ECHO India Launches Antimicrobial Stewardship Program in Punjab and Andhra Pradesh
Business Wire India
ECHO India, a non-profit trust working for health system strengthening through capacity building, today launched an Antimicrobial Stewardship Program to address the growing threat of antimicrobial resistance (AMR) in India. The three-year pilot will be implemented in Punjab and Andhra Pradesh, engaging 400 healthcare professionals from tertiary care centres to strengthen capacity in rational antibiotic use and infection prevention. The program was inaugurated at the National Health Systems Resource Centre (NHSRC) today.
Antimicrobial resistance is recognised as one of the most pressing public health challenges of our time, with the misuse and overuse of antibiotics accelerating the emergence of resistant pathogens. The program will use ECHO's proven hub-and-spoke model to mentor healthcare workers, guide clinical practice, and develop a cadre of master trainers capable of leading large-scale stewardship efforts.
The event was attended by distinguished health experts, including Maj. Gen. (Dr) Atul Kotwal, Executive Director, National Health Systems Resource Centre; Dr. Ranga Reddy Burri, President, Infection Control Academy of India; Dr. Sangeeta Sharma, President, Delhi Society for Promotion of Rational Use of Drugs (DPSRUD); Dr. Nusrat Shafiq, Professor Clinical Pharmacology, Post Graduate Institute of Medical Education and Research (PGIMER) and Dr. Anuj Sharma, Technical Lead, World Health Organization India, along with technical experts and state health teams from Andhra Pradesh and Punjab.
Maj. Gen. (Dr) Atul Kotwal, Executive Director, NHSRC , observed, 'Antimicrobial resistance is eroding the very tools that modern medicine depends on, threatening our ability to treat even common infections. We need a response that is both immediate and sustainable. The ECHO Model has proven its ability to build capacity at scale in a cost-effective way. It is the right platform to equip our healthcare professionals with the skills and judgement to use antibiotics responsibly, strengthen clinical governance, and protect public health for future generations.'
Dr. Sangeeta Sharma, President, Delhi Society for Promotion of Rational Use of Drugs, highlighted the importance of an integrated approach, noting, 'Antimicrobial stewardship cannot function in isolation. It must work hand in hand with infection prevention and control, surveillance, and rational drug use policies. Only when these elements are integrated into routine practice can we create a health system resilient to the growing threat of drug resistance.'
Speaking at the inauguration, Dr. (Col) Kumud Rai, Chairperson and Managing Trustee, ECHO India, said, 'If we are to win the fight against antimicrobial resistance, we must act now and act collectively. We are grateful to carry forth this mission with our partners in Andhra Pradesh and Punjab, working alongside such proven institutions of excellence in public health. This program is a crucial step towards building stewardship capacity, and our vision is to see similar initiatives reach every part of the country so that no community is left without access to the right knowledge and practice.'
The purpose of the event was to bring together national and state health leaders, technical experts, and program partners to align strategies for implementing the Antimicrobial Stewardship Program in Punjab and Andhra Pradesh. While discussions covered resistance levels, stewardship frameworks, and curricula for clinical staff, state teams shared challenges and explored mentorship models to develop trainer networks. Together, these efforts reflect a shared mission to embed sustainable stewardship practices that protect the effectiveness of antibiotics and contribute to stronger health outcomes in the years ahead.
Disclaimer: The above press release comes to you under an arrangement with Business Wire India. Business Upturn take no editorial responsibility for the same.
