Neurologic Manifestations and Complications of COVID-19.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has created a global pandemic. Beyond the well-described respiratory manifestations, SARS-CoV-2 may cause a variety of neurologic complications, including headaches, alteration in taste and smell, encephalopathy, cerebrovascular disease, myopathy, psychiatric diseases, and ocular disorders. Herein we describe SARS-CoV-2's mechanism of neuroinvasion and the epidemiology, outcomes, and treatments for neurologic manifestations of COVID-19.

Critically Ill Patients Treated for Chimeric Antigen Receptor-Related Toxicity: A Multicenter Study.

OBJECTIVES: To report the epidemiology, treatments, and outcomes of adult patients admitted to the ICU after cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome. DESIGN: Retrospective cohort study. SETTING: Nine centers across the U.S. part of the chimeric antigen receptor-ICU initiative. PATIENTS: Adult patients treated with chimeric antigen receptor T-cell therapy who required ICU admission between November 2017 and May 2019. INTERVENTIONS: Demographics, toxicities, specific interventions, and outcomes were collected. RESULTS: One-hundred five patients treated with axicabtagene ciloleucel required ICU admission for cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome during the study period. At the time of ICU admission, the majority of patients had grade 3-4 toxicities (66.7%); 15.2% had grade 3-4 cytokine release syndrome and 64% grade 3-4 immune effector cell-associated neurotoxicity syndrome. During ICU stay, cytokine release syndrome was observed in 77.1% patients and immune effector cell-associated neurotoxicity syndrome in 84.8% of patients; 61.9% patients experienced both toxicities. Seventy-nine percent of patients developed greater than or equal to grade 3 toxicities during ICU stay, however, need for vasopressors (18.1%), mechanical ventilation (10.5%), and dialysis (2.9%) was uncommon. Immune Effector Cell-Associated Encephalopathy score less than 3 (69.7%), seizures (20.2%), status epilepticus (5.7%), motor deficits (12.4%), and cerebral edema (7.9%) were more prevalent. ICU mortality was 8.6%, with only three deaths related to cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome. Median overall survival time was 10.4 months (95% CI, 6.64-not available mo). Toxicity grade or organ support had no impact on overall survival; higher cumulative corticosteroid doses were associated to decreased overall and progression-free survival. CONCLUSIONS: This is the first study to describe a multicenter cohort of patients requiring ICU admission with cytokine release syndrome or immune effector cell-associated neurotoxicity syndrome after chimeric antigen receptor T-cell therapy. Despite severe toxicities, organ support and in-hospital mortality were low in this patient population.

Intractable Coronavirus Disease 2019 (COVID-19) and Prolonged Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Replication in a Chimeric Antigen Receptor-Modified T-Cell Therapy Recipient: A Case Study.

A chimeric antigen receptor-modified T-cell therapy recipient developed severe coronavirus disease 2019, intractable RNAemia, and viral replication lasting >2 months. Premortem endotracheal aspirate contained >2 × 1010 severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA copies/mL and infectious virus. Deep sequencing revealed multiple sequence variants consistent with intrahost virus evolution. SARS-CoV-2 humoral and cell-mediated immunity were minimal. Prolonged transmission from immunosuppressed patients is possible.

New Medical Device Acquisition During Pediatric Severe Sepsis Hospitalizations.

