Biomarker-Concordant Steroid Administration in Severe Coronavirus Disease-2019.

BACKGROUND: Although corticosteroids have become the standard of care for patients with coronavirus disease-2019 (COVID-19) on supplemental oxygen, there is growing evidence of differential treatment response. This study aimed to evaluate if there was an association between biomarker-concordant corticosteroid treatment and COVID-19 outcomes. METHODS: This registry-based cohort study included adult COVID-19 hospitalized patients between January 2020 and December 2021 from 109 institutions. Patients with available C-reactive protein (CRP) levels within 48 h of admission were evaluated. Those on steroids before admission, stayed in the hospital for <48 h, or were not on oxygen support were excluded. Corticosteroid treatment was biomarker-concordant if given with high baseline CRP ≥150 mg/L or withheld with low CRP (<150 mg/L) and vice-versa was considered discordant (low CRP with steroids, high CRP without steroids). Hospital mortality was the primary outcome. Sensitivity analyses were conducted using varying CRP level thresholds. The model interaction was tested to determine steroid effectiveness with increasing CRP levels. RESULTS: Corticosteroid treatment was biomarker-concordant in 1778 (49%) patients and discordant in 1835 (51%). The concordant group consisted of higher-risk patients than the discordant group. After adjusting for covariates, the odds of in-hospital mortality were significantly lower in the concordant group than the discordant (odds ratio [95% confidence interval (C.I.)] = 0.71 [0.51, 0.98]). Similarly, adjusted mortality difference was significant at the CRP thresholds of 100 and 200 mg/L (odds ratio [95% C.I.] = 0.70 [0.52, 0.95] and 0.57 [0.38, 0.85], respectively), and concordant steroid use was associated with lower need for invasive ventilation for 200 mg/L threshold (odds ratio [95% C.I.] = 0.52 [0.30, 0.91]). In contrast, no outcome benefit was observed at CRP threshold of 50. When the model interaction was tested, steroids were more effective at reducing mortality as CRP levels increased. CONCLUSION: Biomarker-concordant corticosteroid treatment was associated with lower odds of in-hospital mortality in severe COVID-19.

Low-dose radiation therapy suppresses viral pneumonia by enhancing broad-spectrum anti-inflammatory responses via transforming growth factor-ß production.

Low-dose radiation therapy (LDRT) can suppress intractable inflammation, such as that in rheumatoid arthritis, and is used for treating more than 10,000 rheumatoid arthritis patients annually in Europe. Several recent clinical trials have reported that LDRT can effectively reduce the severity of coronavirus disease (COVID-19) and other cases of viral pneumonia. However, the therapeutic mechanism of LDRT remains unelucidated. Therefore, in the current study, we aimed to investigate the molecular mechanism underlying immunological alterations in influenza pneumonia after LDRT. Mice were irradiated to the whole lung 1 day post-infection. The changes in levels of inflammatory mediators (cytokines and chemokines) and immune cell populations in the bronchoalveolar lavage (BALF), lungs, and serum were examined. LDRT-treated mice displayed markedly increased survival rates and reduced lung edema and airway and vascular inflammation in the lung; however, the viral titers in the lungs were unaffected. Levels of primary inflammatory cytokines were reduced after LDRT, and transforming growth factor-ß (TGF-ß) levels increased significantly on day 1 following LDRT. Levels of chemokines increased from day 3 following LDRT. Additionally, M2 macrophage polarization or recruitment was increased following LDRT. We found that LDRT-induced TGF-ß reduced the levels of cytokines and polarized M2 cells and blocked immune cell infiltration, including neutrophils, in BALF. LDRT-induced early TGF-ß production was shown to be a key regulator involved in broad-spectrum anti-inflammatory activity in virus-infected lungs. Therefore, LDRT or TGF-ß may be an alternative therapy for viral pneumonia.

Severe Sars-Cov 2 Lung Infection in a 2-Year-Old Girl Undergoing Chemotherapy for Acute Lymphoblastic Leukemia: A Case Report

