ABSTRACT
BackgroundFlare of Rheumatoid Arthritis (RA) following COVID-19 vaccination has been reported with a low occurrence observed in those patients with disease remission. However, no local data is available in our multi-ethnic Malaysian population.ObjectivesTo evaluate the prevalence of RA flare in Malaysian patients following COVID-19 vaccination and its associated risk factors.MethodsThis was a cross-sectional study assessing RA flare based on patient-reported disease flare through self-administered questionnaires and physician-reported flare. Patient self-reported disease flare was defined as ‘a sudden worsening of rheumatology condition or arthritis within 1 month post-vaccination' while physician-reported flare was defined as ‘an increment of disease activity score 28-joint documented within 3 months post-vaccination‘ from either a scheduled or unscheduled clinic visit. A total of 186 RA patients attended the rheumatology clinic in Hospital Putrajaya from May to July 2022 who completed the primary COVID-19 vaccination under the Malaysian National Vaccination Programme were recruited. Demographic data, disease parameters including serology for rheumatoid factor (RF) and anti-citrullinated peptide antibodies (ACPA), cessation of disease modifying anti-rheumatic drugs (DMARDs) around vaccination, type of vaccines and adverse events were examined using descriptive and univariate analyses.ResultsMajority (93%) of RA patients enrolled were female with a mean age of 58 years old (standard deviation, SD 12.2) and mean disease duration was 12 years (SD 7.7). More than half were seropositive (66% RF, 63% ACPA) with 47.4% had double seropositivity (RF and ACPA positive). All patients received DMARDs with the majority (71%) were on methotrexate (MTX), 21.5% were on leflunomide, 17.7% on other DMARDs, with a small proportion (14%) of patients were receiving prednisolone. Only 4.8% of patients were on biologics or targeted synthetic disease modifying anti-rheumatic drugs. Half of the patients were in remission prior to vaccination. 62% of patients received Pfizer-BioNTech vaccine as the primary vaccine, followed by Sinovac-CoronaVac (24.6%) and Oxford-AstraZeneca (13.4%) vaccines. A booster dose had been administered to 80% of patients, of which 88.7% was Pfizer-BioNTech vaccine. MTX therapy were discontinued in 39.4% of patients (n=52) post-vaccination for a week duration. The prevalence of RA flare was only 12.9% (n=24) in which 14 were self-reported and 10 were physician-reported flares (4 severe flare, 6 mild-moderate flare). Flare rates were higher during the first and second dose of vaccination with 29.2% respectively, and only 12.5% were reported after booster vaccination. Common vaccine adverse effects were fever (16.8%), myalgia (8.6%) and arthralgia (6.4%). There were no significant differences in the occurrence of flare post-vaccination between age, gender, disease activity prior to vaccination, types of vaccine, usage of MTX and prednisolone, and discontinuation of MTX post-vaccination. Although seropositivity did not exhibit statistically significant flare rate post vaccination, sub-analysis revealed four times higher rate of flare in those who has double positivity compared to seronegative RA patients (12% vs 4%).ConclusionPrevelance of RA flare post-COVID-19 vaccination in Malaysian RA population is low. No significant associated risk factors were identified although double seropositivity appeared to have higher number of flares.References[1]Bixio, R., Bertelle, D., Masia, M., Pistillo, F., Carletto, A. and Rossini, M. (2021), Incidence of Disease Flare After BNT162b2 Coronavirus Disease 2019 Vaccination in Patients With Rheumatoid Arthritis in Remission. ACR Open Rheumatology, 3: 832-833.[2]Li X, Tong X, Yeung WWY, Kuan P, Yum SHH, Chui CSL, Lai FTT, Wan EYF, Wong CKH, Chan EWY, Lau CS, Wong ICK. Two-dose COVID-19 vaccination and possible arthritis flare among patients with rheumatoid arthritis in Hong Kong. Ann Rheum Dis. 2022 Apr;81(4):564-568.Acknowledgements:NIL.Disclosure of InterestsNone Declared.
