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Ross ZK, Alsayegh S, Zhao Y, Munro CA, Lorenz A (2025). In vitro evolution of caspofungin resistance in Candidozyma auris via FKS1 hotspot I mutations results in moderate fitness trade-offs but no reduction in virulence. BioxRiv https://doi.org/10.1101/2024.12.18.629118
Al Masud A, Walpola RL, Asaduzzaman M, Akhtar Z, Barua M, Seale H. (2024). Assessing community antibiotic usage and adherence as per standard treatment guidelines: A potential area to enhance awareness at community-pharmacy settings, Exploratory Research in Clinical and Social Pharmacy, 100552 https://doi.org/10.1016/j.rcsop.2024.100552
Tea, Tradition and Tablets: the story of antimicrobial resistance in Assam https://www.tropicalmedicine.ox.ac.uk/news/amr-booklet-by-shuma-banik
van Bavel B, Berrang-Ford L, Moon K, Gudda F, Thornton AJ, Robinson RFS, King R. (2024). Intersections between climate change and antimicrobial resistance: a systematic scoping review. Lancet Planet Health. 2024 Dec;8(12):e1118-e1128. https://doi.org/10.1016/s2542-5196(24)00273-0 with Bianca Von Bavel, Lea Berrang Ford, Rebecca King, Alexander Thornton.
Keywords: scoping reviewNurul Amirah Mohamad Farook, Silvia Argimón, Muttaqillah Najihan Abdul Samat, Sharifah Azura Salleh, Sunita Sulaiman, Toh Leong Tan, Petrick Periyasamy, Chee Lan Lau, Nor Azila Muhammad Azami, Raja Mohd Fadhil Raja Abd Rahman, Mia Yang Ang, Hui-min Neoh (2024). Desiccation tolerance and reduced antibiotic resistance: Key drivers in ST239-III to ST22-IV MRSA clonal replacement at a Malaysian teaching hospital. IJMM, 317, 151638 https://doi.org/10.1016/j.ijmm.2024.151638
Keywords: MRSA, Antimicrobial resistance, Clonal replacement, Genomics surveillance, Bacterial FitnessK.M. McIntyre, M. Khan, M. Betson, L. Brunton, H. Botero Degiovanni, A.P. Desbois, M. Eltholth, P. Hurley, L. Morgans, J.E. Pearl, R. Sakrabani, O. Shortall, K. Watson, J. Cole (2024). Understanding the focus for a transdisciplinary network on antimicrobial resistance in agrifood systems among diverse stakeholders: an online survey. One Health, 19: 100884, https://doi.org/10.1016/j.onehlt.2024.100884
Keywords: Antimicrobial resistance, agrifood, AMR evolution, AMR dissemination, Complexity, Farming With: Jennifer ColeFisher, M.C., Burnett, F., Chandler, C., Gow, N.A.R., Gurr, S.J., Hart, A., Holmes, A., May, R., Quinn, J., Talbot, N., West J, P. White, L., Bromley, M., Armstrong-James, D. (2024). A one health roadmap towards understanding and mitigating emerging Fungal Antimicrobial Resistance: fAMR. npj Antimicrob Resist 2, 36. https://doi.org/10.1038/s44259-024-00055-2
Keywords: antimicrobial resistance, fungal infectionNATURE- BASED SOLUTIONS FOR HEALTH: Leveraging biodiversity to create health-promoting environments. (2024). https://friendsofeba.com/knowledge-product/issue-brief-on-who-iucn-report-on-nbs-for-health-leveraging-biodiversity-to-create-health-promoting-environments/
Kadetz, P. (2024). Disciplinarity, Transdisciplinarity, and Beyond. InReimagining Engineering Education: Health. Justice. Sustainability (pp. 17-23). Singapore: Springer Nature. https://link.springer.com/book/10.1007/978-981-97-5261-4
Cole, J.; Adetona, M.A.; Basiru, A.; Jimoh, W.A.; Abdulsalami, S.; Ade-Yusuf, R.O.; Babalola, K.A.; Adetunji, V.O.; Ahmed, A.O.; Adeyemo, I.A.; et al. Climate Change, Land Use, and the Decline in Traditional Fulani Cattle Practices: Drivers of Antimicrobial Resistance in Kwara, Nigeria. Challenges 2024, 15, 41. with Ismail Odetokun, Mahmoud Eltholth. https://doi.org/10.3390/challe15040041
Keywords: ethnoveterinary, indigenous knowledge, antibiotics, antibiotic resistance, cattleAlhaji, N., Odetokun, I., Jibrin, M., Lawan, M., & Kwaga, J. (2024). Antibiotic resistance and mitigation using One Health lens in aquaculture of Northern Nigeria. Onderstepoort Journal of Veterinary Research, 91(2) https://doi.org/10.4102/ojvr.v91i2.2165
