fewer patients required mechanical ventilation (MV) during w2 vs w1 (33.3% vs 63.9%, p = 0.0038). Three months after ICU discharge, PFT, 6MWDT, and RMS were similar, regardless of wave (p > 0.05). QoL (SF-36) was worse for patients in w1 vs w3 (64.7 ± 16.3 vs 49.2 ± 23.2, p = 0.0169). On linear/logistic regression analysis, MV was associated with decreased TLC, FEV1, DLCO, and RMS (w1,2,3, p 

Diaphragmatic paralysis in COVID-19: a rare cause of postacute sequelae of COVID-19 dyspnoea.

We describe a 56-year-old female patient hospitalised with COVID-19 in April 2020 who had persistent respiratory symptoms after radiographic and microbiologic recovery. X-ray of the chest demonstrated an elevated right hemidiaphragm while fluoroscopy confirmed unilateral diaphragmatic paralysis. Symptoms resolved gradually, concurrent with restoration of right hemidiaphragm function. Thus, we describe a rare cause of postacute sequelae of COVID-19 dyspnoea.

Respiratory Muscle Dysfunction in COVID-19 Patients with Persistent Symptoms (preprint)

In a cross-sectional analysis, we have identified a high prevalence of respiratory muscle dysfunction in persistently symptomatic patients after COVID-19 (‘Long COVID’). Respiratory muscle impairment in these patients was associated with exercise-induced deoxygenation, impaired exercise tolerance, activity and functional outcomes after COVID-19.

[Parsonage-Turner syndrome following severe SARS-CoV-2 infection]. / Syndrome de Parsonage-Turner compliquant une infection sévère à SARS-CoV-2.

INTRODUCTION: Complications following COVID-19 are starting to emerge; neurological disorders are already described in the literature. CASE REPORT: This case is about a 20-year old male with a severe COVID-19, hospitalized in a Reanimation and Intensive Care Unit with an Acute Respiratory Distress Syndrome, thromboembolic complication and secondary bacterial infection. This patient had a non-specific neurological disorder with a pseudobulbar palsy, (MRI, ENMG and lumbar puncture were normal), associated 4 months later with persistent left shoulder motor deficit and respiratory failure. Respiratory and neurological check-up led to a diagnosis of the Parsonage-Turner syndrome or neuralgic amyotrophy affecting C5-C6 nerve roots, the lateral pectoral and phrenic nerves at the origin of the scapular belt, amyotrophy and left diaphragm paralysis. CONCLUSIONS: This case shows that persistant dyspnoea after COVID 19 infection should lead to a search for a diaphragmatic cause which is not always the result of Reanimation Neuropathy but may also indicate a neuralgic amyotrophy. It is the fourth case of neuralgic amyotrophy following COVID-19. This brings the medical community to consider the risk of diaphragm paralysis apart from critical illness polyneuropathy. Respiratory muscle evaluation and diaphragmatic ultrasound should be considered in case of persistent dyspnoea.

Unilateral diaphragm paralysis with COVID-19 infection.

Neurological complications are well described in SARS-CoV-2, but for the first time we report a case of unilateral diaphragm paralysis occurring early in mechanical ventilation for respiratory failure due to such an infection. The patient subsequently required tracheostomy and ventilator support for 37 days, and had increased breathlessness and an elevated diaphragm at clinic review 9 months later. Dynamic chest radiography demonstrated persistent diaphragm paralysis with an accompanying postural change in lung volumes, and he subsequently underwent surgical plication. This case demonstrates that although persistent dyspnoea is a common feature following SARS-CoV-2 infection and is usually due to deconditioning or persistent parenchymal involvement, it can be due to other causes and needs to be investigated appropriately.

Feasibility of non-invasive nitric oxide inhalation in acute hypoxic respiratory failure: potential role during the COVID-19 pandemic (preprint)

Acute hypoxemic respiratory failure (ARF) is characterized by both lower arterial oxygen and carbon dioxide tensions in the blood. First line treatment for ARF includes oxygen therapy,intially admininstered non invasively using nasal prongs, high flow nasal cannulae or masks. Invasive mechancial ventilation (IMV) is usually reserved for patients who are unable to maintain their airway, those with worsening hypoxemia, or those who develop respiratory muscle fatigue and consequent hypercapnia. Inhaled nitric oxide (iNO) gas is known to improve oxygenation in patients with ARF by manipulating ventilation-perfusion matching. Addition of iNO may potentially alleviate the need for IMV in selected patients. This article demonstrates the feasibility of this technique based on our experience of patients with hypoxemic ARF. This technique may also be considered for patients with hypoxic ARF in setting of COVID-19.