A manual for developing national action plans.This manual for developing national action plans to address antimicrobial resistance has been developed at the request of the World Health Assembly to assist countries in the initial phase of developing new, or refining existing national action plans in ...line with the strategic objectives of the Global Action Plan. It proposes an incremental approach that countries can adapt to the specific needs, circumstances and available resources of each individual country. Details of actions to be taken will vary according to national contexts
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This document was prepared in response to a need to review and potentially update the current recommendations for the antibiotic treatment of both inpatient and outpatient management of severe acute malnutrition (SAM). The current recommendations (Table 1) are based on guidelines published in 2013 i...n the WHO Pocketbook for Hospital Care for Children, and the 2013 update on SAM (outpatient management). The global threat of increasing antimicrobial resistance and new data on efficacy and safety profiles requires a re-review of the current evidence to ensure recommendations are the most appropriate. The evidence base for the use of antibiotics in children presenting with uncomplicated SAM has been recently enlarged.
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S Afr Med J 2018;108(7):546-550. DOI:10.7196/SAMJ.2018.v108i7.13149
Antimicrobial stewardship programmes have been introduced worldwide in response to the rise in antimicrobial resistance. The World Health Organization has mandated each Member State to produce a plan to address this problem. We rep...ort on the organic development of an antibiotic stewardship programme in a rural regional hospital in a resource-limited setting in South Africa. This has resulted in organisational change with increased awareness, participation, monitoring and education in antibiotic stewardship throughout the hospital
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Veterinarians are leaders and stewards in preserving the effectiveness of antibiotics for animals and people. Working with animal owners and producers, veterinarians can slow antibiotic resistance by implementing disease prevention strategies and improving the use of antibiotics while also guarante...eing high-quality medical care for animal patients.
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A role for nuclear techniques
Antimicrobials play a critical role in the treatment of human and animal (aquatic and terrestrial) diseases, which has led to their widespread application and use. Antimicrobial resistance (AMR) is the ability of microorganisms to stop an antibiotic, such as an antimic...robial, antiviral or antimalarial, from working against them. Globally, about 700 000 deaths per year arise from resistant infections as a result of the fact that antimicrobial drugs have become less effective at killing resistant pathogens. Antimicrobial chemicals that are present in environmental compartments can trigger the development of AMR. These chemicals can also cause antibiotic-resistant bacteria (ARB) to further spread antibiotic resistance genes (ARG) because they may have an evolutionary advantage over non-resistant bacteria.
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Antimicrobial resistance (AMR) is a threat to human and animal health and refers to the ability of microorganisms to defy the medicines prescribed. For instance when antibiotics are used improperly, such as an incorrect dose, insufficient duration or wrong frequency, resistance is heightened. The mi...suse of antimicrobials affects their efficacy, and increasingly more infections and diseases become untreatable. Many gains made in modern medicine throughout the 20th century will be lost, making AMR a global public and animal health issue that requires concerted action. AMR and the use of antimicrobials (AMU) affect food safety and security, people’s livelihoods, as well as economic and agricultural development.
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Antimicrobial resistance (AMR) is a complex issue of global concern. AMR is not simply a problem of medical science being beaten by nature; human action and perverse incentives play a major role in its development. The misuse of antibiotics in the medical, veterinary and agricultural sectors, which ...include the inappropriate prescribing of antibiotics, their overuse in the livestock sector, and insufficient hygiene practices in hospital, all contribute to the rise of AMR
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Scientists have known for more than half a century that patients could develop resistance to the drugs used to treat them. Alexander Fleming, who is credited with creating the first antibiotic, penicillin, in 1928, cautioned of the impending crisis while accepting his Nobel prize in 1945: “There ...is the danger that the ignorant man may easily underdose himself and by exposing his microbes to non-lethal quantities of the drug make them resistant.” Since then antibiotics have proved one of the most effective interventions in human medicine. Sadly, the overuse and misuse of this precious resource have brought us to a global crisis of antimicrobial resistance (AMR). To address this crisis nearly seven decades after Fleming’s lecture the first UN general assembly meeting on drug resistance bacteria was convened in September 2017.
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This guideline covers making people aware of how to correctly use antimicrobial medicines (including antibiotics) and the dangers associated with their overuse and misuse. It also includesmeasures to prevent and control infection that can stop people needing antimicrobials or spreadinginfection to o...thers. It aims to change people's behaviour to reduce antimicrobial resistance and thespread of resistant microbes.
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This policy brief identifies and explains the main reasons behind the rise of antimicrobial resistance (AMR) associated with improper use of antibiotics in the livestock sector. Focusing on the low- and middle- income country setting, this brief provides recommendations for a deliberated policy stra...tegy aimed to prevent healthcare crisis that could happen as a result of AMR.
