Clinical and economic outcomes of pharmacological stress tests in patients with a history of COVID-19.

BACKGROUND: Despite millions of COVID-19 cases in the United States, it remains unknown whether a history of COVID-19 infection impacts the safety of pharmacologic myocardial perfusion imaging stress testing (pharmacologic MPI). HYPOTHESIS: The aim of this study was to assess if a prior COVID-19 infection was associated with a higher risk of complications during and following pharmacologic MPI testing. METHODS: This retrospective cohort analysis included 179 803 adults (≥18 years) from the PharMetrics® Plus claims database who underwent pharmacologic MPI between March 1, 2020 and February 28, 2021. Patients with a history of COVID-19 infection (COVID-19 group) were compared with propensity-score matched no-COVID-19 history group for reversal agent use, 30-day resource use, and post-MPI cardiac events/procedures. RESULTS: The most commonly used stress agent was regadenoson (91.7%). The COVID-19 group (n = 6372; 3.5%) had slightly higher: reversal agent use (difference 1.13% [95% confidence interval [CI]: 0.33, 1.92]), all-cause costs (difference USD $128 [95% CI: $73-$181]), and office visits (81.5% vs. 77.0%) than the no-COVID-19 group. Prior COVID-19 infection did not appear to impact subsequent cardiac events/procedures. CONCLUSIONS: COVID-19 history was associated with slightly higher reversal agent use, all-cause costs, and office visits after pharmacologic MPI; however, the differences were not clinically meaningful. Concerns for use of stress agents in patients with prior COVID-19 do not appear to be warranted.

Adenosine A2A Receptor (A2AR) Agonist Apadenoson Promotes Survival in K28-hACE2 Mice and Syrian Hamsters Infected with Sars-CoV-2

Purpose: To determine if Apadenoson or Regadenoson has a therapeutic effect in attenuating hyper-inflammation and improving survival rate in K18-hACE2mice or Syrian hamsters infected with SARS-CoV-2. Method(s): 6-8 weeks old male K18-hACE2mice were divided into Control group that received vehicle;Test group 1 that received the drug (Apadenoson or Regadenoson) 24hrs prior to challenge with SARS-CoV-2;and Test Group 2 (Drug-delay), that received the drug with a 5 hr delay post-viral infection (n=6/grp). Viral dose was 1250 PfuHong Kong/VM20001061/2020 delivered via intranasal route. Drug was delivered subcutaneously using 1007D ALZET pumps. 6 weeks old Syrian hamsters were divided into Control group that received Vehicle and Virus (n=4) and 2 test groups (n=5/group) that received Apadenoson+Virus and Regadenoson+Virus. Drugs were delivered by 2ML2 ALZET pumps (4ug/kg/hr). Hamsters were inoculated intratracheally with 750PFU SARS-CoV-2 WA1 strain prior to treatment. Mice were weighed and clinical scores recorded daily. Bronchoalveolar lavage fluid (BALF) and serum were collected along with lungs. Plethysmography was done on days 0, 2, 4 and 7. Result(s): Apadenoson administered post-infection was efficacious in decreasing weight loss, improving clinical score, and increasing the survival rate in K18-hACE2 mice, i.e. 50% survival was observed at Day 5 and at Day 7 post-infection for drug given before or after infection respectively. Apadenoson given post-infection improved the histopathology that was observed in the vehicle control group, decreased pro-inflammatory IL-6, IFN-gamma, MCCP-1, MIP-1beta, IP-10, and Rantes in serum, increased anti-inflammatory Ang1-7 levels, and decreased monocytes in BALF. 42% of mice that received Regadenoson pre-challenge survived infection compared to 6.25% in the vehicle or Drug delay (drug given post-infection) groups. Viral titers in the lungs of Regadenoson-treated mice were found decreased. Treatment also significantly decreased CD4+, CD8+T cells, eosinophils, and neutrophils in BALF. Plethysmography, in hamsters, showed significant improvement of pulmonary function parameters, Rpef and PenH, following treatment with Apadenoson given post-infection. Apadenoson cleared the virus from BALF and maintained Ang1-7 levels. Both drugs decreased plasma IFN-gamma levels. Conclusion(s): Treatment with Apadenoson attenuated inflammation, improved pulmonary function, decreased weight loss, and enhanced survival rate following infection with SARS-CoV-2 virus. The results demonstrate the translational significance of Apadenoson in the treatment of COVID-19.

