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Background/Aims Myasthenia gravis (MG) is an antibody-mediated autoimmune disease targeting proteins at the postsynaptic membrane of the neuromuscular junction. MG is thought to occur in genetically susceptible individuals following an environmental trigger. SARS-CoV-2 infection has been associated with new-onset autoimmune disease, new-onset MG, and exacerbations of pre-existing MG, with molecular mimicry between SARS-CoV-2 epitopes and autoantigen-induced autoreactivity thought to be part of the underlying mechanism. We report a case of newonset ocular MG following first dose Pfizer-BioNTech BNT162b2 SARS-COV2 vaccination which was referred to rheumatology as suspected mononeuritis multiplex. Methods A 53-year-old man of East Asian ethnicity presented to the emergency department (ED) with sudden onset diplopia and left lateral gaze restriction 7 days after receiving his first dose of the Pfizer-BioNTech BNT162b2 SARS-COV2 vaccination. He had longstanding myopia and dry eyes but no other medical history, no regular medications or significant family history. He was a current smoker, with a 50-pack year history. He did not drink alcohol or use any recreational drugs. He was found to have an isolated left VI cranial nerve (CN) palsy with an otherwise normal ocular and physical examination. Blood tests were unremarkable apart from raised cholesterol, and he was discharged with a suspected self-limiting microvascular CN lesion. Three weeks later he presented to ED with worsening diplopia, increasingly restricted eye movements, headache, nausea, vomiting and blurred vision. Ophthalmology assessment noted new right sided CN III and VI palsy, persistent left CN VI palsy, and vertical diplopia in all fields of gaze. Neurological and physical examination were normal. Bloods including an autoimmune screen were unremarkable. SARS-CoV-2 Spike antibodies were positive consistent with SARS-CoV-2 vaccination but not infection. Intracranial and thoracic imaging were unremarkable. He was referred to and seen by both rheumatology and neurology as a case of suspected mononeuritis multiplex. Results A diagnosis of ocular MG was confirmed with positive serum acetylcholine receptor antibodies, and he was started on prednisolone, and pyridostigmine to good effect. Daily forced vital capacity (FVC) showed no respiratory muscle involvement, and nerve conduction studies and electromyography were normal, excluding secondary generalisation. Conclusion A review of the literature found 14 reported cases of new-onset MG all within 4 weeks following SARS-CoV-2 vaccine. Whilst these cases provide interesting insights into the pathogenesis of autoimmune conditions such as MG, they are not epidemiological studies to inform vaccine safety. Ultimately, current evidence suggests that the risks of SARS-COV-2 infection outweigh the risk of vaccine-related adverse events, therefore we suggest clinicians should be aware of potential new-onset autoimmune conditions, but support the safety of SARSCOV2 vaccination. Further, research into possible immunological mechanisms behind this phenomenon, including identifying potential epitopes inducing molecular mimicry, could help establish the likelihood of a causative link.
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Introduction: Hyperthyroidism is known to increase catabolism of vitamin-K-dependent clotting factors (II, VII, IX, X) and increase the response of vitamin K antagonists, usually warfarin. Primary biliary cirrhosis (PBC) has been associated with thyroid dysfunction (TD), especially with autoimmune thyroid disease. In the below case, a patient with known PBC on warfarin is found to have severely elevated INR related to new-onset hyperthyroidism with clinical consequences of hemorrhage including upper GI bleed. Case Description/Methods: A 64-year-old female with PBC and antiphospholipid antibody syndrome on warfarin was admitted for hemorrhagic epiglottitis requiring emergency intubation and supratherapeutic INR. Her PBC was diagnosed as stage II on biopsy 23 years ago and has remained clinically stable on ursodiol therapy. On presentation, the patient was tachycardic, tachypneic, and had O2 saturations <90% on HFNC prior to intubation. Physical exam significant for larger goiter with diffuse upper airway swelling. She was admitted and found to have COVID-19 infection, INR .16.0 and PT>200.0 (limit of lab), WBC of 22.8, and lactate of 2.5. LFTs WNL aside from albumin of 2.0. TSH was <0.0017 (limit of lab) and free T4 of 3.4, free T3 of 5.3. TSH receptor antibody (TRAB) and thyroid stimulating immunoglobulin (TSI) levels were normal. Her last TSH was normal a year ago. CTA chest found a 5.7cm heterogeneous, partially calcified superior mediastinal mass consistent with multinodular thyroid goiter. Patient was initially given prothrombin complex concentrate and vitamin K with correction of INR over the following few days. She was extubated and started on methimazole. During the hospital course, she was found to have coffee ground emesis for which an EGD was done with findings of non-bleeding gastric ulcer (Forrest Class IIc) and LA Grade D esophagitis with adherent clot and bleeding for which hemostatic spray was applied. Patient was discharged a few days later following resumption of warfarin and on pantoprazole and methimazole. Discussion(s): The above case demonstrates a rare case of PBC and new-onset hyperthyroidism due to multinodular thyroid goiter causing significantly elevated INR in the setting of warfarin use with hospital course complicated by GI bleed. PBC is associated with TD - hyperthyroidism, hypothyroidism, and thyroid cancer. Hyperthyroidism is less commonly associated with PBC compared to other TDs but should be considered especially with a finding of elevated INR.
