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Vaccines having aided in escaping the majority of the population from immunological naïvety, our strategies are now shifting towards an increased focus on identifying and protecting the extremely vulnerable. We here describe the results of testing 12 patients, those with lymphoid malignancies having been targeted their B-cells for therapy with rituximab-containing regimens or a Bruton tyrosine kinase inhibitor, for anti-SARS-CoV-2 spike antibodies after receiving the BNT162b2 mRNA vaccine doses. The interval from last dosing of B-cell depletion therapy to SARS-CoV-2 vaccination was at median 5.3 (range 3.1–6.6) months. Using the ‘seroprotection' threshold of 775 [BAU/mL] for the anti-spike antibody titer, our finding points out the crucial unresponsiveness of the targeted population with 0/12 (0%) achieving ‘seroprotection'. Although IgG seroconversion was observed in 4/12 (33%), supporting the overall benefit of vaccination, the figures still point out a potential need for optimization of practice. IgA was further less responsive (unsuccessful ‘seroconversion' in 11/12 (92%)), implicating an underlying class switch defect. Those with depletion on B-cells are caught at a dilemma between, being too early and too late on receiving SARS-CoV-2 vaccines. They wish to get over their immunological naïvety at the earliest, while, in order to assure quality immune memory, are also required to hold the patience for their B-cells to repopulate. Although it remains an issue whether intensified vaccine schedules and/or regimens will lead to stronger immunogenicity or more effective boosters for non-responders, we shall take advantage of every increasing evidence in order to optimize current options. © 2022 Japanese Society of Chemotherapy and The Japanese Association for Infectious Diseases
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BACKGROUND: For some vaccine-preventable diseases, the immunologic response to vaccination is altered by a pregnant state. The effect of pregnancy on SARS-CoV-2 vaccine response remains unclear. OBJECTIVE: We sought to characterize the peak and longitudinal anti-S immunoglobulin G, immunoglobulin M, and immunoglobulin A responses to messenger RNA-based SARS-CoV-2 vaccination in pregnant persons and compare them with those in nonpregnant, reproductive-aged persons. STUDY DESIGN: We conducted 2 parallel prospective cohort studies among pregnant and nonpregnant persons who received SARS-CoV-2 messenger RNA vaccinations. Blood was collected at the time of first and second vaccine doses, 2 weeks post second dosage, and with serial longitudinal follow-up up to 41.7 weeks post vaccination initiation. Anti-S immunoglobulin M, immunoglobulin G, and immunoglobulin A were analyzed by enzyme-linked immunosorbent assay. We excluded those with previous evidence of SARS-CoV-2 infection by history or presence of antinucleocapsid antibodies. In addition, for this study, we did not include individuals who received a third or booster vaccine dosage during the study period. We also excluded pregnant persons who were not fully vaccinated (14 days post receipt of the second vaccine dosage) by time of delivery and nonpregnant persons who became pregnant through the course of the study. We studied the effect of gestational age at vaccination on the anti-S response using Spearman correlation. We compared the peak anti-S antibody responses between pregnant and nonpregnant persons using a Mann-Whitney U test. We visualized and studied the longitudinal anti-S antibody response using locally weighted scatterplot smoothing, Mann-Whitney U test, and mixed analysis of variance test. RESULTS: Data from 53 pregnant and 21 nonpregnant persons were included in this analysis. The median (interquartile range) age of the pregnant and nonpregnant participants was 35.0 (33.3-37.8) years and 36.0 (33.0-41.0) years, respectively. Six (11.3%) participants initiated vaccination in the first trimester, 23 (43.3%) in the second trimester, and 24 (45.3%) in the third trimester, with a median gestational age at delivery of 39.6 (39.0-40.0) weeks. The median (interquartile range) follow-up time from vaccine initiation to the last blood sample collected was 25.9 (11.9) weeks and 28.9 (12.9) weeks in the pregnant and nonpregnant cohort, respectively. Among pregnant persons, anti-S immunoglobulin G, immunoglobulin A, and immunoglobulin M responses were not associated