Sonographic Diaphragm Abnormalities are an Unexpectedly Frequent Feature of Long COVID Outpatients with Unexplained Dyspnea and Fatigue (preprint)

Purpose The primary aim of this study is to define the sonographic diaphragm phenotype of Long COVID rehabilitation outpatients with non-specific dyspnea and fatigue. We analyzed patients referred from a pulmonary post-COVID clinic that were lacking a specific cardiopulmonary diagnosis for their symptoms. Additionally, we report the functional outcomes of subset of patients who completed an outpatient cardiopulmonary physical therapy program.Methods This was a retrospective cohort study (n = 58) of consecutive patients referred for neuromuscular ultrasound assessment of diaphragm muscle using B-mode technique. Patients were recruited from a single academic hospital between February 25, 2021 and November 22, 2022.Results Sonographic abnormalities were identified in 57% (33/58) of patients, and in the vast majority of cases (33/33) was defined by a low diaphragm muscle thickness. Thinner diaphragm muscles are correlated with lower serum creatinine and creatine kinase values, but there was no association with markers of systemic inflammation. Thirty three patients participated in outpatient cardiopulmonary physical therapy that included respiratory muscle training, and 75.8% (25/33) had documented improvement.Conclusion In the outpatient rehabilitation setting, patients with Long COVID display low diaphragm muscle thickness, but intact muscle contractility, with surprising frequency on neuromuscular ultrasound. We speculate this represents a form of disuse atrophy. Also, these patients appear to have a favorable response to cardiopulmonary physical therapy that includes respiratory muscle training.

Acquired peripheral nerve injuries associated with severe COVID-19 (preprint)

We diagnosed 66 peripheral nerve injuries in 34 patients who survived severe coronavirus disease 2019 (COVID-19). We combine our latest data with published case series re-analyzed here (117 nerve injuries; 58 patients) to provide a comprehensive accounting of lesion sites. The most common are ulnar (25.1%), common fibular (15.8%), sciatic (13.1%), median (9.8%), brachial plexus (8.7%) and radial (8.2%) nerves at sites known to be vulnerable to mechanical loading. Protection of peripheral nerves should be prioritized in the care of COVID-19 patients. To this end, we report proof of concept data of a wearable, wireless pressure sensor to provide real time monitoring in the intensive care unit setting.

Acquired peripheral nerve injuries associated with severe COVID-19 (preprint)

We diagnosed 63 peripheral nerve injuries in 32 patients who survived severe COVID-19. We combine our latest data with published case series re-analyzed here (106 nerve injuries; 49 patients) to provide a comprehensive accounting of lesion sites. The most common are ulnar (26.0%), common fibular (16.0%), median (10.7%), sciatic (10.7%), brachial plexus (9.5%) and radial (8.3%) nerves. Nerve injury prevention should be prioritized during acute care of COVID-19 patients. To this end, we report proof of concept data of a wearable, wireless pressure sensor to provide real time monitoring in the intensive care unit setting.

Short of Breath for the Long Haul: Diaphragm Muscle Dysfunction in Survivors of Severe COVID-19 as Determined by Neuromuscular Ultrasound (preprint)

Many survivors from severe coronavirus disease 2019 (COVID-19) suffer from persistent dyspnea and fatigue long after resolution of the active infection. In a cohort of 25 consecutive COVID-19 survivors admitted to an inpatient rehabilitation hospital (76% male), 80% of them had at least one sonographic abnormality of diaphragm muscle structure or function. Specifically, when compared to established normative data, 76% had reduced diaphragm thickening ratio (impaired contractility), and 20% patients had reduced diaphragm muscle thickness (atrophy). These findings support neuromuscular respiratory dysfunction as a highly prevalent underlying cause for prolonged functional impairments after hospitalization for COVID-19.

Injury-Prone: Peripheral nerve injuries associated with prone positioning for COVID-19-related acute respiratory distress syndrome (preprint)

Patients with Coronavirus disease 2019 (COVID-19) who require invasive mechanical ventilation frequently meet the acute respiratory distress syndrome (ARDS) diagnostic criteria. Hospitals based in the United States have been incorporating prone positioning (PP) into the COVID-19-related ARDS treatment plan at a higher rate than normal. Here, we describe 11 patients admitted to a single inpatient rehabilitation hospital who were subsequently diagnosed with acquired focal/multifocal peripheral nerve injury (PNI) in association with the use of PP for COVID-19-related ARDS. The reason for the high rate of PNI associated with PP in COVID-19 ARDS is likely multifactorial, but may include an underlying state of hyperinflammation and hypercoagulability already linked to other the neurological sequelae of COVID-19. Physicians must be aware of this elevated susceptibility to PNI in severe COVID-19 and refined standard PP protocols in order to reduce the risk.