ABSTRACT
BackgroundComprehensive and large-scale assessment of health-related quality of life in patients with idiopathic inflammatory myopathies (IIMs) worldwide is lacking. The second COVID-19 vaccination in autoimmune disease (COVAD-2) study [1] is an international, multicentre, self-reported e-survey assessing several aspects of COVID-19 infection and vaccination as well as validated patient-reported outcome measures (PROMs) to outline patient experience in various autoimmune diseases (AIDs), with a particular focus on IIMs.ObjectivesTo investigate physical and mental health in a global cohort of IIM patients compared to those with non-IIM autoimmune inflammatory rheumatic diseases (AIRDs), non-rheumatic AIDs (NRAIDs), and those without AIDs (controls), using Patient-Reported Outcome Measurement Information System (PROMIS) global health data obtained from the COVAD-2 survey.MethodsDemographics, AID diagnoses, comorbidities, disease activity, treatments, and PROMs were extracted from the COVAD-2 database. The primary outcomes were PROMIS Global Physical Health (GPH) and Global Mental Health (GMH) scores. Secondary outcomes included PROMIS physical function short form-10a (PROMIS PF-10a), pain visual analogue scale (VAS), and PROMIS Fatigue-4a scores. Each outcome was compared between IIMs, non-IIM AIRDs, NRAIDs, and controls. Factors affecting GPH and GMH scores in IIMs were identified using multivariable regression analysis.ResultsA total of 10,502 complete responses from 1582 IIMs, 4700 non-IIM AIRDs, 545 NRAIDs, and 3675 controls, which accrued as of May 2022, were analysed. Patients with IIMs were older [59±14 (IIMs) vs. 48±14 (non-IIM AIRDs) vs. 45±14 (NRAIDs) vs. 40±14 (controls) years, p<0.001] and more likely to be Caucasian [82.7% (IIMs) vs. 53.2% (non-IIM AIRDs) vs. 62.4% (NRAIDs) vs. 34.5% (controls), p<0.001]. Among IIMs, dermatomyositis (DM) and juvenile DM were the most common (31.4%), followed by inclusion body myositis (IBM) (24.9%). Patients with IIMs were more likely to have comorbidities [68.1% (IIMs) vs. 45.7% (non-IIM AIRDs) vs. 45.1% (NRAIDs) vs. 26.3% (controls), p<0.001] including mental disorders [33.4% (IIMs) vs. 28.2% (non-IIM AIRDs) vs. 28.4% (NRAIDs) vs. 17.9% (controls), p<0.001].GPH median scores were lower in IIMs compared to NRAIDs or controls [13 (interquartile range 10–15) IIMs vs. 13 (11–15) non-IIM AIRDs vs. 15 (13–17) NRAIDs vs. 17 (15–18) controls, p<0.001] and PROMIS PF-10a median scores were the lowest in IIMs [34 (25–43) IIMs vs. 40 (34–46) non-IIM AIRDs vs. 47 (40–50) NRAIDs vs. 49 (45–50) controls, p<0.001]. GMH median scores were lower in AIDs including IIMs compared to controls [13 (10–15) IIMs vs. 13 (10–15) non-IIM AIRDs vs. 13 (11–16) NRAIDs vs. 15 (13–17) controls, p<0.001]. Pain VAS median scores were higher in AIDs compared to controls [3 (1–5) IIMs vs. 4 (2–6) non-IIM AIRDs vs. 2 (0–4) NRAIDs vs. 0 (0–2) controls, p<0.001]. Of note, PROMIS Fatigue-4a median scores were the highest in IIMs [11 (8–14) IIMs vs. 8 (10–14) non-IIM AIRDs vs. 9 (7–13) NRAIDs vs. 7 (4–10) controls, p<0.001].Multivariable regression analysis in IIMs identified older age, male sex, IBM, comorbidities including hypertension and diabetes, active disease, glucocorticoid use, increased pain and fatigue as the independent factors for lower GPH scores, whereas coexistence of interstitial lung disease, mental disorders including anxiety disorder and depression, active disease, increased pain and fatigue were the independent factors for lower GMH scores.ConclusionBoth physical and mental health are significantly impaired in patients with IIMs compared to those with non-IIM AIDs or those without AIDs. Our results call for greater attention to patient-reported experience and comorbidities including mental disorders to provide targeted approaches and optimise global well-being in patients with IIMs.Reference[1]Fazal ZZ, Sen P, Joshi M, et al. COVAD survey 2 long-term outcomes: unmet need and protocol. Rheumatol Int. 2022;42:2151–58.AcknowledgementsThe authors a e grateful to all respondents for completing the questionnaire. The authors also thank The Myositis Association, Myositis India, Myositis UK, the Myositis Global Network, Cure JM, Cure IBM, Sjögren's India Foundation, EULAR PARE for their contribution to the dissemination of the survey. Finally, the authors wish to thank all members of the COVAD study group