OBJECTIVES: Severe sepsis is a significant cause of healthcare utilization and morbidity among pediatric patients. However, little is known about how commonly survivors acquire new medical devices during pediatric severe sepsis hospitalization. We sought to determine the rate of new device acquisition (specifically, tracheostomy placement, gastrostomy tube placement, vascular access devices, ostomy procedures, and amputation) among children surviving hospitalizations with severe sepsis. For contextualization, we compare this to rates of new device acquisition among three comparison cohorts: 1) survivors of all-cause pediatric hospitalizations; 2) matched survivors of nonsepsis infection hospitalizations; and 3) matched survivors of all-cause nonsepsis hospitalization with similar organ dysfunction. DESIGN: Observational cohort study. SETTING: Nationwide Readmission Database (2016), including all-payer hospitalizations from 27 states. PATIENTS: Eighteen-thousand two-hundred ten pediatric severe sepsis hospitalizations; 532,738 all-cause pediatric hospitalizations; 16,173 age- and sex-matched nonsepsis infection hospitalizations; 15,025 organ dysfunction matched all-cause nonsepsis hospitalizations; and all with live discharge. MEASUREMENTS AND MAIN RESULTS: Among 18,210 pediatric severe sepsis hospitalizations, 1,024 (5.6%) underwent device placement. Specifically, 3.5% had new gastrostomy, 3.1% new tracheostomy, 0.6% new vascular access devices, 0.4% new ostomy procedures, and 0.1% amputations. One-hundred forty hospitalizations (0.8%) included two or more new devices. After applying the Nationwide Readmissions Database sampling weights, there were 55,624 pediatric severe sepsis hospitalizations and 1,585,194 all-cause nonsepsis hospitalizations with live discharge in 2016. Compared to all-cause pediatric hospitalizations, severe sepsis hospitalizations were eight-fold more likely to involve new device acquisition (6.4% vs 0.8%; p < 0.001). New device acquisition was also higher in severe sepsis hospitalizations compared with matched nonsepsis infection hospitalizations (5.1% vs 1.2%; p < 0.01) and matched all-cause hospitalizations with similar organ dysfunction (4.7% vs 2.8%; p < 0.001). CONCLUSIONS: In this nationwide, all-payer cohort of U.S. pediatric severe sepsis hospitalizations, one in 20 children surviving severe sepsis experienced new device acquisition. The procedure rate was nearly eight-fold higher than all-cause, nonsepsis pediatric hospitalizations, and four-fold higher than matched nonsepsis infection hospitalizations.

Epidemiology and Outcomes of Cancer-Related Versus Non-Cancer-Related Sepsis Hospitalizations.

OBJECTIVE: Cancer and its treatment are known to be important risk factors for sepsis, contributing to an estimated 12% of U.S. sepsis admissions in the 1990s. However, cancer treatment has evolved markedly over the past 2 decades. We sought to examine how cancer-related sepsis differs from non-cancer-related sepsis. DESIGN: Observational cohort. SETTING: National Readmissions Database (2013-2014), containing all-payer claims for 49% of U.S. PATIENTS: A total of 1,104,363 sepsis hospitalizations. INTERVENTIONS: We identified sepsis hospitalizations in the U.S. National Readmissions Database using explicit codes for severe sepsis, septic shock, or Dombrovskiy criteria (concomitant codes for infection and organ dysfunction). We classified hospitalizations as cancer-related versus non-cancer-related sepsis based on the presence of secondary diagnosis codes for malignancy. We compared characteristics (site of infection and organ dysfunction) and outcomes (in-hospital mortality and 30-d readmissions) of cancer-related versus non-cancer-related sepsis hospitalizations. We also completed subgroup analyses by age, cancer types, and specific cancer diagnoses. MEASUREMENTS AND MAIN RESULTS: There were 27,481,517 hospitalizations in National Readmissions Database 2013-2014, of which 1,104,363 (4.0%) were for sepsis and 4,150,998 (15.1%) were cancer related. In-hospital mortality in cancer-related sepsis was 27.9% versus 19.5% in non-cancer-related sepsis. The median count of organ dysfunctions was indistinguishable, but the rate of specific organ dysfunctions differed by small amounts (e.g., hematologic dysfunction 20.1% in cancer-related sepsis vs 16.6% in non-cancer-related sepsis; p < 0.001). Cancer-related sepsis was associated with an adjusted absolute increase in in-hospital mortality ranging from 2.2% to 15.2% compared with non-cancer-related sepsis. The mortality difference was greatest in younger adults and waned with age. Patients (23.2%) discharged from cancer-related sepsis were rehospitalized within 30 days, compared with 20.1% in non-cancer-related sepsis (p < 0.001). CONCLUSIONS: In this cohort of over 1 million U.S. sepsis hospitalizations, more than one in five were cancer related. The difference in mortality varies substantially across age spectrum and is greatest in younger adults. Readmissions were more common after cancer-related sepsis.

