DOCSLIB.ORG

Covid 19 and Vaccination

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Covid 19 and Vaccination Reg No. :AS20SDA127074 Name : Kaustav Jyoti Kachari Institute: Dibrugarh University Email : [email protected] Phn No. : 7086545017 Covid 19 and vaccination The unexpected outbreak of Covid-19 disease has led the world to an unexpected public health crisis. Since its emergence in Asia in late 2019, the virus has spread all Over the world. The pandemic is moving like a wave and countries are trying to slow The spread of the virus by testing and treating patients, carrying out contact tracing, Limiting travel and cancelling large mass gathering etc. Educational institute are also Closed. Covid-19 has created devastating economic crises. Everyday people are losing jobs and income, with no way of knowing when normality will return. The enormous scale of the crisis and the impact it is having are naturally causing a lot of fear, uncertainty and anxiety across the globe. Add social isolation, disrupted work and family routines, cabin fever and economic instability, and it is understandable that our mental health is suffering. In a recent survey by the Kaiser Family Foundation, 45% of adults feel that worry and stress related to coronavirus has had a negative impact on their mental health. With lot of research, the scientists and the researchers are able develop the Covid 19 Vaccine. A COVID-19 vaccine is a vaccine intended to provide acquired Immunity against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). On 10 January 2020, the SARS-CoV-2 genetic sequence data was shared through GISAID, And by 19 March, the global pharmaceutical industry announced a major commitment To address COVID-19 In Phase III trials, several COVID-19 vaccines have demonstrated efficacy as high as 95% in preventing symptomatic COVID-19 infections. As of April 2021, 16 vaccines are authorized by at least one national regulatory authority for public use: three RNA Vaccines (Pfizer–BioNTech and Moderna), seven conventional inactivated Vaccines (BBIBP-CorV, CoronaVac, Covaxin, WIBP-CorV, CoviVac, MinhaiKangtai and QazVac), five viral vector vaccines (Sputnik Light, Sputnik V, Oxford–AstraZeneca, Convidecia, and Johnson & Johnson), and two protein subunit Vaccines (EpiVacCorona and RBD-Dimer). As of 27 May 2021, 1.81 billion doses of COVID-19 vaccine have been administered worldwide based on official reports from national health agencies. AstraZeneca Anticipates producing 3 billion doses in 2021, Pfizer– BioNTech 1.3 billion doses, and Sputnik V, Sinopharm, Sinovac, and Johnson & Johnson 1 billion doses each. Moderna targets producing 600 million doses and Convidecia 500 million doses in 2021. By December 2020, more than 10 billion vaccine doses had been preordered by countries, with about half of the doses purchased by high-income countries. From the December 2020, people all over the world have started to get vaccinated. Now people may ask how does covid 19 vaccine? So here is the answer, Vaccines prompt the immune system to make antibodies to defend against specific diseases. In other words — they make the immune system behave as if the body already had this illness. After vaccination, the person develops immunity to the disease. Their body can fight off the infection if exposure to the pathogen, such as the novel coronavirus occurs. An effective vaccine stimulates the immune system without kicking it into overdrive. It is essential to receive the vaccine from a licensed healthcare professional and follow every instruction, including getting a second dose. In the short term, a Person who has had a COVID-19 vaccine may experience flu-like symptoms and other side effects, including: pain at the injection site, swelling at the injection site, fatigue headache and muscle pain. Anyone with a history of allergiesTrusted Source to Vaccines or other injectable medications should tell the healthcare worker before they administer the vaccine. Like all over the world, India also has started to distribute vaccines from the ending of 2020. There are three vaccines distributed in India which are Covaxin and Covishield Manufactured by India, and the third one is Sputnik V by Russia. The Serum Institute Of India (SII) makes Covishield (under license from AstraZeneca), whilst the second Largest producer, Bharat Biotech, makes the locally-developed Covaxin. Indian Government has taken many steps for distribution of covid 19 vaccine which are available in local hospitals and health care centers all over the India. In early April, daily vaccinations peaked at 3.6 million but that figure has since fallen back to around 1.6 Million per day. This dip is due to the shortage and wastage of vaccines in India. The Centre has so far provided nearly 16 crore vaccine doses to States of which the total Consumption including wastage