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ECHO India Launches Antimicrobial Stewardship Program in Punjab and Andhra Pradesh
ECHO India, a non-profit trust working for health system strengthening through capacity building, today launched an Antimicrobial Stewardship Program to address the growing threat of antimicrobial resistance (AMR) in India. Business Wire India ECHO India, a non-profit trust working for health system strengthening through capacity building, today launched an Antimicrobial Stewardship Program to address the growing threat of antimicrobial resistance (AMR) in India. The three-year pilot will be implemented in Punjab and Andhra Pradesh, engaging 400 healthcare professionals from tertiary care centres to strengthen capacity in rational antibiotic use and infection prevention. The program was inaugurated at the National Health Systems Resource Centre (NHSRC) today. Antimicrobial resistance is recognised as one of the most pressing public health challenges of our time, with the misuse and overuse of antibiotics accelerating the emergence of resistant pathogens. The program will use ECHO's proven hub-and-spoke model to mentor healthcare workers, guide clinical practice, and develop a cadre of master trainers capable of leading large-scale stewardship efforts. The event was attended by distinguished health experts, including Maj. Gen. (Dr) Atul Kotwal, Executive Director, National Health Systems Resource Centre; Dr. Ranga Reddy Burri, President, Infection Control Academy of India; Dr. Sangeeta Sharma, President, Delhi Society for Promotion of Rational Use of Drugs (DPSRUD); Dr. Nusrat Shafiq, Professor Clinical Pharmacology, Post Graduate Institute of Medical Education and Research (PGIMER) and Dr. Anuj Sharma, Technical Lead, World Health Organization India, along with technical experts and state health teams from Andhra Pradesh and Punjab. Maj. Gen. (Dr) Atul Kotwal, Executive Director, NHSRC , observed, 'Antimicrobial resistance is eroding the very tools that modern medicine depends on, threatening our ability to treat even common infections. We need a response that is both immediate and sustainable. The ECHO Model has proven its ability to build capacity at scale in a cost-effective way. It is the right platform to equip our healthcare professionals with the skills and judgement to use antibiotics responsibly, strengthen clinical governance, and protect public health for future generations.' Dr. Sangeeta Sharma, President, Delhi Society for Promotion of Rational Use of Drugs, highlighted the importance of an integrated approach, noting, 'Antimicrobial stewardship cannot function in isolation. It must work hand in hand with infection prevention and control, surveillance, and rational drug use policies. Only when these elements are integrated into routine practice can we create a health system resilient to the growing threat of drug resistance.' Speaking at the inauguration, Dr. (Col) Kumud Rai, Chairperson and Managing Trustee, ECHO India, said, 'If we are to win the fight against antimicrobial resistance, we must act now and act collectively. We are grateful to carry forth this mission with our partners in Andhra Pradesh and Punjab, working alongside such proven institutions of excellence in public health. This program is a crucial step towards building stewardship capacity, and our vision is to see similar initiatives reach every part of the country so that no community is left without access to the right knowledge and practice.' The purpose of the event was to bring together national and state health leaders, technical experts, and program partners to align strategies for implementing the Antimicrobial Stewardship Program in Punjab and Andhra Pradesh. While discussions covered resistance levels, stewardship frameworks, and curricula for clinical staff, state teams shared challenges and explored mentorship models to develop trainer networks. Together, these efforts reflect a shared mission to embed sustainable stewardship practices that protect the effectiveness of antibiotics and contribute to stronger health outcomes in the years ahead. Disclaimer: The above press release comes to you under an arrangement with Business Wire India. Business Upturn take no editorial responsibility for the same. Ahmedabad Plane Crash
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Antimicrobial resistance (AMR) is one of the most urgent public health challenges in 2025. This phenomenon occurs when microorganisms such as bacteria, viruses, fungi, and parasites evolve resistance to drugs that were once effective. According to the CDC's 2025 report, AMR could lead to as many as 10 million deaths annually by 2050, overtaking major diseases like cancer. AMR stems from the natural evolutionary ability of microbes to survive selective pressure from antimicrobials. This process is significantly accelerated by the overuse and misuse of these drugs in human health, veterinary medicine, and agriculture. Resistant infections often require longer treatment courses, are associated with increased disability and mortality, and lead to extended hospital stays and higher healthcare costs — placing a growing burden on health systems and global economies. The CDC estimates at least 2.8 million resistant infections and over 35,000 related deaths annually in the US alone. Resistance Mechanisms AMR typically arises through two primary mechanisms: spontaneous genetic mutations and horizontal gene transfer (via conjugation, transformation, or transduction). Recent findings outline several well-characterized resistance pathways: Target modification: Structural alterations in drug targets — often key proteins or cell components — can prevent effective drug binding. Enzyme production: Certain bacteria produce enzymes such as beta-lactamases that deactivate antibiotics like penicillins and cephalosporins. These enzymes are increasingly common in gram-negative species such as Escherichia coli and Klebsiella pneumoniae . and . Efflux pumps and permeability barriers: Some bacteria limit drug entry or actively expel antibiotics using multidrug efflux pumps. This is particularly problematic in gram-negative organisms due to their additional outer membrane. These resistance mechanisms can coexist within a single organism, giving rise to 'pan-resistant' strains that are unaffected by nearly all available antimicrobial agents. Resistance can emerge rapidly — even during the course of treatment — turning previously susceptible infections resistant mid-therapy and narrowing treatment options dramatically. Recent Trends and Global Data New international data highlight the accelerating spread of AMR, with particularly concerning developments across both bacterial and fungal pathogens. The World Health Organization (WHO)'s 2024 Bacterial