Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
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Use of COVID-19 Vaccines After Reports of Adverse Events Among Adult Recipients of Janssen (Johnson & Johnson) and mRNA COVID-19 Vaccines (Pfizer-BioNTech and Moderna): Update from the Advisory Committee on Immunization Practices - United States, July 2021.
Rosenblum HG , Hadler SC , Moulia D , Shimabukuro TT , Su JR , Tepper NK , Ess KC , Woo EJ , Mba-Jonas A , Alimchandani M , Nair N , Klein NP , Hanson KE , Markowitz LE , Wharton M , McNally VV , Romero JR , Talbot HK , Lee GM , Daley MF , Mbaeyi SA , Oliver SE . MMWR Morb Mortal Wkly Rep 2021 70 (32) 1094-1099 In December 2020, the Food and Drug Administration (FDA) issued Emergency Use Authorizations (EUAs) for Pfizer-BioNTech and Moderna COVID-19 vaccines, and in February 2021, FDA issued an EUA for the Janssen (Johnson & Johnson) COVID-19 vaccine. After each EUA, the Advisory Committee on Immunization Practices (ACIP) issued interim recommendations for vaccine use; currently Pfizer-BioNTech is authorized and recommended for persons aged ≥12 years and Moderna and Janssen for persons aged ≥18 years (1-3). Both Pfizer-BioNTech and Moderna vaccines, administered as 2-dose series, are mRNA-based COVID-19 vaccines, whereas the Janssen COVID-19 vaccine, administered as a single dose, is a recombinant replication-incompetent adenovirus-vector vaccine. As of July 22, 2021, 187 million persons in the United States had received at least 1 dose of COVID-19 vaccine (4); close monitoring of safety surveillance has demonstrated that serious adverse events after COVID-19 vaccination are rare (5,6). Three medical conditions have been reported in temporal association with receipt of COVID-19 vaccines. Two of these (thrombosis with thrombocytopenia syndrome [TTS], a rare syndrome characterized by venous or arterial thrombosis and thrombocytopenia, and Guillain-Barré syndrome [GBS], a rare autoimmune neurologic disorder characterized by ascending weakness and paralysis) have been reported after Janssen COVID-19 vaccination. One (myocarditis, cardiac inflammation) has been reported after Pfizer-BioNTech COVID-19 vaccination or Moderna COVID-19 vaccination, particularly after the second dose; these were reviewed together and will hereafter be referred to as mRNA COVID-19 vaccination. ACIP has met three times to review the data associated with these reports of serious adverse events and has comprehensively assessed the benefits and risks associated with receipt of these vaccines. During the most recent meeting in July 2021, ACIP determined that, overall, the benefits of COVID-19 vaccination in preventing COVID-19 morbidity and mortality outweigh the risks for these rare serious adverse events in adults aged ≥18 years; this balance of benefits and risks varied by age and sex. ACIP continues to recommend COVID-19 vaccination in all persons aged ≥12 years. CDC and FDA continue to closely monitor reports of serious adverse events and will present any additional data to ACIP for consideration. Information regarding risks and how they vary by age and sex and type of vaccine should be disseminated to providers, vaccine recipients, and the public. |
CDC Interim Recommendations for Fully Vaccinated People: An Important First Step.
