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Introduction: Gastrointestinal tract involvement from herpes simplex virus is commonly associated with esophagitis. However, herpes simplex infection of the stomach is very rare with only a handful of cases being reported in immunocompromised patients. We present a case of herpes gastritis causing gastric outlet obstruction in an otherwise healthy, immunocompetent individual. Case Description/Methods: A 37-year-old male with a recent past medical history of COVID-19 infection, presented to the hospital with intractable nausea, vomiting, bloating, and early satiety for two days. Upon evaluation, CBC and CMP were remarkable for a WBC of 12.5 k/mm3 and ALT and AST of 124 U/L and 129 U/L, respectively. Lipase was 373 U/L. A CT abdomen/pelvis w/contrast showed circumferential wall thickening with edematous changes in the antrum consistent with localized inflammatory response. There was suspicion for gastric lymphoma and patient was admitted for further workup. An EGD was performed which showed exudative esophagitis and antral wall edema with luminal narrowing of gastric antrum. Endoscopic ultrasound (EUS) showed a 2.5 x 3 cm antral wall lesion worrisome for linitis plastica. Esophageal biopsies showed focal cytologic changes consistent with herpes esophagitis. The FNA of the gastric antral wall showed multinucleation of the basal cell layer with classic ground glass nuclei, consistent with herpes infection. No dysplasia or malignancy was seen. Both HSV1 and HSV2 IgG were elevated. HSV IgM was normal. A HSV PCR was ordered but never resulted. Patient was started on Valacyclovir 1 g PO BID for 10 days. He underwent a follow-up EGD 3 months later which showed complete resolution of the gastric antral changes (Figure). Discussion(s): Herpes gastritis is extremely rare. Literature review has revealed only 3 case reports of herpes gastritis;and all involved immunocompromised patients. To the best of our knowledge, this is the first case of herpes gastritis in an immunocompetent patient. Our patient presented with symptoms of gastric outlet obstruction which was caused by local inflammation from herpes simplex. It is unclear if having a COVID 19 infection altered patient's immunity and lead to herpes gastritis. This may need further investigation. No established guideline exists for treatment duration. Our patient received 10-day course of Valacyclovir, and his symptoms improved. Furthermore, patient had complete resolution of the herpes infection on follow-up EGD, indicating adequate treatment response.
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Introduction: Calciphylaxis, otherwise known as calcium uremic arteriolopathy, is defined as calcium deposition around blood vessels in skin and fat tissue which occurs in 1-4% of patients with end-stage renal disease (ESRD). Calcium deposition in the esophagus is extremely rare;to date, there have been only 4 cases reported worldwide. We report the fifth case of esophageal mucosal calcinosis occurring in a young male with ESRD. Case Description/Methods: A 37-year-old Thai man with ESRD on peritoneal dialysis since 2005 presented with generalized weakness and odynophagia due to oral ulcers, resulting in poor PO intake. He denied drinking alcohol, illicit drug use, or smoking. On exam his abdomen was soft, non-distended, non-tender, without any guarding. Past medical history included hypertension and COVID-19 in January 2022. Laboratory tests revealed neutropenia and pancytopenia, hyperphosphatemia, and hypocalcemia. EGD revealed distal esophageal esophagitis and hemorrhagic erosive gastropathy. Biopsy showed ulcerative esophagitis with dystrophic calcification, consistent with esophageal mucosal calcinosis .No intestinal metaplasia was noted. Immunohistochemistry was negative for CMV, HSV1, and HSV2. The patient was treated with pantoprazole 40mg IV every 12 hours, Magic Mouthwash 5ml qid, and Carafate 10mg qid. He was transferred to a cancer center where he had a bone marrow biopsy formed which was negative. His symptoms resolved and the patient was discharged to home (Figure). Discussion(s): Esophageal mucosal calcinosis is extremely rare. It is due to a combination of factors involving acidosis and the phenotypic differentiation (and apoptosis) of vascular smooth muscle cells (VSMC) into chondrocytes or osteoblast-like cells. These changes, along with the passive accumulation of calcium and phosphate, induce calcification. Acidosis is well-known to promote inflammation of the arterial walls, releasing cytokines that induce vascular calcification. The benefits of treatment with sodium thiosulfate remain unclear. An ample collection of cases should help devise standardized treatment options and establish management guidelines for this condition.
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Study objective. It has been shown that human common viruses are new target genes for host cell dioxin receptor transcriptional (AhR-ARNT) complex initially proven to up-regulate mammalian genes containing dioxin-response elements (DRE) in the promoters [doi:10.1016/j.ijid.2012.05.265]. Initially, transactivation of HIV-1 and HBV by 2,3,7,8-tetrachlodibenzop- dioxin (TCDD) at low nanomolar range was demonstrated [doi:10.3109/00498259309057034]. Noteworthy, transactivation of human cytomegalovirus (CMV) was shown with 0.3 ppt dioxin, i.e. lower than its current background level in the general population (~3.0 ppt). Recently, reactivation of CMV infection was found to influence worse clinical outcome following SARS-CoV-2 infection (doi: 10.1186/s12979-020- 00185-x). Other findings showed that CMV and herpes simplex virus 1 (HSV-1) reactivation were observed in immunocompetent patients with COVID-19 acute respiratory distress syndrome (ARDS) (doi.org/10.1186/s13054-020-03252-3). Addressing occurrence of Herpesviridae reactivation in severe COVID-19 patients, and still unspecified real triggers of CMV and HSV-1 reactivations, we tested TCDD, which current body burden (DBB) ranges from 20 pg/g (TEQ in fat) in general population to 100 pg/g in older people. Methods. In Silico quantitation of active DRE in promoters of viral genes. Virus DNA hybridization assay. Clinical and epidemiological analyses. Results and Discussion. In this study, a computational search for DRE in CMV and HSV-1 genes was performed by SITECON, a tool recognizing potentially active transcriptional factor binding sites. In silico analysis revealed in regulatory region of CMV IE genes from 5 to 10 DRE, and from 6 to 8 DRE in regulatory region of HSV-1 IE genes.We established that a low picomolar TCDD can trigger up-regulation of CMV and HSV-1 genes via AhR:Arnt transcription factor in macrophage(doi.org/10.1016/ j.ijid.2012.05.265) and glial human cell lines (doi.org/10.1016/j. jalz.2016.06.1268), respectively. In fact, viral reactivation may be triggered in COVID-19 ARDS patients by higher pulmonary TCDD concentrations, because "lipid storm" within lungs of severe COVID-19 patients has been recently reported (doi.org/ 10.1101/2020.12.04.20242115). TCDD is known as the most potent xenobiotic, which bioaccumulates and has estimation half-life in humans of up to 10 yr. Due to hydrophobic character (Log P octanol/water: 7.05), TCDD partitions into inflammatory lipids in lung tissue thus augmenting its local concentration. Population-based epidemiological data on SARS-CoV-2 first wave of pandemic revealed high level of CMV seropositivity and cumulative mortality rate 4.5 times in Lombardi region of Italy, where after Seveso industrial accident TCDD plasma level in pre-exposed subjects is 15 times the level in rest of Italy (doi. org/10.3389/fpubh.2020.620416). Also, Arctic Native (AN) peoples consume dioxin-contaminated fat in seafood and have TCDD DBB, i.e. 7 times that in general population. To the point of this paper, their COVID-19 mortality is 2.2 times of that among non-AN Alaskans (doi: 10.15585/mmwr.mm6949a3). Conclusion(s): TCDD in the picomolar range may trigger CMV expression in lung cells and commit virus to the lytic cycle, which can be applied to reactivation of Herpesviridae infection in immunocompetent patients with COVID-19 ARDS syndrome.Copyright © 2023 The American Society for Biochemistry and Molecular Biology, Inc.