is 14.8 crore doses. Maharashtra led the table of Vaccines administered with 1.5 crore doses followed by Rajasthan (1.3 crore), Uttar Pradesh (1.25 crore) and Gujarat (1.23 crore). These were also the States that had so Far received the maximum number of vaccines, again in that order. Among large States, Tamil Nadu reported a high percentage of vaccine wastage, nearly 8.83%. Only Lakshadweep had a higher 9.76%. Assam, Manipur and Haryana ranked after Tamil Nadu in percentage wastage of vaccines, at 7.7%, 7.4%and 5.72%. The Andaman and Nicobar Islands, Arunachal Pradesh, Goa, Himachal Pradesh, Kerala, Mizoram, Odisha Were the States that had reported no wastage. These wastage may occur due to many Factors poor planning of the center, vaccines arriving after expiry etc. The NCC is playing a great role in this pandemic time. The cadets are coming forward to contribute to the society by helping in vaccination centers, distribute food and other necessary materials to the people. In the rural parts there were also many myths about Covid 19 vaccine so as a NCC cadet it is our duty to tell people about the vaccine and it’s effectiveness and also help them getting these vaccines. In this pandemic we are all in together and we should believe that this too shall pass. So take the vaccines at your turn, maintain the covid 19 guidelines and we will get over this soon. .
Load more

Recommended publications
  • New Brunswick COVID-19 Vaccine Clinic Guide for Immunizers
    New Brunswick COVID-19 Vaccine Clinic Guide for Immunizers Department of Health Public Health New Brunswick September 17, 2021 Public Health New Brunswick New Brunswick Department of Health PO Box 5100 Fredericton, New Brunswick, E3B 5G8 Canada This report is available online: www.gnb.ca/publichealth Ce document est aussi disponible en français sur le titre «Guide sur la vaccination contre la COVID-19 pour les Vaccinateurs du Nouveau-Brunswick ». TABLE OF CONTENTS NEW BRUNSWICK COVID-19 CLINIC GUIDE FOR IMMUNIZERS .......................................................... 1 1.0. PURPOSE ....................................................................................................................................... 1 2.0. VACCINE SOP ON TRANSPORTATION AND RECEIPT ............................................................. 1 Vaccines – storage and handling and maintaining cold chain to prevent temperature excursions (portable freezers and refrigeration) .......................................................... 2 3.0. SCHEDULES, DOSES AND ADMINISTRATION OF COVID-19 VACCINES ............................... 3 Carton Labelling of COVID-19 Vaccines ........................................................................ 4 4.0. REDUCING UNNECESSARY VACCINE WASTAGE .................................................................... 4 Context .............................................................................................................................. 4 Planning and prioritizing individual vaccination over wastage .................................
    [Show full text]
  • COVID-19 Vaccination Programme: Information for Healthcare Practitioners
    COVID-19 vaccination programme Information for healthcare practitioners Republished 6 August 2021 Version 3.10 1 COVID-19 vaccination programme: Information for healthcare practitioners Document information This document was originally published provisionally, ahead of authorisation of any COVID-19 vaccine in the UK, to provide information to those involved in the COVID-19 national vaccination programme before it began in December 2020. Following authorisation for temporary supply by the UK Department of Health and Social Care and the Medicines and Healthcare products Regulatory Agency being given to the COVID-19 Vaccine Pfizer BioNTech on 2 December 2020, the COVID-19 Vaccine AstraZeneca on 30 December 2020 and the COVID-19 Vaccine Moderna on 8 January 2021, this document has been updated to provide specific information about the storage and preparation of these vaccines. Information about any other COVID-19 vaccines which are given regulatory approval will be added when this occurs. The information in this document was correct at time of publication. As COVID-19 is an evolving disease, much is still being learned about both the disease and the vaccines which have been developed to prevent it. For this reason, some information may change. Updates will be made to this document as new information becomes available. Please use the online version to ensure you are accessing the latest version. 2 COVID-19 vaccination programme: Information for healthcare practitioners Document revision information Version Details Date number 1.0 Document created 27 November 2020 2.0 Vaccine specific information about the COVID-19 mRNA 4 Vaccine BNT162b2 (Pfizer BioNTech) added December 2020 2.1 1.