Christie A , Mbaeyi SA , Walensky RP . JAMA 2021 325 (15) 1501-1502 On December 11, 2020, the US reached an extraordinary milestone in the efforts to end the COVID-19 pandemic: the Food and Drug Administration authorized emergency use of the first COVID-19 vaccine, manufactured by Pfizer-BioNTech. Since then, 2 additional COVID-19 vaccines, Moderna and Janssen (Johnson & Johnson), have received Emergency Use Authorization in the US and, as of March 8, 2021, more than 31 million people, or 9.4% of the total population, have completed a vaccination series.1 |
Meningococcal Vaccination: Recommendations of the Advisory Committee on Immunization Practices, United States, 2020
Mbaeyi SA , Bozio CH , Duffy J , Rubin LG , Hariri S , Stephens DS , MacNeil JR . MMWR Recomm Rep 2020 69 (9) 1-41 This report compiles and summarizes all recommendations from CDC's Advisory Committee on Immunization Practices (ACIP) for use of meningococcal vaccines in the United States. As a comprehensive summary and update of previously published recommendations, it replaces all previously published reports and policy notes. This report also contains new recommendations for administration of booster doses of serogroup B meningococcal (MenB) vaccine for persons at increased risk for serogroup B meningococcal disease. These guidelines will be updated as needed on the basis of availability of new data or licensure of new meningococcal vaccines. ACIP recommends routine vaccination with a quadrivalent meningococcal conjugate vaccine (MenACWY) for adolescents aged 11 or 12 years, with a booster dose at age 16 years. ACIP also recommends routine vaccination with MenACWY for persons aged ≥2 months at increased risk for meningococcal disease caused by serogroups A, C, W, or Y, including persons who have persistent complement component deficiencies; persons receiving a complement inhibitor (e.g., eculizumab [Soliris] or ravulizumab [Ultomiris]); persons who have anatomic or functional asplenia; persons with human immunodeficiency virus infection; microbiologists routinely exposed to isolates of Neisseria meningitidis; persons identified to be at increased risk because of a meningococcal disease outbreak caused by serogroups A, C, W, or Y; persons who travel to or live in areas in which meningococcal disease is hyperendemic or epidemic; unvaccinated or incompletely vaccinated first-year college students living in residence halls; and military recruits. ACIP recommends MenACWY booster doses for previously vaccinated persons who become or remain at increased risk. In addition, ACIP recommends routine use of MenB vaccine series among persons aged ≥10 years who are at increased risk for serogroup B meningococcal disease, including persons who have persistent complement component deficiencies; persons receiving a complement inhibitor; persons who have anatomic or functional asplenia; microbiologists who are routinely exposed to isolates of N. meningitidis; and persons identified to be at increased risk because of a meningococcal disease outbreak caused by serogroup B. ACIP recommends MenB booster doses for previously vaccinated persons who become or remain at increased risk. In addition, ACIP recommends a MenB series for adolescents and young adults aged 16-23 years on the basis of shared clinical decision-making to provide short-term protection against disease caused by most strains of serogroup B N. meningitidis. |
Evaluation of meningococcal vaccination policies among colleges and universities - United States, 2017
Oliver SE , Patton ME , Hoban M , Leino V , Mbaeyi SA , Hariri S , MacNeil JR . J Am Coll Health 2019 69 (5) 1-6 Objective: Quadrivalent meningococcal conjugate vaccines (MenACWY) have been recommended routinely for adolescents since 2005; in 2015, serogroup B meningococcal (MenB) vaccines were recommended for persons aged 16-23 years based on individual clinical decision making. We surveyed college health providers or administrators to understand current meningococcal vaccine policies. Methods/Participants: In January 2017, we distributed a survey to 985 institutions in partnership with the American College Health Association to assess vaccination policies and outbreak response plans. Results: Overall, 352 (36%) institutions completed the survey. Most either required (N = 186, 53%) or recommended (N = 148, 42%) a meningococcal vaccine; only half (N = 167) had a policy specifically addressing MenB vaccines. Few institutions with a MenB vaccine policy required vaccination (N = 7, 4%); most recommended vaccination (N = 160, 96%). Conclusion: Most institutions have a meningococcal vaccination policy; however, there is substantial diversity in policies. Fewer schools have policies specifically addressing MenB vaccines. |