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Background: After infection with SARS-CoV- 2 is observed short-term and long-term post-acute sequelae of COVID-19 (PASC). A systematic review of 57 studies comprising more than 250 000 survivors of COVID-19 indicates that more than half of COVID-19 survivors experienced PASC 6 months after recovery. The most common PASC involved functional mobility impairments, pulmonary abnormalities, and mental health disorders [Groff D et al]. It has been suggested that co-infection of SARS-CoV- 2 with EBV or other herpes viruses (HSV1 / 2, HHV6, CMV) contributes to both severe COVID-19 and post-COVID symptoms. Method(s): 88 patients with the post-COVID- 19 condition were examined, including 52.3 % female, 47.7 % male, mean age 41.4 +/- 6.7 years. Patients underwent the following studies: anamnestic, clinical, general laboratory, biochemical and immunological analysis. PCR DNA of EBV, HHV6, CMV in blood, saliva, and the posterior pharyngeal mucosa was performed by Rotor-Gene 6000 (Corbett Research, Australia) and EBNA-IgG, VCAEBV-IgG, HHV6-IgG was performed by ELISA. Result(s): There were 2 groups of patients: the first included 68 patients with the post-COVID- 19 condition and active phase of herpesviruses. They were found positive EBV DNA -in 29 (42.6%) patients, positive HHV6 DNA -17 (25.0%) patients, positive EBV DNA, and HHV6 -in 22 (32, 4%) patients;the second group included 20 patients with the post-COVID- 19 condition and latent phase of herpesviruses and negative DNA EBV and/or HHV6 were found. In patients of the first group compared with the second group, patients were found COVID-19 had a severe course, pneumonia was diagnosed more often (77.9% vs. 40.0%), patients needed oxygen support and inpatient treatment lasted longer (16 +/- 7 vs. 10 +/- 4 days). In the first group patients compared with the second group patients were subfebrile temperature, headache, irritability, depression, myalgia, arthralgia, shortness of breath (p < 0.05). In patients of the first group compared with the second group in serum blood, we found elevated ESR, lymphopenia, monocytosis, increased activity of liver enzymes ALT and AST, CRP, D-dimer (p < 0.05) Conclusion(s): 1. Reactivation of herpesvirus infections is common in 72.3% of patients with the post-COVID- 19 condition: the EBV DNA positive were found in 42,6% of patients, the HHV6 DNA positive in 25,0% of patients, and EBV+HHV6 DNA positive in 32,4% of patients. 2. Patients with the post-COVID- 19 condition and reactivation of herpesviruses were characterized by severe COVID-19, manifestations of subfebrile, impaired mobility, mental disorders, and pulmonary abnormalities, as well as changes in laboratory parameters. 3. Our studies confirm the possible participation of reactivated herpesvirus infections (EBV, HHV6) in the formation of post-COVID- 19 conditions, which suggests the need for diagnosis of these infections and specific treatment. (Figure Presented).
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Outbreaks of chilblains, a hallmark sign of type I interferonopathies, have been reported during the COVID-19 pandemic. These cases occurred mostly in patients who were asymptomatic and showed negative results from PCR and serology tests for SARS-CoV-2. We hypothesized that chilblain patients are predisposed to mount a robust innate immunity against the virus, which clinically manifests as chilblains and promotes early viral clearance, thereby preventing pulmonary disease and precluding adaptive responses. By profiling skin lesions in the early stage following chilblain onset, we uncover a transient IRF7-dependent type I interferon (IFN) signature that is driven by the acral infiltration of systemically activated plasmacytoid dendritic cells (pDCs). Patients' peripheral blood mononuclear cells (PBMCs) demonstrate increased production of IFNalpha when exposed to SARS-CoV-2 and influenza A, but not herpes simplex virus 1 (HSV-1), indicating a heightened ability to detect RNA -but not DNA- viruses. Further investigations revealed enhanced responsiveness of pDCs in chilblain patients to the RNA sensor TLR7, but not the DNA sensor TLR9. Collectively, our study establishes a two-step model for the immunopathology of SARS-CoV-2-related chilblains: enhanced TLR7 immunity in pDCs, likely triggered by SARS-CoV-2 exposure at the mucosal site, leads to prompt viral clearance, which explains the lack of infection markers in most cases. Subsequently, systemic spread of activated pDCs and infiltration of the toes in response to mechanical stress or acral coldness, may result in IFN-mediated tissue damage with development of chilblains.Copyright © 2023
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This study aimed to review zinc's effectiveness as an antivirus in treating herpes simplex virus infection. The authors use international journals published from 2000-2022, and use search engines such as Google Scholar, PubMed, and Science Direct with the keywords "zinc and herpes simplex virus". The herpes simplex virus that often causes symptoms in humans are HSV type 1 and type 2. The lesions appear as vesicles which then rupture into ulcers. Zinc is one of the most abundant nutrients or metals in the human body besides iron. Studies about the effects of zinc on HSV have shown that it has the function of inhibiting the viral life cycle. HSV attaches to the host cells to replicate and synthesize new viral proteins. Zinc can inhibit this process by depositing on the surface of the virion and inactivating the enzymatic function which is required for the attachment to the host cell, disrupting the surface glycoprotein of the viral membrane so it could not adhere and carry out the next life cycle, it can also inhibit the function of DNA polymerase that works for viral replication in the host cell. This article showed that zinc has effectiveness as an antivirus against the herpes simplex virus, therefore, patients infected with HSV can be treated with zinc as an alternative to an antivirus drug.Copyright © 2022 The Authors. Published by Innovare Academic Sciences Pvt Ltd.