Keywords: antibiotic usage; antibiotic residue; antibiotic resistance; freshwater aquaculture; fish; One Health.Musicha, P., Morse, T., Cocker, D. et al. (2024). Time to define One Health approaches to tackling antimicrobial resistance. Nat Commun 15, 8782 (2024). https://doi.org/10.1038/s41467-024-53057-z
Keywords: antimicrobials, infectious diseases, one healthTaonga Mwapasa, Kondwani Chidziwisano, Madalitso Mphasa, Derek Cocker, Lorenzo Rimella, Stevie Amos, Nicholas Feasey, Tracy Morse. (2024). Key environmental exposure pathways to antimicrobial resistant bacteria in southern Malawi: A SaniPath approach. Science of The Total Environment,Volume 945, 174142, https://doi.org/10.1016/j.scitotenv.2024.174142
Keywords: Extended-spectrum β-lactamase, exposure assessment, environmental sanitation, transect walk, one heal, longitudinal assessment, LMICGillingham EL, Lake I, Lo Iacono G, Nichols G (2023). Health Effects of Climate Change ( HECC ) in the UK: 2023 report. Chapter 7 . Effect of climate change on infectious diseases in the UK. https://assets.publishing.service.gov.uk/media/657087777469300012488921/HECC-report-2023-chapter-7-infectious-diseases.pdf
Keywords: climate change, infectious diseasesMusicha P et al. (2024). One Health in Eastern Africa: No barriers for ESBL producing E. coli transmission or independent antimicrobial resistance gene flow across ecological compartments. bioRxiv. https://doi.org/10.1101/2024.09.18.613694
Naghavi, M., Vollset, S. E., Ikuta, K. S., Swetschinski, L. R., Gray, A. P., Wool, E. E., …Odetokun, I.A…. & Dekker, D. M. (2024). Global burden of bacterial antimicrobial resistance 1990–2021: a systematic analysis with forecasts to 2050. The Lancet, 404(10459), 1199-1226. https://doi.org/10.1016/S0140-6736(24)01867-1
Loosli, K., Nasuwa, F., Melubo, M. et al. (2024) Exploring drivers of self-treatment with antibiotics in three agricultural communities of northern Tanzania. Antimicrob Resist Infect Control 13, 94 (2024) https://doi.org/10.1186/s13756-024-01453-x
Keywords: AMR, One Health, Self-treatment, Antibiotics, Antibiotic Use, TanzaniaAl Masud A, Walpola RL, Asaduzzaman M, Seale H. (2024). Understanding antibiotic purchasing practices in community pharmacies: A potential driver of emerging antimicrobial resistance. Explor Res Clin Soc Pharm. :100485. https://doi.org/10.1016/j.rcsop.2024.100485
Keywords: antibiotic purchasing behaviour; community pharmacies, non-prescription antibiotic, over-the-counter antibiotics, WHO AWaRe classification, antimicrobial resistanceBrown, G.D., Ballou, E.R., Bates, S., Bignell, M., Borman, A.M., Brand, A.C., Brown, A.J.P., Coelho, C., Cook, P.C., Farrer, R.A., Govender, N.P., Gow, N.A.R., Hope, W., Hoving, J.C., Dangarembizi R., Harrison, T.S., Johnson, E.M., Mukaremera, L., Ramsdale, M., Thornton, C.R., Usher, J., Warris, A. & Wilson, D. (2024). The pathobiology of human fungal infections. Nature Reviews Microbiology 22, 687–704 (2024) https://doi.org/10.1038/s41579-024-01062-w
Díaz-Torres O, los Cobos EOV, Kreft J-U, Loge FJ, Díaz-Vázquez D, Mahlknecht J, Gradilla-Hernández MS, Senés-Guerrero C (2024). A metagenomic study of antibiotic resistance genes in a hypereutrophic subtropical lake contaminated by anthropogenic sources. Science of The Total Environment 927: 172216 https://doi.org/10.1016/j.scitotenv.2024.172216 https://doi.org/10.1016/j.scitotenv.2024.172216
Keywords: Hypereutrophic subtropical lake; Metagenomic shotgun sequencing; Bacterial community; Antibiotic resistance genes; Anthropogenic sourcesTodman H, Helliwell R, King L, Blanchard A, Gray-Hammerton CJ, Hooton SP, Baker M, Margerison J, Wilson P, Dodd CER, Morris C, Raman S, Hudson C, Kreft J-U, Hobman JL, Kypraios T, Stekel DJ (2024). Modelling the impact of wastewater flows and management practices on antimicrobial resistance in dairy farms. npj Antimicrobials and Resistance 2: 1–13 https://doi.org/10.1038/s44259-024-00029-4