with gestational age at vaccine initiation (all P>.05). The anti-S immunoglobulin G response at 2 weeks post second dosage was not statistically different between pregnant and nonpregnant persons (P>.05). However, the anti-S immunoglobulin M and immunoglobulin A responses at 2 weeks post second dosage were significantly higher in nonpregnant persons (P<.001 for both). The anti-S immunoglobulin G and immunoglobulin M levels 6 to 8 months after vaccine initiation fell to comparable proportions of the peak 2 weeks post second dosage antibody levels between pregnant and nonpregnant persons (immunoglobulin G P=.77; immunoglobulin M P=.51). In contrast, immunoglobulin A levels 6 to 8 months after vaccine initiation fell to statistically significantly higher proportions of peak 2 weeks post second dosage antibody levels in pregnant compared with nonpregnant persons (P=.002). Maternal anti-S immunoglobulin G levels were strongly correlated with umbilical cord anti-S immunoglobulin G levels (R=0.8, P<.001). CONCLUSION: The anti-S immunoglobulin A, immunoglobulin M, and immunoglobulin G response to SARS-CoV-2 vaccination in pregnancy is independent of gestational age of vaccine initiation. Maintenance of the immunoglobulin G response is comparable between pregnant and nonpregnant persons. The differential peak response of immunoglobulin M and immunoglobulin A and the differential decline of anti-S immunoglobulin A between pregnant and nonpregnant persons requires further investigation.
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Case Report: Atypical Hemolytic Uremic Syndrome (atypical HUS) is a rare and severe form of thrombotic microangiopathy (TMA) characterized by thrombocytopenia, intravascular hemolysis, and acute kidney injury with an incidence of 1 per million.1 Dysregulation and overactivation of the complement alternative pathway due to genetic mutations have been detected in 40-60% of patients with sporadic or familial atypical HUS.2,4 Triggers include viral illness, pregnancy, malignancy, sepsis, or sporadically with no known inciting event.1 Atypical HUS is a severe disease with a 2-10% risk of mortality, 33% risk of end-stage renal failure, and 50% chance of relapse.5 A 24-year-old female with prior history of atypical HUS at the age of 16 (with response to plasmapheresis) presented to the ER with a 5-day history of fever, chills, sore throat, nausea, vomiting, and dark urine. She tested positive for COVID-19. The exam revealed scleral icterus and scattered petechiae. Labs demonstrated nadir hemoglobin (Hgb) of 9.2 g/dL, platelet count of 52 000k/uL, haptoglobin < 30 mg/dL, peak LDH 1128U/L and creatinine 4.62 mg/dL. Urinalysis is consistent with hemoglobinuria. Schistocytes were noted on the peripheral smear. Rapid streptococcal antigen test and C3, C4, and IgA levels were unremarkable. Chest X-Ray, X-ray KUB, and ultrasound abdomen were unremarkable. The pregnancy test was negative. ADAMTS13 was >100%. Genetic analysis after the initial episode at age 16 revealed autosomal recessive inheritance c.193A > c gene mutations in C3. The patient received IV fluids, ceftriaxone for cystitis, and two units of Fresh Frozen Plasma. She initiated treatment with eculizumab. She also received the MENVEO and meningitis B vaccine per protocol due to the risk of meningitis from terminal complement deficiencies. After 4 infusions of eculizumab, patient's labs improved to platelet count of 307 000 k/uL, Hgb 12.2 g/ dL (nadir 9.2 g/dL), haptoglobin 78 mg/dL normalization of LDH and improved creatinine. Atypical HUS is a rare form of TMAwith mutations in C3 noted in 5% of cases. Complement cascade dysfunction leads to endothelial deposits and microvasculature damage. The resulting prothrombotic state causes obstructive microvascular thrombi predominantly affecting the kidneys but can cause multiorgan dysfunction. The SARS-CoV-2 virus may precipitate atypical HUS relapse due to endothelial damage and complement activation further intensified in patients with existing complement aberrations. Plasma exchange remains a standard of care for atypical HUS, as it effectively removes the antibodies and other proteins. Eculizumab a humanized monoclonal IgG antibody binds to complement proteins, preventing cleavage into C5a and C5b blocking C5b-9(MAC) activation. In patients with CFH, CFI, C3, and CFB mutations, eculizumab is the preferred intervention. Copyright © 2023 Southern Society for Clinical Investigation.