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Introduction: Pulmonary manifestations are typically presented in SARS-CoV2 infection. Some patients can manifest neurological presentations. Some cases of COVID-19 infection were reported with primary presentation of meningitis, meningitis without pulmonary implication and meningoencephalitis. We believed that in some cases primary and only symptoms are neurological manifestations without pulmonary involvement. Method(s): We report a case of 24-year-old man, immunocompetent, with recurrence of COVID-19 infection, who presents with meningitis without pulmonary involvement. Result(s): Our patient reported first COVID-19 infection in October 2021 with only meningitis symptoms. He wasn't vaccinated. Cerebrospinal fluid (CSF) analysis showed lymphocytic pleocytosis. Empiric treatment with Acyclovir was started. Pulmonary X-ray was normal. Antigen test for SARS-CoV2 was negative. The result of PCR test for COVID-19 was positive. In 3 weeks, he recovered from COVID-19 infection with meningitis, he was discharged with negative PCR test for SARS-CoV2. After 2 months he presented similar symptoms of meningitis. CSF analysis showed lymphocytic pleocytosis. Similar to the first case, pulmonary X-ray was normal and Antigen test for COVID-19 was positive. CSF DNA for Herpes simplex virus type I, II, IV, Epstein Bar virus, Cytomegalovirus were negative. It's not clear the cause of this type of the disease evolution. Can it be an implication of different circulating viral strains or is it the same COVID-19 variant? Conclusion(s): We present a case of recurrence of COVID-19 infection with primary manifestation of meningitis, without pulmonary involvement. This case presents the possibility of recurrence of COVID-19 infection with the same first symptoms. Copyright © 2022
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Purpose: Solid organ transplant recipients (SOTR) develop weak antibody responses after SARS-CoV-2 vaccination. Published data on neutralizing activity of plasma, a better measure of protection, in SOTR following an additional dose of SARSCoV- 2 vaccine is limited. Method(s): Plasma was longitudinally collected from SOTR following initial COVID- 19 vaccination. Neutralizing activity against SARS-CoV-2 was assessed using the cPass Neutralization Antibody Detection Kit (GenScript, Biotech). ELISAs were performed against SARS-CoV-2 proteins (S1, N, RBD), CMV (glycoprotein B), Influenza A H1N1 (nucleoprotein), HSV-1, EBV glycoprotein (gp350), and tetanus toxoid for comparison. Result(s): Demographic and clinical characteristics are summarized in table 1. No participants had evidence of COVID-19 infection as IgG titers to SARS-CoV-2 N protein were low. Neutralizing activity against SARS-CoV-2 RBD was observed in 39.6% of individuals (N=21/53) ~93 days after initial vaccination. Participants with neutralizing activity were more likely to have received a liver transplant (47.6% vs 6.25%, p=0.001), and less likely to be on an anti-metabolite (52.4% vs. 87.5%, p=0.009) or triple immunosuppression (14.3% vs. 53.1%, p=0.008). After an additional vaccine dose, 78.1% (N=25/32) of participants developed neutralizing activity with significant increases in viral neutralization (figure 1, median 36.8% [95%CI 18.9-64.6] to 97.2% [95%CI 74.0-98.9], p<0.0001). Participants with low neutralizing activity demonstrated adequate antibody titers to other microbial antigens (figure 2). Conclusion(s): An additional dose of SARS-CoV-2 vaccine increased the number of SOTR with neutralizing activity and the magnitude of the seroresponse. SOTR with low neutralizing activity maintain humoral responses to other microbial antigens suggesting the diminished seroresponse might be related to inhibition of new B cell responses.
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Purpose: To study the clinical application of metagenomic next-generation sequencing (mNGS) in the detection of viral infections in kidney transplant recipients (KTRs) during the COVID-19 pandemic. Method(s): Using mNGS techniques, 50 human fluid samples of KTRs were detected in Henan Province People's Hospital between May 2020 to May 2021, including 20 bronchoalveolar lavage fluid (BALF) samples, 21 urine samples and 9 blood samples. The detected nucleic acid sequences were compared and analyzed with the existing viral nucleic acid sequences in the database, and the virus infection spectrum of KTRs was drawn. Result(s): The viral nucleic acids of 15 types of viruses were detected in 96.00% (48/50) of the samples, of which 11 types of viruses were in BALF (95.00%, 19/20), and the dominant viruses were torque teno virus (TTV) (65.00%;13/20), cytomegalovirus (CMV) (45.00%;9/20) and human alphaherpesvirus 1 (25.00%;5/20). 12 viruses (95.24%, 20/21) were detected in the urine, and the dominant viruses were TTV (52.38%;11/21), JC polyomavirus (52.38%;11/21), BK polyomavirus (42.86%;9/21), CMV (33.33%;7/21) and human betaherpesvirus 6B (28.57%;6/21). 7 viruses were detected in the blood (100.00%, 9/9), and the dominant virus was TTV (100.00%;9/9). Four rare viruses were detected in BALF and urine, including WU polyomavirus, primate bocaparvovirus 1, simian virus 12, and volepox virus. Further analysis showed that TTV infection with high reads indicated a higher risk of acute rejection (P<0.05). Conclusion(s): mNGS detection reveals the rich virus spectrum of infected persons after kidney transplantation, and improves the detection rate of rare viruses. TTV may be a new biomarker for predicting rejection. (Figure Presented).