BACKGROUND AND AIM: Sars-CoV-2 infection can lead to severe pulmonary impairment at all ages, however, the best therapy in children is not established. Our objective is to discuss a severe pulmonary case in a pediatric oncology patient who presented good clinical evolution and the therapeutic measures chosen in its management. METHOD(S): Case report and literature review. RESULT(S): A 2-year-old girl undergoing chemotherapy for acute lymphocytic leukemia had received cytarabine and methotrexate one week before being admitted to the ward for febrile neutropenia, identified with Sars-Cov-2 infection by RT-PCR. Referred to pediatric intensive care on day 3 of symptoms when she was prostrate and antibiotics switched to a broader spectrum. On day 8 of symptoms she rapidly developed respiratory failure and required mechanical ventilation at high parameters, CT scan showed lesions in ground glass in 75% of the lung parenchyma. On day 9, she was still feverish and showed altered inflammatory tests, such as ferritin 4492 mcg/L D-dimer 5909 ng/dL CRP 28 mg/ dL. Cardiac, hepatic and renal functions remained stable. At that moment, the patient received gammaglobulin 2g/kg in a single dose and methylprednisolone 2mg/kg/day for 5 days. Substantial improvement was observed 48 hours after the introduction of anti-inflammatory therapy, allowing for weaning and extubation after 7 days of mechanical ventilation. 72 hours after extubation, she was discharged home, breathing normally on room air. CONCLUSION(S): Severe Sars-Cov-2 lung infection in a pediatric oncology patient with markedly high inflammatory tests was treated with anti-inflammatory therapies such as steroids and gammaglobulin, with rapid and favorable recovery (Figure Presented).

[Experience of anticipatory therapy with IL-6 receptor inhibitors and perspectives for its use in the evolution of COVID-19].

The Advisory Board chaired by the chief specialist in infectious diseases of the Ministry of Health of Russian Federation, Professor V.P. Chulanov was held on June 18, 2022 in Saint Petersburg. Aim. The main purpose of the Board was following discussion: the analysis of the real-world data of levilimab as an anticipatory therapy for COVID-19 in hospitalized patients; the review of the experience and perspectives of levilimab as an anticipatory anti-inflammatory option for outpatient patients who meet defined clinical and laboratory criteria. Results. The analyzed data on clinical efficacy and safety formed the basis of recommendations proposed by experts for the use of levilimab in the inpatient and outpatient medical care for COVID-19.

Anti-cytokine Therapy in Hospitalized Patients with COVID-19: The Jury is Out.

How to cite this article: Garg SK. Anti-cytokine Therapy in Hospitalized Patients with COVID-19: The Jury is Out. Indian J Crit Care Med 2022;26(10):1069-1071.

[New opportunities for preventive anti-inflammatory therapy in the management of patients with moderate and severe COVID-19].

The specific feature of new coronavirus infection (COVID-19) is high risk of hyperinflammatory response or cytokine storm development, which underly the pathogenesis of several life-threatening conditions and determine the disease outcomes. Pathophysiological features of COVID-19 justify the search of effective drugs capable to control the hyperinflammatory response. AIM: To evaluate the efficacy and safety of Aterixen (1-[2-(1-Мethylimidazol-4-yl)-ethyl]perhydroazin-2,6-dion) for achieving clinical improvement in adult patients hospitalized with moderate and severe COVID-19. MATERIALS AND METHODS: Multicenter, adaptive, randomized, double-blind, placebo-controlled, phase III study to evaluate the efficacy and safety of Aterixen , tablets, 100 mg, in patients with COVID-19. The study analysis included 116 patients who, by randomization, were divided into 2 groups: 57 patients were included in the Aterixen drug group and 59 patients were in the placebo group. RESULTS AND CONCLUSION: Obtained results have shown high efficacy and statistically significant superiority of Aterixen over placebo. Thus, it allows us to consider it as viable medication for COVID-19 pathogenetic therapy.

Effect of Urinary Trypsin Inhibitor (Ulinastatin) Therapy in COVID-19.

Purpose: End-organ damage in coronavirus disease-2019 (COVID-19) is linked to "cytokine storm" and excessive release of inflammatory mediators. Various novel therapies have been used in COVID-19 including urinary trypsin inhibitor therapy. This study explores the efficacy of ulinastatin in COVID-19. Materials and methods: We retrieved the medical records of patients admitted during one month and did a propensity score analysis to create matched treatment and control groups. We analyzed these groups and the outcomes were presented with appropriate statistics. Survival curve was prepared to compare the survival effect of ulinastatin therapy at the end of hospitalization, among both the groups. Results: A total of 736 patients were admitted, and after adjusting the data with propensity score matching, 55 cases were selected by the system. On the final outcome analysis, we found that intensive care unit (ICU) length of stay [median (interquartile range) days 3 (3.5-7.8) vs 2 (0-4); p-value 0.28] in control vs intervention groups, and in hospital mortality (odds ratio: 0.491, CI 95%: 0.099-2.44, p-value 0.435) were not statistically different among the groups. In survival plot analysis also, there was no statistical difference (p-value 0.414) among both the groups.Conclusion: In this retrospective study, we conclude that the final outcome of the ICU length of stay, and overall, in hospital mortality were not different among both the groups. Hence, adequately powered randomized control trials are urgently required to confirm any benefit of ulinastatin therapy in COVID-19 treatment. How to cite this article: Jain A, Kasliwal R, Jain SS, Jain R, Gupta D, Gupta P, et al. Effect of Urinary Trypsin Inhibitor (Ulinastatin) Therapy in COVID-19. Indian J Crit Care Med 2022;26(6):696-703.