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Immunoglobulin A (IgA) vasculitis or Henoch-Schönlein purpura (HSP) is the most common vasculitis of childhood. This article is protected by copyright. All rights reserved.
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Case Report: Protein losing enteropathy (PLE) occurs when proteins leak from the gastrointestinal (GI) system more rapidly than they are produced. Inflammation of the GI tract facilitates increased membrane permeability of gastric mucosa, leading to excess protein leakage. 1 PLE in children has been associated with CMV, rotavirus, COVID-19, HIV, C. difficile, and autoimmune diseases like Crohn's Disease. 2-6 Norovirus is a known cause of PLE in immunocompromised pediatric patients. 7-8 However, to our knowledge, there are no case reports about PLE precipitated by norovirus in immunocompetent pediatric patients. The purpose of this case report is to present a case of PLE precipitated by a norovirus infection in a 4- year-old previously healthy child. While the above gastrointestinal viruses have been proposed as precipitators for this disease, PLE precipitated by norovirus infection has not been well described. This case also highlights the importance of early diagnosis and management to avoid complications. Method(s): Our patient initially presented with two days of abdominal pain, diarrhea, emesis, reduced urine output, and swelling of the lower extremities. He was exposed to several sick family members-his sister had upper respiratory symptoms and his grandmother had gastrointestinal symptoms. Physical exam was notable for diminished breath sounds in the right lower lobe, abdominal distension with diffuse tenderness and dullness to percussion, significant scrotal and penile edema, and bilateral lower extremity pitting edema. Laboratory results revealed leukocytosis, hypoalbuminemia, hyponatremia, elevated aspartate aminotransferase (AST), and elevated serum alpha-1-antitrypsin, as well as low Immunoglobulins G and M. CD3 and CD4 levels were low reflecting cellular immune dysregulation seen in patients with PLE. IgA and Tissue Transglutaminase (TTF) were within normal limits. Ebstein Barr Virus and cytomegalovirus IgM antibodies were negative. COVID IgG was negative as well. His Polymerase chain reaction (PCR) gastrointestinal panel was positive for norovirus. A chest X-ray showed a large right pleural effusion. Abdominal CT revealed large ascites slightly more predominant in the upper abdomen, mesenteric lymphadenitis, and bilateral pleural effusions. Echocardiogram showed small anterior and apical pericardial effusions. Result(s): Based on the patient's elevated serum alpha-1 antitrypsin levels, hypoalbuminemia, low levels of immunoglobulins and lymphocytes, and clinical manifestations of ascites, bilateral pleural effusions, pericardial effusion, and dependent edema, along with a positive PCR for norovirus, the diagnosis of PLE secondary to Norovirus was made. Conclusion(s): This case demonstrates the importance of recognizing viruses like Norovirus as potential causes of PLE to avoid a delay in diagnosis and initiation of therapy, and to avoid unnecessary additional testing. Copyright © 2023 Southern Society for Clinical Investigation.
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Introduction: Coronavirus disease 2019 (COVID-19) pandemic is ongoing and new variants of severe acute respiratory syndrome coronavirus type 2 (SARS-CoV- 2) are emerging. There is an urgent need for COVID-19 vaccines to control disease outbreaks by herd immunity. Vaccines can trigger immunity as many vaccine-related immunological adverse events have been described. Case Presentation: A case of a 32 years old Filipino female with no known co-morbidity who presented with rashes on bilateral lower extremities one day after receiving her second dose of CoronaVac-Sinovac vaccine. These were non-pruritic nor painful, which appeared to be initially well-defined round erythematous macules, papules, and plaques, mostly raised. It was associated with colicky abdominal pain and inflammatory arthritis affecting the both knees and ankles. She has no vices but known to have allergy with seafood. There were multiple well defined erythematous round to irregularly shaped purpuric macules, papules and plaques, non-blanching, flat and raised, on arms near the antecubital fossa, abdomen and lower extremities. She underwent skin biopsy and direct immunofluorescence showed interface dermatitis with leukocytoclastic vasculitis and IgA +1 vessel wall, and fibrinogen +2 vessel wall, respectively. There was microscopic hematuria and proteinuria. The Urine protein creatinine ratio was normal at 0.193 gm/gm. She was managed as a case of IgA vasculitis and was given moderate dose of steroid (0.5mg per kilogram per day prednisone equivalent) and omeprazole. She was discharged improved with resolution of rashes evident during follow up at the out-patient consultation. Conclusion(s): We report a case of an adult Filipina developing IgA vasculitis following CoronaVac COVID-19 vaccination. She responded well following initiation of steroid therapy. Autoimmune phenomenon following immunization is possible through different mechanisms. These include molecular mimicry, a hyper-stimulated inflammatory state, and autoimmune syndromes induced by adjuvants. While no strategies have been found to prevent autoimmunity following vaccination, it should be emphasized that vaccine recipients should seek medical care for any untoward events following receipt of any immunization.