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Introduction: Subacute thyroiditis is a self-limiting post-viral inflammatory disorder occurring in 3 phases (hyper-, hypo-, and euthyroidism) Post-vaccine thyroiditis has also been reported, but is rare. Case Description: A 36-year-old Emirati female presented to our clinic with generalized fatigue, mild to moderate vague neck pain, intermittent palpitations, and loss of appetite 2 weeks after receiving her first dose of Pfizer-BioNTech mRNA vaccine against COVID-19. Clinical examination findings and laboratory test results were consistent with subacute thyroiditis. Patient is a mother of 5 healthy children, youngest is breast-fed infant (11 months old). There was no history suggestive of postpartum thyroiditis and no family history of thyroid dysfunction. Physical examination at initial visit showed mild tachycardia, and a normal blood pressure. She weighed 66 kg. Thyroid function tests revealed a suppressed TSH of 0.011 muIU/mL, high Free T4 of >100 pmol/l), and Free T3 FT3 of 29.6 pmol/L. Both TSH receptor antibodies, and Thyroid antibodies (TPO) were negative. Thyroid scintigraphy showed decreased uptake in both lobes. Thyroid ultrasound showed hypoechoic heterogeneous echotexture of the thyroid gland with vascular conglomerate and micro-calcification, along with normal sized reactive lymph nodes at sternal angle. Symptoms aggravated through the next week;patient dropped 3kg of her body weight and her palpitations increased, with a recorded resting heart rate between 120-130 beats/min. TSH decreased to 0.001muIU/mL while FT4 remained high, with an improvement to 90 pmol/L. Subsequently, the patient started to regain weight. Palpitations improved within a month. She developed a biochemically hypothyroid picture followed by clinical and biochemical euthyroidism after one more month. Second dose of the vaccine was uneventful. Last evaluation was 10 months later;TSH, FT3 and FT4 were all in normal range, acute-phase reactants were completely normal and in complete remission. Discussion(s): The exact mechanism for post-vaccination subacute thyroiditis remains unknown, vaccine adjuvants may induce diverse autoimmune and inflammatory reaction. Subacute thyroiditis has rarely been reported with other COVID-19 vaccines contains no Polyethylene glycol (PEG). A possible cross-reactivity between thyroid cell antigens and spike protein of the coronavirus produced by mRNA vaccines might be responsible. Further research is needed to investigate the incidence of subacute thyroiditis in COVID-19 pandemic days.Copyright © 2023
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Introduction: Silent autoimmune thyroiditis, a type of chronic autoimmune thyroiditis, as an adverse effect of Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccination is infrequently reported in the literature. We hereby describe a case of silent thyroiditis followed by Grave's orbitopathy after vaccination against SARS-CoV2. Case Description: An 84-year-old male presented to clinic with a 10-pound weight loss with no other symptoms of hyperthyroidism, no personal history of thyroid illnesses, or recent viral infections. He had normal thyroid function 3 months prior to presentation. He had received 3 doses of SARS-CoV2 Pfizer-BioNTech vaccine with the last dose 5 months prior to presentation. Thyroid exam was normal. Laboratory testing revealed thyroid stimulating hormone (TSH) level of 0.005 IU/ml (0.45-4.5 IU/ml), total T4 14.4 g/dl (4.5-12.1 g/dl), and total T3 1.22 nmol/l (0.6-1.81 nmol/l). Thyroid Ultrasound revealed a heterogeneous atrophic thyroid gland with no nodules or hypervascularity. He was started on Methimazole by primary care provider. Four months later, he was seen in the Endocrinology clinic and reported no hyperthyroidism symptoms. His TSH level at that time was 65.9 IU/ml, free T4 0.47 ng/dl (normal: 0.82-1.77 ng/dl), total T3 level 75 ng/dl (normal: 71-180 ng/dl), thyroid stimulating immunoglobulin 2.05 IU/l (0-0.55 IU/L), thyrotropin receptor antibody level 2.8 (0-1.75). Methimazole was discontinued. At 6 months after initial presentation laboratory testing showed TSH 5.010 IU/ml, free T4 1.2 ng/dl, thyroid peroxidase antibody of 148 IU/ml (normal 0-34 IU/ml), thyroglobulin antibody 131.6 IU/ml (normal 0.0-0.9 IU/ml). He was diagnosed with silent autoimmune thyroiditis. A few weeks later, the patient presented to an ophthalmologist with bilateral eye bulging and impaired vision. He was diagnosed with acute Graves' orbitopathy and started on pulse-dose of intravenous Methylprednisolone 250 mg twice daily and urgently referred to a tertiary ophthalmology center for teprotumumab infusion. His thyroid function tests were normal at that time on no thyroid medications. Discussion(s): The underlying mechanisms of thyroid impairment following SARS-CoV2 vaccination are not completely understood. There is a role of molecular mimicry between SARS-CoV2 antigens and thyroid antigens that may help to hasten the emergence of autoimmunity in vulnerable individuals. Our patient developed multiple thyroid-related antibodies following vaccination. Silent painless thyroiditis is a self-limiting condition, characterized by temporary thyrotoxicosis, followed by a brief period of hypothyroidism and then a complete return to normal thyroid function. A radioactive iodine uptake scan can help differentiate between the different causes of thyrotoxicosis in the acute thyrotoxic phase. Development of severe Graves orbitopathy following silent autoimmune thyroiditis after SARS COV2 vaccination has not been previously reported.Copyright © 2023