Priority Pathogens List documented rising resistance rates in K pneumoniae and E coli , especially in Asia and Africa — regions where therapeutic options remain severely limited. These findings align with projections from a 2024 commentary published in The Lancet , which estimates that AMR could cause up to 10 million deaths annually by 2050, disproportionately affecting low- and middle-income countries. In the US, the CDC reported that more than 35% of hospital-acquired urinary tract infections in 2024 were caused by multidrug-resistant (MDR) organisms. This surge is driven in large part by the horizontal transmission of resistance genes via mobile genetic elements such as plasmids and transposons. MDR tuberculosis also continues to pose a serious global health threat. Data from Eastern Europe and parts of Asia show that over 20% of new tuberculosis cases now involve MDR strains. These cases require longer, more toxic regimens and are associated with poorer clinical outcomes, adding further strain to public health systems. Fungal resistance is emerging as a parallel crisis. A recent review reported that more than 90% of Candida auris isolates collected from hospitals in Europe and North America were resistant to multiple antifungal agents. This poses a serious risk to patients who are immunocompromised and critically ill, particularly in ICUs where infection control remains challenging. Despite the growing threat, treatment pipelines remain thin. While several new antimicrobial agents are under investigation, most remain in preclinical or early clinical stages. The report underscores an urgent need for sustained investment in antimicrobial drug development to replenish a shrinking therapeutic arsenal. Adding to the concern, recent studies describe the emergence of novel resistance mechanisms in gram-positive pathogens such as methicillin-resistant Staphylococcus aureus . Some strains have developed traits that compromise the efficacy of even newly approved agents — further complicating treatment strategies and escalating costs of care. As AMR continues to evolve across multiple fronts, these findings reinforce the need for comprehensive, coordinated strategies to monitor resistance patterns; support antimicrobial stewardship; and accelerate therapeutic innovation. Economic Toll The global economic impact of AMR could be staggering. The 2024 Lancet commentary projects that AMR could result in up to $100 trillion in economic losses by 2050. The burden is expected to fall disproportionately on low- and middle-income countries, where weaker health systems and limited access to effective therapies could exacerbate existing disparities in both health outcomes and economic development. Clinical consequences are already evident in hospitals around the world. Recent research shows that resistant healthcare-associated infections — such as bloodstream infections and ventilator-associated pneumonias — are associated with mortality rates approaching 30% higher in patients in resource-limited settings. Contributing factors include poor hospital infrastructure, limited access to diagnostics and therapeutics, and inadequate infection control measures. Meanwhile, a 2024 review highlights the growing threat of hospital-acquired infections caused by Acinetobacter baumannii and Pseudomonas aeruginosa — both of which exhibit high levels of resistance to multiple antibiotic classes. Without effective interventions, these infections may become increasingly difficult, if not impossible, to treat, further driving up hospital mortality and straining intensive care resources. Emerging Strategies and Solutions Several promising strategies are being explored to slow AMR progression and strengthen the clinical response. Development of new antimicrobials: Recent research highlights novel compounds designed to overcome common resistance mechanisms. While early in development, these agents may offer new hope against multidrug-resistant pathogens. Alternative therapies: Early-phase studies suggest that bacteriophage therapy and antibacterial nanoparticles could serve as complementary approaches to combat infections that no longer respond to conventional treatments. These technologies are gaining traction but require rigorous clinical validation. Antimicrobial stewardship and surveillance: Effective stewardship programs remain central to the AMR response. Core components include the rational prescribing of antimicrobials, real-time infection surveillance, and access to rapid diagnostic tools for antimicrobial susceptibility testing. Education and global awareness: The WHO and CDC continue to emphasize the need for coordinated global education campaigns to promote the appropriate use of antimicrobials and curb self-medication — particularly in countries with weak regulatory oversight. National initiatives: In Spain, the 2025-2027 Plan Nacional frente a la Resistencia a los Antibióticos (National Plan against Antibiotic Resistance) stands out as a model. The plan includes enhanced epidemiologic surveillance, increased funding for antimicrobial research, ongoing training for healthcare providers, and public education campaigns. It also calls for integrated action across all levels of the health system to ensure a coordinated national response. Conclusions AMR is no longer a looming threat — it is a present-day global health emergency. Its continued spread is undermining the foundations of modern medicine, with far-reaching consequences for clinical care, public health, and global equity. As resistance mechanisms become increasingly complex and widespread, the therapeutic arsenal is shrinking — particularly in hospital settings and for vulnerable populations. Meanwhile, antibiotic development continues to lag, with most new agents stalled in early-phase research. To avoid a future where routine infections become untreatable, the global response must be ambitious and coordinated. Expanding antimicrobial stewardship, accelerating drug development through sustained investment, and enforcing rational prescribing practices are all urgent priorities. These efforts must be anchored in the One Health approach, which recognizes the interconnectedness of human, animal, and environmental health. Education and behavior change are equally essential. Clinicians, patients, and policymakers all play a role in preserving the effectiveness of existing antimicrobials. And while emerging therapies such as phage therapy, nanomedicine, and immunomodulation offer hope, they require rigorous testing and clear regulatory pathways before they can be integrated into clinical practice. The window for action is narrowing — but meaningful progress is still possible. With global alignment, scientific innovation, and sustained commitment, the trajectory of AMR can be reversed.