Retinal venous occlusion following COVID-19 vaccination: Report of a case after third dose and review of the literature.

A 28-year-old, healthy male presented with blurring of vision in the right eye following third dose of the AstraZeneca/COVISHIELD vaccine. Further examination revealed ischemic central retinal vein occlusion, and subsequent laboratory investigations were inconclusive for his eye disease. He responded to pulse corticosteroid and tapering doses of oral corticosteroids without requiring any intra-vitreal injection. Twelve articles were identified with the help of a PubMed literature search, and a short review of these patients was performed. Retinal vein occlusion can occur because of inflammation-induced thrombosis after coronavirus disease 2019 vaccination and may respond to anti-inflammatory therapy.

Whole lung irradiation as a novel treatment for COVID-19: Final results of the prospective randomized trial (WINCOVID trial).

BACKGROUND AND PURPOSE: The ability of low dose radiotherapy (LDRT) to control the unprecedented cytokine release associated with COVID-19 pathogenesis has been an area of widespread research since the COVID pandemic. It has not been studied adequately whether the anti-inflammatory effect of LDRT provides additional benefit when used concurrently with steroids amongst other standard pharmacologic therapy. MATERIAL AND METHODS: 51 RT-PCR positive COVID-19 patients were recruited between November 2020 and July 2021. 34 patients were allotted to receive 0.5 Gy single session LDRT along with standard pharmacologic therapy while 17 patients received standard pharmacologic therapy alone. All had SpO2 <94% on room air, respiratory frequency >24/min and SpO2/FiO2 (SF) ratio between >89 but <357. All patients underwent a baseline CT scan. They were followed up for 28 days during when serial SF ratio, blood biomarkers (CRP, Serum ferritin, IL-6), Absolute lymphocyte count (ALC), repeat CT scan were performed at pre-defined time points. RESULTS: LDRT showed a statistically significant early improvement in oxygenation, an early time to clinical recovery, early hospital discharge and better radiological resolution compared to control group. There was no statistically significant difference between the two groups with respect to ALC or blood biomarkers at any of the measured time points. The 28-day mortality rate did not show statistically significant difference between the two groups. CONCLUSION: LDRT can be considered for selected oxygen-dependent moderate to severe COVID-19 patients for rapid relief of respiratory distress. It can be safely combined with standard pharmacologic treatment in such patients for added clinical benefit.

Effective Oxidation-Responsive Polyester Nanocarriers for Anti-Inflammatory Drug Delivery.

BACKGROUND: High levels of oxidants, such as reactive oxygen species (ROS) and reactive nitrogen species (RNS), are typical characteristics of an inflammatory microenvironment and are closely associated with a various inflammatory pathologies, eg, cancer, diabetes, atherosclerosis, and neurodegenerative diseases. Therefore, the delivery of anti-inflammatory drugs by oxidation-responsive smart systems would be an efficient anti-inflammatory strategy that benefits from the selective drug release in an inflammatory site, a lower treatment dose, and minimizes side effects. PURPOSE: In this study, we present the feasibility of an oxidation-sensitive PEGylated alternating polyester, methoxyl poly(ethylene glycol)-block-poly(phthalic anhydride-alter-glycidyl propargyl ether) (mPEG-b-P(PA-alt-GPBAe)), as novel nanocarrier for curcumin (CUR), and explore the application in anti-inflammatory therapy. METHODS: The copolymers used were obtained by combining a click reaction and a ring-opening-polymerization method. CUR was loaded by self-assembly. The in vitro drug release, cytotoxicity toward RAW 264.7 cells and cellular uptake were investigated. Furthermore, the anti-inflammatory effects of CUR-loaded polymeric nanoparticles (NPs-CUR) were investigated in lipopolysaccharide (LPS)-stimulated RAW 264.7 macrophages and tested in a murine model of ankle inflammation. RESULTS: Fast drug release from NPs-CUR was observed in trigger of 1 mM H2O2 in PBS. Compared with NPs and free drugs, the significant anti-inflammatory potential of NPs-CUR was proven in activated RAW 264.7 cells by inhibiting the production of TNF-α, IL-1ß, and IL-6 and increasing the level of an anti-inflammatory cytokine IL-10. Finally, a local injection of NPs-CUR at a dose of 0.25 mg/kg suppressed the acute ankle inflammatory response in mice by histological observation and further reduced the expression of pro-inflammatory cytokines in the affected ankle joints compared to that of free CUR. CONCLUSION: Both the significant in vitro and in vivo anti-inflammatory results indicated that our oxidation responsive polymeric nanoparticles are promising drug delivery systems for anti-inflammatory therapy.