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Introduction: Subacute thyroiditis and autoimmune thyroiditis are known complications of COVID-19 infection. With the development of SARS-CoV-2 vaccine, new cases of thyroiditis following vaccination have been reported. In accordance, we report on a series of patients who present with hyperthyroidism, elevated TSH receptor activating antibodies, concerning for activation of Graves disease after receiving SARS-Cov-2 messenger RNA (mRNA) vaccine. This association underpins the possible immune modulation affecting the presentation of autoimmune thyroiditis post vaccination. Case Description: We describe four patients who present with symptoms of hyperthyroidism after receiving SARS-CoV-2 mRNA vaccine. All were females, median age 49 (range 44-59). Two patients presented with de novo hyperthyroidism 25-29 days following SARS-CoV-2 mRNA vaccine. Two patients have previously had diagnosed Graves disease in remission for longer than 3 years and presented after 40-60 days after receiving SARS-CoV-2 mRNA vaccine. All four patients had TSH receptor antibodies positive (range 6.21-11.87IU/L) Discussion: Although vaccines are one of the most successful medical advances clarifying associated conditions and risks is of interest to practicing physicians. It is not known if these 4 cases of Graves disease were diagnosed coincidentally following SARS-CoV-2 vaccine and association between this vaccine and autoimmune manifestations remains to be further investigated. This report adds information to current knowledge and understanding of autoimmune manifestations following SARS-CoV-2 vaccine.Copyright © 2023
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Since the outbreak of the novel coronavirus (SARS-CoV-2) disease COVID-19 (also known as 2019-nCoV) caused by SARS-CoV-2 in the end of 2019, it has spread rapidly in worldwide. Besides developing effective vaccines, it is urgent to develop safe and effective anti-SARS-CoV-2 drugs to fight this disease. Paxlovid, molnupiravir, sotrovimab and bebtelovimab are urgently authorized by FDA have been proved to be effective against Omicron. This manuscript mainly reviews the recent progress of effective inhibitors against the virus in the world, including receptor inhibitors, antibodies, natural product inhibitors, synthetic inhibitors and broad-spectrum antiviral drugs that are effective against other RNA viruses. © 2023, Chinese Pharmaceutical Association. All rights reserved.
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Background: Myasthenia gravis (MG) is an autoimmune disease of unknown etiology. Infections are known as a major cause of MG exacerbations. A few studies have shown an association between new onset MG and SARS-CoV-2 infection. Case presentation: We have reported a case of new onset myasthenia gravis in a 68-year-old man presented with bulbar symptoms a few days after receiving COVID-19 vaccine (Sinopharm vaccine). The disease was confirmed by high titer of antibody against acetylcholine receptor and electrophysiological examinations. Conclusion(s): Among the adverse effects reported with the COVID-19 vaccine, new onset myasthenia gravis is very rare. The underlying mechanism is unknown but the immune response after vaccination and molecular mimicry theory has been proposed.Copyright © 2022
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A 40-year-old Japanese woman presented to the outpatient clinic with fever and palpitations 2 days after receiving the influenza vaccine (Influenza HA Vaccine 'KMB') following the second dose of coronavirus disease 2019 (COVID-19) vaccine (COVID-19 vaccine Moderna intramuscular injection). At the first visit, the patient presented with a swollen thyroid gland with mild tenderness, and she was diagnosed with subacute thyroiditis (SAT) based on the presence of thyrotoxicosis (free T3: 5.42 pg/mL;free T4: 2.34 ng/dL;and thyroid-stimulating hormone (TSH): <0.01 muIU/mL), a high C-reactive protein level (5.77 mg/dL), a negative TSH receptor antibody, and characteristic ultrasound findings. The patient's human leukocyte antigen types were A2, A11, B35, B51, DR4, and DR1403. Prednisolone (15 mg/day) was given as an initial dose, after which the fever subsided, and the dose was tapered and discontinued after 6 weeks. The patient was thought to have developed SAT due to influenza vaccination. SAT after influenza vaccination may be overlooked. For patients with SAT, it is necessary to obtain information regarding their vaccination history.Copyright © 2023 The authors.