Improving case-based meningitis surveillance in 5 countries in the meningitis belt of sub-Saharan Africa, 2015-2017
Mbaeyi SA , Lingani C , Diallo AO , Bicaba B , Ouedraogo-Traore R , Acyl M , Gamougame K , Coulibaly O , Coulibaly S , Zaneidou M , Sidikou F , Nikiema C , Sadji AY , Ake F , Tarbangdo F , Sakande S , Tall H , Njanpop-Lafourcade BM , Moisi J , N'Diaye A , Bwaka A , Bita A , Fernandez K , Poy A , Soeters HM , Vuong J , Novak R , Ronveaux O . J Infect Dis 2019 220 S155-s164 BACKGROUND: The MenAfriNet consortium was established in 2014 to support implementation of case-based meningitis surveillance in 5 countries in the meningitis belt of sub-Saharan Africa: Burkina Faso, Chad, Mali, Niger, and Togo. Assessing surveillance performance is critical for interpretation of the collected data and implementation of future surveillance-strengthening initiatives. METHODS: Detailed epidemiologic and laboratory data were collected on suspected meningitis cases through case-based meningitis surveillance in participating districts in 5 countries. Performance of case-based surveillance was evaluated through sensitivity of case ascertainment in case-based versus aggregate meningitis surveillance and an analysis of surveillance indicators. RESULTS: From 2015 to 2017, 18 262 suspected meningitis cases were identified through case-based surveillance and 16 262 were identified through aggregate surveillance, for a case ascertainment sensitivity of 112.3%. Among suspected cases, 16 885 (92.5%) had a cerebrospinal fluid (CSF) specimen collected, 13 625 (80.7%) of which were received at a national reference laboratory. Among these, 13 439 (98.6%) underwent confirmatory testing, and, of those tested, 4371 (32.5%) were confirmed for a bacterial pathogen. CONCLUSIONS: Overall strong performance for case ascertainment, CSF collection, and laboratory confirmation provide evidence for the quality of MenAfriNet case-based surveillance in evaluating epidemiologic trends and informing future vaccination strategies. |
MenAfriNet: A network supporting case-based meningitis surveillance and vaccine evaluation in the meningitis belt of Africa
Patel JC , Soeters HM , Diallo AO , Bicaba BW , Kadade G , Dembele AY , Acyl MA , Nikiema C , Lingani C , Hatcher C , Acosta AM , Thomas JD , Diomande F , Martin S , Clark TA , Mihigo R , Hajjeh RA , Zilber CH , Ake F , Mbaeyi SA , Wang X , Moisi JC , Ronveaux O , Mwenda JM , Novak RT . J Infect Dis 2019 220 S148-s154 Meningococcal meningitis remains a significant public health threat, especially in the African meningitis belt where Neisseria meningitidis serogroup A historically caused large-scale epidemics. With the rollout of a novel meningococcal serogroup A conjugate vaccine (MACV) in the belt, the World Health Organization recommended case-based meningitis surveillance to monitor MACV impact and meningitis epidemiology. In 2014, the MenAfriNet consortium was established to support strategic implementation of case-based meningitis surveillance in 5 key countries: Burkina Faso, Chad, Mali, Niger, and Togo. MenAfriNet aimed to develop a high-quality surveillance network using standardized laboratory and data collection protocols, develop sustainable systems for data management and analysis to monitor MACV impact, and leverage the surveillance platform to perform special studies. We describe the MenAfriNet consortium, its history, strategy, implementation, accomplishments, and challenges. |
Bacterial meningitis epidemiology in five countries in the meningitis belt of sub-Saharan Africa, 2015-2017
Soeters HM , Diallo AO , Bicaba BW , Kadade G , Dembele AY , Acyl MA , Nikiema C , Sadji AY , Poy AN , Lingani C , Tall H , Sakande S , Tarbangdo F , Ake F , Mbaeyi SA , Moisi J , Paye MF , Sanogo YO , Vuong JT , Wang X , Ronveaux O , Novak RT . J Infect Dis 2019 220 S165-s174 BACKGROUND: The MenAfriNet Consortium supports strategic implementation of case-based meningitis surveillance in key high-risk countries of the African meningitis belt: Burkina Faso, Chad, Mali, Niger, and Togo. We describe bacterial meningitis epidemiology in these 5 countries in 2015-2017. METHODS: Case-based meningitis surveillance collects case-level demographic and clinical information and cerebrospinal fluid (CSF) laboratory results. Neisseria meningitidis, Streptococcus pneumoniae, or Haemophilus influenzae cases were confirmed and