Whole lung irradiation as a novel treatment for COVID-19: Interim results of an ongoing phase 2 trial in India.

BACKGROUND AND PURPOSE: The main cause of death in COVID-19 pneumonia is acute respiratory distress syndrome which is preceded by massive cytokine release. Low-dose radiation therapy (LDRT) has anti-inflammatory and immunomodulatory effects that can interfere with the inflammatory cascade, reducing the severity of associated cytokine release. MATERIAL & METHODS: 25 patients with RT-PCR proven COVID-19 pneumonia were enrolled between November 2020 and May 2021. All patients had SpO2 < 94 % on room air, respiratory frequency > 24/min and SpO2/FiO2 ratio (SF ratio) of >89 but <357. Patients were treated according to standard COVID-19 management guidelines along with single fraction LDRT of 0.5 Gy to bilateral whole lungs within 10 days of symptom onset and 5 days of hospital admission. RESULTS: LDRT was well tolerated by all patients. There was a statistically significant improvement in oxygenation as given by the SF ratio between pre-RT and day 2 (p < 0.05), day 3 (p < 0.001) and day 7 (p < 0.001) post RT. Demand for supplemental oxygen showed statistically significant reduction between pre-RT and day 2 (p < 0.05), day 3 (p < 0.001), day 7 (p < 0.001) post RT. 88 % patients attained clinical recovery within 10 days post LDRT and median time to hospital discharge from day of LDRT was 6 days. Three patients deteriorated and died. CONCLUSION: As per our initial experience, LDRT appears to be a promising modality of treatment with rapid relief of respiratory distress in selected patients with moderate to severe COVID-19 pneumonia. This translates to early clinical recovery and hospital discharge in the selected patient group.

[Experience of olokizumab use in COVID-19 patients].

Most subjects with the COVID-19 experience mild to moderate symptoms, but approximately 10% of cases suffer from severe course of disease. IL-6 inhibitors are actively used to neutralize and prevent the cytokine storm. Olokizumab is a humanized monoclonal antibody belonging to the G4/Kappa immunoglobulin isotype that selectively binds to human IL-6 and effectively neutralizes it. AIM: To evaluate the efficacy and safety of Artlegia (olokizumab) for the treatment of subjects with a disease caused by the SARS-COV-2 virus in a real-world clinical setting. MATERIALS AND METHODS: The analysis included data of 610 subjects aged 55.0812.68 years who received olokizumab at a single dose of 160 mg/mL 0.4 mL subcutaneously as a preemptive anti-inflammatory therapy. The comparison group included 511 subjects aged 55.2311.23 years who received standard therapy without IL-6 inhibitors. Control Endpoints: 1. Positive clinical changes on Day 7. 2. Changes in the CRP levels on Days 1, 2, and 7. 3. Duration of oxygen therapy. 4. Number of days in hospital. 5. Number of adverse events. 6. Disease outcome. RESULTS: If a cytokine storm occurs, immune regulatory events will trigger the development of either a protective immune response or an exacerbated inflammatory response. The use of preemptive anti-inflammatory therapy has both a short-term and, most importantly, a long-term effect on the T and B parts of the immune process. These aspects definitely require further research and observation. CONCLUSION: The use of olokizumab to treat the new COVID-19 coronavirus disease has demonstrated a positive effect on clinical and laboratory parameters. Primarily, it affects the severity of clinical parameters by improving the general condition already on the first day of observation, and decreasing body temperature to normal values. The changes in the C-reactive protein levels show a significant effect of the IL-6 inhibitor on the systemic inflammatory response.

Alpha-1 Antitrypsin for COVID-19 Treatment: Dual Role in Antiviral Infection and Anti-Inflammation.

Many drugs have been approved for clinical trials for the treatment of COVID-19 disease, focusing on either antiviral or anti-inflammatory approaches. Combining antiviral and anti-inflammatory drugs or therapies together may be more effective. Human alpha-1 antitrypsin (A1AT) is a blood circulating glycoprotein that is best known as a protease inhibitor. It has been used to treat emphysema patients with A1AT deficiency for decades. We and others have demonstrated its role in reducing acute lung injury by inhibiting inflammation, cell death, coagulation, and neutrophil elastase activation. Recently, A1AT has been found to inhibit severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection by inhibiting transmembrane serine protease 2 (TMPRSS2), a protease involved in the entry of SARS-CoV-2 into host cells. This dual role of both antiviral infection and anti-inflammation makes A1AT a unique and excellent candidate for COVID-19 treatment. Three clinical trials of A1AT for COVID-19 treatment have recently been approved in several countries. It is important to determine whether A1AT can prevent the progress from moderate to severe lung injury and eventually to be used to treat COVID-19 patients with acute respiratory distress syndrome.