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Case Report: Acute motor and sensory axonal neuropathy (AMSAN) syndrome is a rare subtype of Guillain-Barre syndrome (GBS) with poor recovery [1]. While respiratory and gastrointestinal infections may precipitate AMSAN, an underlying autoimmune disorder is seldom reported in literature. We herein report the complex case of a patient with undiagnosed, asymptomatic mixed connective tissue disease (MCTD) who developed AMSAN syndrome. Case: A 44-year-old Asian male without medical history presented with progressively worsening weakness of both upper and lower extremities and inability to perform daily activities. His symptoms started 12 weeks prior with difficulty standing from a seated position. He felt subjectively better for some time until a week prior, when he became bedbound. He had diarrhea 6 months ago, with 5-6 loose bowel movements a day for a few weeks. Vital signs on admission was normal. On neurological examination, he was alert and oriented, with bilateral upper and lower extremity flaccid paralysis, diffuse muscle atrophy, bilateral hand and foot drop, negative Hoover sign, diffuse areflexia, and intact sensation. Cerebrospinal fluid (CSF) analysis showed WBC 0 and protein level 136. MRI cervical, thoracic, and lumbar spine were normal. EMG revealed sensory involvement with positive sharp waves in proximal muscles along with fibrillations. Intravenous immunoglobulin (IVIG) was initiated at 0.4 mg/kg for 5 days. Infectious workup for COVID-19, stool culture, HIV, TB, RPR and campylobacter jejuni antibody (Ab), was negative. ANA was positive in a speckled pattern with titres 1:1280, with a positive RNP Ab, SS-A, and RF IgM, IgG and IgA. Rest of the autoimmune workup (anti-dsDNA, anti-CCP, SS-B, aldolase, anti-Jo-1, anti-Scl-70, p-ANCA, c-ANCA, anti-GM1, anti-GQ1b, and anti-GD1a ganglioside Ab) was negative. The myositis specific 11 Ab panel was negative. Despite IVIG therapy, he developed dysphagia, respiratory distress, with a negative inspiratory force of -0, requiring intubation. He had a tracheostomy and PEG tube placed and remains quadraplegic nearly 120 days later. Discussion(s): The authors report a unique case of a patient who became progressively weak over 3 months, leading to complete quadriplegia. Interestingly, this is more consistent with chronic inflammatory demyelinating poly-neuropathy (CIDP), as AMSAN typically develops over a short period of 2 to 4 weeks [2]. Despite having negative anti-GM1 and anti-GD1a Ab (in which positive Ab are pathognomonic but not always present in AMSAN syndrome), the patient had weakness that began in the lower extremities, progressing to paralysis, along with albuminocytological dissociation on CSF analysis, pointing to a GBS diagnosis [3]. He had sensory involvement in the EMG, thus making the diagnosis as AMSAN. He had an undiagnosed, asymptomatic autoimmune process most consistent with MCTD. Whether the two disease processes are related to each other is a concept that has not yet been investigated. Pediatric Clinical Case Reports Concurrent Session Saturday February 4, 2023 1:00 PM Copyright © 2023 Southern Society for Clinical Investigation.