Jennifer Cole, Amtul Noor Mughal, Mahmoud Eltholth, Abin Thomas, Mark Holmes (2024). Transdisciplinary approaches to addressing factors that influence antimicrobial use in dairy cattle: A scoping review. Heliyon,Volume 10, Issue 4,2024,e25550 https://doi.org/10.1016/j.heliyon.2024.e25550
Seo, J., Kloprogge, F., Smith, A. M., Karu, K., & Ciric, L. (2024). Antibiotic Residues in UK Foods: Exploring the Exposure Pathways and Associated Health Risks. Toxics, 12(3), 174 https://doi.org/10.3390/toxics12030174
Keywords: diet survey; food contamination; antibiotic residues; low-temperature partitioning extraction; exposure modellingAntimicrobial Resistance Collaborators. (2024). The burden of bacterial antimicrobial resistance in the WHO African region in 2019: A cross-country systematic analysis. The Lancet Global Health, 12(2), e201-e216. https://doi.org/10.1016/S2214-109X(23)00539-9
Arnold, K. E., Laing, G., McMahon, B. J., Fanning, S., Stekel, D. J., Pahl, O., Coyne, L., Latham, S. M. & McIntyre, K. M., (2024). The need for One Health systems-thinking approaches to understand multiscale dissemination of antimicrobial resistance. The Lancet Planetary Health. 8, 2, p. e124-e133 10 p. https://doi.org/10.1016/s2542-5196(23)00278-4
With: K. Marie McIntyreLo Iacono G, Cook AJC, Derks G, Fleming LE, French N, Gillingham EL, et al. (2024) A mathematical, classical stratification modeling approach to disentangling the impact of weather on infectious diseases: A case study using spatio-temporally disaggregated Campylobacter surveillance data for England and Wales. PLoS Comput Biol 20(1): e1011714. https://doi.org/10.1371/journal.pcbi.1011714/
Abd El Wahed, A, Kadetz, P, Okuni, JB et al. 2023. An African One Health network for antimicrobial resistance and neglected tropical diseases. Nature Medicine. https://doi.org/10.1038/s41591-023-02666-0
Keywords: antimicrobial resistance, bacterial infectionMuhammad Asaduzzaman, Zeleke Mekonnen, Ernst Kristian Rødland, Sundeep Sahay, Andrea Sylvia Winkler, Christoph Gradmann, (2024). District health information system (DHIS2) as integrated antimicrobial resistance surveillance platform: An exploratory qualitative investigation of the one health stakeholders’ viewpoints in Ethiopia. International Journal of Medical Informatics, Volume 181, 105268 https://doi.org/10.1016/j.ijmedinf.2023.105268
Keywords: OH-AMR surveillance, Digital platform, DHIS2, Feasibility and acceptability, Implementation barriers, Low-resource settings, EthiopiaCarys J. Redman-White, Kathrin Loosli, Vesa Qarkaxhija, Tim Nicholas Lee, Gerald Mboowa, Bryan A. Wee, Adrian Muwonge (2023). A Digital One Health framework to integrate data for public health decision-making, IJID One Health,Volume 1, 100012 https://doi.org/10.1016/j.ijidoh.2023.100012
Liu Zeliang, Jiang Xueqi, Li Jie , Ji Wenjing, Zhou Haijian, Gong Xinyi, Miao Beibei, Meng Shuang, Duan Like, Shi Qiyuan, Han Xiao, Gao Pengfang, Chang Chienyi, Dong Aiying, Li Juan. (2023). Molecular characteristics and antibiotic resistance mechanisms of clindamycin-resistant Streptococcus agalactiae isolates in China. Frontiers in Microbiology, 14 https://doi.org/10.3389/fmicb.2023.1138039
Ghali-Mohammed, I., Ade-Yusuf, R.O., Adewoye, A.O., Adetona, M.A., Ahmed, O.A., Alhaji, N.B. & Odetokun, I.A. (2023). Prevalence and antimicrobial susceptibility profile of Staphylococcus aureus isolated from marketed milk and cheese in Ilorin, Nigeria. Journal of Sustainable Allied and Veterinary Sciences. 5: 47-54. http://dx.doi.org/10.54328/covm.josvas.2023.140
Keywords: Antimicrobial susceptibility testing; Cheese; Milk; Prevalence; Staphylococcus aureus.Kirchhelle, C. The Antibiocene – towards an eco-social analysis of humanity’s antimicrobial footprint. Humanit Soc Sci Commun 10, 619 (2023). https://doi.org/10.1057/s41599-023-02127-6
Odetokun, I.A., Adetona, M.A., Ade-Yusuf, R.O. et al. (2023). Staphylococcus aureus contamination of animal-derived foods in Nigeria: a systematic review, 2002—2022. Food Safety and Risk 10, 6. https://doi.org/10.1186/s40550-023-00106-y