for their invaluable role in the data collection.Disclosure of InterestsAkira Yoshida: None declared, Yuan Li: None declared, Vahed Maroufy: None declared, Masataka Kuwana Speakers bureau: Boehringer Ingelheim, Ono Pharmaceuticals, AbbVie, Janssen, Astellas, Bayer, Asahi Kasei Pharma, Chugai, Eisai, Mitsubishi Tanabe, Nippon Shinyaku, Pfizer, Consultant of: Corbus, Mochida, Grant/research support from: Boehringer Ingelheim, Ono Pharmaceuticals, Naveen Ravichandran: None declared, Ashima Makol Consultant of: Boehringer-Ingelheim, Parikshit Sen: None declared, James B. Lilleker: None declared, Vishwesh Agarwal: None declared, Sinan Kardes: None declared, Jessica Day Grant/research support from: CSL Limited, Marcin Milchert: None declared, Mrudula Joshi: None declared, Tamer A Gheita: None declared, Babur Salim: None declared, Tsvetelina Velikova: None declared, Abraham Edgar Gracia-Ramos: None declared, Ioannis Parodis Grant/research support from: Amgen, AstraZeneca, Aurinia Pharmaceuticals, Eli Lilly, Gilead Sciences, GlaxoSmithKline, Janssen Pharmaceuticals, Novartis, and F. Hoffmann-La Roche, Elena Nikiphorou Speakers bureau: Celltrion, Pfizer, Sanofi, Gilead, Galapagos, AbbVie, Eli Lilly, Consultant of: Celltrion, Pfizer, Sanofi, Gilead, Galapagos, AbbVie, Eli Lilly, Grant/research support from: Pfizer, Eli Lilly, Ai Lyn Tan Speakers bureau: AbbVie, Gilead, Janssen, Eli Lilly, Novartis, Pfizer, UCB, Consultant of: AbbVie, Gilead, Janssen, Eli Lilly, Novartis, Pfizer, UCB, Arvind Nune: None declared, Lorenzo Cavagna: None declared, Miguel A Saavedra Consultant of: AbbVie, GlaxoSmithKline, Samuel Katsuyuki Shinjo: None declared, Nelly Ziade Speakers bureau: AbbVie, Boehringer-Ingelheim, Eli Lilly, Janssen, Pfizer, Roche, Consultant of: AbbVie, Boehringer-Ingelheim, Eli Lilly, Janssen, Pfizer, Roche, Grant/research support from: AbbVie, Boehringer-Ingelheim, Eli Lilly, Janssen, Pfizer, Roche, Johannes Knitza: None declared, Oliver Distler Speakers bureau: AbbVie, Amgen, Bayer, Boehringer Ingelheim, Janssen, Medscape, Novartis, Consultant of: 4P-Pharma, AbbVie, Acceleron, Alcimed, Altavant, Amgen, AnaMar, Arxx, AstraZeneca, Baecon, Blade, Bayer, Boehringer Ingelheim, Corbus, CSL Behring, Galderma, Galapagos, Glenmark, Gossamer, iQvia, Horizon, Inventiva, Janssen, Kymera, Lupin, Medscape, Merck, Miltenyi Biotec, Mitsubishi Tanabe, Novartis, Prometheus, Redxpharma, Roivant, Sanofi, Topadur, Grant/research support from: AbbVie, Amgen, Boehringer Ingelheim, Kymera, Mitsubishi Tanabe, Novartis, Roche, Hector Chinoy Grant/research support from: Eli Lilly, UCB, Vikas Agarwal: None declared, Rohit Aggarwal Consultant of: Mallinckrodt, Octapharma, CSL Behring, Bristol Myers-Squibb, EMD Serono, Kezar, Pfizer, AstraZeneca, Alexion, Argenx, Boehringer Ingelheim (BI), Corbus, Janssen, Kyverna, Roivant, Merck, Galapagos, Actigraph, Abbvie, Scipher, Horizontal Therapeutics, Teva, Biogen, Beigene, ANI Pharmaceutical, Nuvig, Capella, CabalettaBio, Grant/research support from: Bristol Myers-Squibb, Pfizer, Mallinckrodt, Janssen, Q32, EMD Serono, Boehringer Ingelheim, Latika Gupta: None declared.
ABSTRACT
BackgroundThe second COVID-19 vaccination in autoimmune disease (COVAD-2) study [1] is an international, multicentre, self-reported e-survey designed to evaluate several facets covering COVID-19 infection and vaccination as well as validated patient-reported outcome measures (PROMs) in a variety of autoimmune diseases (AIDs), including systemic sclerosis (SSc). Detailed assessment of the health-related quality of life (HRQOL) and its drivers in patients with SSc is lacking.ObjectivesTo assess physical and mental health in a global cohort of SSc patients in comparison with non-SSc autoimmune inflammatory rheumatic diseases (AIRDs), non-rheumatic AIDs (NRAIDs), and those without AIDs (controls) using Patient-Reported Outcome Measurement Information System (PROMIS) global health data from the COVAD-2 survey.MethodsThe COVAD-2 database was used to extract demographics, AID diagnosis, comorbidities, disease activity, current therapies, and PROMs. PROMIS global physical health (GPH), global mental health (GMH) scores, PROMIS physical function short form-10a (PROMIS PF-10a), pain visual analogue scale (VAS), and PROMIS Fatigue-4a scores were compared between SSc, non-SSc AIRDs, NRAIDs, and controls. Outcomes were also compared between diffuse cutaneous