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Ocular myasthenia gravis (OMG) is a neuromuscular disease characterized by autoantibody production against post-synaptic proteins in the neuromuscular junction. The pathophysiological auto-immune mechanisms of myasthenia are diverse, and this is governed primarily by the type of autoantibody production. The diagnosis of OMG relies mainly on clinical assessment, the use of serological antibody assays for acetylcholine receptors (AchR), muscle-specific tyrosine kinase (MusK), and low-density lipoprotein 4 (LPR4). Other autoantibodies against post-synaptic proteins, such as cortactin and agrin, have been detected; however, their diagnostic value and pathogenic effect are not yet clearly defined. Clinical tests such as the ice test and electrophysiologic tests, particularly single-fiber electromyography, have a valuable role in diagnosis. The treatment of OMG is primarily through cholinesterase inhibitors (pyridostigmine), and steroids are frequently required in cases of ophthalmoplegia. Other immunosuppressive therapies include antimetabolites (azathioprine, mycophenolate mofetil, methotrexate) and biological agents such as B-cell depleting agents (Rituximab) and complement inhibitors (eculizumab). Evidence is scarce on the effect of immunosuppressive therapy on altering the natural course of OMG. Clinicians must be vigilant of a myasthenic syndrome in patients using immune-check inhibitors. Reliable and consistent biomarkers are required to assess disease severity and response to therapy to optimize the management of OMG. The purpose of this review is to summarize the current trends and the latest developments in diagnosing and treating OMG.
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Since the outbreak of the novel coronavirus (SARS-CoV-2) disease COVID-19 (also known as 2019-nCoV) caused by SARS-CoV-2 in the end of 2019, it has spread rapidly in worldwide. Besides developing effective vaccines, it is urgent to develop safe and effective anti-SARS-CoV-2 drugs to fight this disease. Paxlovid, molnupiravir, sotrovimab and bebtelovimab are urgently authorized by FDA have been proved to be effective against Omicron. This manuscript mainly reviews the recent progress of effective inhibitors against the virus in the world, including receptor inhibitors, antibodies, natural product inhibitors, synthetic inhibitors and broad-spectrum antiviral drugs that are effective against other RNA viruses.
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Since the outbreak of the novel coronavirus (SARS-CoV-2) disease COVID-19 (also known as 2019-nCoV) caused by SARS-CoV-2 in the end of 2019, it has spread rapidly in worldwide. Besides developing effective vaccines, it is urgent to develop safe and effective anti-SARS-CoV-2 drugs to fight this disease. Paxlovid, molnupiravir, sotrovimab and bebtelovimab are urgently authorized by FDA have been proved to be effective against Omicron. This manuscript mainly reviews the recent progress of effective inhibitors against the virus in the world, including receptor inhibitors, antibodies, natural product inhibitors, synthetic inhibitors and broad-spectrum antiviral drugs that are effective against other RNA viruses. © 2023, Chinese Pharmaceutical Association. All rights reserved.
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Objectives: Graves' disease (GD) has been highlighted as a possible adverse effect of the respiratory syndrome coronavirus-2 (SARS-CoV-2) vaccine. However, it is unknown if the SARS-CoV-2 vaccine disrupts thyroid autoimmunity. We aimed to present long-term follow-up of thyroid autoimmunity after the SARS-CoV-2 BNT162b2 mRNA vaccine. Methods: Serum samples collected from seventy Japanese healthcare workers at baseline, 32 weeks after the second dose (pre-third dose), and 4 weeks after the third dose of the vaccine were analyzed. The time courses of anti-SARS-CoV-2 spike immunoglobulin G (IgG) antibody, thyroid-stimulating hormone receptor antibody (TRAb), and thyroid function were evaluated. Anti-thyroglobulin antibodies (TgAb) and anti-thyroid peroxidase antibodies (TPOAb) were additionally evaluated in thirty-three participants. Results: The median age was 50 (IQR, 38-54) years and 69% were female. The median anti-spike IgG antibody titer was 17627 (IQR, 10898-24175) U/mL 4 weeks after the third dose. The mean TRAb was significantly increased from 0.81 (SD, 0.05) IU/L at baseline to 0.97 (SD, 0.30) IU/L 4 weeks after the third dose without functional changes. An increase in TRAb was positively associated with female sex (ß = 0.32, P = 0.008) and low basal FT4 (ß = -0.29, P = 0.02) and FT3 (ß = -0.33, P = 0.004). TgAb was increased by the third dose. Increase in TgAb was associated with history of the thyroid diseases (ß = 0.55, P <0.001). Conclusions: SARS-CoV-2 BNT162b2 mRNA vaccine can disrupt thyroid autoimmunity. Clinicians should consider the possibility that the SARS-CoV-2 vaccine may disrupt thyroid autoimmunity.