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SESSION TITLE: Unique Inflammatory and Autoimmune Complications of COVID-19 Infections SESSION TYPE: Rapid Fire Case Reports PRESENTED ON: 10/19/2022 12:45 pm - 1:45 pm INTRODUCTION: Acute eosinophilic pneumonia is a rare illness characterized by eosinophilic infiltration of the lung parenchyma. Cases often present with fever, severe dyspnea, bilateral infiltrates, and eosinophilia on BAL exams. The cause of eosinophilic pneumonia is unknown, but is thought to be related to inhalational exposure of an irritant or toxin. Most cases are responsive to steroid treatment. This case demonstrates acute eosinophilic pneumonia in a patient who recently recovered from COVID-19 pneumonia. CASE PRESENTATION: A 50 year old female with a history of multiple sclerosis, seizure disorder secondary to MS, Irritable Bowel Syndrome, and a distant history of tobacco smoking and opiate dependence on chronic suboxone therapy, presented with dyspnea secondary to respiratory failure. The patient was urged to present by her husband after findings of hypoxia to 79% on room air with cyanosis of the lips and fingers. She recently recovered from COVID-19 1 month prior, at which time she had symptoms of cough productive of red mucus, fever, and exhaustion;but states she never returned to her baseline. With ongoing hypoxia, the patient was intubated for mechanical ventilation. Subsequent bronchoscopy with BAL resulted in a elevated eosinophil count to 76%, with fungal elements and PCR positive for HSV-1. The patient was initiated on high dose glucocorticoid therapy in addition to Acyclovir and Voriconazole. A CT with IV contrast revealed extensive bilateral pulmonary emboli involving the segmental and subsegmental branches throughout both lungs and extension into the right pulmonary artery;the patient was started on anticoagulation. Shortly after beginning glucocorticoid therapy, the patient had significant improvement and was able to be weaned off ventilation to simple nasal cannula. She was able to be safely discharged home with two liters of supplemental oxygen and steroid taper. DISCUSSION: Acute Eosinophilic pneumonia is a rare condition with an unknown acute disease process. The diagnostic criteria for acute eosinophilic pneumonia includes: a duration of febrile illness less than one month, hypoxia with an SpO2 <90%, diffuse pulmonary opacities, and otherwise absence of inciting causes of pulmonary eosinophilia (including asthma, atopic disease, or infection). Diagnosis of eosinophilic pneumonia is attained after meeting clinical criteria with a BAL sample demonstrating an eosinophilia differential of >25%. The mainstay of treatment for this condition is glucocorticoid therapy with most cases resolving rapidly after treatment. CONCLUSIONS: Fewer than 200 cases of acute eosinophilic pneumonia have been reported in medical literature. It is imperative to keep a wide differential as critical illness may be rapidly improved with appropriate therapy. The cause of acute eosinophilic pneumonia is largely unknown, it is unclear what role COVID-19 may have played in the development of this pneumonia. Reference #1: Allen J. Acute eosinophilic pneumonia. Semin Respir Crit Care Med. 2006 Apr;27(2):142-7. doi: 10.1055/s-2006-939517. PMID: 16612765. Reference #2: Nakagome K, Nagata M. Possible Mechanisms of Eosinophil Accumulation in Eosinophilic Pneumonia. Biomolecules. 2020 Apr 21;10(4):638. doi: 10.3390/biom10040638. PMID: 32326200;PMCID: PMC7226607. Reference #3: Yuzo Suzuki, Takafumi Suda, Eosinophilic pneumonia: A review of the previous literature, causes, diagnosis, and management, Allergology International, Volume 68, Issue 4, 2019, Pages 413-419, ISSN 1323-8930 DISCLOSURES: No relevant relationships by Tayler Acton No relevant relationships by Calli Bertschy No relevant relationships by Stewart Caskey No relevant relationships by Shekhar Ghamande No relevant relationships by Tyler Houston No relevant relationships by Zenia Sattar No relevant relationships by Heather Villarreal
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SESSION TITLE: Unique Inflammatory and Autoimmune Complications of COVID-19 Infections SESSION TYPE: Rapid Fire Case Reports PRESENTED ON: 10/19/2022 12:45 pm - 1:45 pm INTRODUCTION: Hemophagocytic Lymphohistiocytosis (HLH) is a rare, life-threatening hyperinflammatory syndrome caused by severe, dysregulated hypercytokinemia. This can be associated with genetic defects or immunologic triggers such as infection, malignancy or autoimmune disorder. The clinical picture consists of multi-organ failure including fever, hepatosplenomegaly, cytopenia,hypertriglyceridemia, hemophagocytosis, high ferritin and IL-2 levels, neurological and liver dysfunction. We present a case of a patient with HLH in the setting of Herpes Simplex Virus (HSV) and SARS-CoV-2 co-infection. CASE PRESENTATION: A 39-year-old male presented to the ER with dyspnea and was found to have COVID-19 pneumonia. He had worsening hypoxemia and was admitted to ICU. He rapidly developed multi-system organ failure (MSOF)including severe hepatitis with AST 13,950 U/L and ALT 10,000 U/L, pancytopenia (Hb 12.9 g/dL, WBC 1.7 K/uL, platelet 15,000 K/uL), acute kidney injury (Cr 6.61 mg/dL), and severe ARDS requiring mechanical ventilation. Abdominal ultrasonography showed splenomegaly. Blood HSV1 DNA PCR was positive with liver biopsy revealing viral inclusions consistent with HSV hepatitis. He had elevated ferritin > 100,000 ug/L and LDH > 2500 U/L. Bone marrow biopsy demonstrated hemophagocytosis and trilineage hematopoiesis. He met 6 of 8 diagnostic criteria for HLH per the HLH-2004 protocol. He received dexamethasone. Risks and benefits of HLH-specific therapy were considered in the setting of liver dysfunction and the decision was made to withhold etoposide and administer anakinra. He died of refractory septic shock and disseminated intravascular coagulopathy. DISCUSSION: Diagnosis of HLH can be challenging due to its rarity and the clinical picture may be initially attributed to sepsis in the presence of infection, as in our patient who had COVID-19 infection and HSV hepatitis. However, a ferritin level >10,000 ng/mL is 90% sensitive and 96 % specific for HLH, with very minimal overlap with sepsis, infections, and liver failure. Additionally, infection is a known trigger of HLH. Despite high mortality without therapy, survival can be significantly increased with HLH-specific therapy, such as etoposide. Treatment with etoposide in the setting of severe liver disease can raise concern because it is metabolized by the liver but it is an essential component of optimal therapy and can be considered in patients with hepatic dysfunction with dose reduction. CONCLUSIONS: Our case highlights the importance of maintaining a high index of suspicion for HLH in critically ill patients with MSOF and liver failure, despite an apparent infectious etiology. This may allow timely diagnosis, early referral to a specialist center and consideration of HLH-specific therapy such as etoposide despite liver dysfunction, to prevent high morbidity and mortality in this potentially fatal disease. Reference #1: Filipovich AH. Hemophagocytic lymphohistiocytosis (HLH) and related disorders. Hematology Am Soc Hematol Educ Program 2009;:127. DISCLOSURES: No relevant relationships by Abdul Khan No relevant relationships by Nehan Sher No relevant relationships by yuttiwat vorakunthada