SSc (dcSSc) vs limited cutaneous SSc (lcSSc). Multivariable regression analysis was performed to identify factors influencing GPH and GMH scores in SSc.ResultsA total of 10,502 complete responses from 276 SSc, 6006 non-SSc AIRDs, 545 NRAIDs, and 3675 controls as of May 2022 were included in the analysis. Respondents with SSc were older [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 55 (14) vs. 51 (15) vs. 45 (14) vs. 40 (14) years old, mean (SD), p < 0.001]. Among patients with SSc, 129 (47%) had dcSSc and 147 (53%) had lcSSc. SSc patients reported a significantly higher prevalence of ILD [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 30.4% vs. 5.5% vs. 1.5% vs. 0.2%, p < 0.001], and treatment with MMF [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 26.4% vs. 9.5% vs. 1.1% vs. 0%, p < 0.001].Patients with SSc had lower GPH and PROMIS PF-10a scores [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 13 (11–15) vs. 13 (11–15) vs. 15 (13–17) vs. 17 (15–18), median (IQR), p < 0.001;39 (33–46) vs. 39 (32–45) vs. 47 (40–50) vs. 49 (45–50), p < 0.001, respectively] and higher Pain VAS and PROMIS Fatigue-4a scores compared to those with NRAIDs or controls [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 3 (2–5) vs. 3 (1–6) vs. 2 (0–4) vs. 0 (0–2), p < 0.001;11 (8–14) vs. 11 (8–14) vs. 9 (7–13) vs. 7 (4–10), p < 0.001, respectively]. Patients with AIDs including SSc had lower GMH scores compared to controls [SSc vs. non-SSc AIRDs vs. NRAIDs vs. controls: 12.5 (10–15) vs. 13 (10–15) vs. 13 (11–16) vs. 15 (13–17), p < 0.001].Among SSc patients, GPH, GMH, and PROMIS PF-10a scores were lower in dcSSc compared to lcSSc [dcSSc vs. lcSSc: 12 (10–14) vs. 14 (11–15), p < 0.001;12 (10-14) vs. 13 (10-15), p<0.001;38 (30–43) vs. 41 (34–47), p < 0.001, respectively]. Pain VAS and PROMIS Fatigue-4a scores were higher in dcSSc compared to lcSSc [4 (2–6) vs. 3 (1–5), p < 0.001;12 (8–15) vs. 9 (8–13), p < 0.001, respectively].The independent factors for lower GPH scores in SSc were older age, Asian ethnicity, glucocorticoid use, and higher pain and fatigue scales, while mental health disorders and higher pain and fatigue scales were independently associated with lower GMH scores.ConclusionIn a global cohort, patient-reported physical and mental health were significantly worse in patients with SSc in comparison to those with non-SSc AIDs and without AIDs. Our findings support the critical need for more attention to patient's subjective experiences including pain and fatigue to improve the HRQOL in patients with SSc.Reference[1]Fazal ZZ, Sen P, Joshi M, et al. COVAD survey 2 long-term outcomes: unmet need and protocol. Rheumatol Int. 2022;42: 2151–58.Acknowledgements:NIL.Disclosure of InterestsKeina Yomono: None declared, Yuan Li: None dec ared, Vahed Maroufy: None declared, Naveen Ravichandran: None declared, Akira Yoshida: None declared, Kshitij Jagtap: None declared, Tsvetelina Velikova Speakers bureau: Pfizer and AstraZeneca, Parikshit Sen: None declared, Lorenzo Cavagna: None declared, Vishwesh Agarwal: None declared, Johannes Knitza: None declared, Ashima Makol: None declared, Dey Dzifa: None declared, Carlos Enrique Toro Gutierrez: None declared, Tulika Chatterjee: None declared, Aarat Patel: None declared, Rohit Aggarwal Consultant of: Bristol Myers-Squibb, Pfizer, Genentech, Octapharma, CSL Behring, Mallinckrodt, AstraZeneca, Corbus, Kezar, Abbvie, Janssen, Kyverna Alexion, Argenx, Q32, EMD-Serono, Boehringer Ingelheim, Roivant, Merck, Galapagos, Actigraph, Scipher, Horizon Therepeutics, Teva, Beigene, ANI Pharmaceuticals, Biogen, Nuvig, Capella Bioscience, and CabalettaBio, Grant/research support from: Bristol Myers-Squibb, Pfizer, Genentech, Octapharma, CSL Behring, Mallinckrodt, AstraZeneca, Corbus, Kezar, Abbvie, Janssen, Kyverna Alexion, Argenx, Q32, EMD-Serono, Boehringer Ingelheim, Roivant, Merck, Galapagos, Actigraph, Scipher, Horizon Therepeutics, Teva, Beigene, ANI Pharmaceuticals, Biogen, Nuvig, Capella Bioscience, and CabalettaBio, Latika Gupta: None declared, Masataka Kuwana Speakers bureau: Abbvie, Asahi-Kasei, Astellas, Boehringer-Ingelheim, Chugai, Eisai, MBL, Mochida, Nippon Shinyaku, Ono Pharmaceuticals, Tanabe-Mitsubishi, Consultant of: Astra Zeneka, Boehringer-Ingelheim, Chugai, Corbus, GSK, Horizon, Tanabe-Mitsubishi, Grant/research support from: Boehringer-Ingelheim, Vikas Agarwal: None declared.