Subject(s)
COVID-19 , Graves Disease , Female , Humans , Middle Aged , Male , COVID-19 Vaccines/adverse effects , BNT162 Vaccine , Follow-Up Studies , Autoimmunity , COVID-19/prevention & control , SARS-CoV-2 , Thyrotropin , Antibodies, ViralABSTRACT
Case Report: A 4-year-old African American male presented to an outside emergency department (ED) following sudden inability to move left upper extremity. Past medical history was unremarkable and routine vaccinations were up to date. Radiograph of affected extremity ruled out fractures and patient was discharged to follow up with primary care physician. Two days later mother brought him to our ED due to persistent left upper extremity paralysis, poor appetite, and subjective fever. On exam his left arm was warm and tender to dull and sharp touch;he had definite loss of active movement, hypotonia and absence of deep tendon reflexes. The patient had winging of left scapula and could not shrug left shoulder. MRI of cervical and thoracic spine showed enlargement of spinal cord from C2-C6 level with gray matter hyperintensity, slightly asymmetric to the left. Laboratory studies showed leukocytosis (14 000/mcL) and CSF studies showed pleocytosis of 89 WBC/mcL (93.3% mononuclear cells and 6.7% polymorphonuclear cells), 0 RBCs, normal glucose and protein, and a negative CSF meningoencephalitis multiplex PCR panel. Due to high suspicion of demyelinating or autoimmune condition he was treated with high dose steroids and IVIG. Subsequently neuromyelitis optica was ruled out as aquaporin-4 receptor antibodies (AB) and myelin oligodendrocyte glycoprotein AB were normal. CSF myelin basic protein and oligoclonal bands were absent ruling out demyelinating disorders. CSF arboviruses IgM and West Nile IgM were negative. He showed minimal improvement in left upper extremity movement but repeat spinal cord MRI one week later showed improved cord thickness with less hyperintensity. Respiratory multiplex PCR was negative including enteroviruses. Repeat CSF studies after IVIG showed increased IgG index and IgG synthesis suggestive of recent spinal cord infection, consistent with acute flaccid myelitis (AFM). Pre-IVIG blood PCR was invalid for enteroviruses due to PCR inhibitors found in the sample. Blood post-IVIG was negative for mycoplasma IgM, West Nile IgM, and arboviruses IgM. Enterovirus panel titers (post-IVIG) were positive for coxsackie A (1:32), coxsackie B type 4 (1:80) and 5 (1:320), echovirus type 11 (1:160) and 30 (1:80) as well as positive for poliovirus type 1 and 3. These titers could not distinguish acute infection from patient's immunity or false-positives as a result of IVIG. He was discharged with outpatient follow-up visits with neurology, infectious disease, occupational and physical therapy, showing only mild improvement after discharge. Discussion(s):With the anticipated resurgence of AFM after the peak of COVID-19 pandemic, our case illustrates the need to consider this diagnostic possibility in patients with flaccid paralysis. It is important to remember CSF IgG synthesis is not affected by IVIG. In addition when treatment plans include IVIG, appropriate samples should be collected before IVIG to facilitate accurate work-up for infectious diseases. Copyright © 2023 Southern Society for Clinical Investigation.
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Myasthenia gravis (MG) is an autoimmune disorder affecting the neuromuscular junction caused by a B-cell-mediated, T-cell-dependent immunologic attack at the end plate of the postsynaptic membrane. Attack on muscle acetylcholine receptors (AChR) of the postsynaptic membrane due to the AChR, muscle-specific tyrosine kinase, or lipoprotein receptor-related peptide 4 antibodies lead to symptoms of painless, fluctuating weakness of muscle groups and often begins with ocular signs and symptoms. Coronavirus disease 2019 (COVID-19) is an acute respiratory disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a novel coronavirus closely related to SARS-CoV. Serious neurologic complications are infrequent and diverse with reported cases of stroke, encephalitis/meningitis, Guillain-Barré syndrome, acute disseminated encephalomyelitis, ataxia, and unspecified limb weakness. MG is a rarely reported sequela of COVID-19 infection. To date, there are 15 reported cases of post-COVID-19 MG. In this article, we present a case of post-COVID-19 MG and a concise review of other reported cases. An 83-year-old Caucasian male with a medical history of atrial fibrillation status post-ablation and non-ischemic cardiomyopathy was initially admitted for COVID-19 pneumonia. He was treated with remdesivir, convalescent plasma, and supplemental oxygen therapy but did not require invasive mechanical intubation. One month after discharge, he started experiencing fatigue with muscle weakness and progressive dyspnea. He progressed to develop dysphonia, especially at the end of the day. After extensive workup, he was diagnosed with MG with a positive antibody against the AChR. The chronological events of developing slowly worsening muscular weakness after recovering from COVID-19 infection and positive AChR antibody led to the diagnosis of post-COVID-19 new-onset MG. Post-COVID-19 fatigue, long-term use of steroids, and intensive care unit-related physical deconditioning can be confounders in the clinical presentation of post-COVID-19 new-onset MG. Careful history-taking and meticulous assessment of chronological events are needed to diagnose this rare entity.