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SESSION TITLE: Issues After COVID-19 Vaccination Case Posters SESSION TYPE: Case Report Posters PRESENTED ON: 10/19/2022 12:45 pm - 01:45 pm INTRODUCTION: Thymoma-associated autoimmune encephalitis (TAAE) is an understudied and overlooked diagnosis in patients presenting with abrupt altered mental status. Described as inflammation of brain tissue, autoimmune encephalitis is seen in 5-10 cases per 100,000 across all age groups per year. A rare subtype involves neuronal surface antibodies to alpha-amino-3-hydroxyl-5-methyl-4isoxazolepropionic acid receptors (AMPA-R) encephalitis is seen even less commonly. Given the "unicorn” nature of presenting cases and difficulty of diagnosis, prompt identification and treatment are critical as prolonged courses without treatment are irreversible and deadly. CASE PRESENTATION: A 47-year-old male with no past medical history presented 3 days after a Johnson & Johnson coronavirus-2019 (COVID-19) booster vaccine due to worsening acute altered mental status over the past week. He complained of episodes of fever & chills prior to this. The patient's wife reported abrupt changes in memory and personality. Upon admission, the patient had a Glasgow Coma Scale of 4. The patient was intubated and transferred to the intensive care unit. Intravenous (IV) vancomycin, ceftriaxone and acyclovir was initiated for meningitis. Computed tomography (CT) scan of the head without contrast was unremarkable. Magnetic resonance imaging (MRI) showed enhancements of the right anterior and medial temporal lobe suggesting encephalitis. Cerebrospinal fluid analysis (CSF) revealed lymphocytic pleocytosis. A CT scan of the chest, abdomen and pelvis showed an anterior mediastinal mass measured 1.8 x 2.3 cm (Figure 1). FilmArray Meningitis polymerase chain reaction was negative as well as Herpes Simplex Virus (HSV) 1 and 2. Autoimmune encephalitis antibody was positive for Anti-AMPAR. Pulse dose steroids and intravenous immunoglobulin were initiated but failed. Rituximab was initiated and cardiothoracic surgery completed a thymectomy. DISCUSSION: TAAE is a rare disease, permanently debilitating, and deadly if unrecognized or treatment is delayed. Autoimmune encephalitis is an umbrella disease process seen in 0.00005% of patients per year. AMPA-R positive encephalitis is even less commonly seen with only 22 cases reported between the years 2009 and 2014 [1]. A rapidly progressive cognitive decline or psychiatric disorders are early features of this disease.Our patient had prodromal symptoms of fever and cognitive decline days after receiving his COVID-19 booster vaccine. CONCLUSIONS: Post-vaccine encephalomyelitis has been described in other settings[2]. This patient was free of symptoms prior to the COVID-19 vaccine booster, and demonstrated altered mental status hours after receiving it. This furthers the possibility of an association of the COVID-19 booster vaccine, development of encephalitis, and in this case a thymoma. Despite this, conclusions can not be made on the account of one report, but introduces a new area of focus to study. Reference #1: Höftberger, R., van Sonderen, A., Leypoldt, F., Houghton, D., Geschwind, M., Gelfand, J., Paredes, M., Sabater, L., Saiz, A., Titulaer, M. J., Graus, F., & Dalmau, J. (2015). Encephalitis and AMPA receptor antibodies: Novel findings in a case series of 22 patients. Neurology, 84(24), 2403–2412. https://doi.org/10.1212/WNL.0000000000001682 Reference #2: Huynh, W., Cordato, D. J., Kehdi, E., Masters, L. T., & Dedousis, C. (2008). Post-vaccination encephalomyelitis: literature review and illustrative case. Journal of clinical neuroscience : official journal of the Neurosurgical Society of Australasia, 15(12), 1315–1322. https://doi.org/10.1016/j.jocn.2008.05.002 DISCLOSURES: No relevant relationships by Matthew Frank No relevant relationships by Justin Ilagan No relevant relationships by Danielle Mahon No relevant relationships by Danielle Mahon No relevant relationships by Harshini Sahani No relevant relationships by Kameron Tavakolian No relevant relationship by Ndausung Udongwo
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SESSION TITLE: Challenging Cases of Hemophagocytic Lymphohistiocytosis SESSION TYPE: Rapid Fire Case Reports PRESENTED ON: 10/19/2022 12:45 pm - 1:45 pm INTRODUCTION: Worsening respiratory disease is the most common complication of severe COVID-19. However, when patients develop multi-organ dysfunction, clinicians must have a high index of suspicion for rare syndromes such as hemophagocytic lymphohistiocytosis (HLH). CASE PRESENTATION: A 39-year-old male smoker presented with 1 week of shortness of breath and malaise. Initial physical examination revealed T 37.3 C, pulse 85 min-1, respiratory rate 18 breaths min-1, SPO2 96% and clear breath sounds without labored respirations. Chest X-ray showed bilateral patchy airspace opacities in the mid and lower lung fields. A SARS-COV2 PCR test was positive. The patient was prescribed antibiotics and discharged home. Subsequently, the patient's symptoms worsened and he presented 1 week later with SPO2 90% (O2 10 L/min via nasal cannula). He was admitted to the hospital with COVID-19 pneumonia and began remdesivir, barcitinib, systemic steroids, albuterol and IV antibiotics. On admission his complete blood count and complete metabolic panel were unremarkable. After 3 weeks of hospitalization, he developed multi-organ failure with acute liver injury, acute kidney injury, shock, pancytopenia and worsening hypoxemia leading to endotracheal intubation and mechanical ventilation. CT chest imaging showed bilateral ground glass opacities in the lungs with superimposed consolidation (figure 1). Blood cultures remained sterile, HIV, hepatitis B and C viral serologies were negative. Serum viral polymerase chain reaction detected Herpes Simplex Virus-1 (HSV-1) and Epstein Barr Virus (EBV) infections. Trans-jugular liver biopsy confirmed HSV-1 hepatitis and showed sub-massive hemorrhagic necrosis of the liver (figure 2). Bone marrow biopsy demonstrated phagocytic histiocytes engulfing red blood cells and platelets consistent with HLH (figure 3). The patient began HLH targeted therapy with anakinra and high dose steroids. Despite this, the patient continued to deteriorate, developed refractory shock and subsequently expired. DISCUSSION: HLH is a rare disease of the immune system in which a genetic or infectious trigger causes uncontrolled T cell activation. T cell activation triggers macrophage activation, cytokine storm and macrophage phagocytosis of erythrocytes, leukocytes, platelets and precursors in the bone marrow and other tissues. If the syndrome is unrecognized, it can quickly lead to multi-organ failure and death. EBV is the most common infectious trigger of HLH;however, infection with HSV-1 and SARS-COV-2 viruses have been identified as rare and independent causes. CONCLUSIONS: This case illustrates the high index of suspicion providers should have for HLH in patients with severe COVID-19 who develop multi-organ injuries. Once HLH is suspected, prompt initiation of HLH-94 protocol with etoposide and dexamethasone may be lifesaving. For those patients with liver failure, other agents (e.g. anakinra) may be provided. Reference #1: Ramos-Casals M, Brito-Zerón P, López-Guillermo A, et al.: Adult haemophagocytic syndrome. Lancet 2014;383:1503–1516 Reference #2: Risma K, Jordan MB: Hemophagocytic lymphohistiocytosis: updates and evolving concepts. Curr Opin Pediatr 2012;24:9–15 Reference #3: Trottestam H, Horne A, Aricò M, et al.: Chemoimmunotherapy for hemophagocytic lymphohistiocytosis: long-term results of the HLH-94 treatment protocol. Blood 2011;118:4577–4584 DISCLOSURES: No relevant relationships by Erin Biringen No relevant relationships by Christine Brennan No relevant relationships by Joann Hutto No relevant relationships by Daniel Puebla Neira