A 51-YEAR-OLD MAN WITH WEIGHT LOSS AND CARDIOGENIC SHOCK

CASE: A 51-year-old man without significant past medical history presented to our hospital with dyspnea on exertion. SARS-CoV-2 was detected on routine occupational screening 2 months prior to admission. He subsequently reported a 100lb weight loss, during which time he experienced dysgeusia and ate primarily cereal, sandwiches, and potatoes and consumed nearly no fruits or vegetables. Three weeks prior to admission he developed postprandial nausea and vomiting and anorexia. A week later he developed progressive epigastric pain, lower extremity edema, and dyspnea while walking around the college campus where he worked as a security guard, and sought medical attention. He did not have fever, chills, night sweats, cough, orthopnea, paroxysmal nocturnal dyspnea, rash, or diarrhea. He had not seen a doctor in 20 years and took no medications. He did not drink alcohol, smoke cigarettes, or use illicit substances. Vital signs were T 36.6°F HR 104 BP 149/111 RR 20 and SpO2 97%. Physical examination revealed a cachectic man with bitemporal wasting, sunken orbits, poor dentition, and severe periodontal disease. JVP was 14cm of H2O at 45°. An S3 was present. The abdomen was tender to palpation in the mid epigastrium. The extremities were cool with 3+ pitting edema. Pancreatitis was diagnosed after discovery of markedly elevated lipase levels and peripancreatic fat stranding on abdominal CT. TTE showed biventricular systolic dysfunction with LVEF 15%. He developed cardiogenic shock complicated by oliguric renal failure, congestive hepatopathy and obtundation, requiring ICU transfer for diuresis and inotropic support. Further workup revealed deficiencies of thiamine, zinc, and vitamins A, C, and D. A regadenoson myocardial perfusion PET/CT showed no flow-limiting coronary artery disease, and workup for inflammatory, infectious, and toxic-metabolic causes of heart failure was unrevealing. While COVID myocarditis and multisystem inflammatory syndrome in adults (MIS-A) were considered, ultimately, a diagnosis of wet beriberi was made. After 5 months of aggressive nutritional supplementation via percutaneous gastrostomy tube and initiation of guideline-directed medical therapy, LVEF improved to 53% and weight increased by 35lbs. IMPACT/DISCUSSION: Wet beriberi is a potentially underrecognized cause of dilated cardiomyopathy in resource-rich areas. Within 3 months, thiamine deficiency can cause high-output heart failure due to impaired myocardial energy metabolism and dysautonomia. Risk factors include alcohol use disorder, prolonged vomiting, and history of bariatric surgery. CONCLUSION: The laboratory evaluation of non-ischemic dilated cardiomyopathy should include measurement of serum thiamine, carnitine, and selenium levels in select patients, alongside iron studies, ANA, screening for HIV, Chagas disease, and viral myocarditis, and genetic testing in patients with a suggestive family history. Empiric thiamine repletion should be considered in all critically ill patients with evidence of malnutrition.

Impaired coronary flow reserve in athletes with long-term cardiovascular symptoms after COVID-19

Introduction: Cardiovascular symptoms post-acute sequelae of SARS-CoV-2 infection (CV-PASC) have been increasingly recognized, but the underlying pathobiology is unclear. Endothelial and cardiac pericyte ACE2 receptors are important targets of SARS-CoV-2, resulting in virally-induced endothelial activation, which may adversely affect the coronary microvasculature and impair myocardial performance. We hypothesized that athletes with CV-PASC have microvascular and subclinical myocardial dysfunction. Methods: We compared 15 athletes with CV-PASC with 7 control athletes without prior COVID-19 using regadenoson stress cardiac magnetic resonance (CMR). All athletes participated in >6 hours of endurance activities per week. We analyzed CMR volumes, function, global circumferential strain (GCS), late gadolinium enhancement (LGE), and coronary flow reserve (CFR) by coronary sinus method. Values presented as median [IQR]. Results: CMR in CV-PASC athletes occurred 102 [66,123] days post-SARS-CoV-2 infection. There were no differences in chamber volumes, function, or LGE between groups. One CV-PASC athlete had acute myocarditis (7%). CVPASC athletes had decreased CFR compared with control athletes (Figure 1). Multiple CV-PASC participants had CFR below the 95% CI of the controls and reported normal values from the literature (2.9 and 2.5, respectively). GCS was worse in CV-PASC athletes at the base (-23.7% [-21.6,-26.4] vs -31.1% [-27.3,-33.0], p=0.01), mid-LV (-21.5% [-18.5,-22.8] vs -28.5 [-25.4,-29.9], p=0.008), and apex (-27.1% [-24.1,-29.9] vs -30.6% [-27.8,-38], p=0.07), though the apex did not reach statistical significance. Conclusions: This pilot case-control study found CV-PASC athletes had reduced CFR and associated subclinical myocardial dysfunction as assessed by GCS compared to control athletes. These findings suggest coronary microvascular dysfunction related to endothelial injury may mediate CV-PASC symptoms.