    [Show full text]
  • Considerations for Causality Assessment of Neurological And
    Occasional essay J Neurol Neurosurg Psychiatry: first published as 10.1136/jnnp-2021-326924 on 6 August 2021. Downloaded from Considerations for causality assessment of neurological and neuropsychiatric complications of SARS- CoV-2 vaccines: from cerebral venous sinus thrombosis to functional neurological disorder Matt Butler ,1 Arina Tamborska,2,3 Greta K Wood,2,3 Mark Ellul,4 Rhys H Thomas,5,6 Ian Galea ,7 Sarah Pett,8 Bhagteshwar Singh,3 Tom Solomon,4 Thomas Arthur Pollak,9 Benedict D Michael,2,3 Timothy R Nicholson10 For numbered affiliations see INTRODUCTION More severe potential adverse effects in the open- end of article. The scientific community rapidly responded to label phase of vaccine roll- outs are being collected the COVID-19 pandemic by developing novel through national surveillance systems. In the USA, Correspondence to SARS- CoV-2 vaccines (table 1). As of early June Dr Timothy R Nicholson, King’s roughly 372 adverse events have been reported per College London, London WC2R 2021, an estimated 2 billion doses have been million doses, which is a lower rate than expected 1 2LS, UK; timothy. nicholson@ administered worldwide. Neurological adverse based on the clinical trials.6 kcl. ac. uk events following immunisation (AEFI), such as In the UK, adverse events are reported via the cerebral venous sinus thrombosis and demyelin- MB and AT are joint first Coronavirus Yellow Card reporting website. As of ating episodes, have been reported. In some coun- authors. early June 2021, approximately 250 000 Yellow tries, these have led to the temporary halting of BDM and TRN are joint senior Cards have been submitted, equating to around authors.
    [Show full text]
  • CARPHA COVID-19 Vaccine Update 015 April 19, 2021
    CARPHA UPDATE FOR Incident Manager / SITUATION REPORT COVID-19 Vaccines Update Supplement Week of: 19th April, 2021 I. Overview of Development and Regulatory Approvals: • 88 candidate vaccines are in clinical development: 16 in Phase 3 trials, and 4 in Phase 4 trials – see Figure in CARPHA COVID-19 Vaccine Regulatory Tracker (Phases tab). • 15 vaccines have received regulatory approvals in various countries, and 18 vaccines are at various stages of engagement with WHO for emergency use listing (EUL). • One additional AstraZeneca vaccine was approved by the WHO for Emergency Use Listing on 15th April, bringing the total number of listed COVID-19 vaccines by different manufacturers to 5: Pfizer-BioNTech’s vaccine: COMIRNATY®, AstraZeneca-SK Bio, AstraZeneca-SII (Covishield), Janssen-Cilag, AstraZeneca (EU node; Vaxzevria™) • 2 additional vaccines are expected to be approved by WHO in April, and 1 in May: Tables 1 and 3. • There is one additional vaccine being considered by WHO however it is at the stage of submitting expressions of interest: Bayer AG – Germany (CureVAC) • The WHO Global Advisory Committee on Vaccine Safety (GACVS) issued an interim statement indicating that based on current information, a causal relationship between the vaccine and the occurrence of rare blood clots with low platelets is considered plausible but is not confirmed. Specialised studies are needed to fully understand the potential relationship between vaccination and possible risk factors. The WHO maintains that the benefit-risk balance of the vaccine remains favorable. • CARPHA has shared its COVID-19 vaccine regulatory tracker with Member States for viewing as updates are made. • CARPHA-CRS has completed its review of the COVID-19 vaccine by Janssen-Cilag Pharmaceuticals (Johnson & Johnson), which will be finalized and shared with chief medical officers this week.