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SESSION TITLE: Drug-Induced and Associated Critical Care Cases Posters 1 SESSION TYPE: Case Report Posters PRESENTED ON: 10/19/2022 12:45 pm - 01:45 pm INTRODUCTION: Interstitial pneumonitis (ILD) is inflammation of lung interstitium leading to scarring and pulmonary fibrosis. Various etiologies include idiopathic, connective tissue disorders, sarcoidosis and drug induced1. Many chemotherapy agents have been implicated in drug related ILD such as bleomycin, taxanes. However, newer chemotherapeutic drugs such as molecular agents such as anti-VEGF, anti-EGFR (panitumumab) could be causative of drug induced ILD. CASE PRESENTATION: A 75-year-old female with stage IV sigmoid colon cancer treated with surgery, adjuvant FOLFOX chemotherapy and Panitumumab. She presented to the emergency department with shortness of breath and hypoxia after known COVID-19 exposure. Initial imaging with chest radiography showed bilateral ground glass opacities. A chest CT pulmonary embolism protocol was negative for pulmonary embolism but showed bilateral ground glass opacities (GGOs) and some interstitial thickening (L>R) not typical of COVID-19 infection. She was treated with remdesivir and dexamethasone, however her oxygen requirements continued to rapidly escalate. A repeat CT chest without contrast showed bilateral asymmetric interstitial thickening and GGOs. Given persistence of CT chest abnormalities, workup for interstitial lung disease was initiated. The results include ANA titer 1:80, otherwise negative ANCA profile, rheumatoid factor, anti-CCP, Scl-70, Sjogren antibodies. Given clinical history and imaging findings, diagnosis of ILD was suspected, and she was started on solumedrol 1 mg/kg. Her oxygen requirements decreased significantly over the next 2 days, and she was discharged home on oral steroid taper and pneumocystis pneumonia prophylaxis. DISCUSSION: Panitumumab is a fully humanized monoclonal antibody against EGFR. Approved by the US Food and Drug Administration in 2006 for advanced or recurrent colorectal cancer exhibiting wild-type KRAS mutation.2 ILD is rarely reported with panitumumab monotherapy, but higher incidence when used as a combination treatment such as with FOLFOX or FOLFIRI. A Japanese post-marketing surveillance study from 2010-2015 showed an ILD incidence of 1.3% but mortality rates of 51.3%.2 EGFR is expressed on basal cells and non-cilia cells of the bronchioles and type II cells of the alveolus. EGFR mediated mechanisms are important in tissue repair.3 Therefore inhibition of this pathway has been postulated to play a role in development of ILD. Another mechanism was decreased surfactant production by type II cells in pre-clinical study.4,5 ILD secondary to Panitumumab can occur at any point during therapy and up to 1 year after administration of drug.6 The role of infectious processes, in this case, COVID-19 pneumonia, could synergistically worsen ILD presentation. CONCLUSIONS: Although the incidence of ILD is low, the mortality rate is high, therefore early recognition and treatment is associated with improved clinical outcomes. Reference #1: Mudawi D, Heyes K, Hastings R, Rivera-Ortega P, Chaudhuri N. An update on interstitial lung disease. Br J Hosp Med (Lond). Jul 2 2021;82(7):1-14. Reference #2: Osawa M, Kudoh S, Sakai F, et al. Clinical features and risk factors of panitumumab-induced interstitial lung disease: a postmarketing all-case surveillance study. Int J Clin Oncol. Dec 2015;20(6):1063-1071. Reference #3: The FASEB Journal - 2000 - Puddicombe - Involvement of the epidermal growth factor receptor in epithelial repair in asthma.pdf. DISCLOSURES: No relevant relationships by Navitha Ramesh No relevant relationships by Uba Udeh
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Introduction The relationship between autoimmunity and SARS-CoV-2 vaccine has explained how thyroid dysfunction developed following vaccination but the onset of thyroid eye disease (TED) is scarcely described. We report a case of Graves' disease (GD) who developed TED after three weeks of BNT162B2 SARS-CoV-2 vaccine (Pfizer-BioNTech) injection. CASE A 54-year-old non-smoking male presented with newonset bilateral eyes redness, proptosis, and diplopia three weeks after receiving the second dose of mRNA BNT162B2 SARS-CoV-2 vaccine. He was diagnosed with GD without TED in 2003 and underwent radioactive iodine ablation in 2020. He subsequently developed hypothyroidism and was started on levothyroxine with stable thyroid function test throughout clinic visits. There were no recent stressful events including COVID-19 infection. On examination, he has bilateral exophthalmos, chemosis, conjunctival injection, swollen eyelids and caruncles, with intact vision. Blood tests revealed normal TSH, free T4, and T3, but elevated TSH-receptor antibodies of 3.60 IU/L (<1.75) and antithyroid peroxidase (TPO) antibodies of >600 IU/ml (0-34). MRI orbit showed bilateral extraocular muscle enlargement and proptosis. Intravenous methylprednisolone was given weekly for 12 weeks. There was significant improvement concerning congestive symptoms and diplopia after the third dose of methylprednisolone. Thyroid eye disease is the extrathyroidal manifestation of GD resulting from the autoimmune and inflammatory process. The temporal relationship of the onset of TED after mRNA SARS-CoV-2 vaccination in our case was suggestive, and there were no other inciting events identified. The postulated mechanisms include immune reactivation, molecular mimicry between the SARS-CoV-2 spike proteins and thyroid proteins, and the autoimmune/ inflammatory syndrome induced by adjuvants present in the mRNA vaccine. Conclusion Patients with autoimmune thyroiditis should be monitored closely after SARS-CoV-2 vaccine as they may develop TED and require treatment.
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Background: The ongoing coronavirus disease 2019 (COVID-19) pandemic has forced the development of vaccines. Reports have suggested that vaccines play a role in inducing autoimmune diseases (AIDs). Scattered cases have reported that severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccines may promote thyroid disease, including Graves' disease (GD). However, the effect of inactivated SARS-CoV-2 vaccine on GD remains unclear. The aim of the present study was to investigate the response of thyrotropin receptor antibody (TRAB) to inactivated SARS-COV-2 vaccines. Methods: We conducted a retrospective study to observe the differences in thyroid function and TRAB trends between pre-vaccination (n=412) and post-vaccination (n=231) groups at an interval of 2 months. We then retrospectively observed the differences in serum thyroid function and TRAB levels at 3 months before (n=280), 1 month before (n=294), 1 month after (n=306), and 3 months after (n=250) vaccination. Subsequently, 173 GD patients who were not vaccinated with inactivated SARS-COV-2 vaccines were selected for a prospective study. Thyroid function and TRAB assessment were performed before 3 and 1 months and 1 and 3 months after the first dose of vaccination and were then compared by repeated measures ANOVA to explore their dynamic changes. Results: A retrospective study preliminarily observed that the trend of TRAB post-vaccination was opposite of that pre-vaccination (p=0.000), serum TRAB levels decreased before vaccination and increased after vaccination. In this prospective study, repeated measures ANOVA indicated significant differences in serum FT3 (p=0.000), FT4 (p=0.000), TSH (p=0.000), and TRAB (p=0.000) levels at different time points before and after vaccination. Serum TRAB levels showed dynamic changes that decreased significantly at 1 month before vaccination (p=0.000), no significant differences at 1 month after vaccination (p=0.583), and reflected an upward trend at 3 months after vaccination (p=0.034). Serum FT3 and FT4 levels showed similar trends to serum TRAB levels before and after vaccination. Instead, the serum TSH levels showed a continuous upward trend over time. Conclusion: Based on the results obtained in both retrospective and prospective studies, we concluded that serum TRAB levels decreased less after inactivated SARS-CoV-2 vaccination and showed an upward trend, which may be related to humoral immunity induced by vaccination.
Subject(s)
COVID-19 , Graves Disease , Viral Vaccines , COVID-19/epidemiology , COVID-19/prevention & control , COVID-19 Vaccines , Humans , Immunoglobulins, Thyroid-Stimulating , Prospective Studies , Retrospective Studies , SARS-CoV-2 , ThyrotropinABSTRACT
Objective: To report a patient presenting with bulbar symptoms in the setting of COVID-19 infection leading to a new diagnosis of Myasthenia Gravis. Background: There have been many reports of neurological complications in patients with COVID-19 infection including Guillain Barre syndrome, Bell's palsy and transverse myelitis. There are limited case series describing the effects of COVID-19 in patients with known Myasthenia Gravis, but there have only been rare reports of new onset Myasthenia Gravis in the setting of COVID-19 infection. Design/Methods: Electronic medical records of the patient were reviewed. Results: 78 year old man presented to the hospital with new onset of dysphagia, dysarthria, bilateral ptosis and left facial droop. The patient was given intravenous alteplase for possible stroke. On admission the patient also tested positive for COVID-19. His symptoms persisted post-alteplase. On exam he was noted to have fatigable ptosis, weakness of brow elevation, eye closure, horizontal movements of the tongue and intermittent dysarthria, raising the concern for myasthenia gravis. A trial of Mestinon led to improved symptoms. Serum acetylcholine receptor antibodies were positive, confirming the Myasthenia Gravis diagnosis. He received 5 sessions of intravenous immunoglobulin (IVIG) due to persistent bulbar symptoms. He initially responded well to treatment but later decompensated with respiratory failure requiring intubation. He was then treated with plasmapheresis for 5 days with symptom improvement and was successfully extubated. Conclusions: Our patient with a new diagnosis of myasthenia gravis with simultaneous COVID-19 infection eventually progressed into myasthenic crisis. This case raises the possibility of myasthenia and/or myasthenic crisis being a neurological complication of COVID-19 infection. Mechanisms behind this have been postulated to include molecular mimicry, the inflammatory cascade of COVID-19 leading to immune dysregulation, or viral illness triggering previously asymptomatic patients. Awareness of new onset myasthenia associated with COVID-19 infection can lead to earlier diagnosis and treatment.
