The Impact of the Sars-Cov-2 Pandemic (COVID-19) on the Incidence of Newly Diagnosed Multiple Myeloma Patients Using a Federated Network of Real-World Evidence in US and Germany

Objectives: COVID-19 had an impact on health care, including diagnostics. Early diagnosis of MM is a critical factor for prognosis. We examined the impact of COVID-19 on incidence of NDMM patients and on characteristics in NDMM patients in US and in Germany. Method(s): 44,164 NDMM patients were identified in TriNetX federated network across 55 healthcare organizations in US between January 2018 and December 2021. A bivariate analysis examined changes in patient characteristics in two cohorts before (Cohort 1;n=25513) and after (Cohort 2;n=18.651) the start of the COVID-19 pandemic in March 2020. 4172 NDMM patients were identified in the German database in a sample of across >100 healthcare organizations in the same time period. Similarly, bivariate analysis examined changes in patient characteristics before (Cohort 1;n=2252) and after (Cohort 2;n=1920) the start of pandemic. Result(s): Analysis of US data showed a significant decrease in incidence of NDMM. Bivariate analysis revealed that NDMM patients in Cohort 2 have a significantly higher risk profile compared with patients in Cohort 1, higher incidence of renal failure (13.5% v. 15.43%), heart failure (10.3% v 11.26%), bone lesions (12.6% v. 13.05%) and anemia (26.8% v. 29.75%). The German data indicated an increased risk profile in Cohort 2, with higher reporting of renal impairment (12.3% v. 15.5%) and cardiac impairment (8.3% v. 10.9%). The higher risk profile was reflected in a significant increase of all SLiM-CRAB criteria, notably hypercalcemia (24.1 % v. 36.9%), bone marrow plasma cell infiltration (28.1% v. 36.8%) and free light chain involvement (27.3% v. 41.3%). Conclusion(s): The results provide real-world evidence of a change in risk profile for patients with NDMM during COVID-19. This higher risk profile is observed in both the US and Germany, and may negatively impact outcomes such as progression-free and five-year overall survival.Copyright © 2023

Altered immune response to vaccination in patients with plasma cell premalignancy

Introduction Patients with hematological malignancies, including multiple myeloma (MM), experience suboptimal responses to SARS-CoV-2 vaccination. Monoclonal Gammopathy of Undetermined Significance (MGUS) and Smoldering Multiple Myeloma (SMM) are precursors to MM and exhibit altered immune cell composition and function. The SARS-CoV-2 pandemic and the subsequent population-wide vaccination represent an opportunity to study the real-life immune response to a common antigen. Here, we present updated results from the IMPACT study, a study we launched in November 2020 to characterize the effect of plasma cell premalignancy on response to SARS-CoV2 vaccination (vx). Methods We performed: (i) ELISA for SARS-CoV-2-specific antibodies on 1,887 peripheral blood (PB) samples (237 healthy donors (HD), and 550 MGUS, 947 SMM, and 153 MM patients) drawn preand post-vx;(ii) single-cell RNA, T cell receptor (TCR), and B cell receptor (BCR) sequencing (10x Genomics) on 224 PB samples (26 HD, and 20 MGUS, 48 SMM, and 24 MM patients) drawn preand post-vx;(iii) plasma cytokine profiling (Olink) on 106 PB samples (32 HD, and 38 MGUS and 36 SMM patients) drawn pre- and post-vx;and (iv) bulk TCR sequencing (Adaptive Biotechnologies) on 8 PB samples from 4 patients (2 MGUS, 2 SMM) drawn pre- and post-vx. Results Patients with MGUS and SMM achieved comparable antibody titers to HD two months post-vx. However, patient titers waned significantly faster, and 4 months post-vx we observed significantly lower titers in both MGUS (Wilcoxon rank-sum, p=0.030) and SMM (p=0.010). These results indicate impaired humoral immune response in patients with MGUS and SMM.At baseline, the TCR repertoire was significantly less diverse in patients with SMM compared to HD (Wilcoxon rank-sum, p=0.039), while no significant difference was observed in the BCR repertoire (p=0.095). Interestingly, a significant increase in TCR repertoire diversity was observed post-vx in patients with SMM (paired t-test, p=0.014), indicating rare T cell clone recruitment in response to vaccination. In both HD and patients, recruited clones showed upregulation of genes associated with CD4+ naive and memory T cells, suggesting preservation of the T cell response in SMM, which was confirmed by bulk TCR-sequencing in 4 patients.Lastly, by cytokine profiling, we observed a defect in IL-1beta and IL-18 induction post-vx in patients with SMM compared to HD (Wilcoxon rank-sum, p=0.047 and p=0.015, respectively), two key monocyte-derived mediators of acute inflammation, suggesting an altered innate immune response as well. Conclusion Taken together, our findings highlight that despite the absence of clinical manifestations, plasma cell premalignancy is associated with defects in both innate and adaptive immune responses. Therefore, patients with plasma cell premalignancy may require adjusted vaccination strategies for optimal immunization.