ABSTRACT
Education plays a critical role in promoting preventive behaviours against the spread of pandemics. In Japan, handwashing education in primary schools was positively correlated with preventive behaviours against COVID-19 transmission for adults in 2020, during the early stages of COVID-19. The following year, the Tokyo Olympics were held in Japan, and a state of emergency was declared several times. Public perceptions of and risks associated with the pandemic changed drastically with the emergence of COVID-19 vaccines. We re-examined whether the effect of handwashing education on preventive behaviours persisted by covering a longer period of the COVID-19 pandemic than previous studies. A total of 26 surveys were conducted nearly once a month for 30 months from March 2020 (the early stage of COVID-19) to September 2022 in Japan. By corresponding with the same individuals across surveys, we comprehensively gathered data on preventive behaviours during this period. In addition, we asked about the handwashing education they had received in their primary school. We used the data to investigate how and to what degree school education is associated with pandemic-mitigating preventive behaviours. We found that handwashing education in primary school is positively associated with behaviours such as handwashing and mask wearing as a COVID-19 preventive measure but not related to staying at home. We observed a statistically significant difference in handwashing between adults who received childhood handwashing education and those who did not. This difference persisted throughout the study period. In comparison, the difference in mask wearing between the two groups was smaller but still statistically significant. Furthermore, there was no difference in staying at home between them. Childhood hygiene education has resulted in individuals engaging in handwashing and mask wearing to cope with COVID-19. Individuals can form sustainable development-related habits through childhood education.
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BackgroundImpaired immunogenicity of COVID-19 vaccinations in inflammatory arthritis (IA) patients results in diminished immunity. However, optimal booster vaccination regimens are still unknown, due to unstudied kinetics of the immune response after booster vaccinations.ObjectivesThis study aimed to assess the kinetics of humoral and cellular responses in IA patients after the COVID-19 booster.MethodsIn 29 IA patients and 16 healthy controls (HC) humoral responses (level of IgG antibodies) and cellular responses (IFN-γ production) were assessed before (T0), after 4 weeks (T1), and after more than 6 months (T2) from the booster vaccination with BNT162b2.ResultsIA patients, but not HC, showed lower anti-S-IgG concentration and IGRA fold change at T2 compared to T1 (p=0.026 and p=0.031). Furthermore, in IA patients the level of cellular response at T2 returned to the pre-booster level (T0). All immunomodulatory drugs, except IL-6 and IL-17 inhibitors for the humoral and IL-17 inhibitors for the cellular response, impaired the immunogenicity of the booster dose at T2. However, none of the immunomodulatory drugs affected the kinetics of both humoral and cellular responses (measured as the difference between response rates at T1 and T2).ConclusionOur study showed impaired kinetics of both humoral and cellular responses after the booster dose of the COVID-19 vaccine in IA patients, which, in the case of cellular response, did not allow the vaccination effect to be maintained for more than 6 months. Repetitive vaccination with subsequent booster doses seems to be necessary for IA patients.REFERENCES:NIL.Acknowledgements:NIL.Disclosure of InterestsNone Declared.
ABSTRACT
Background: The outbreak of coronavirus disease 2019 (COVID-19) was declared by the World Health Organization (WHO) as a COVID-19 pandemic on March 11, 2020. Therefore, the availability of vaccines will help develop immunity and protect people from this pandemic. The present systematic study examined knowledge, attitudes, and willingness of adolescents towards COVID-19 vaccine in Bangkok, Thailand. Objectives: The objective of the study was to evaluate the knowledge, attitudes, and willingness toward COVID-19 vaccine of key stage 4A-5 students at Satit Prasarnmit International Programme in Bangkok towards COVID-19 vaccine. Materials and Methods: The study was conducted using an online questionnaire. A total of 136 students participated. Knowledge, attitudes, and willingness of adolescents toward the COVID-19 vaccine were assessed. Differences between outcomes and socio-demographic characteristics of participants were analyzed through independent t-tests and the ANOVA. The level of willingness to vaccinate against COVID-19 was analyzed by a generalized linear model. Results: Students revealed moderate knowledge about COVID-19, correctly answering 11.08 out of 15 points (SD = 1.74), a low level of attitudes toward COVID-19 vaccine 8.49 out of 15 points (SD = 2.51), and low level of willingness to vaccinate against COVID-19 vaccine 2.29 out of 5 points (SD = 1.26), in total of 35 points (28 questions). There are statistically significant positive correlations shown between attitude towards COVID-19 vaccine and the level of willingness to vaccinate against COVID-19 vaccine (I2 = 0.384, P < 0.01%). Conclusion: This study revealed students in Satit Prasarnmit International Programme had moderate knowledge towards COVID-19, negative attitudes toward COVID-19 vaccine and low willingness to vaccinate against COVID-19. Furthermore, it indicates that there is a casual relationship between attitudes toward COVID-19 vaccine and the willingness of individuals to be vaccinated against COVID-19 vaccine. Thus, attitude toward COVID-19 vaccine acts as a major predictive factor toward the willingness to vaccinate against COVID-19 vaccine. Therefore, to increase peopleA's willingness to be vaccinated against COVID-19 vaccine, it is necessary to increase peopleA's attitude toward COVID-19 vaccine.