Keywords: Staphylococcus aureus contamination, Animal-derived foods, antimicrobial resistance, prevalence, virulence, nigeriaPitchforth E, Gemma-Clare A, Smith E, Taylor J, Rayner T, Lichten C, d’Angelo C, Gradmann C, Berridge V, Bertscher A, Allel K. (2023). What and how can we learn from complex global problems for antimicrobial resistance policy? A comparative study combining historical and foresight approaches. J Glob Antimicrob Resist. 35:110-121. https://doi.org/10.1016/j.jgar.2023.08.019
Keywords: Antimicrobial resistance, climate change, tobacco control, policy challenges, policy design With: Elta Smith, Kasim AllelSheila Rose Varadan, Clare Isobel Rosina Chandler, Kym Weed, Syed Masud Ahmed, Caesar Atuire, Deepshikha Batheja, Susan Jane Bull, Sander Chan, Hindrik Rogier van Doorn, Ashish Giri, René Gerrets, Steve Hinchliffe, Calvin Ho, Pablo Imbach, Marina Joubert, Claas Kirchhelle, Taciano L Milfont, Sassy Molyneux, Edna Nduku Mutua, Christopher Pell, Nenene Qekwana, Yin Mo, Phaik Yeong Cheah, Sonia Lewycka, A just transition for antimicrobial resistance: planning for an equitable and sustainable future with antimicrobial resistance, The Lancet,Volume 403, Issue 10446, 2024, 2766-2767 https://doi.org/10.1016/S0140-6736(23)01687-2
Esiovwa, R., Connolly, J., Hursthouse, A., Mukherji, S., Mukherji, S., Parasnis, A., … & Henriquez, F. (2023). Bridging the gaps in the global governance of antimicrobial resistance: the UN sustainable development goals and global health security agenda. Routledge Open Research, 1, 8. https://doi.org/10.12688/routledgeopenres.17407.2
Jung L, Kiwanuka J, Mbabazi L, Nakate V, Musaazi J, Nabajja H, Kajumbula H, Lübbert C, Mwaka E, Nsibirwa S, von Braun A. (2023). A case for routine microbial diagnostics: Results from antimicrobial susceptibility testing in post-traumatic wound infections at a Ugandan tertiary care hospital. PLOS Glob Public Health. 2023 Aug 15;3(8):e0001880. doi: 10.1371/journal.pgph.0001880. Erratum in: PLOS Glob Public Health. 2024 Dec 9;4(12):e0004082. https://doi.org/10.1371/journal.pgph.0001880
Lambert, H, Shen, X, Chai, J, et.al. (2023). Prevalence, drivers and surveillance of antibiotic resistance and antibiotic use in rural China: interdisciplinary study. PLOS Global Public Health, 3(8), e0001232. https://doi.org/10.1371/journal.pgph.0001232
With: Helen LambertMelodie Sammarro, Barry Rowlingson, Derek Cocker, Kondwani Chidziwisano, Shevin T Jacob, Henry Kajumbula, Lawrence Mugisha, David Musoke, Rebecca Lester, Tracy Morse, Nicholas Feasey, Chris Jewell (2023). Risk Factors, Temporal Dependence, and Seasonality of Human Extended-Spectrum β-Lactamases-Producing Escherichia coli and Klebsiella pneumoniae Colonization in Malawi: A Longitudinal Model-Based Approach.Clinical Infectious Diseases, Volume 77, Issue 1, 1–8 https://doi.org/10.1093/cid/ciad117
Keywords: antimicrobial resistance, Africa, communityAsaduzzaman, Muhammad; Ara, Rifat; Afrin, Sadia; Meiring, James E. & Saif-Ur-Rahman, K. M. (2022). Planetary Health Education and Capacity Building for Healthcare Professionals in a Global Context: Current Opportunities, Gaps and Future Directions. International Journal of Environmental Research and Public Health (IJERPH). ISSN 1661-7827. 19(18). https://doi.org/10.3389/fpubh.2023.1138645
Moura, P., M. Asaduzzaman et al. (2023). Users’ perception of the OH-EpiCap evaluation tool based on its application to nine national antimicrobial resistance surveillance systems. Frontiers in Public Health. 11: p. 1138645. https://doi.org/10.3389/fpubh.2023.1138645
Cocker, D et al. (2023). Investigating One Health risks for human colonisation with extended spectrum β-lactamase-producing Escherichia coli and Klebsiella pneumoniae in Malawian households: a longitudinal cohort study. The Lancet Microbe, Volume 4, Issue 7, e534 – e543.