Liquid biopsy testing in metastatic or advanced breast cancer patients during the COVID-19 pandemic

Objective: During the COVID-19 pandemic, cancer patients had restricted access to standard of care tissue biopsy. Liquid biopsy assays using next generation sequencing technology provides a less invasive method for determining circulating tumour mutations (ctDNA) associated with targeted treatments or prognosis. As part of deploying technology to help cancer patients obtain molecular testing, a clinical program was initiated to offer liquid biopsy testing for Canadian patients with advanced or metastatic breast cancer. Method(s): Blood was drawn in two 10 mL StreckTM DNA BCTs and sent to the CAP/CLIA/DAP accredited Imagia Canexia Health laboratory for testing using the clinically validated Follow ItTM liquid biopsy assay. Plasma was isolated using a double spin protocol and plasma cell-free DNA (cfDNA) extracted using an optimized Promega Maxwell RSC method. Extracted cfDNA was amplified using the multiplex amplicon-based hotspot 30 or 38 gene panel and sequenced. An inhouse developed bioinformatics pipeline and reporting platform were used to identify pathogenic single nucleotide variants (SNVs), indels (insertions and deletions), and gene amplification. Included in the panel are genes associated with metastatic breast cancer: AKT1, BRAF, ERBB2, ESR1, KRAS, PIK3CA, TP53. Result(s): To identify biomarkers, 1214 metastatic or advanced breast cancer patient cfDNA samples were tested. There were 15 cases sent for repeat testing. We reported 48% of samples harboring pathogenic ctDNA mutations in TP53 (22%), PIK3CA (19%), ESR1 (18%), AKT1 (2%), ERBB2 (1.5%). Co-occurring variants were identified in samples with ESR1/PIK3CA as well as TP53/PIK3CA (both p-values <0.001). Interestingly, 29% of samples with mutated ESR1 harbored >= 2 ESR1 ctDNA mutations. In 56% of cases, previous molecular testing indicated the cancer subtype as hormone receptor (ER, PR) positive with/without HER2 negative status. In this specific subgroup, 49% harbored ctDNA mutations with 63% of those being PIK3CA and/or ESR1 mutations. Conclusion(s): A population of Canadian women with metastatic breast cancer were tested using a liquid biopsy gene panel during the COVID-19 pandemic for identification of biomarkers for targeted therapeutic options. Over 50% of the samples were identified as hormone positive, with greater than 60% harboring PIK3CA and ESR1 ctDNA mutations. Studies have shown that metastatic PIK3CA mutated ER-positive/HER2-negative tumors are predictive to respond to alpelisib therapy and have FDA and Health Canada approval. Additionally, ESR1 mutations are associated with acquired resistance to antiestrogen therapies, and interestingly we identified 29% of ESR1 mutated samples with multiple mutations possibly indicating resistance subclones. In future studies, longitudinal monitoring for presence of multiple targetable and resistance mutations could be utilized to predict or improve clinical management.

Pandemic stress induces systemic immune changes and placental inflammation independently of SARS-CoV-2 infection in pregnancies