ABSTRACT
The limited participation of African Americans in clinical trials has been a topic of discussion among medical and scientific researchers for some time. With the testing of coronavirus vaccines, this discussion has continued, particularly given the disproportionate impact of the virus on members of the African American community. With the public health goal of achieving widespread or "herd" immunity, the concept of "vaccine hesitancy" has also been addressed with regard to the population in general, and in relation to the African American community, among others. Vaccine hesitancy has been reported among groups from healthcare workers to rural residents to the poor. As is the case with all segments of society, African Americans are not monolithic. However, there are aspects of the issue of vaccine hesitancy which are unique and specific to the African American community in the U.S. In particular, the nature of the information about the coronavirus itself and about the vaccine, and importantly, the increasing availability of the information about the Tuskegee experiment, Henrietta Lacks, and other cases, along with the prevalence of misinformation and disinformation on aspects of science, such as that involving vaccines, are relevant to understanding the nature of vaccine hesitancy among African Americans.
ABSTRACT
The desperate need for new vaccines and therapies to tame the deadly COVID-19 virus required new policies and procedures for how biopharma companies select, test, and manufacture medical products-and revised regulatory practices for evaluating clinical data, manufacturing operations, and procedures for submitting and analyzing information. Vaccine experts at the Center for Biologics Evaluation and Research (CBER) worked overtime to clarify the size and diversity of efficacy trials and key analytical assessments needed to gain EUA status and later full approval, establishing standards and procedures that will shape research for health emergencies to come. Officials at FDA's Office of Regulatory Affairs (ORA) indicate that the agency will continue to utilize many of these strategies for streamlining oversight of manufacturing operations, even as on-site visits increase overseas and at home, leading to a more "hybrid" inspection process going forward.
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FDA's oversight of medical devices and diagnostics has put it in the hot seat for shortages of critical products for protecting medical personnel and for providing fast and accurate public testing for COVID infection. The result is that the White House has delayed in selecting an FDA commissioner, even though federal rules require Woodcock to vacate her acting position by mid-November unless the administration nominates a new commissioner, permitting her to continue on during the Senate confirmation process. The approval decision by CDER officials was blasted by members of Congress, the medical community and even some patient groups, but justified by the reviewers as likely to provide some benefit to some patients who lacked any alternative treatment for this devastating disease.
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More recent policies aim to offset years of underenrollment of minority groups by expanding enrollment criteria, including more research sites in minority communities, and engaging investigators with diverse backgrounds. FDA has also sought to promote research diversity through its Drug Trials Snapshots program, established in 2015 to increase the visibility of clinical trial enrollment by age, sex, ethnicity and race. According to a recent report on the program's impact, though, there still may be a ways to go for clinical trials to reflect the diversity of the US population.
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FNIH will manage an ACTIV steering committee to develop an inventory of potential candidates, launch master protocols with a single control arm, and set criteria for ranking potential candidates for first-wave and subsequent evaluation. [...]a third group will tap NIH's extensive clinical trial network infrastructure to build capacity for expediting trials and to study different populations and disease stages. ?o advance vaccine development, another ACTIV group will form a collaborative framework to map epitopes and develop assays, establish protocols for sampling and immunological analyses, collect clinical data on immunological responses and endpoints, and engage with regulators on surrogate endpoints for clinical evaluation. Jill Wechsler MULTIPLE WEBSITES IDENTIFY AND TRACK RESEARCH ON COVID Widespread research activity is available from these and other organizations: * The University of Oxford Center for Evidence-Based Medicines lists more than 1000 clinical trials at http:// covid19.trialstracker.net/index.html * Bill & Melinda Gates Foundation with Cytel identifies more than 600 trials in the US and other regions at https://covid19-trialscom * TranspariMed offers a guide to multiple trials at https://www.transparimed.org/ * Bi°Century tracks vaccines and therapeutics in its COVID-19 Resource Center, https://www.biocentury.com/ clinical-vaccines-and-therapies * World Health Organization: https://www. who.int/emergencies/diseases/novelcoronavirus-2019/global-researchon-novel-coronavirus-2019-ncov/ * Regulatory Affairs Professionals Society: https://www.raps.org/newsand-articles/news-articles/2020/3/ covid-19-therapeutics-tracker
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In spelling out the data expected for such authorization, agency officials emphasized the importance of fully vetting the safety and efficacy of any new coronovirus vaccine through a highly transparent process to boost public confidence in the ability of vaccines to save lives. Countering vaccine hesitancy Through the debate, officials in the Center for Biologics Evaluation and Research (CBER) emphasized that the EUA safety data requirement was already well known to vaccine manufacturers and that one aim was to assure manufacturers that FDA would hold all vaccine development programs to the same standards. Center for Biologics Evaluation and Research (CBER) Director Peter Marks further emphasized that the guidance sought to reassure the public that granting an EUA would not be a rushed decision on vaccine safety and efficacy to meet political goals, and that a vaccine EUA would require more data than for the more usual emergency authorizations for therapeutics and other medical products.
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Last week, eight prominent biotech industry executives publicly emphasized the importance of rigorous clinical research and complete study data to support any authorization or approval of a new covid vaccine or treatment. Hahn raises concerns These statements aim to offset fears that fda might soften its approval standards due to pressure from the White House to make available a covid vaccine in October. Continuing predictions from the White House about a vaccine being available in two months, and instructions from the Centers for Disease Control and Prevention (CDC) that state public health departments should be prepared to distribute a vaccine by the end of October, heightened concerns that political pressure will lead to some kind of authorization of a new vaccine before the Nov. 3 election.