https://doi.org/10.1016/S2666-5247(23)00062-9
Hernández, M., S. Roy, C.W. Keevil, M. G. Dumont. (2023). Identification of diverse antibiotic resistant bacteria in agricultural soil with H218O stable isotope probing combined with high-throughput sequencing. Environmental Microbiome 18: 34. https://doi.org/10.1186/s40793-023-00489-7
Keywords: Antimicrobial resistant bacteria, soil, antibiotics, Pathogens, DNA stable isotop probing, hish-throughput sequencing, MetagenomicsKasim Allel, Lucy Day, Alisa Hamilton, Leesa Lin, Luis Furuya-Kanamori, Catrin E Moore, Thomas Van Boeckel, Ramanan Laxminarayan, Laith Yakob, (2023). Global antimicrobial-resistance drivers: an ecological country-level study at the human–animal interface, The Lancet Planetary Health, Volume 7, Issue 4, e291-e303 https://doi.org/10.1016/S2542-5196(23)00026-8
Al-Mustapha, A.I., Raufu, I.A., Ogundijo, O.A., Odetokun, I.A., Tiwari, A., Brouwer, M.S.M., Adetunji, V. & Heikinheimo, A. 2023. Antibiotic resistance genes, mobile elements, virulence genes, and phages in cultivated ESBL-producing Escherichia coli of poultry origin in Kwara State, North Central Nigeria. International Journal of Food Microbiology. 389: 110086. https://doi.org/10.1016/j.ijfoodmicro.2023.110086
Keywords: AMR, ARGs, Coliphages, WGS, ESBL E. coli, Poultry, One Health, NigeriaJean-Frédéric Dubern et al. (2023). Discovery of a polymer resistant to bacterial biofilm, swarming, and encrustation. Science Advances 9(4) https://doi.org/10.1126/sciadv.add7474
European Commission: Directorate-General for Health and Food Safety, Study on a future-proofing analysis of the 2017 AMR action plan – Final report (2023). Publications Office of the European Union https://data.europa.eu/doi/10.2875/636347
Keywords: action programme, animal health, antimicrobial resistance, climate change, EU environmental policy, health policy, innovation, knowledge transfer, reportStanford, Victoria et al. (2023). Teaching skills for sustainable health care. The Lancet Planetary Health, Volume 7, Issue 1, e64 – e67 https://doi.org/10.1016/S2542-5196(22)00330-8
Devnath, Popy; Karah, Nabil; Graham, Jay P. & Asaduzzaman, Muhammad (2023). Evidence of Antimicrobial Resistance in Bats and Its Planetary Health Impact for Surveillance of Zoonotic Spillover Events: A Scoping Review. International Journal of Environmental Research and Public Health (IJERPH). ISSN 1661-7827. 20(1). https://doi.org/10.3390/ijerph20010243
Gardner, B et al. (2024). Mapping the evidence of the effects of environmental factors on the prevalence of antibiotic resistance in the non-built environment: Protocol for a systematic evidence map. Environment International, vol 171, 107707 https://doi.org/10.1016/j.envint.2022.107707
Keywords: antibiotic resistant bacteria, antibiotic resistance gene, environment, one health, systematic evidence mappingCole, J.; Eskdale, A.; Paul, J.D. Tackling AMR: A Call for a(n Even) More Integrated and Transdisciplinary Approach between Planetary Health and Earth Scientists. Challenges 2022, 13, 66 https://doi.org/10.3390/challe13020066
Keywords: climate change, antimicrobial resistance, earth science, risk mapping, transdisciplinarity With: Jonathan PaulEskdale A, Tholth EM, Paul Jonathan D, Desphande J, Cole J. (2022). Climate stress impacts on livestock health: Implications for farming livelihoods and animal disease in Karnataka, India. Cabi One Health, https://doi.org/10.1079/cabionehealth.2022.0009