    [Show full text]
  • WHO COVID-19 Database Search Strategy (Updated 26 May 2021)
    Search purpose: Systematic search of the COVID-19 literature performed Monday through Friday for the WHO Database. Search strategy as of 26 May 2021. Searches performed by Tomas Allen, Kavita Kothari, and Martha Knuth. Use following commands to pull daily new entries: Entry_date:( [20210101 TO 20210120]) Entry_date:( 20210105) Duplicates: Duplicates are found in EndNote and Distillr using the Wichor method. Further screening is done by expert reviewers but some duplicates may still be in the database. Daily Search Strategy: Database Daily Search Strategy Medline (coronavir* OR corona virus* OR corona pandemic* OR betacoronavir* OR covid19 OR covid OR (Ovid) nCoV OR novel CoV OR CoV 2 OR CoV2 OR sarscov2 OR sars2 OR 2019nCoV OR wuhan virus* OR 1946- NCOV19 OR solidarity trial OR operation warp speed OR COVAX OR "ACT-Accelerator" OR BNT162b2 OR comirnaty OR "mRNA-1273" OR CoviShield OR AZD1222 OR Sputnik V OR CoronaVac OR "BBIBP-CorV" OR "Ad26.CoV2.S" OR "JNJ-78436735" OR Ad26COVS1 OR VAC31518 OR EpiVacCorona OR Convidicea OR "Ad5-nCoV" OR Covaxin OR CoviVac OR ZF2001 OR "NVX-CoV2373" OR "ZyCoV-D" OR CIGB 66 OR CVnCoV OR "INO-4800" OR "VIR-7831" OR "UB-612" OR BNT162 OR Soberana 1 OR Soberana 2 OR "B.1.1.7" OR "VOC 202012/01" OR "VOC202012/01" OR "VUI 202012/01" OR "VUI202012/01" OR "501Y.V1" OR UK Variant OR Kent Variant OR "VOC 202102/02" OR "VOC202102/02" OR "B.1.351" OR "VOC 202012/02" OR "VOC202012/02" OR "20H/501.V2" OR "20H/501Y.V2" OR "501Y.V2" OR "501.V2" OR South African Variant OR "B.1.1.28.1" OR "B.1.1.28" OR "B.1.1.248" OR
    [Show full text]
  • The Fast Approval and Slow Rollout of Sputnik V: Why Is Russia's Vaccine
    Article The Fast Approval and Slow Rollout of Sputnik V: Why Is Russia’s Vaccine Rollout Slower than That of Other Nations? Elza Mikule 1,*,† , Tuuli Reissaar 1,† , Jennifer Villers 1,† , Alain Simplice Takoupo Penka 1,† , Alexander Temerev 2 and Liudmila Rozanova 2 1 Global Studies Institute, University of Geneva, 1205 Geneva, Switzerland; [email protected] (T.R.); [email protected] (J.V.); [email protected] (A.S.T.P.) 2 Institute of Global Health, University of Geneva, 1202 Geneva, Switzerland; [email protected] (A.T.); [email protected] (L.R.) * Correspondence: [email protected] † These authors contributed equally. Abstract: The emergence of the SARS-CoV-2 pandemic in the beginning of 2020 led to the deployment of enormous amounts of resources by different countries for vaccine development, and the Russian Federation was the first country in the world to approve a COVID-19 vaccine on 11 August 2020. In our research we sought to crystallize why the rollout of Sputnik V has been relatively slow considering that it was the first COVID-19 vaccine approved in the world. We looked at production capacity, at the number of vaccine doses domestically administered and internationally exported, and at vaccine hesitancy levels. By 6 May 2021, more first doses of Sputnik V had been administered Citation: Mikule, E.; Reissaar, T.; abroad than domestically, suggesting that limited production capacity was unlikely to be the main Villers, J.; Takoupo Penka, A.S.; reason behind the slow rollout. What remains unclear, however, is why Russia prioritized vaccine Temerev, A.; Rozanova, L.
    [Show full text]
  • Overview of the Implementation of COVID-19 Vaccination Strategies and Deployment Plans in the EU/EEA
    [Type here] TECHNICAL REPORT Overview of the implementation of COVID-19 vaccination strategies and deployment plans in the EU/EEA 14 June 2021 Key messages This report provides an updated overview of the progress of national COVID-19 vaccination strategies in EU/EEA countries, including updates on: • overall vaccine uptake and uptake by target group; • current vaccination phases and priority groups, including adjustments made to priority groups during the rollout; • vaccination strategies and policies; • the use of vaccination certificates; • vaccine acceptance and hesitancy; and • challenges and good practice with the rollout. Vaccine COVID-19 rollout overview • As of 11 June 2021, a total of 333 678 903 COVID-19 vaccine doses have been distributed by manufacturers to European Union/European Economic Area (EU/EEA) countries, including over 39 million in the last week. Comirnaty (BNT162b2), developed by BioNTech/Pfizer, represents 67.3% of all doses distributed to EU/EEA countries via the European Commission’s Vaccine Strategy, followed by Vaxzevria (AZD1222), previously called COVID-19 Vaccine AstraZeneca (19.5%), COVID-19 Vaccine Moderna (9.6%), and COVID-19 Vaccine Janssen (3.3%). • A total of 284 124 689 vaccine doses have been administered in the EU/EEA, including over 25 million in the last week. Based on data available from 29 countries, 85% of the doses distributed in the EU/EEA since the beginning of the rollout have been administered. • Since the start of COVID-19 vaccine deployment in the EU/EEA in December 2020, the cumulative vaccine uptake in the adult population (aged 18 years and older) in the EU/EEA has progressed, reaching 51.2% for at least one vaccine dose (range: 14.9-67.7%) and 26.8% for the full vaccination course (range: 11.8-55.1%) (30 reporting countries).
    [Show full text]
  • Responsive COVID-19 Vaccines for Recovery Project Under the Asia Pacific Vaccine Access Facility (Guaranteed by the Republic of Indonesia)
    Report and Recommendation of the President to the Board of Directors Project Number: 54425-001 March 2021 Proposed Loan PT Bio Farma (Persero) Responsive COVID-19 Vaccines for Recovery Project under the Asia Pacific Vaccine Access Facility (Guaranteed by the Republic of Indonesia) Distribution of this document is restricted until it has been approved by the Board of Directors. Following such approval, ADB will disclose the document to the public in accordance with ADB’s Access to Information Policy. CURRENCY EQUIVALENTS (as of 5 March 2021) Currency unit – rupiah (Rp) Rp1.00 = $0.0000697 $1.00 = Rp14,349 ABBREVIATIONS ADB – Asian Development Bank AEFI – adverse event following immunization APVAX – Asia Pacific Vaccine Access Facility Bio Farma – PT Bio Farma (Persero) COVID-19 – coronavirus disease Indofarma – PT Indofarma Tbk LIBOR – London interbank offered rate M&E – monitoring and evaluation MOH – Ministry of Health PAM – project administration manual RRC – rapid response component TA – technical assistance UNICEF – United Nations Children’s Fund VAP – Vaccination Allocation Plan VIRAT – Vaccination Introduction Readiness Assessment Tool WHO – World Health Organization NOTE In this report, “$” refers to United States dollars. Vice-President Ahmed M. Saeed, Operations 2 Director General Ramesh Subramaniam, Southeast Asia Department (SERD) Directors Ayako Inagaki, Human and Social Development Division (SEHS), SERD Winfried Wicklein, Country Director, Indonesia Resident Mission (IRM), SERD Said Zaidansyah, Deputy Country Director, IRM,