N. meningitidis/H. influenzae were serogrouped/serotyped by real-time polymerase chain reaction, culture, or latex agglutination. We calculated annual incidence in participating districts in each country in cases/100 000 population. RESULTS: From 2015-2017, 18 262 suspected meningitis cases were reported; 92% had a CSF specimen available, of which 26% were confirmed as N. meningitidis (n = 2433; 56%), S. pneumoniae (n = 1758; 40%), or H. influenzae (n = 180; 4%). Average annual incidences for N. meningitidis, S. pneumoniae, and H. influenzae, respectively, were 7.5, 2.5, and 0.3. N. meningitidis incidence was 1.5 in Burkina Faso, 2.7 in Chad, 0.4 in Mali, 14.7 in Niger, and 12.5 in Togo. Several outbreaks occurred: NmC in Niger in 2015-2017, NmC in Mali in 2016, and NmW in Togo in 2016-2017. Of N. meningitidis cases, 53% were NmC, 30% NmW, and 13% NmX. Five NmA cases were reported (Burkina Faso, 2015). NmX increased from 0.6% of N. meningitidis cases in 2015 to 27% in 2017. CONCLUSIONS: Although bacterial meningitis epidemiology varied widely by country, NmC and NmW caused several outbreaks, NmX increased although was not associated with outbreaks, and overall NmA incidence remained low. An effective low-cost multivalent meningococcal conjugate vaccine could help further control meningococcal meningitis in the region. |
University-based outbreaks of meningococcal disease caused by serogroup B, United States, 2013-2018
Soeters HM , McNamara LA , Blain AE , Whaley M , MacNeil JR , Hariri S , Mbaeyi SA . Emerg Infect Dis 2019 25 (3) 434-440 We reviewed university-based outbreaks of meningococcal disease caused by serogroup B and vaccination responses in the United States in the years following serogroup B meningococcal (MenB) vaccine availability. Ten university-based outbreaks occurred in 7 states during 2013-2018, causing a total of 39 cases and 2 deaths. Outbreaks occurred at universities with 3,600-35,000 undergraduates. Outbreak case counts ranged from 2 to 9 cases; outbreak duration ranged from 0 to 376 days. All 10 universities implemented MenB vaccination: 3 primarily used MenB-FHbp and 7 used MenB-4C. Estimated first-dose vaccination coverage ranged from 14% to 98%. In 5 outbreaks, additional cases occurred 6-259 days following MenB vaccination initiation. Although it is difficult to predict outbreak trajectories and evaluate the effects of public health response measures, achieving high MenB vaccination coverage is crucial to help protect at-risk persons during outbreaks of meningococcal disease caused by this serogroup. |
Meningococcal Disease Among College-Aged Young Adults: 2014-2016.
Mbaeyi SA , Joseph SJ , Blain A , Wang X , Hariri S , MacNeil JR . Pediatrics 2019 143 (1) BACKGROUND: Freshman college students living in residence halls have previously been identified as being at an increased risk for meningococcal disease. In this evaluation, we assess the incidence and characteristics of meningococcal disease in college-aged young adults in the United States. METHODS: The incidence and relative risk (RR) of meningococcal disease among college students compared with noncollege students aged 18 to 24 years during 2014-2016 were calculated by using data from the National Notifiable Diseases Surveillance System and enhanced meningococcal disease surveillance. Differences in demographic characteristics and clinical features of meningococcal disease cases were assessed. Available meningococcal isolates were characterized by using slide agglutination, polymerase chain reaction, and whole genome sequencing. RESULTS: From 2014 to 2016, 166 cases of meningococcal disease occurred in persons aged 18 to 24 years, with an average annual incidence of 0.17 cases per 100 000 population. Six serogroup B outbreaks were identified on college campuses, accounting for 31.7% of serogroup B cases in college students during this period. The RR of serogroup B meningococcal (MenB) disease in college students versus noncollege students was 3.54 (95% confidence interval: 2.21-5.41), and the RR of serogroups C, W, and Y combined was 0.56 (95% confidence interval: 0.27-1.14). The most common serogroup B clonal complexes identified were CC32/ET-5 and CC41/44 lineage 3. CONCLUSIONS: Although the incidence is low, among 18- to 24-year-olds, college students are at an increased risk for sporadic and outbreak-associated MenB disease. Providers, college students, and parents should be aware of the availability of MenB vaccines. |
Whole genome sequencing for investigations of meningococcal outbreaks in the United States: a retrospective analysis.