Keywords: epidemiological modelling, climate, India, bacterial disease, antibiotics, antimicrobial resistanceMunk, P., Brinch, C., Møller, F.D., Peterson, T.N., Hendriksen, R.S., Seyfarth, A.M., Kjeelgaard, J.S., Svendsen, C.A., van Bunnik, B., Berglund, F., Global Sewage Surveillance Consortium*, Joakim Larsson, D.G., Koopmans, M., Woolhouse, M. & Aarestrup, F.M. (2022). Genomic analysis of sewage from 101 countries reveals global landscape of antimicrobial resistance. Nature Communications. 13: 7251. https://doi.org/10.1038/s41467-022-34312-7
Keywords: antimicrobial resistance, metgenomics, microbial ecology, policy and public health in microbiologyHerron, A. (2022). Confronting a permacrisis? The intersection between antimicrobial resistance, climate change and biodiversity loss https://www.avivainvestors.com/en-gb/views/aiq-investment-thinking/2022/11/antimicrobial-resistance
Baker M, Williams AD, Hooton SPT, Helliwell R, King E, Dodsworth T, Baena-Nogueras RM, Warry A, Ortori CA, Todman H, Gray-Hammerton CJ, Pritchard ACW, Iles E, Cook R, Emes RD, Jones MA, Kypraios T, West H, Barrett DA, Ramsden SJ, Gomes RL, Hudson C, Millard AD, Raman S, Morris C, Dodd CER, Kreft J-U, Hobman JL, Stekel DJ (2022). Antimicrobial resistance in dairy slurry tanks: a critical point for measurement and control. Environment International 169: 107516 https://doi.org/10.1016/j.envint.2022.107516
Keywords: Antimicrobial resistance, Dairy, Slurry, Mathematical model, MicrobiologyClaas Kirchelle, Adam P Roberts. (2022). Embracing the monsters: moving from infection control to microbial management. The Lancet Microbe 3.11: e806-e807. https://doi.org/10.1016/S2666-5247(22)00225-7
Gow, N.A.R., Johnson, C., Berman, J., Coste, A.T., Cuomo, C.A., Perlin, D.S., Bicanic, T., Tom Harrison, T., Wiederhold, N., Bromley, M., Chiller, T. & Edgar, K. (2022). The Importance of antimicrobial resistance in medical mycology. Nature Communications 13:5352. https://doi.org/10.1038/s41467-022-32249-5
Chua K, Norton P, Trus P, Katsikogianni M, Thornton MJ, Chan K, Chang C. (2022). Draft Genome Sequence of the Multiple Antibiotic Resistant Pseudomonas aeruginosa PAO1-UB Subline. Microbiol Resour Announc 11:e00646-22. https://doi.org/10.1128/mra.00646-22
Kelly Thornber, Claas Kirchhelle (2022). Hardwiring antimicrobial resistance mitigation into global policy. JAC-Antimicrobial Resistance, Volume 4, Issue 4, dlac083 https://doi.org/10.1093/jacamr/dlac083
Pitchforth E, Smith E, Taylor J, et al. (2022). Global action on antimicrobial resistance: lessons from the history of climate change and tobacco control policy. BMJ Global Health 2022;7:e009283. https://doi.org/10.1136/bmjgh-2022-009283
With: Elta SmithAsaduzzaman, Muhammad; Rousham, Emily Kate; Unicomb, Leanne; (2022). Spatiotemporal distribution of antimicrobial resistant organisms in different water environments in urban and rural settings of Bangladesh. Science of the Total Environment. https://doi.org/10.1016/j.scitotenv.2022.154890
Keywords: Antimicrobial resistance, Geographical Information System, Spatial Mapping, Aquatic Environment, ESBL E. Coli, Water ContaminationTak, M, Karamchedu A, Syndicus I. (2022). Identifying Economic and Financial Drivers of Industrial Livestock Production – The Case Of The Global Chicken Industry. Guidance Memo, Tiny Beam Fund. https://doi.org/10/gqbxpt