    [Show full text]
  • Optimal SARS-Cov-2 Vaccine Allocation Using Real-Time Seroprevalence Estimates in Rhode Island and Massachusetts
    medRxiv preprint doi: https://doi.org/10.1101/2021.01.12.21249694; this version posted January 15, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY 4.0 International license . Optimal SARS-CoV-2 vaccine allocation using real-time seroprevalence estimates in Rhode Island and Massachusetts Thu Nguyen-Anh Tran1, Nathan Wikle2, Joseph Albert3, Haider Inam4, Emily Strong2, Karel Brinda5;6, Scott M Leighow4, Fuhan Yang1, Sajid Hossain7, Justin R Pritchard4, Philip Chan8, William P Hanage5, Ephraim M Hanks2, Maciej F Boni1 1 Center for Infectious Disease Dynamics, Department of Biology, Pennsylvania State University, University Park, PA 2 Center for Infectious Disease Dynamics, Department of Statistics, Pennsylvania State University, University Park, PA 3 Department of Physics, Pennsylvania State University, University Park, PA 4 Center for Infectious Disease Dynamics, Department of Bioengineering, Pennsylvania State University, University Park, PA 5 Center for Communicable Disease Dynamics, Department of Epidemiology, Harvard T. H. Chan School of Public Health, Boston, MA 6 Department of Biomedical Informatics, Harvard Medical School, Boston, MA 7 Yale School of Medicine, Yale University, New Haven, CT 8 Department of Medicine, Brown University, Providence, RI Running Title: SARS-CoV-2 vaccination in RI and MA Keywords: SARS-CoV-2, vaccination, optimal vaccine allocation, mathematical modeling, real-time seroprevalence Date of this draft : January 12, 2021 ?Manuscript Correspondence: Maciej F. Boni Center for Infectious Disease Dynamics Department of Biology Pennsylvania State University University Park, PA tel +1 814 867 4651 email: [email protected] 1 NOTE: This preprint reports new research that has not been certified by peer review and should not be used to guide clinical practice.
    [Show full text]
  • Candidate SARS-Cov-2 Vaccines in Advanced Clinical Trials: Key Aspects Compiled by John D
    Candidate SARS-CoV-2 Vaccines in Advanced Clinical Trials: Key Aspects Compiled by John D. Grabenstein, RPh, PhD All dates are estimates. All Days are based on first vaccination at Day 0. Vaccine Sponsor Univ. of Oxford ModernaTX USA BioNTech with Pfizer Johnson & Johnson Novavax Sanofi Pasteur with CureVac with Bayer CanSino Biologics with Sinopharm (China National Sinovac Biotech Co. [with Major Partners] (Jenner Institute) (Janssen Vaccines & GlaxoSmithKline Academy of Military Biotec Group) (Beijing IBP, with AstraZeneca Prevention) Medical Sciences Wuhan IBP) Headquarters Oxford, England; Cambridge, Cambridge, Massachusetts Mainz, Germany; New York, New Brunswick, New Jersey Gaithersburg, Maryland Lyon, France; Tübingen, Germany Tianjin, China; Beijing, China; Beijing, China England, Gothenburg, New York (Leiden, Netherlands) Brentford, England Beijing, China Wuhan, China Sweden Product Designator ChAdOx1 or AZD1222 mRNA-1273 BNT162b2, tozinameran, Ad26.COV2.S, JNJ-78436735 NVX-CoV2373 TBA CVnCoV Ad5-nCoV, Convidecia BBIBP-CorV CoronaVac Comirnaty Vaccine Type Adenovirus 63 vector mRNA mRNA Adenovirus 26 vector Subunit (spike) protein Subunit (spike) protein mRNA Adenovirus 5 vector Inactivated whole virus Inactivated whole virus Product Features Chimpanzee adenovirus type Within lipid nanoparticle Within lipid nanoparticle Human adenovirus type 26 Adjuvanted with Matrix-M Adjuvanted with AS03 or Adjuvanted with AS03 Human adenovirus type 5 Adjuvanted with aluminum Adjuvanted with aluminum 63 vector dispersion dispersion vector AF03
    [Show full text]