Problem: Environmental stress during pregnancy has known impacts on both maternal and fetal health. In terms of theCOVID-19 pandemic, the majority of published work has focused on the impact of the infection itself, without considering the potential immune impact of pandemic related-stress.We, therefore, assessed the impact of pandemic stress, independently of SARS-CoV-2 infection, on the circulating and placental immune profiles of pregnant individuals. Method(s): Placentas from 239 patients were collected at the Sainte- Justine Hospital, Montreal, Canada. Of these, 199 patients delivered during the pandemic and were exposed to pandemic stress with (+: 79) or without (-: 120) SARS-CoV-2 infection, the latter exposed to pandemic stress only. Pre-pandemic historic controls (uncomplicated pregnancies, Ctrl: 40), were also included. Placental biopsies were collected to assess cytokine levels by ELISAs and histopathological lesions. A sub-study with 35 pre-pandemic pregnancies (unexposed) and 20 who delivered during the pandemic (exposed) was also conducted. The latter (exposed/unexposed) were all uncomplicated pregnancies. We collected maternal blood prior to delivery for immunophenotyping, and plasma/peripheral blood mononuclear cells (PBMCs) were isolated. Inflammatory mediators in the plasma were quantified by ELISAs. Co-culture assays with PBMCs and human umbilical vein endothelial cells (HUVECs) were performed to assess endothelial activation. Demographical/obstetrical data were obtained through chart review. Result(s): SARS-CoV-2+ patients were multiethnic (63.4%), had higher pre-pregnancyBMI (28.9 vs. 24.8 inCtrl, P<.05), and elevated preterm birth rate (16.5% vs. 5.8% in SARS-CoV-2-, P < .05 and 0.0% in Ctrl, P < .01). In the placentas, we observed an increase in the levels of IL- 1Ra (P < .05) and CRP (P < .05) in both SARS-CoV-2 groups, while IL-6 (P = .0790) and MCP-1 (P < .001) were elevated solely in SARS-CoV- 2-. These changes were predominant in placentas with inflammatory lesions on histopathological analysis. Moreover, we observed elevated CD45+ cells (P < .001) in the placentas from both SARS-CoV-2 groups versus Ctrl. Considering that the differences we observed were important in the SARS-CoV-2- group, we performed a study solely on uncomplicated pregnancies, either exposed or unexposed to pandemic stress. At the systemic level, we observed a decrease in the percentage of Th2 cells (P < .001), leading to a pro-inflammatory Th1/Th2 imbalance in exposed individuals. Decreased Treg (P < .05) and Th17 (P < .05) versus unexposed was also observed. Surprisingly, decreased levels of circulating IL-6 (P < .05), MCP-1 (P < .01), and CRP (P<.05) were seen in exposed versus unexposed individuals. Finally,we observed increased secretion of ICAM, a marker of endothelial activation, solely in endothelial cells co-cultured with PBMCs from exposed individuals. Conclusion(s): Overall, placental inflammatory profiles differed between pregnant individuals exposed to pandemic stress with or without SARS-CoV-2 infection. Moreover, we observed that the pandemic stress exposed group presented a systemic pro-inflammatory bias. This highlights the need to understand the differences between the effects of pandemic-related stress and the added burden of SARS-CoV-2 infection itself on maternal and fetal health. Our work also supports an association between an increased risk of hypertension/ preeclampsia and SARS-CoV-2 infection that might be driven in part by pandemic-related stress.

Is It Cancer Hepatic Inflammatory Pseudotumor: An Important Hepatic Mass Differential

Introduction: Hepatic inflammatory pseudotumor (HIP), albeit rare, is an important pathology to be included in differentials for hepatic masses. The benign nature and treatment of this disease process should be considered especially in comparison to malignant hepatic processes. Case Description/Methods: A 66-year-old male with pre-existing history of compensated Hepatitis C cirrhosis status post direct-acting antivirals with sustained virologic response presented in shock after a syncopal episode. Initial work up revealed leukocytosis, thrombocytopenia, acute renal injury, elevated liver enzymes, and COVID-19 positive test. Patient underwent initial liver ultrasound revealing intrahepatic and extrahepatic biliary ductal dilation. Subsequent MRCP demonstrated diffuse thickening of intra and extra hepatic bile ducts suggestive of cholangitis and several hepatic masses concerning for abscesses versus possible metastatic cholangiocarcinoma. Patient improved symptomatically with antibiotics and supportive care. A liver biopsy was performed with pathology showing lymphoplasmacytic inflammation and fibroblastic infiltration suggestive of hepatic inflammatory pseudotumor. A repeat MRCP one week later showed interval decrease in size of liver lesions and repeat liver function tests also showed improvement. Patient was discharged on a course of ciprofloxacin and metronidazole. Patient had repeat MRCP 3 months after discharge, with further significant improvement in size of liver lesions. After multi-disciplinary discussion the plan was for further surveillance with imaging and labs in 2 months. Discussion(s): Inflammatory pseudotumors are benign and non-neoplastic lesions that can occur in any organ. They can appear as a malignant lesion when they arise in the liver and an accurate identification can allow for conservative management and prevent unnecessary invasive procedures. Hepatic inflammatory pseudotumors are often seen with concomitant infection or inflammatory processes. Liver biopsies distinguish these tumors from other malignant processes as they demonstrate a characteristic dense inflammatory infiltrate interspersed in stroma of interlacing bundles of myofibroblasts. This case highlights the importance of maintaining HIP on the differential diagnosis. (Figure Presented).

IgM Multiple Myeloma Presenting With Diarrhea

Introduction: IgM Multiple Myeloma (MM) is a rare subtype of MM consisting of <1% cases of MM. It is distinguished from Waldenstrom Macroglobinemia, which also produces IgM, by the absence of somatic mutation MYD88. We present a patient with a chief complaint of diarrhea which unknowingly led to his hematological diagnosis Case Description/Methods: A 64 year old male with RA-SLE overlap syndrome on steroids, and recent COVID19 pneumonia, had presented with 5 episodes of watery diarrhea every day and 40 Ib weight loss within 2 months. CT revealed small bowel enteritis and stool studies, including C. diff, cultures, ova and parasites were negative. Diarrhea persisted despite antibiotics, therefore an EGD and Colonoscopy were performed which showed duodenal lymphangiectasia and a normal colon. Duodenal biopsy revealed eosinophilic deposits in the villous lamina propria which stained for IgM and stained negative under congo red ruling out amyloidosis. SPEP and a bone marrow biopsy revealed monoclonal IgMspikes and plasma cells in the bone marrow suggesting MMalong with a co-existing population of CLL. Next-generation sequencing was negative forMYD88, supporting IgM MM instead of Waldenstrom. He developed a protein-losing enteropathy with dramatic hypoalbuminemia (albumin 0.9) and lower extremity edema and DVTs. He was started on chemotherapy and frequent albumin infusions. His diarrhea completely resolved, however not in time, as his other medical comorbidities lagged behind and he developed anasarca and continued to deteriorate. Discussion(s): Plasma cell dyscrasias such as IgM MM or more commonly Waldenstrom have rarely been reported to cause GI symptoms. GI involvement can include direct GI infiltration of plasma cells, IgM deposition, or the finding of a plasmacytoma. It has been speculated that IgM deposits can lead to interstitial viscosity and obstructive lymphangiectasia leading to diarrhea and a protein-losing enteropathy as in our patient. Protein loss has led him to have hypoalbuminemia and possibly loss of antithrombotic proteins that have caused DVTs. Few case reports have suggested that treating the underlying cause with chemotherapy stops diarrhea entirely. Although our patient's diarrhea ceased, we believe that it was not in time for him to entirely recover from the later complications of the disease. We hope that this case can help clinicians to attempt prompt treatment of patients when they find GI specimens showing IgM deposits and they suspect a plasma cell dyscrasia.

Mucosa-Associated Lymphoid Tissue Lymphoma of the Rectum Incidentally Found in a Patient with Ulcerative Colitis

Introduction: Mucosa-associated lymphoid tissue (MALT) lymphomas are extra-nodal marginal zone B-cell lymphomas, most commonly found in the stomach, associated with Helicobacter pylori infections, and generally not linked with inflammatory bowel disease. Rectal MALT lymphoma is very uncommon and often associated with painful defecation, change in bowel habits, or rectal pressure/prolapse. Here, we present a rare case of an asymptomatic female with ulcerative colitis (UC) found to have benign-appearing rectal polyps during a routine screening colonoscopy. Case Description/Methods: The patient is a 56-year-old female with a history of left-sided UC, diagnosed in 1993, with one flare after receiving the 2nd dose of the Moderna COVID-19 vaccine, taking oral Olsalazine 500 mg twice daily, low-dose Prednisone, and mesalamine suppositories as needed presenting for screening colonoscopy. The patient was asymptomatic, citing regular non-bloody bowel movements and normal stool consistency. Colonoscopy revealed two 7 mm sessile, non-bleeding rectal polyps, surrounded by congested, erythematous, friable, and ulcerated mucosa in the rectosigmoid colon. Cold forceps biopsies were taken. Hematopathology evaluation of the routine colon biopsy samples revealed chronic nonspecific colitis while pathology of the rectal polyps showed marked lymphoplasmacytic infiltrate and extra-nodal marginal zone lymphoma of MALT. Ancillary studies, immunohistochemistry, and molecular studies for B-cell gene rearrangement confirmed extra-nodal marginal zone lymphoma of MALT with prominent plasmacytic differentiation. The patient was informed and close follow-up in Gastroenterology clinic was arranged. (Figure) Discussion: Rectal MALT lymphoma is rare with unclear management options. Treatments of UC include watchful waiting, surgical resection, endoscopic mucosal resection, radiation, and/or chemotherapy. Helicobacter pylori infections, though strongly linked with gastric MALT lymphoma, have not been shown to be strongly correlated with rectal MALT lymphoma. Given that patients with UC have chronic UCassociated colonic inflammation, lymphoma is often difficult to distinguish visually during colonoscopy, frequently masked by ulcerations and pseudo-polyps. In cases like these, more definitive treatments such as surgical resection could therefore be warranted. Long-term follow-up data is sparse and definitive management remains a clinical conundrum, thus these patients require reliable long-term multidisciplinary close follow-up. (Figure Presented).

Activated CD8 T-cell hepatitis in children: a single institution experience

Background: Pediatric acute liver failure is a rare and serious life-threatening situation, principally for the 30 to 50% of children in whom the etiology of their liver failure is unclear or indeterminate. Treating these patients is challenging, requiring constant assessment over time with regular evaluation for possible liver transplantation. Children with pediatric acute liver failure of undetermined etiology have lower spontaneous survival and higher rates of transplantation and death than other diagnostic groups. Emerging evidence suggests that a subgroup of patients with indeterminate pediatric acute liver failure have clinical, laboratory, and liver biopsy features of immune dysregulation with a dense infiltration of CD8 T cells. Method(s): In 2022, we received percutaneous liver biopsies from three children with acute hepatic dysfunction that showed an increased number of lymphocytes including CD8 T cells. For each case, routine H&E stains with levels, special stains and immunostains were performed. The first biopsy was from an 18-month-old male who presented with COVID infection, pancytopenia, elevated transaminases, and synthetic liver dysfunction (elevated INR). The second was from a 9-year-old female with a history of elevated liver enzymes with no clear cause. The third case was from a 2-year-old male with elevated liver enzymes, coagulopathy, and cholestasis. Result(s): The three cases showed similar histopathologic findings;an acute liver injury pattern with lobular architectural disarray, giant cell formation, reactive changes, single cell necrosis, cholestasis and marked mixed lymphocytic infiltrates. The infiltrates were predominantly composed of CD8-positive T-lymphocytes with scattered neutrophils, eosinophils and rare plasma cells. Portal areas were mildly expanded with mild bile ductular proliferation and mild to moderate lymphocytic infiltrates. Immunostains for CD8 demonstrated that the infiltrates were predominantly composed of CD8-positive T-lymphocytes. All three patients received steroids and responded to treatment evidenced by normalization of liver enzymes and function. Conclusion(s): Dense hepatic CD8 T-cell infiltration is a major finding inactivated CD8 T-cell hepatitis. However, the percentage distribution of lymphocyte subtypes in the setting of hepatitis is not well established, and CD8 T-cell infiltration has also been described in cases of drug-induced hypersensitivity reactions, viral hepatitis, hemophagocytic lymphohistiocytosis, and macrophage activation syndrome, as well as autoimmune hepatitis. Further investigation is needed to better understand the diagnostic criteria in this disease.

Corrigendum: Acute surge of atypical memory and plasma B-cell subsets driven by an extrafollicular response in severe COVID-19.

[This corrects the article DOI: 10.3389/fcimb.2022.909218.].

Humoral and cellular immune response to second and third severe acute respiratory syndrome coronavirus 2 mRNA vaccine in patients with plasma cell dyscrasia.

BACKGROUND: The recently developed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) mRNA vaccine has a short history of use and further information is needed regarding its efficacy, especially in immunocompromised conditions, such as plasma cell dyscrasia (PCD). METHODS: We retrospectively measured serum SARS-CoV-2 antibodies against the spike protein (S-IgG) after the second and third mRNA vaccine doses (doses 2 and 3, respectively) in 109 patients with PCD. We evaluated the proportion of patients with an adequate humoral response (defined as S-IgG titers ≥300 antibody units/mL). RESULTS: Although active anti-myeloma treatments prior to vaccination had a significantly negative impact on adequate humoral response, specific drug subclasses including immunomodulatory drugs, proteasome inhibitors, and monoclonal antibodies were not negatively associated, except for B-cell maturation antigen-targeted therapy. Dose 3 (booster vaccination) led to significantly higher S-IgG titers and more patients acquired an adequate humoral response. Furthermore, evaluation of vaccine-induced cellular immune response in patients using T-spot Discovery SARS-CoV-2 kit, revealed an enhanced cellular immune response after Dose 3. CONCLUSIONS: This study highlighted the significance of booster SARS-CoV-2 mRNA vaccination in patients with PCD with respect to humoral and cellular immunity. Moreover, this study highlighted the potential impact of certain drug subclasses on vaccine-induced humoral immune response.

Coincidence of plasma cell leukemia and COVID-19: a diagnostic pitfall.

We report the case of a 66-year-old man with a known history of IgD multiple myeloma (MM) which was admitted to hospital because of acute renal failure. Routine PCR testing on admission yielded a positive result for SARS-CoV-2 infection. Examination of the peripheral blood (PB) smear revealed 17% lymphoplasmacytoid cells and a few small plasma cells mimicking morphological changes frequently seen in viral diseases. However, flow cytometric examination showed 20% clonal lambda-restricted plasma cells being consistent with a diagnosis of secondary plasma cell leukemia. Circulating plasma cells as well as similar appearing lymphocyte subtypes such as plasmacytoid lymphocytes are frequently observed in infectious disorders such as COVID-19, so that the lymphocyte morphology in our patient's case could have been easily misinterpreted as typical COVID-19-induced changes. Our observation highlights the importance of incorporating clinical, morphological, and flow-cytometric data in distinguishing between reactive and neoplastic lymphocyte changes because misinterpretation may affect disease classification and, beyond that, clinical decision-making, which may have serious consequences for patients.

Encephalitis associated with a monoclonal protein band present in blood, urine and cerebrospinal fluid.

Introduction: Monoclonal protein bands are present mainly in blood and secondary in urine representing specific antibody produced in excess by abnormal lymphocytes or plasma cells.We describe a case of a patient with acute encephalitis associated with an unexpected finding of a monoclonal protein band present in blood, urine and in cerebrospinal fluid (CSF). Case presentation: This 50-year-old woman with no significant past medical history, with the exception of unintentional weight loss exceeding 5 kg over the last 3 months, presented to the emergency department with seizures and altered mental status, after 3 days of vomiting and headaches. Magnetic Resonance Imaging showed lesions suspicious for infectious encephalitis/meningitis and for ischemia possibly related to central nervous system (CNS) autoimmune vasculopathy/vasculitis. The patient died the following day after losing brainstem reflexes. Testing for the previously mentioned etiologies returned negative with the exception of high protein concentration and increased immunoglobulin gamma (IgG) concentration in the CSF. Protein electrophoresis, ordered in error, showed a well-defined IgG with lambda light chain monoclonal protein band running in similar positions in serum, urine and in CSF. Due to SARS-CoV-2 PCR positivity no autopsy was performed. Conclusion: The presence of this monoclonal protein band produced in the CNS suggests the diagnosis of CNS myeloma. The accelerated course in this case could be the result of the CNS myeloma or lymphoma responding to SARS-CoV-2 infection. Testing for monoclonal protein bands in CSF, in patients with pertinent clinical presentation would boost the awareness of this these diseases improving patient care.

Acute Surge of Atypical Memory and Plasma B-Cell Subsets Driven by an Extrafollicular Response in Severe COVID-19.

Background: Despite the use of vaccines and therapeutics against the coronavirus disease 2019 (COVID-19) pandemic, this severe disease has been a critical burden on public health, whereas the pathogenic mechanism remains elusive. Recently, accumulating evidence underscores the potential role of the aberrant B-cell response and humoral immunity in disease progression, especially in high-risk groups. Methods: Using single-cell RNA (scRNA) sequencing analysis, we investigated transcriptional features of B-cell population in peripheral blood from COVID-19 patients and compared them, according to clinical severity and disease course, against a public B-cell dataset. Results: We confirmed that acute B cells differentiate into plasma cells, particularly in severe patients, potentially through enhanced extrafollicular (EF) differentiation. In severe groups, the elevated plasma B-cell response displayed increased B-cell receptor (BCR) diversity, as well as higher levels of anti-severe acute respiratory syndrome coronavirus 2 (anti-SARS-CoV-2) spike antibodies in plasma, than those in moderate cases, suggesting more robust and heterogeneous plasma cell response in severe COVID-19 patients. Trajectory analysis identified a differentiation pathway for the EF B-cell response from active naïve to atypical memory B cells (AM2), in addition to the emergence of an aberrant plasma cell subset (PC2), which was associated with COVID-19 progression and severity. The AM2 and PC2 subsets surged in the acute phase of the severe disease and presented multiple inflammatory features, including higher cytokine expression and humoral effector function, respectively. These features differ from other B-cell subsets, suggesting a pathogenic potential for disease progression. Conclusion: The acute surge of AM2 and PC2 subsets with lower somatic hypermutation and higher inflammatory features may be driven by the EF B-cell response during the acute phase of severe COVID-19 and may represent one of the critical drivers in disease severity.

Clinical, Histological and Serological Features of Autoimmune-Like Acute Liver Injury after Sars-Cov-2 Vaccination

Introduction and Objectives: Acute autoimmune-like liver injury has been increasingly reported after vaccination against SARS-CoV-2. Pathogenesis, steroid requirement and long-term prognosis are unknown. This study aimed to evaluate clinical, serological and histological features, response to treatment and prognosis in patients with post-vaccination acute hepatitis. Material(s) and Method(s): We included patients without known pre-existing liver diseases with transaminase levels >= 2.5 upper limits of normal within 90 days after the SARS-CoV-2 vaccine with an available liver biopsy. Clinical data and outcomes after a six months follow-up were collected. Result(s): 17 patients were included,12 females, median age 60 (51,5/66) exposed to vectorial (Sputnik V n=7, AstraZeneca n=6), inactivated (Sinopharm n=3) or ARNm Vaccines (Moderna=1). In 8 patients, liver injury developed after the first dose and in 7 after the second dose and in 2 after the third dose. The median time to the development of injury was 33(23,50/53,50) days. Eight patients had a history of extrahepatic autoimmune disease and five patients had metabolic syndrome and used statins. Immune serology showed anti-antinuclear antibody in 10 (58,8%), anti-smooth muscle antibody in 5(29,4%). 14/17 patients presented with elevated IgG levels. Liver histology showed lobular hepatitis in 13/17, portal hepatitis in 17/17 with plasmocytic lymphocytic infiltrate and 4/17 had eosinophils, 6/17 with severe interface hepatitis, and one patient had fibrosis Ishak stage >=3. 12/17 (70,5%) were treated with steroids. Transaminases improved in 17 cases and normalized in 6/12 by month 6. Only 1/17 developed liver function deterioration, yet no patient required liver transplantation. Most patients tolerated the tapering of steroids and in 6 azathioprine was started before month 3. Conclusion(s): Long-term follow-up might help to differentiate between induced classical autoimmune hepatitis, autoinflammatory self-limited events, or drug-induced liver injury in these patients.Copyright © 2023