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Objective: Present a case of lupus myelitis occurring in a patient already receiving immunosuppression. Background: Neurologic complications of systemic lupus erythematosus span the central and peripheral nervous systems. We present a case of lupus myelitis in a patient previously well controlled with immunosuppression. Design/Methods: N/A Results: A 24-year-old woman with history of systemic lupus erythematosus presented with acute onset inability to walk due to bilateral leg weakness and numbness, associated with constipation and urinary retention. A week before, she experienced runny nose, sore throat, headache and neck pain radiating down her shoulders. Her medication regimen prior to admission included mycophenolate mofetil 1500 mg BID, hydroxychloroquine 200 mg daily, and prednisone 2.5 mg daily. Examination revealed bilateral lower limb weakness, more pronounced on right, hyperesthesia in the right leg, decreased proprioception bilaterally. She had intact pinprick, light touch, and vibration sense. Ankle reflexes were absent bilaterally. Laboratory testing showed pancytopenia, elevated anti-DsDNA (107 IU/mL), ESR of 69 mm/h, low serum C3/C4 and proteinuria. COVID-19 testing was negative. CSF analysis showed WBC of 890/mm3 , neutrophil predominance (93%), decreased glucose (32 mg/dL) and elevated protein (129 g/L). CSF cultures were negative. Aquaporin-4 receptor antibodies testing is pending. MRI of thoracic spine revealed patchy FLAIR hyperintensities at the level of T2, T4 and T10- T11 with mild enhancement at the level of the lesion T10-11, following intravenous gadolinium. The patient was treated IV methylprednisolone followed by cyclophosphamide and maintenance daily oral steroids with significant improvement of motor symptoms. She had mild residual right dorsiflexion weakness. Urinary and bowel function normalized. Conclusions: Lupus myelitis is a rare and potentially devastating complication of systemic lupus erythematosus. The timely recognition is crucial for proper management. CSF picture resembles an infection and may be misleading. While aquaporin-4 receptor antibodies report is pending, her very good recovery with methylprednisolone and cyclophosphamide strongly suggests lupus myelitis.
ABSTRACT
Objective: To define clinical features, disease course, and collect biospecimens in patients with myasthenia gravis (MG), including understudied subgroups such as seronegative, muscle-specific kinase antibody (MuSK), and LRP4 antibody positive MG. Background: The MG Rare Disease Clinical Research Network (MGNet) was funded by the National Institutes of Health (NIH) to gain better understanding of the clinical course of MG and develop improved approaches to diagnosis and treatment. As part of this initiative a multicenter prospective natural history study and biorepository was developed: Exploring Outcomes and Characteristics of Myasthenia Gravis 2 (EXPLORE-MG2). Design/Methods: EXPLORE-MG2 is a web-based observational registry that incorporates NIH recommended common data elements for MG. Key eligibility criteria include: ≥18 years old;diagnosed with MG within 2-years of study enrollment based on clinical presentation and seropositivity for MG associated autoantibodies, and/or abnormal neurophysiology test or positive edrophonium test. Biospecimen collection focuses on immunosuppressive naïve patients and rare MG subgroups. Participants will be followed for at least 2-years with study visits occurring approximately every 6 months in the context of usual clinical care. The study has been open to enrollment since January 2021 with 6 sites currently activated/participating. Results: A total of 62 patients have been enrolled and 152 biospecimens were collected as of 10/1/2021. The mean age was 57 years (range 20-84);47% were female, 66% were acetylcholine receptor antibody-positive, 16% were MuSK MG, and 18% were seronegative. Enrollment of new participants and follow-up of existing participants are ongoing to reach our current goal of 400 enrolled participants. We will present updated enrollment data and demographics at the meeting. Conclusions: The EXPLORE-MG2 study is active after a COVID-19 pandemic related delay. Samples and clinical data will be available to researchers for current and future investigation. Data from EXPLORE-MG2 will improve clinical trial readiness for future studies and facilitate development of treatment-responsive biomarkers.