Asaduzzaman, Muhammad; Rødland, Ernst Kristian; Mekonnen, Zeleke; Gradmann, Christoph & Winkler, Andrea Sylvia (2022). Understanding transmission pathways and integrated digital surveillance potential of antimicrobial resistance in Ethiopia in a One Health approach: a mixed-method study protocol. BMJ Open. ISSN 2044-6055. 12(6). doi: 10.1136/bmjopen-2021-051022. https://doi.org/10.1136/bmjopen-2021-051022
Alhaji, N.B., Odetokun, I.A., Adamu, A.M. Hassan, A., Lawan, K.M. & Fasina, F.O. (2023): Antimicrobial usage and associated residues and resistance emergence in smallholder beef cattle production systems in Nigeria: A One Health challenge. Veterinary Research Communication. 47, 233–245. https://doi.org/10.1007/s11259-022-09944-1
Keywords: Antimicrobial use, Antimicrobial residues, antimicrobial resistance, beef animals, food safety, one healthCameron, A., Esiovwa, R., Connolly, J., Hursthouse, A., & Henriquez, F. (2022). Antimicrobial Resistance as a Global Health Threat: The Need to Learn Lessons from the COVID‐19 Pandemic. Global Policy, 13(2), 179-192. https://doi.org/10.1111/1758-5899.13049
Davis, A., Lembo, T., Laurie, E. et al. (2022). How public health crises expose systemic, day-to-day health inequalities in low- and-middle income countries: an example from East Africa. Antimicrob Resist Infect Control 11, 34 (2022). https://doi.org/10.1186/s13756-022-01071-5
Keywords: health inequities, antimicrobial resistance, qualitative data, East Africa, One HealthConnolly, J., Henriquez, F., & Hursthouse, A. (2022). Antimicrobial resistance in the real world (AMR). In How to Manage International Multidisciplinary Research Projects (pp. 63-74). Edward Elgar Publishing. https://doi.org/10.4337/9781802204728.00013
Hassoun-Kheir N, Stabholz Y, Kreft J-U, de la Cruz R, Dechesne A, Smets BF, Romalde JL, Lema A, Balboa S, García-Riestra C, Torres-Sangiao E, Neuberger A, Graham D, Quintela-Baluja M, Stekel DJ, Graham J, Pruden A, Nesme J, Sørensen SJ, Hough R, Paul M (2021). EMBRACE-WATERS statement: Recommendations for reporting of studies on antimicrobial resistance in wastewater and related aquatic environments. One Health 13: 100339 https://doi.org/10.1016/j.onehlt.2021.100339
Keywords: Antimicrobial resistance, Reporting, Recommendations, AquaticEnvironment, One healthAbimbola, S.O.; Otieno, M.A.; Cole, J. (2021). Reducing the Use of Antimicrobials as a Solution to the Challenge of Antimicrobial Resistance (AMR): Approaching an Ethical Dilemma through the Lens of Planetary Health. Challenges 2021, 12, 23. https://doi.org/10.3390/challe12020023
Keywords: antimicrobial resistance, ethics, planetary health, distributive justice, antimicrobial stewardshipLoosli K, Davis A, Muwonge A, Lembo T (2021). Addressing antimicrobial resistance by improving access and quality of care—A review of the literature from East Africa. PLoS Negl Trop Dis 15(7): e0009529 https://doi.org/10.1371/journal.pntd.0009529
Boriani, E, Aragrande, M, & Asaduzzaman, M. (2021). Pragmatic use of Planetary Health and nature based solutions for future pandemics using COVID-19 case scenario. Frontiers in Public Health. ISSN 2296-2565. https://doi.org/10.3389/fpubh.2021.620120
Abasse, O., Boukaré, K., Sampo, E., Bouda, R., Cisse, H., Stéphane, K., Odetokun, I., Sawadogo, A., Henri Nestor, B., & Savadogo, A. (2022). Spread and antibiotic resistance profile of pathogens isolated from human and hospital wastewater in Ouagadougou. Microbes and Infectious Diseases, 3(2), 318-331. http://dx.doi.org/10.21608/mid.2021.72261.1143
Keywords: Multi-drug resistance, Antibiotics, