ObjectivesEvidence suggests that B cell-depleting therapy with rituximab (RTX) affects humoral immune response after vaccination. It remains unclear whether RTX-treated patients can develop a humoral and T-cell-mediated immune response against SARS-CoV-2 after immunisation.MethodsPatients under RTX treatment (n=74) were vaccinated twice with either mRNA-1273 or BNT162b2. Antibodies were quantified using the Elecsys Anti-SARS-CoV-2 S immunoassay against the receptor-binding domain (RBD) of the spike protein and neutralisation tests. SARS-CoV-2-specific T-cell responses were quantified by IFN-γ enzyme-linked immunosorbent spot assays. Prepandemic healthy individuals (n=5), as well as healthy individuals (n=10) vaccinated with BNT162b2, served as controls.ResultsAll healthy controls developed antibodies against the SARS-CoV-2 RBD of the spike protein, but only 39% of the patients under RTX treatment seroconverted. Antibodies against SARS-CoV-2 RBD significantly correlated with neutralising antibodies (τ=0.74, p<0.001). Patients without detectable CD19+ peripheral B cells (n=36) did not develop specific antibodies, except for one patient. Circulating B cells correlated with the levels of antibodies (τ=0.4, p<0.001). However, even patients with a low number of B cells (<1%) mounted detectable SARS-CoV-2-specific antibody responses. SARS-CoV-2-specific T cells were detected in 58% of the patients, independent of a humoral immune response.ConclusionsThe data suggest that vaccination can induce SARS-CoV-2-specific antibodies in RTX-treated patients, once peripheral B cells at least partially repopulate. Moreover, SARS-CoV-2-specific T cells that evolved in more than half of the vaccinated patients may exert protective effects independent of humoral immune responses.
The clinical outcomes and safety of dalbavancin as primary and sequential treatment of gram-positive bacteremia with infective endocarditis were evaluated retrospectively. The clinical success rate was high (92.6%), but in 24 of 27 patients dalbavancin was used only after clearance of bacteria from the bloodstream.
Candida albicans are the most common fungi associated with biofilm-related infections. Biofilms are defined as microbial communities encased in a matrix of extracellular polymeric substances. The most important feature of biofilm growth is the high resistance to antimicrobial agents that can be up to 1000-fold greater than that of planktonic cells. This review discusses the factors affecting antifungal resistance as well as activity of mono- and combination therapy of different antifungal classes and antifungal activity in vitro and in vivo against C. albicans biofilms.
We showed that MICs for planktonic and biofilm forms of C. albicans were much lower when treated with an antifungal combination than when treated with single agents. The combination of amphotericin B/posaconazole yielded synergism against Candida biofilms, whereas amphotericin B/caspofungin yielded indifferent interaction.
IMPORTANCETo our knowledge, little is known about antibody development after SARS-CoV-2 vaccination in immunocompromised individuals, such as patients with cancer.OBJECTIVE To determine whether hematooncological patients develop anti-SARS-CoV-2 antibodies after vaccination. DESIGN, SETTING, AND PARTICIPANTSThis retrospective cohort study included 2 independent cohorts of patients who were treated for hematological and solid malignant tumors between October 2020 and May 2021, comprising 901 samples from 595 patients and 58 health care workers (HCWs). Serum samples were collected from patients who were treated at an academic center and a community hospital in a rural area and a control group of HCWs, all of whom received SARS-CoV-2 vaccination. MAIN OUTCOMES AND MEASURESTotal anti-SARS-CoV-2 nucleocapsid (anti-NC) and antispike protein (anti-S) antibodies were measured retrospectively. RESULTS In total, 595 patients (320 women [53.8%] and 275 men [46.2%]; median [range] age, 67 [19-96] years) and 58 HCWs (40 women [69.0%] and 18 men [31.0%]; median [range] age, 42 [24-60] years) were included. Previous SARS-CoV-2 infection was documented in 43 of 595 (7.2%), while anti-NC antibodies that suggested previous infections were observed in 49 of 573 evaluable patients (8.6%). In both cohorts, anti-S antibody levels were higher in fully vaccinated patients compared with patients who received 1 dose. After the first vaccination, patients with hematological cancer who received B cell-targeting agents had lower anti-S levels (median, 1.6 AU/mL; range: 0-17 244 AU/mL) than patients who received other therapies (median, 191.6 AU/mL; range, 0-40 000; P < .001) or patients with solid tumors (median, 246.4 AU/mL; range, 0-40 000 AU/mL; P < .001). Anti-S levels after the first vaccination differed according to ongoing antineoplastic treatment modalities, with the lowest median levels in patients who received chemotherapy alone (157.7 AU/mL; range, 0-40 000 AU/mL) or in combination with immunotherapy (118.7 AU/mL; range, 14.1-38 727 AU/mL) and the highest levels in patients with no ongoing antineoplastic treatment (median, 634.3 AU/mL; range, 0-40 000 AU/mL; P = .01). Antibody levels after full immunization were higher in HCWs (median, 2500 U/mL; range, 485-2500 U/mL) than in patients with cancer (median, 117.0 U/mL; range, 0-2500 U/mL; P < .001). CONCLUSIONS AND RELEVANCEIn this cohort study of patients with hematooncological diseases and a control group of HCWs, anti-SARS-CoV-2 antibodies after vaccination could be detected in patients with cancer. Lower antibody levels compared with HCWs and differences in seroconversion in specific subgroups underscore the need for further studies on SARS-CoV-2 vaccination in patients with hematooncological disease.
The aim of this study was to evaluate the vaccination coverage of Austrian health care workers (HCWs), their knowledge concerning the current guideline on vaccination for HCWs and their attitudes toward vaccination. A cross-sectional survey was performed by distributing 200 questionnaires among the nursing staff of several medical wards and intensive care units of the Vienna General Hospital. 116 questionnaires were returned for analysis with 77.4% female and 22.6% male participants. While certain vaccines like hepatitis B, tetanus and polio had high vaccination rates of up to 94% and good knowledge concerning the vaccination status, other vaccines like measles (59.8%), mumps (60.7%), rubella (70.5%), influenza (42.1%) or pertussis (58.2%) showed much lower coverage. The main sources of information were nursing school (59.1%), secondary school (46.1%), parents (45.2%) and media in general (45.2%). Only 21.9% of HCWs claimed to know the current guideline on vaccination. Those who knew the guideline were significantly more likely to consider certain vaccines like measles, mumps, rubella, diphtheria, polio and varicella as recommended (p 0.04). The most important reasons for receiving vaccination were selfprotection (87.5%), prevention of epidemics (54.5%), protection of others (55.4%) and of patients (42.9%). Fear of side effects (67.2%), negative experiences with vaccines (22.4%), the additional doctor's appointment (20.7%) and considering vaccines as an invention by the pharmaceutical industry (19%) were hindering factors for vaccination of HCWs. Considering the essential role of HCWs in preventing diseases, this study noted a remarkable lack of information on vaccination in this profession.
BackgroundDuring the COVID-19 outbreak, healthcare professionals (HCP) are at the frontline of clinical management and at increased risk for infection. The SARS-CoV-2 seroprevalence of oncological HCP and their patients has significant implications for oncological care.MethodsHCP and patients with cancer at the Division of Oncology, Medical University of Vienna were included between 21 March and 4 June and tested for total antibodies against SARS-CoV-2 employing the Roche Elecsys Anti-SARS-CoV-2 immunoassay. Reactive samples were confirmed or disproved by the Abbott SARS-CoV-2 IgG test. Additionally, a structured questionnaire regarding basic demographic parameters, travel history and COVID-19-associated symptoms had to be completed by HCP.Results146 subjects (62 HCP and 84 patients with cancer) were enrolled. In the oncological HCP cohort, 20 (32.3%) subjects were medical oncologists, 28 (45.2%) nurses at our ward and 14 (22.6%) fulfil other functions such as study coordinators. In the patient cohort, most individuals are on active anticancer treatment (96.4%). 26% of the HCP and 6% of the patients had symptoms potentially associated with COVID-19 since the end of February 2020. However, only in 2 (3.2%) HCP and in 3 (3.6%) patients, anti-SARS-Cov-2 total antibodies were detected. The second assay for anti-SARS-Cov-2 IgG antibodies confirmed the positive result in all HCP and in 2 (2.4%) patients, suggesting an initial assay’s unspecific reaction in one case. In individuals with a confirmed test result, an active COVID-19 infection was documented by a positive SARS-CoV-2 RNA PCR test.ConclusionSpecific anti-SARS-CoV-2 antibodies were found solely in persons after a documented SARS-CoV-2 viral infection, thus supporting the test methods’ high sensitivity and specificity. The low prevalence of anti-SARS-CoV-2 antibodies in our cohorts indicates a lack of immunity against SARS-CoV-2. It highlights the need for continued strict safety measures to prevent uncontrolled viral spread among oncological HCPs and patients with cancer.
Renal transplant recipients are at increased risk of developing invasive pneumococcal diseases but may have poor response to the 23-valent pneumococcal polysaccharide vaccine (PPV). It may be possible to enhance immunogenicity by priming with 7-valent pneumococcal conjugate vaccine (7vPnC) and boosting with PPV 1 year later. In a randomized single-blind, controlled study, adult recipients of renal transplants received either 7nPVC or PPV followed by PPV 1 year later. The vaccine response was defined as 2-fold increase in antibody concentration from baseline and an absolute post-vaccination values ≥1 µg/ml. The primary endpoint was vaccine response of the primed group (7vPnC/PPV) compared with single PPV vaccination. Antibody concentrations for 10 serotypes were measured at baseline, 8 weeks after first vaccination, before second vaccination, and 8 weeks after second vaccination. Of 320 screened patients, 80 patients were randomized and 62 completed the study. Revaccination with PPV achieved no significant increase of immune response in the 7vPnC/PPV group compared with the single PPV recipients A response to at least 1 serotype was seen in 77.1% of patients who received 7vPnC and 93.1% of patients who received PPV (P = 0.046). After second vaccination response to at least 1 serotype was seen in 87.5% patients of 7vPnC/PPV group and 87.1% patients of PPV group (non significant p). The median number of serotypes eliciting a response was 3.5 (95% CI 2.5–4.5) in the 7vPnC/PPV group versus 5 (95% CI 3.9–6.1) in the PPV group (non-significant p). Immunogenicity of pneumococcal vaccination was not enhanced by the prime–boost strategy compared with vaccination with PPV alone. Administration of a single dose of PPV should continue to be the standard of care for adult recipients of renal transplants.Trial RegistrationEudraCT 2007-004590-25.
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