Whaley MJ , Joseph SJ , Retchless AC , Kretz CB , Blain A , Hu F , Chang HY , Mbaeyi SA , MacNeil JR , Read TD , Wang X . Sci Rep 2018 8 (1) 15803 Although rare in the U.S., outbreaks due to Neisseria meningitidis do occur. Rapid, early outbreak detection is important for timely public health response. In this study, we characterized U.S. meningococcal isolates (N = 201) from 15 epidemiologically defined outbreaks (2009-2015) along with temporally and geographically matched sporadic isolates using multilocus sequence typing, pulsed-field gel electrophoresis (PFGE), and six whole genome sequencing (WGS) based methods. Recombination-corrected maximum likelihood (ML) and Bayesian phylogenies were reconstructed to identify genetically related outbreak isolates. All WGS analysis methods showed high degree of agreement and distinguished isolates with similar or indistinguishable PFGE patterns, or the same strain genotype. Ten outbreaks were caused by a single strain; 5 were due to multiple strains. Five sporadic isolates were phylogenetically related to 2 outbreaks. Analysis of 9 outbreaks using timed phylogenies identified the possible origin and estimated the approximate time that the most recent common ancestor emerged for outbreaks analyzed. U.S. meningococcal outbreaks were caused by single- or multiple-strain introduction, with organizational outbreaks mainly caused by a clonal strain and community outbreaks by divergent strains. WGS can infer linkage of meningococcal cases when epidemiological links are uncertain. Accurate identification of outbreak-associated cases requires both WGS typing and epidemiological data. |
Initial validation of a simulation model for estimating the impact of serogroup A Neisseria meningitidis vaccination in the African meningitis belt
Jackson ML , Diallo AO , Medah I , Bicaba BW , Yameogo I , Koussoube D , Ouedraogo R , Sangare L , Mbaeyi SA . PLoS One 2018 13 (10) e0206117 We previously developed a mathematical simulation of serogroup A Neisseria meningitidis (NmA) transmission in Burkina Faso, with the goal of forecasting the relative benefit of different vaccination programs. Here, we revisit key structural assumptions of the model by comparing how accurately the different assumptions reproduce observed NmA trends following vaccine introduction. A priori, we updated several of the model's parameters based on recently published studies. We simulated NmA disease under different assumptions about duration of vaccine-induced protection (including the possibility that vaccine-induced protection may last longer than natural immunity). We compared simulated and observed case counts from 2011-2017. We then used the best-fit model to forecast the impact of different vaccination strategies. Our updated model, with the assumption that vaccine-induced immunity lasts longer than immunity following NmA colonization, was able to reproduce observed trends in NmA disease. The updated model predicts that, following a mass campaign among persons 1-29 years of age, either routine immunization of 9 month-old children or periodic mini-campaigns among children 1-4 years of age will lead to sustained control of epidemic NmA in Burkina Faso. This validated model can help public health officials set policies for meningococcal vaccination in Africa. |
Meningococcal disease surveillance in men who have sex with men - United States, 2015-2016
Bozio CH , Blain A , MacNeil J , Retchless A , Weil LM , Wang X , Jenkins LT , Rodriguez-Rivera LD , Jarashow C , Ngo V , Hariri S , Mbaeyi SA , Oliver S . MMWR Morb Mortal Wkly Rep 2018 67 (38) 1060-1063 Meningococcal disease is a rare, but serious, bacterial infection that progresses rapidly and can be life-threatening, even with prompt antibiotic treatment. Men who have sex with men (MSM) have previously been reported to be at increased risk for meningococcal disease compared with other men, and recent outbreaks of serogroup C meningococcal disease among MSM have occurred (1). However, the epidemiology of meningococcal disease among MSM in the United States is not well described, in part, because information about MSM has not historically been collected as part of routine meningococcal disease surveillance. To better characterize and identify risk factors for meningococcal disease in general, supplementary data and isolates have been collected since 2015 through enhanced meningococcal disease surveillance activities. During 2015-2016, 271 cases of meningococcal disease in men aged >/=18 years were reported to the National Notifiable Diseases Surveillance System (NNDSS) in 45 states participating in this enhanced surveillance. Forty-eight (17.7%) cases were in men identified as MSM, including 17 (37.8%) with human immunodeficiency virus (HIV) infection. Among MSM, 39 (84.8%) cases were caused by Neisseria meningitidis serogroup C, whereas this serogroup was responsible for only 16.4% of cases among men who were not known to be MSM (non-MSM). Despite improvements in surveillance, MSM likely remain underascertained among men with meningococcal disease. Improved surveillance data are needed to understand the prevalence of and risk for meningococcal disease among MSM and inform policy and prevention strategies. Vaccination with quadrivalent meningococcal conjugate (MenACWY) vaccine is recommended for the control of meningococcal disease outbreaks caused by serogroups A, C, W, or Y, including during outbreaks among MSM; in addition, all persons aged >/=2 months with HIV infection should receive MenACWY vaccine because of the increased risk for meningococcal disease. |