Emerging therapeutics in pulmonary hypertension.

Pulmonary hypertension (PH) is a progressive and often fatal illness presenting with nonspecific symptoms of dyspnea, lower extremity edema, and exercise intolerance. Pathologically, endothelial dysfunction leads to abnormal intimal and smooth muscle proliferation along with reduced apoptosis, resulting in increased pulmonary vascular resistance and elevated pulmonary pressures. PH is subdivided into five World Health Organization groups based on the disease pathology and specific cause. While there are Food and Drug Administration-approved medications for the treatment of pulmonary arterial hypertension (PAH; Group 1 PH), as well as for chronic thromboembolic PH (Group 4 PH), the morbidity and mortality remain high. Moreover, there are no approved therapies for other forms of PH (Groups 2, 3, and 5) at present. New research has identified molecular targets that mediate vasodilation, anti-inflammatory, and antifibrotic changes within the pulmonary vasculature. Given that PAH is the most commonly studied form of PH worldwide and because recent studies have led to better mechanistic understanding of this devastating disease, in this review we attempt to provide an updated overview of new therapeutic approaches under investigation for the treatment of PH, with a particular focus on PAH, as well as to offer guidelines for future investigations.

Acute on Chronic Liver Failure and Immune Dysfunction: A Mimic of Sepsis.

Both the adaptive and innate arms of immunity are altered in patients with cirrhosis, which have both prognostic and clinical implications. Acute on chronic liver failure (ACLF), defined as decompensated cirrhosis with associated organ failure, carries a high risk of 28-day mortality and is marked by a significant inflammatory response. Patients with decompensated chronic liver disease display a shift from a chronic low-grade inflammatory state to one of intense inflammation, followed by the development of immunoparalysis. Considerable heterogeneity exists depending on the nature of the inciting cause and duration of ACLF. In this review, we will highlight the changes that immune cell populations in the liver undergo during decompensated liver disease, underscoring the immunological paradox between inflammation and increased susceptibility to infection that occurs during ACLF and progressive cirrhosis, as well as provide future perspectives regarding potentially useful biomarkers and possible avenues for treatment.

Caring for the Critically Ill Patient with COVID-19.

The COVID-19 pandemic has resulted in unprecedented numbers of critically ill patients. Critical care providers have been challenged to increase the capacity for critical care, prevent the spread of syndrome coronavirus 2 in hospitals, determine the optimal treatment approaches for patients with critical COVID-19, and to design and implement systems for fair allocation of scarce life-saving resources when capacity is exhausted. The global burden of COVID-19 highlighted disparities, across geographic regions and among minority patient populations. Faced with a novel pathogen, critical care providers grappled with the extent to which conventional supportive critical care practices should be followed versus adapted to treat patients with COVID-19. Fiercely debated practices included the use of awake prone positioning, the timing of intubation, and optimal approach to sedation. Advances in clinical trial design were necessary to rapidly identify appropriate therapeutics for the critically ill patient with COVID-19. In this article, we review the epidemiology, outcomes, and treatments for the critically ill patient with COVID-19.

A 35-Year-Old Smoker With Dyspnea and Chest Pain.

CASE PRESENTATION: A 35-year-old veteran presented at our clinic with insidious dyspnea on exertion, nonspecific chest pain, and intermittent rash. The patient reported the development of dyspnea over 6 to 8 weeks. He had been physically active before this time but had since developed dyspnea after walking 30 to 61 m (100 to 200 ft) or with any more strenuous physical exertion. He described a nonproductive cough, with bilateral nonspecific chest pain that was worse with exertion. In addition, there was a fleeting, salmon-colored, nonpruritic rash over the bilateral arms and legs that was not responsive to over-the-counter topical steroids. The patient's medical history was notable for a 15-pack-year smoking history, posttraumatic stress disorder, depression, Clostridium difficile colitis, migraines, and alcohol abuse. Surgical history was notable for pyloric myotomy for stenosis and umbilical hernia repair. He lived with his partner and five children and was unemployed at the time because of dyspnea. There were no pets in the home and no prior occupational exposures, including silica, heavy metals, or birds.