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The much-anticipated meeting of FDA's Vaccines and Related Biological Products Advisory Committee (VRBPAC) last month addressed a number of critical issues related to testing and approval of vaccines to prevent COVID-19 infection, including policies and data requirements for determining that a pandemic vaccine can be considered safe and effective, particularly when based on more limited, early clinical trial data. While studies sponsored by AstraZeneca and Johnson & Johnson's Janssen unit resumed soon after the meeting, the study pauses were described by researchers as a sign that clinical trial safety systems were working as intended, as the analysts determined the adverse events were unrelated to the test vaccine candidates. The aim is to gain further information on vaccine efficacy and side effects, including rare adverse events and fuller comparisons among patient groups with differences in age, sex, comorbidities, and ethnic characteristics.
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At the agencies' request, the National Academy of Sciences, Engineering and Medicine iNASEMi has formed a blue-ribbon committee of leading bioethicists, economists, geneticists, and public health authorities to quickly develop a framework for priority vaccine access to assist policymakers in the U.S. and other nations achieve equitable distribution of anticipated vaccines (see: https://bit.ly/33jTCds). Individuals at higher risk will include those in higher age groups, with underlying health conditions, engaged in high-risk occupations, affected by racial and ethnic disparities, and in hardhit geographic locations. State and public health officials are wary of federal pandemic planning efforts so fair given the lack of coordination and effectiveness in distributing COVID-19 test kits and personal protective equipment to healthcare providers and facilities.
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Growing public concerns about politics playing a role in vetting potential vaccines and therapies to combat the COVID-19 pandemic has prompted sponsors of leading clinical trials to make public their study protocols and statistical analysis plans. [...]AstraZeneca's timeframe for enrolling and assessing study participants was delayed by the need to address the report of a serious adverse event in its Phase III study. The disclosure of these usually confidential details on research endpoints, assessment timeframes, and study analysis plans aim to promote information sharing among vaccine developers, and also build public confidence.
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[...]CURES' BILL PROMOTES PANDEMIC PREPAREDNESS Congressional leaders are developing the next version of the 21st Century Cures Act, including provisions to advance research related to the COVID-19 crisis as part of initiatives for bringing innovative therapies to market faster (see https://bit.ly/2SKfA4S). Cures 2.0 continues and updates some of the main themes of the first Cures Act: support development of treatments for rare diseases, patient-focused drug development, diversity in clinical trials, expanded use of digital health systems, increased health literacy, and utilization of real-world data. A public education campaign, moreover, would aim to counter concerns about the safety of vaccines to promote widespread vaccination. Because these treatments are costly and unprofitable for biopharma companies to test and market, the legislation proposes additional financial support for both pre-market studies and post-market production and subsidized higher reimbursement rates for antibiotics that address critical needs.
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BackgroundConsideration is needed when using Janus kinase (JAK) inhibitors to treat RA in pts aged ≥65 years or those with cardiovascular (CV) risk factors. The JAK1 preferential inhibitor FIL was generally well tolerated in clinical trials[1];safety has not been determined in a real-world setting.ObjectivesTo report baseline characteristics and up to 6-month safety data from the first 480 pts treated with FIL in the FILOSOPHY study (NCT04871919), and in two mutually exclusive subgroups based on age and CV risk.MethodsFILOSOPHY is an ongoing, phase 4, non-interventional, European study of pts with RA who have been prescribed FIL for the first time and in accordance with the product label in daily practice. Baseline characteristics and the incidence of select adverse events (AEs) are assessed in pts aged ≥65 years and/or with ≥1 CV risk factor (Table 1), and in those aged <65 years with no CV risk factors.ResultsAs of the end of June 2022, 480 pts had been treated: 441 received FIL 200 mg and 39 received FIL 100 mg. Of the 480 pts, 148 (30.8%) were aged ≥65 