  • Documentation of Vaccine Wastage in Two Different Geographic Contexts Under the Universal Immunization Program in India
    Documentation of vaccine wastage in two different geographic contexts under the universal immunization program in India Manoja Kumar Das ( [email protected] ) The INCLEN Trust International https://orcid.org/0000-0002-8559-5837 Mangla Sood Indira Gandhi Medical College Muralidhar Tambe BJ Medical College Thakur Dutt Sharma The INCLEN Trust International M A Parande BJ Medical College Jitendra B Surwade BJ Medical College N M Salunke BJ Medical College S S Patil BJ Medical College Bhagwan Pawar Ministry of Health and Family Welfare Rajesh Guleri Ministry of Health and Family Welfare Chitra Kaushal Ministry of Health and Family Welfare Monica Sindhu The INCLEN Trust International Research article Keywords: rotavirus vaccine, pneumococcal vaccine, routine immunization, outreach, vial size, vaccine wastage Posted Date: November 26th, 2019 DOI: https://doi.org/10.21203/rs.2.17806/v1 License: This work is licensed under a Creative Commons Attribution 4.0 International License. Read Full License Version of Record: A version of this preprint was published at BMC Public Health on April 25th, 2020. See the published version at https://doi.org/10.1186/s12889-020-08637-1. Page 1/10 Abstract Background Government of India is introducing new and relatively costly vaccines under immunization program. Monitoring of vaccine wastage is needed to guide the program implementation and forecasting. Under pilot introduction of rotavirus vaccine in two districts both 5- and 10-doses vials were used, which was considered as an opportunity for documenting the wastage. Methods A survey conducted in two districts (Kangra, Himachal Pradesh and Pune, Maharashtra) covered 49 vaccine stores, 34 sub-centres and 34 outreach sessions collected vaccine receipt, distribution and usage data for two complete years 2016 and 2017.
    [Show full text]
  • SARS-Cov-2 Vaccines in Kidney Transplant Recipients: Will They Be Safe and Effective and How Will We Know?
    PERSPECTIVES www.jasn.org SARS-CoV-2 Vaccines in Kidney Transplant Recipients: Will They Be Safe and Effective and How Will We Know? Madeleine R. Heldman and Ajit P. Limaye Division of Allergy and Infectious Diseases, Department of Medicine, University of Washington, Seattle, Washington JASN 32: ccc–ccc, 2021. doi: https://doi.org/10.1681/ASN.2021010023 Coronavirus disease 2019 (COVID-19) will far outweigh risks of vaccination. viral vector–based vaccines could be- has had a major effect on kidney and Accordingly, current guidance from come replication competent and cause other solid organ transplant recipients.1 multiple professional organizations disease, especially in immunocompro- In addition to public health measures, recommend vaccination for all eligible mised individuals. For example, in cells improved access to testing, and thera- organ transplant recipients.2,4,5 concurrently infected with two different peutic developments, vaccination has Each vaccine platform has distinct AdVes, homologous recombination of emerged as a key tool for controlling safety considerations for kidney transplant genetic elements could occur and result the ongoing pandemic. In December recipients. Live (replication-competent) in the emergence of new, pathogenic, 2020, multiple regulatory agencies vaccines are generally contraindicated in replication-competent AdV types.9 This worldwide authorized the use of two immunocompromised individuals be- has been observed in patients with ad- mRNAvaccines for severe acute respiratory cause of a risk of vaccine-acquired
    [Show full text]