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As a public good, antimicrobial medicines require rational use if their effectiveness is to be preserved. However, up to 50% of antibiotic use is inappropriate, adding considerable costs to patient care, and increasing morbidity and mortality. In addition, there is compelling evidence that antimicro...bial resistance is driven by the volume of antimicrobial agents used. High rates of antimicrobial resistance to common treatments are currently reported all over the world, both in health care settings and in the community. For over two decades, the Region of the Americas has been a pioneer in confronting antimicrobial resistance from a public health perspective. However, those efforts need to be stepped up if we are to have an impact on antimicrobial resistance and want to quantify said impact.
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Nepal has only recently started its journey on the path to an integrated response to the challenge of antimicrobial resistance (AMR). Despite this, it is notable that the Nepal Health Sector Strategy Plan (HSSP)-2 mentions growing antibiotic resistanceas a public health challenge.
Written by international experts in the fields of infection control and hospital epidemiology, the ISID’s Guide to Infection Control in the Healthcare Setting brings together the most up-to-date principles and interventions that can reduce the rate of infection and the impact of associated consequ...ences for patients, their families, and healthcare systems including: lengthier hospital stays; long-term disability; increased anti-microbial resistance; higher financial costs; and unnecessary deaths.
As the field of infection prevention grows in importance and the science supporting it continues to evolve, the Guide’s objectives are to facilitate the implementation of effective prevention and control measures across different resource levels to improve quality of care; minimize risk; save lives; reduce costs; and limit the use of antibiotics to fight these often preventable infections around the world.
The chapters herein are intended to facilitate the implementation of effective infection prevention and control measures across different resource levels, improve quality of care, minimize risk, save lives, and reduce costs.
To explore the Guide click on the sections below to view the chapters. Chapters have been divided into four parts
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Overuse and misuse of antibiotics in animals and humans is contributing to the rising threat of antibiotic resistance. Some types of bacteria that cause serious infections in humans have already developed resistance to most or all of the available treatments, and there are very... few promising options in the research pipeline
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Learn about superbugs from a superbug itself!
This animated video explains how bacteria develop resistance to antibiotics and eventually turn into superbugs, that are resistant to most known antibiotics.
BUKO Pharma-Kampagne has investigated the causes and consequences of antibiotic resistance in India, South Africa, Tanzania and Germany. Together with our partners we collected data and did interviews with numerous stakeholders. The outcome is presented in a brochure that is now available in English...
Resistant bacteria are spreading worldwide. In collaboration with partners in India, Tanzania, South Africa and Germany, we have investigated the causes and consequences of this spread.2 This Pharma-Brief Special presents the results. It examines the risks for humans, animals and the environment. It focuses on local problems and approaches, international interactions and the re-sponsibility of doctors, farmers and consumers.
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This chapter discusses the antibacterial treatment of leprosy infections. Antibiotic treatment is
a key component of leprosy treatment, as it is vital to prevent the progression of the infection.
Treatment with rifampin and other antibiotics is highly effective and cures 98% of patients with
the ...leprosy infection. Furthermore, the relapse rate is very low, at about 1% over 5–10 years.
There is little M. leprae drug resistance in leprosy and few reports of multi-drug resistance (1, 2, 3,
4, 5, 6, 7, 8). An antibiotic treatment may take months or years to produce clinical improvement,
especially in patients with an initial high bacterial index (BI).
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Antimicrobial resistance (AMR) as a serious public health threat was globally acknowledged by WHO in 2015, through the launch of the Global Action Plan (GAP). With a limited number of new antibiotics in the developmental pipeline, many countries are in the process of establishing strategies for anti...microbial stewardship (AMS). Within each country, different healthcare challenges have
contributed to AMR. This has also shaped individual AMS strategies and policies. In South Africa (SA), there is a high burden of infectious diseases, mainly of bacterial origin. In addition, SA also has the highest number of people living with
human immunodeficiency virus (HIV) globally. According to the 2019 statistics, there are approximately 7.97 million people living with HIV in SA. Together with this, SA has the fourth largest tuberculosis population globally.
Other important challenges include poverty, malnutrition, a high burden of non-communicable diseases, and a dire shortage of trained healthcare professionals (e.g. clinicians, pharmacists, and nurses).
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Antimicrobial resistance (AMR) is impacting our health, economies and development. Up to 5.2 million people may die because of resistant bacterial infections across the Western Pacific Region from 2020-2030. Childbirth, surgery, cancer treatment and other interventions will become impossibly d...angerous if bacterial infections no longer respond to available antibiotics.
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Antimicrobial resistance (AMR) is one of the world’s top 10 public health threats. The World Health Organization (WHO) in the African Region, using the Antimicrobial Stewardship assessment tool, has assessed Member States progress on strengthening national capacity need for effective implementatio...n of antimicrobial stewardship interventions to mitigate the threat posed by AMR. The African Region bears the bulk of the global burden of AMR, which drives up health care costs and the increases the economic burden on families and societies. Ultimately, this puts the achievements of modern medicine at risk when infections can no longer be treated with first-line antibiotics. In 2019, the deaths associated with and those directly attributable to bacterial resistance were estimated around 4.95 million and 1.27 million respectively. Left unchecked, deaths from drug resistant infections will surpass the predicted annual death toll of 10 million by 2050.
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