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SESSION TITLE: COVID-19 Co-Infections SESSION TYPE: Rapid Fire Case Reports PRESENTED ON: 10/19/2022 12:45 pm - 1:45 pm INTRODUCTION: Herpes simplex type 1 (HSV-1) related respiratory tract infections have been described in critically ill or immunocompromised patients. We present a case of HSV-1 pneumonia in a mechanically ventilated and immunocompromised patient in the setting of SARS CoV-2 infection. CASE PRESENTATION: A 54-year-old female on Rituximab for Rheumatoid arthritis presented with shortness of breath and cough. She was afebrile, tachypneic and hypoxic. She was discharged 1 week prior after a 3 weeklong treatment for COVID-19 pneumonia. CT Angiogram showed extensive bilateral patchy consolidations with ground-glass infiltrates and subsegmental pulmonary emboli. Patient was initiated on heparin and broad-spectrum IV antibiotics with steroids for presumed ARDS with superimposed bacterial pneumonia. Her respiratory failure worsened requiring invasive mechanical ventilation. Failing oxygenation despite aggressive therapy prompted further workup that showed a normal echo and negative blood cultures. Sputum was negative for Pneumocystis pneumonia and Tuberculosis. Cytology from tracheal aspirate showed bronchial cells with inclusions and multinucleations consistent with HSV-associated cytopathic changes. A positive serum HSV-1 IgG and serum quantitative PCR of HSV-1 DNA solidified the diagnosis. Ganciclovir therapy was initiated to cover for HSV and Cytomegalovirus (CMV), however, a serum CMV PCR was negative. Within a day, her clinical course took a downward spiral. CT chest was repeated which showed worsening airspace disease. Despite ganciclovir therapy, the severity of lung disease led to eventual failure of oxygenation and patient demise. DISCUSSION: Prolonged mechanical ventilation due to ARDS is a risk factor for HSV bronchopneumonia in patients with COVID-19 and has shown an increased mortality 1,2. Diagnosis can be achieved by viral culture or observing cytopathic effects of HSV on cells in tracheobronchial aspirates, bronchoalveolar lavage, or biopsy3. In critically ill patients early treatment has been shown to prolong the ICU time to death and improved oxygenation4. It is important to test for co-infections as about 65% of HSV pneumonia cases are associated with pathogens like CMV and Pneumocystis5. CONCLUSIONS: Worsening respiratory disease in mechanically ventilated COVID-19 patients despite antibiotic therapy for suspected superimposed bacterial infection warrants a workup for secondary viral infections like HSV. Increased mortality is seen if not promptly treated. Reference #1: 1. Meyer A, Buetti N, Houhou-Fidouh N, et al. HSV-1 reactivation is associated with an increased risk of mortality and pneumonia in critically ill COVID-19 patients. Critical Care. 2021/12/06 2021;25(1):417. doi:10.1186/s13054-021-03843-8 Reference #2: Le Balc'h P, Pinceaux K, Pronier C, Seguin P, Tadié J-M, Reizine F. Herpes simplex virus and cytomegalovirus reactivations among severe COVID-19 patients. Critical Care. 2020/08/28 2020;24(1):530. doi:10.1186/s13054-020-03252-3 Reference #3: Shah JN, Chemaly RF. Herpes Simplex Virus Pneumonia in Patients with Hematologic Malignancies. Pulmonary Involvement in Patients with Hematological Malignancies. 2010:301-311. doi:10.1007/978-3-642-15742-4_24 DISCLOSURES: No relevant relationships by Andrew Cox No relevant relationships by Syeda Hassan No relevant relationships by Maria Khan No relevant relationships by Malik Muhammad Uzair Khan No relevant relationships by Rameesha Mehreen No relevant relationships by Rahat Ahmed Memon No relevant relationships by Ifrah Naeem No relevant relationships by Laura Walters
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Aim and background: COVID-19 pandemic has affected the whole world. Besides COVID, many infections may emerge during the course of the disease. Lymphopenia, use of immunosuppressants underlying comorbidities, and immune dysregulation secondary to SARS-CoV-2 could be the likely cause of the emergence such infections. We hereby describe a case of COVID-19 disease which presented with pancytopenia and was found to have Leptospirosis and Herpes Simplex Virus co-infection. Case summary: A 23-yearold postpartum female with no comorbidities and uneventful obstetric history was referred to our hospital 2 weeks after a full-term normal vaginal delivery. She developed generalized convulsive status epilepticus on the 10th day of her delivery, which was managed elsewhere with anti-epileptic drugs (AEDs). During her hospital stay, RTPCR for COVID-19 turned out to be positive but she remained asymptomatic throughout the course of her illness and seizures remained well-controlled on AEDs. On admission to our hospital, she was fully conscious, alert with no focal neurological deficits. Notable findings on evaluation were pancytopenia with megaloblastic features, bilateral pedal edema, and hepatosplenomegaly. NCCT brain was done which was suggestive of subarachnoid hemorrhage (SAH) along bilateral parietooccipital region for which conservative management was planned. 2D echocardiography was normal. Ultrasonography of abdomen revealed gross splenomegaly and mild hepatomegaly with mesenteric lymphadenopathy. NCCT thorax and abdomen were unremarkable apart from hepatosplenomegaly. In the panel sent for pancytopenia workup, IgM anti-HSV 1 antibodies turned out to be positive in blood. In addition, tropical workup was suggestive of Leptospirosis (IgM antibodies were positive). Workup for tuberculosis was negative. Bone marrow workup revealed features of trilineage hematopoiesis with micronormoblastic maturation consistent with iron deficiency anemia with no evidence of hemophagocytosis. Subsequently, IV acyclovir, IV doxycycline, and iron replacement were added. She improved clinically after these therapies and was subsequently discharged in a stable condition. MRI brain with MR angiography and venography done before discharge showed T1 sulcal hyperintensities along bilateral parietooccipital regions suggestive of SAH which was not progressing (as compared to NCCT brain scan done at admission). On day 60 of telephonic follow-up, patient was doing well and leading normal life without any persistence or emergence of symptoms.