years;332 (69.2%) were aged <65 years. In total, 86 (17.9%) were former smokers, 81 (16.9%) were current smokers and 203 (42.3%) were non-smokers (data were missing for 110 pts [22.9%]). In addition to smoking, the most frequent CV risk factors included a history of hypertension (32.3%), a history of dyslipidemia (10.2%) and a family history of myocardial infarction (8.5%;Table 1).23 pts (4.8%) discontinued treatment due to AEs. Of the 354 pts aged ≥65 years or with ≥1 CV risk factor, infections affected 64 pts (18.1%), 34 (9.6%) had COVID-19, 2 (0.6%) had herpes zoster, and cardiac disorders (angina pectoris, atrial fibrillation, palpitations and tachycardia) affected 5 pts (1.4%);no cases of malignancies were observed. In the subgroup aged <65 years and with no CV risk factors (n=126), infections occurred in 18 pts (14.3%) (9 [7.1%] had COVID-19;3 [2.4%] had herpes zoster) and malignancies (myeloproliferative neoplasm) affected 1 pt (0.8%);no pts had cardiac disorders. There were no cases of deep vein thrombosis or pulmonary embolism in either subgroup.ConclusionIn this interim analysis of FILOSOPHY, no unexpected safety signals emerged at up to 6 months. Although infections and cardiac disorders affected a numerically greater proportion of pts aged ≥65 years or with ≥1 CV risk vs those aged <65 years with no CV risk, longer follow-up on a broader cohort is necessary to further characterize the safety of FIL in different groups of pts with RA.Reference[1]Winthrop K, et al. Ann Rheum Dis 2022;81:184–92Table 1.Baseline characteristics and CV risk factorsBaseline demographics/CV risk factorsAll FIL-treated pts (N=480)≥65 years or with ≥1 CV risk factor (n=354)<65 years and no CV risk factor (n=126)*Female sex, n (%)351 (73.1)252 (71.2)99 (78.6)Age, years, mean (SD)57.6 (11.5)60.4 (10.8)49.6 (9.6)Rheumatoid factor positive, n (%)†228 (47.5)167 (47.2)61 (48.4)Anti-citrullinated protein antibody positive, n (%)‡243 (50.6)176 (49.7)67 (53. 2)Body mass index, kg/m2, mean (SD)27.6 (5.7) n=43728.0 (5.4) n=33126.3 (6.4) n=106RA disease duration, years, mean (SD)10.4 (9.4) n=47810.5 (9.5) n=35310.0 (8.8) n=125Tender joint count 28, mean (SD)8.6 (6.9) n=4578.7 (7.1) n=3408.3 (6.3) n=117Swollen joint count 28, mean (SD)5.6 (5.2) n=4525.7 (5.4) n=3365.4 (4.4) n=116Former smoker, n (%)§86 (17.9)86 (24.3)0Current smoker, n (%)§81 (16.9)81 (22.9)0Non-smoker, n (%)§203 (42.3)130 (36.7)73 (57.9)Family history of myocardial infarction, n (%)41 (8.5)41 (11.6)0Medical history of: n (%) CV disease33 (6.9)33 (9.3)0 Diabetes35 (7.3)35 (9.9)0 Dyslipidemia49 (10.2)49 (13.8)0 Hypertension155 (32.3)155 (43.8)0 Ischemic CNS vascular disorders11 (2.3)11 (3.1)0 Peripheral vascular disease17 (3.5)17 (4.8)0*Includes 53 pts with missing smoking status data who were aged <65 years with no other CV risk factors.†Missing/unknown in 154 pts;‡Missing in 153 pts;§Smoking status data missing in 110 pts (22.9%).AcknowledgementsWe thank the physicia s and patients who participated in this study. The study was funded by Galapagos NV, Mechelen, Belgium. Publication coordination was provided by Fabien Debailleul, PhD, of Galapagos NV. Medical writing support was provided by Debbie Sherwood, BSc, CMPP (Aspire Scientific, Bollington, UK), and funded by Galapagos NV.Disclosure of InterestsPatrick Verschueren Speakers bureau: AbbVie, Eli Lilly, Galapagos, Roularta, Consultant of: Celltrion, Eli Lilly, Galapagos, Gilead, Nordic Pharma, Sidekick Health, Grant/research support from: Galapagos, Pfizer, Jérôme Avouac Speakers bureau: AbbVie, AstraZeneca, BMS, Eli Lilly, Galapagos, MSD, Novartis, Pfizer, Sandoz, Sanofi, Consultant of: AbbVie, Fresenius Kabi, Galapagos, Sanofi, Grant/research support from: BMS, Fresenius Kabi, Novartis, Pfizer, Karen Bevers Grant/research support from: Galapagos, Susana Romero-Yuste Speakers bureau: AbbVie, Biogen, BMS, Lilly, Pfizer, Consultant of: Sanofi, Lilly, Grant/research support from: Lilly, MSD, Roberto Caporali Speakers bureau: AbbVie, Amgen, BMS, Celltrion, Eli Lilly, Galapagos, Janssen, MSD, Novartis, Pfizer, Sandoz, UCB, Consultant of: AbbVie, Amgen, BMS, Celltrion, Eli Lilly, Fresenius Kabi, Galapagos, Janssen, MSD, Novartis, Pfizer, Roche, Sandoz, UCB, Thomas Debray Consultant of: Biogen, Galapagos, Gilead, Francesco De Leonardis Employee of: Galapagos, James Galloway Speakers bureau: AbbVie, Biogen, Eli Lilly, Galapagos, Gilead, Janssen, Novartis, Pfizer, Roche, UCB, Consultant of: AbbVie, Eli Lilly, Galapagos, Gilead, Janssen, Novartis, Pfizer, Grant/research support from: AstraZeneca, Celgene, Gilead, Janssen, Medicago, Novavax, Pfizer, Monia Zignani Shareholder of: Galapagos, Employee of: Galapagos, Gerd Rüdiger Burmester Speakers bureau: AbbVie, Amgen, BMS, Chugai, Galapagos, Lilly, Pfizer, Sanofi, Consultant of: AbbVie, Amgen, BMS, Galapagos, Lilly, Pfizer, Sanofi.