National, regional, state, and selected local area vaccination coverage among adolescents aged 13-17 years - United States, 2017
Walker TY , Elam-Evans LD , Yankey D , Markowitz LE , Williams CL , Mbaeyi SA , Fredua B , Stokley S . MMWR Morb Mortal Wkly Rep 2018 67 (33) 909-917 The Advisory Committee on Immunization Practices (ACIP) recommends routine vaccination of persons aged 11-12 years with human papillomavirus (HPV) vaccine, quadrivalent meningococcal conjugate vaccine (MenACWY), and tetanus and reduced diphtheria toxoids and acellular pertussis vaccine (Tdap). A booster dose of MenACWY is recommended at age 16 years (1), and catch-up vaccination is recommended for hepatitis B vaccine (HepB), measles, mumps, and rubella vaccine (MMR), and varicella vaccine (VAR) for adolescents whose childhood vaccinations are not up to date (UTD) (1). ACIP also recommends that clinicians may administer a serogroup B meningococcal vaccine (MenB) series to adolescents and young adults aged 16-23 years, with a preferred age of 16-18 years (2). To estimate U.S. adolescent vaccination coverage, CDC analyzed data from the 2017 National Immunization Survey-Teen (NIS-Teen) for 20,949 adolescents aged 13-17 years.* During 2016-2017, coverage increased for >/=1 dose of HPV vaccine (from 60.4% to 65.5%), >/=1 dose of MenACWY (82.2% to 85.1%), and >/=2 doses of MenACWY (39.1% to 44.3%). Coverage with Tdap remained stable at 88.7%. In 2017, 48.6% of adolescents were UTD with the HPV vaccine series (HPV UTD) compared with 43.4% in 2016.(dagger) On-time vaccination (receipt of >/=2 or >/=3 doses of HPV vaccine by age 13 years) also increased. As in 2016, >/=1-dose HPV vaccination coverage was lower among adolescents living in nonmetropolitan statistical areas (MSAs) (59.3%) than among those living in MSA principal cities (70.1%).( section sign) Although HPV vaccination initiation remains lower than coverage with MenACWY and Tdap, HPV vaccination coverage has increased an average of 5.1 percentage points annually since 2013, indicating that continued efforts to target unvaccinated teens and eliminate missed vaccination opportunities might lead to HPV vaccination coverage levels comparable to those of other routinely recommended adolescent vaccines. |
Epidemiology of meningococcal disease outbreaks in the United States, 2009-2013
Mbaeyi SA , Blain A , Whaley MJ , Wang X , Cohn AC , MacNeil JR . Clin Infect Dis 2018 68 (4) 580-585 Background: Although incidence of meningococcal disease is low in the United States, outbreaks remain a serious public health concern. In this evaluation, we identify and describe outbreaks of meningococcal disease. Methods: A retrospective review of all meningococcal disease cases reported from January 1, 2009 to December 31, 2013 was performed by state health departments and CDC to identify meningococcal disease outbreaks. An outbreak was defined as 2 or more primary cases of the same serogroup in less than three months in an organization, or an at-least two-fold increase in disease rates in a community. Results: From 2009 to 2013, 3,686 cases of meningococcal disease were reported in the United States. Among these, 180 primary cases (4.9%) occurred as part of 36 outbreaks (17 organization-based and 19 community-based). Serogroup B accounted for 8 (47.1%) organization-based outbreaks, including 6 of 8 university outbreaks. Serogroup C accounted for 10 (52.6%) community-based outbreaks, including both of the 2 outbreaks identified among men who have sex with men. Organization- and community-based outbreaks differed in predominant serogroup, age distribution of cases, and clinical syndrome. Among 33 outbreaks with known information, a vaccination and/or expanded chemoprophylaxis campaign were conducted in 16 (48.5%). Conclusions: Outbreak-associated cases account for approximately 5% of all meningococcal disease cases in the United States. Serogroup B is the primary cause of organization-based outbreaks, with the majority of university outbreaks due to serogroup B, while serogroup C is the primary cause of community-based outbreaks. |
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