Phototherapy to treat a COVID-19 vaccine reaction

A 59-year-old man presented with a widespread morbilliform rash after receiving the second dose of the Pfizer-BioNTech COVID-19 mRNA vaccine. He had no significant medical history and no known allergies. He did not take any regular medication. He developed pruritus without rash 4 h after his first vaccine. This resolved after 10 days without intervention. One day after his second dose, he developed an extensive pruritic morbilliform eruption on his trunk and limbs, affecting 35% of his body surface area. with no mucous membrane involvement. The rash persisted for 4 weeks after his second vaccination and he was referred to dermatology. Eosinophils were raised at 0.54 and liver function tests were normal. Antinuclear antibodies and extractable nuclear antigen were negative. Complement levels were normal. Histology showed mild epidermal acanthosis, spongiosis and subcorneal vesicles. Within the superficial to mid-dermis, there was a mixed chronic inflammatory infiltrate comprising lymphocytes, plasma cells, neutrophils and numerous eosinophils. Direct immunofluorescence was negative. He received a tapering dose of oral prednisolone with mometasone topically. Despite substantial improvement with this regimen, his rash began to worsen 2 days following discontinuation of oral prednisolone. He was still using daily mometasone on cessation of oral steroids. He was trialled on oral doxycycline for 1 month, which led to a marked improvement in the morbilliform rash. Despite improvement in the rash, the patient reported ongoing intense daily pruritus which was having a marked impact on his quality of life. He has commenced on narrowband ultraviolet B (UVB) phototherapy to treat his persistent pruritis, with good effect to date. Morbilliform eruptions have been reported as a cutaneous manifestation of COVID-19 and as a side-effect of mRNA vaccines. Proposed mechanisms for the development of skin rashes post-mRNA vaccines include viral protein expression following vaccination, prior infection with COVID-19 causing cross-reaction with the mRNA vaccine encoded antigen and vaccine components acting as haptens inducing a T helper 2 inflammatory reaction characterized by interleukin (IL)-4 and IL-13 expression. Drug-induced maculopapular eruptions typically resolve within 7-14 days on withdrawal of the culprit medication. The persistent nature in our patient may imply a complex immune response. The use of phototherapy to treat inflammatory dermatoses and pruritic conditions such as nodular prurigo is well described. The antipruritic effect of phototherapy is thought to work via modulation of both the neural pathways involved in itch and local immune cells in the skin. Our case highlights that phototherapy can be used in the treatment of cutaneous side-effects that arise after COVID-19 vaccines. To the best of our knowledge, this case is one of the first to use narrowband UVB phototherapy to treat a cutaneous side-effect of an mRNA vaccine.

Eosinophilic fasciitis triggered by intensive exercise

A 59-year-old white female who was previously fit and well, developed gradual tightening and thickening of the skin on her forearms progressing to the abdomen, chest and lower legs associated with restricted movement. She also noticed bruise-like patches on her trunk. There were no systemic symptoms and no history of Raynaud syndrome. Since the beginning of the COVID-19 lockdown, the patient had engaged in increasing amounts of exercise compared with normal;this included yoga once weekly for 75 min, high-intensity interval training for 20 min on alternate days, running three times weekly for 45 min, lifting 2.5 kg weights for the arms every day and regular long walks. Examination showed a 'groove' sign on her forearms and a peau d'orange appearance of the skin with a woody induration and hardness on palpation. Symmetrical and circumferential involvement on the forearms and lower legs and bruise-like indurated patches on the abdomen were noted. Differential diagnoses included eosinophilic fasciitis (EF), morphoea, EF/morphoea overlap, scleroderma, scleromyxoedema and nephrogenic systemic fibrosis. Blood investigations showed an eosinophilia of 1.2 x 109 cells L-1, erythrocyte sedimentation rate of 31 mm h-1, a C-reactive protein of 20 mg L-1 and negative autoimmune and viral serology. She underwent two incisional biopsies down to fascia. The first was taken from the back, which showed an interstitial inflammatory cell infiltrate composed of lymphocytes, plasma cells and very occasional eosinophils. The subcutaneous septa were minimally thickened. The second biopsy taken from the left forearm showed striking thickening of the subcutaneous septa, with an associated inflammatory cell infiltrate, composed predominantly of lymphocytes and plasma cells. This process was deeper and more established than that seen in the biopsy from the trunk. The appearances were clearly those of a sclerosing process of the dermis and subcutis and consistent with eosinophilic fasciitis. Our diagnosis was EF with morphoea overlap and she was treated with oral methotrexate 15 mg weekly and oral prednisolone 50 mg once daily (weight 60 kg), reducing the dose by 5 mg every 2 weeks. An 80% improvement was seen in functionality within 3 months, but the skin remained tight and thickened and therefore the patient was referred for phototherapy [ultraviolet A 1 (UVA1)] as combination therapy. We present a rare case of EF, which appears to have been triggered by intensive exercise. Other causes include insect bites, radiation, infections (Mycoplasma and Borrelia) and paraneoplastic. Haematological associations have been seen, including aplastic anaemia and lymphoma. Treatment options for EF include prednisolone, UVA1/psoralen + UVA, immunosuppressive systemic agents (including ciclosporin and methotrexate), biological agents (including infliximab and rituximab) and physiotherapy.