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Aim and background: Cases of thrombotic thrombocytopenia induced by coronavirus disease 2019 (COVID-19) vaccines have been reported recently. Herein, we describe hemophagocytic lymphohistiocytosis (HLH) following COVID-19 vaccination. Case report: A 35-year-old male, chronic alcoholic, 3 years into abstinence received first dose Covishield vaccine. He started developing a fever, testicular pain, diminished sensorium requiring invasive ventilation, and decreased urine output 4 days after getting vaccinated. Initial workup for NCCT brain and HRCT chest was normal, tropical fever panel was negative, cultures for blood and endotracheal aspirate were sterile, liver and renal functions showed mild derangement, CSF study was normal. Ultrasound examination of the abdomen revealed mild hepatosplenomegaly, mild testicular swelling, and suprainguinal lymphadenopathy, with no focus of infection. Subsequently, he developed bicytopenia with haemoglobin 9.0 g/dL and platelet counts 50 × 109/L, ferritin 2130 μg/L, triglyceride 353 mg/dL, and decreased fibrinogen 1.41 g/L. Bone marrow as well as lymph node biopsy showed haemophagocytosis with engulfment of neutrophils, lymphocytes, and normoblasts making HLH a likely diagnosis. Soluble CD25 and NK cell function could not be performed. Extensive evaluation was done to look into the etiology of HLH. SARS-CoV-2 reverse transcriptase-polymerase chain reaction (RT-PCR) test was negative. RT-PCR test for Epstein-Barr virus (EBV), influenza A (H1N1, H3N2), influenza B, cytomegalovirus (CMV) performed from endotracheal aspirate (ETA) was negative. Similarly, the RT-PCR test from serum samples for EBV, Parvo B-19, CMV, and from CSF sample for EBV, Parvo B-19, CMV, and HSV-1 was negative. Hepatitis B, C, and HIV serologies were negative. Culture and sensitivity repeated from blood, ETA and urine was sterile. Autoimmune panel including complements levels were negative. Peripheral smear, bone marrow, and lymph node biopsy were normal and did not reveal abnormal or malignant cells. He had persistent fevers to 38.6°C during the first 6 days of his admission, with a rise in his ferritin to 1950 μg/L. The patient received steroids but not etoposide. By the 8th day, his fevers resolved, with improvement in his lethargy and malaise. Two weeks later, his ferritin had reduced to 510 μg/L, platelet count rose to 180 × 109/L, and repeat ultrasound abdomen demonstrated resolution of his splenomegaly. In our patient, there was no clear precipitant of HLH other than the Covishield vaccine. There was no evidence of an infection or malignancy. Due to our patient's clinical stability, resolution of symptoms, and improvement of HLH parameters he did not require HLH specific therapy. It is unclear if he had a pre-existing genetic predisposition to HLH as genetic testing is pending, however, it is unlikely as he has reached the age of 35 and suffered from previous viral infections without developing HLH.
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Introduction: COVID-19 pandemic has affected the whole world. Besides COVID, other viral infections may emerge during the course of the disease owing to lymphopenia, use of immunosuppressants, underlying comorbidities, and immune dysregulation, which may pose additional threats.1 We hereby describe two cases of COVID- 19 with viral co-infections belonging to the Herpesviridae family with undulating clinical course. Case 1: Cytomegalovirus (CMV) Co-infection: A 55-year-old male, COVID unvaccinated, chronic smoker, overweight and hypertensive was admitted to our ICU with a 1-week history of fever, cough, and breathlessness. SARSCoV- 2 reverse transcriptase-polymerase chain reaction (RT-PCR) test was positive. At admission, he had hypoxaemia (SpO2 86%on room air), respiratory rate 35-40/minute, and ground-glass opacities in chest X-ray involving 50% of bilateral lung parenchyma suggestive of severe COVID-19 pneumonia. He was managed with lung-protective invasive mechanical ventilation, restrictive fluid strategy, 16-18 hour/day proning sessions (4-5), intravenous (IV) remdesivir, IV dexamethasone 6 mg 12 hourly, and enoxaparin thromboprophylaxis. After 2 weeks of ICU stay, weaning was attempted but the weaning attempts failed due to underlying neuromuscular weakness. On examination, bilateral (B/L) cranial nerve palsies, areflexia, and motor power 0/5 in bilateral upper and lower limbs were noticed. possibility of Guillain-Barre syndrome (GBS) was kept and IV immunoglobulin therapy was empirically administered for 5 days with some improvement in power up to 1/5 in upper limbs. On day 35 of hospitalization, he developed pancytopenia along with features of deranged liver function and gut dysfunction. In evaluation, PCR for CMV turned out to be positive in blood. Bone marrow aspiration and biopsy showed hemopoiesis with viral inclusion bodies and hemophagocytosis (HLH) [Figs 1 and 2]. A diagnosis of secondary HLH related to CMV was contemplated and IV ganciclovir was initiated along with steroids. Histological evidence of CMV co-infection was present and moreover, the quantitative viral load of CMV showed a decreasing trend after initiating IV gancyclovir. However, the patient continued to deteriorate and succumbed to his illness in the 8th week of the ICU stay. Case 2: Herpes Simplex Virus (HSV) Co-infection: Twenty-three years postpartum female with no comorbidities and uneventful obstetric history was referred to our hospital two weeks after a full-term normal vaginal delivery. She developed generalized status epilepticus on the 10th day of delivery, which was managed with anti-epileptic drugs (AEDs). During the hospital stay, RTPCR for COVID-19 turned out to be positive but she remained asymptomatic and seizures were well-controlled on AEDs. On admission to our hospital, she was fully conscious and alert with no neurological deficits. Notable findings were pancytopenia with megaloblastic features, B/L pedal edema, and hepatosplenomegaly. NCCT brain revealed mild subarachnoid hemorrhage (SAH) along the bilateral parietooccipital region for which conservative management was planned. 