Neuroimaging Features of Cytokine-related Diseases.

Cytokines are small secreted proteins that have specific effects on cellular interactions and are crucial for functioning of the immune system. Cytokines are involved in almost all diseases, but as microscopic chemical compounds they cannot be visualized at imaging for obvious reasons. Several imaging manifestations have been well recognized owing to the development of cytokine therapies such as those with bevacizumab (antibody against vascular endothelial growth factor) and chimeric antigen receptor (CAR) T cells and the establishment of new disease concepts such as interferonopathy and cytokine release syndrome. For example, immune effector cell-associated neurotoxicity is the second most common form of toxicity after CAR T-cell therapy toxicity, and imaging is recommended to evaluate the severity. The emergence of COVID-19, which causes a cytokine storm, has profoundly impacted neuroimaging. The central nervous system is one of the systems that is most susceptible to cytokine storms, which are induced by the positive feedback of inflammatory cytokines. Cytokine storms cause several neurologic complications, including acute infarction, acute leukoencephalopathy, and catastrophic hemorrhage, leading to devastating neurologic outcomes. Imaging can be used to detect these abnormalities and describe their severity, and it may help distinguish mimics such as metabolic encephalopathy and cerebrovascular disease. Familiarity with the neuroimaging abnormalities caused by cytokine storms is beneficial for diagnosing such diseases and subsequently planning and initiating early treatment strategies. The authors outline the neuroimaging features of cytokine-related diseases, focusing on cytokine storms, neuroinflammatory and neurodegenerative diseases, cytokine-related tumors, and cytokine-related therapies, and describe an approach to diagnosing cytokine-related disease processes and their differentials. ©RSNA, 2024 Supplemental material is available for this article.

Imaging-based Toxicity and Response Pattern Assessment Following CAR T-Cell Therapy.

Background Chimeric antigen receptor (CAR) T-cell immunotherapy is increasingly used for refractory lymphoma but may lead to cytokine release syndrome (CRS) and immune effector cell-associated neurotoxicity syndrome (ICANS). Imaging may assist in clinical management. Associations between CRS or ICANS grade and imaging findings remain not fully established. Purpose To determine associations between imaging findings and clinical grade of CRS or ICANS, evaluate response patterns, and assess imaging use following CAR T-cell treatment. Materials and Methods Patients with refractory B-cell lymphoma who received CAR T-cell infusion between 2018 and 2020 at a single center were analyzed retrospectively. Clinical CRS or ICANS toxicity grade was assessed using American Society for Transplantation and Cellular Therapy, or ASTCT, consensus grading. Thoracic and head images (radiographs, CT scans, MRI scans) were evaluated. Associations between imaging findings and clinical CRS or ICANS grade were analyzed. Wilcoxon signed-rank and χ2 tests were used to assess associations between thoracic imaging findings, clinical CRS toxicity grade, and imaging-based response. Response to therapy was evaluated according to Deauville five-point scale criteria. Results A total of 38 patients (mean age ± standard deviation, 59 years ± 10; 23 men) who received CAR T-cell infusion were included. Of these, 24 (63% [95% CI: 48, 79]) and 11 (29% [95% CI: 14, 44]) experienced clinical grade 1 or higher CRS and ICANS, respectively. Patients with grade 2 or higher CRS were more likely to have thoracic images with abnormal findings (10 of 14 patients [71%; 95% CI: 47, 96] vs five of 24 patients [21%; 95% CI: 4, 37]; P = .002) and more likely to have imaging evidence of pleural effusions (five of 14 [36%; 95% CI: 10, 62] vs two of 24 [8.3%; 95% CI: 0, 20]; P = .04) and atelectasis (eight of 14 [57%; 95% CI: 30, 84] vs six of 24 [25%; 95% CI: 7, 43]; P = .048). Positive imaging findings were identified in three of seven patients (43%) with grade 2 or higher ICANS who underwent neuroimaging. The best treatment response included 20 of 36 patients (56% [95% CI: 39, 72]) with complete response, seven of 36 (19% [95% CI: 6, 33]) with partial response, one of 36 (2.8% [95% CI: 0, 8]) with stable disease, and eight of 36 (22% [95% CI: 8, 36]) with progressive disease. Conclusion Thoracic imaging findings, including pleural effusions and atelectasis, correlated with cytokine release syndrome grade following chimeric antigen receptor (CAR) T-cell infusion. CAR T-cell therapy yielded high response rates. © RSNA, 2021 Online supplemental material is available for this article. See also the editorial by Langer in this issue.

Hyperacute reversible encephalopathy related to cytokine storm following COVID-19 vaccine.

We describe the first case of hyperacute reversible encephalopathy following COVID-19 vaccination. A patient presented with acute onset encephalopathy, mainly characterized by agitation and confusion, rapidly responsive to high dosage steroid therapy and complete remission within 3 days from onset. The clinical manifestation was related with systemic and CSF cytokine hyperproduction, responsive to steroid therapy. Although the occurrence of encephalopathy after vaccination may be just a casual temporal association, we speculate that the cytokine-storm could be the result of an excessive innate immune response against the vaccine, in a predisposed patient susceptible to autoimmunity.

Tocilizumab for the Treatment of COVID-19-Induced Cytokine Storm and Acute Respiratory Distress Syndrome: A Case Series From a Rural Level 1 Trauma Center in Western Pennsylvania.

An outbreak of coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus-2, initially in December 2019 at Wuhan, China, subsequently spread around the world. We describe a case series of COVID-19 patients treated at our academic medical center with focus on cytokine storm and potential therapeutic role of tocilizumab. A 59-year-old female admitted for shortness of breath (SOB), productive cough, fever, and nausea in the setting of COVID-19 pneumonia. Oxygen saturation was 81% necessitating supplemental oxygen. She was transferred to intensive care unit (ICU) for worsening hypoxia; intubated and received tocilizumab following which her oxygen requirements improved. A 52-year-old female admitted from an outside hospital with SOB, intubated for worsening hypoxia, in the setting of COVID-19 pneumonia. She received tocilizumab 400 mg intravenous for 2 doses on ICU admission, with clinical improvement. A 56-year-old female hospitalized with worsening SOB, fever, and cough for 8 days saturating 88% on room air in the setting of COVID-19 pneumonia. Worsening hypoxia necessitated high flow nasal cannula. She was transferred to the ICU where she received 2 doses of tocilizumab 400 mg intravenous. She did not require intubation and was transitioned to nasal cannula. A hyperinflammatory syndrome may cause a life-threatening acute respiratory distress syndrome in patients with COVID-19 pneumonia. Tocilizumab is the first marketed interleukin-6 blocking antibody, and through targeting interleukin-6 receptors likely has a role in treating cytokine storm. We noted clinical improvement of patients treated with tocilizumab.