Cells and cytokines analysis in bronchoalveolar lavage (BAL) fluid during or after non-severe COVID-19 pneumonia

Introduction: Findings on cells and cytokines analyses in BAL are poorly described during and after resolution of non-severe COVID-19 pneumonia, that are the objectives of this study Methods: This study included 54 pts in whom a BAL was performed (04/2020-02/2021) for the diagnosis or follow-up of suspected COVID-19 pneumonia. Cytological and cytokine analyses (IL-1b, IL-6, IL-8, IL-10, TNFa, IFNg, HGF, TGFb) were performed in BAL blinded to the classification of pts into 3 groups: non-COVID (n=20);COVID (n=13) and post-COVID pneumonia (n=24) Results: Total cell counts were not different between groups. % macrophages were similar between non-COVID and COVID groups, while % neutrophils (PN) were higher - although NS in non-COVID and % lymphocytes (Ly) higher in COVID pneumonia (p<0.024). Plasmocytes were observed in 4/13 COVID and in 1/20 of non-COVID BAL (p=0.042). Compared with COVID pneumonia, post-COVID BAL showed lower % PN, but a persistent Ly alveolitis. Alveolar Ly, in COVID/post-COVID groups were mainly of a CD3/CD4-T cell subset. TGFb was not measurable in the 3 groups. IL-10, IFNg and HGF BAL levels were higher in COVID vs non-COVID pneumonia group (p=0.0128, p=0.005, p=0.007). IL-6, IL-8, IL-10, TNFa, IFNg and HGF levels were lower in post-COVID compared to COVID BAL (all p< 0.005). In COVID pts, IL-1b and IL-6 inversely correlated with %Ly in BAL (r=-0.8, p=0.005;r=-0.7, p=0.02, respectively Conclusion(s): Lymphocytic alveolitis associated with plasmacytosis is found in non-severe COVID-19 pneumonia. This alveolitis is associated with the presence of IL-6, IL-8, IL-10, TNFa, IFN g and HGF. BAL alveolitis and cytokine levels normalize in post-COVID-19 pneumonia.

Unusual biclonal IgA plasma cell myeloma with aberrant expression of high-risk immunophenotypes: first report of a new diagnostic and clinical challenge.

IgA plasma cell myeloma (PCM) has been linked to molecular abnormalities that confer a higher risk for adverse patient outcomes. However, since IgA PCM only accounts for approximately 20% of all PCM, there are very few reports on high-risk IgA PCM. Moreover, no such reports are found on the more infrequent biclonal IgA PCM. Hence, we present a 65-year-old Puerto Rican female with acute abdominal pain, concomitant hypercalcemia, and acute renal failure. Protein electrophoresis with immunofixation found high IgA levels and detected a biclonal IgA gammopathy with kappa specificity. Histomorphologically, bone marrow showed numerous abnormal plasma cells (32%) replacing over 50% of the marrow stroma. Immunophenotyping analysis detected CD45-negative plasma cells aberrantly expressing CD33, CD43, OCT-2, and c-MYC. Chromosomal analysis revealed multiple abnormalities including the gain of chromosome 1q. Thus, we report on an unusual biclonal IgA PCM and the importance of timely diagnosing aggressive plasma cell neoplasms.

COVID-19 and plasma cells: Is there long-lived protection?

Infection with SARS-CoV-2, the etiology of the ongoing COVID-19 pandemic, has resulted in over 450 million cases with more than 6 million deaths worldwide, causing global disruptions since early 2020. Memory B cells and durable antibody protection from long-lived plasma cells (LLPC) are the mainstay of most effective vaccines. However, ending the pandemic has been hampered by the lack of long-lived immunity after infection or vaccination. Although immunizations offer protection from severe disease and hospitalization, breakthrough infections still occur, most likely due to new mutant viruses and the overall decline of neutralizing antibodies after 6 months. Here, we review the current knowledge of B cells, from extrafollicular to memory populations, with a focus on distinct plasma cell subsets, such as early-minted blood antibody-secreting cells and the bone marrow LLPC, and how these humoral compartments contribute to protection after SARS-CoV-2 infection and immunization.