2D echocardiography was normal. Ultrasonography of the abdomen showed gross splenomegaly and mild hepatomegaly with mesenteric lymphadenopathy. NCCT thorax and abdomen were unremarkable apart from hepatosplenomegaly. In pancytopenia workup, IgM anti-HSV-1 antibodies turned out to be positive in blood. In addition, tropical workup was suggestive of Leptospirosis (IgM antibodies positive). Serological evidence was suggestive of acute HSV-1 infection (based on antibody titers). Bone marrow workup had features of trilineage hematopoiesis with micronormoblastic maturation consistent with iron deficiency anemia without any evidence of hemophagocytosis. IV acyclovir, IV doxycycline, and iron replacement were added, after which she improved clinically and was discharged in stable condition. Tables 1 and 2 show a detailed description of these cases. Discussion: Herpesviridae family is the most important group of viruses responsible for persistent vi al infections in humans, of which CMV contributes to 60-90% of infections in adults, especially in developing countries.2 In healthy individuals, these viruses are kept dormant by the body's immune mechanisms but in an immunocompromised population, reactivation from the latent state can occur. SARS-CoV-2 infection predisposes patients to concomitant viral co-infections, owing to T-cell lymphopenia, decreased NK cell number, and use of immunosuppressive medications.3,4 The first case of CMV co-infection was first reported by D'Ardes and co-workers in 2020.5 Since then, many studies have been emerging in this area. In an observational study from France, 38 COVID-19 patients on >7 days of MV were studied for HSV and CMV pulmonary co-infections (by quantitative real-time PCR in tracheal samples) out of which 47% of patients had one of these infections (24% HSV, 5% CMV, 18% both).6 Another study looking for HSV-1 in patients on invasive MV found HSV-1 reactivation between days 11 and 40, which correlated with immunological markers of decreased innate immunity.7 A case series looking for CMV infection (by PCR in plasma or BAL) in COVID-19, also found CMV reactivation between day 7 and 45 of illness. Most of these patients were above 60 years of age and immunosuppressed (HIV, diabetes mellitus, medications).8 Although immunocompromised individuals are more vulnerable, healthy immunocompetent adults who are critically ill or on prolonged MV may also be susceptible to these infections.9-12 This may be explained by a state of immunoparalysis inherent to prolonged critical illness. In case 1, an ICU stay of around 9 weeks complicated with recurrent nosocomial infections, multiple blood product transfusions, and steroid usage could have the likely triggers. Whether viral co-infections are merely bystanders or truly pathogenic is difficult to comment but timely management is essential to avoid end-organ damage (EOD) which may occur directly (by enhanced viral load secondary to compromised host immunity) or indirectly (by inflammatory changes consequent to prolonged cell-mediated immunity required to maintain viral dormancy).2-4,13 It also seems imperative to study if a viral co-infection has a proclivity to develop more severe hematological anomalies (besides the inherent risk of HLH with COVID) as was seen in case 1, in which the patient had a downward spiral of illness with multiorgan dysfunction.14-15 Limitations: Dynamics of PCR trends and virology studies of samples from trachea, gut, and urine could not be analysed in our patients. Conclusion: Viral co-infections can occur in COVID-19 disease as these patients are often immunocompromised and critically ill. A high index of suspicion and prompt management is needed to improve the outcome of patients. Patients with organ dysfunctions especially hematologic abnormalities with bone marrow involvement should be worked up in detail to look for concomitant viral co-infections. In the future, large-scale research is needed to better elucidate the relationship between SARS-CoV-2 and other viral co-infections.
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CASE: A 22-year-old woman with h/o asthma initially presented to the hospital with lip swelling and sore throat. She tested positive for COVID-19 and received a casirivimab-imdevimab (monoclonal antibody) infusion. She returned a week later with worsening lip swelling, dysphagia and conjunctivitis. Physical exam revealed edematous lips with vesicular lesions, no tongue swelling, tonsillar exudate, 4+ conjunctival injection bilaterally with purulent discharge, and shallow clean based clitoral ulceration. She reports no history of allergic reactions, angioedema or exposure to new medications. Nasopharyngolaryngoscopy showed no laryngeal edema but visualized exudates throughout the supraglottis and glottis. C4, ANA, CMV, EBV, throat and blood cultures were negative. STI testing was trichomonas positive and gonorrhea/chlamydia negative. Respiratory virus panel remained positive for COVID-19. HSV swab of lip lesion, HSV 1/2 IgG and IgM were negative. Mycoplasma pneumoniae IgG was elevated (0.60, negative is ≤0.09), IgM equivocal (0.85, negative is ≤0.76), and nasopharyngeal PCR negative. Conjunctival culture showed rare bacteria (S. Aureus) and no leukocytes. She initially received methylprednisolone IV due to concern for angioedema, acyclovir for empiric HSV treatment and empiric antibacterial moxifloxacin eye drops. Given lack of infectious trigger, her presentation was concerning for reactive infectious mucocutaneous eruption (RIME) associated with SARSCoV-2 or Mycoplasma. Prednisone 1mg/kg daily was initiated followed by improvement in oral mucositis and conjunctivitis within days. IMPACT/DISCUSSION: A broad differential is important when evaluating oral swelling and mucositis. Her lack of cutaneous involvement, medication exposure or family history and negative infectious, autoimmune and inflammatory workup make other causes including Stevens-Johnson syndrome, erythema multiforme, angioedema, and HSV less likely. Our final diagnosis of RIME describes mucocutaneous eruptions likely due to an immune response triggered by bacterial or viral infection. Our patient's RIME may be due to COVID-19 or Mycoplasma given her equivocal Mycoplasma IgM. Eruptions generally involve two or more mucosal sites and occur mostly in children and adolescents. Common presentations include oral erosions and ulcers, purulent bilateral conjunctivitis, or urogenital lesions, which were all seen in our patient. As this is a relatively rare and new condition, no standard of care treatment exists for RIME but systemic steroids have been effective in case reports for initial treatment and subsequent flares. CONCLUSION: RIME is a rare, newly described condition in young patients who develop postinfectious mucocutaneous eruptions of two or more mucosal sites. It has been recently reported in association with COVID-19 and its association with Mycoplasma infection is important to evaluate. This condition is important to recognize and treat given the requirement for higher dose steroids than that used for angioedema.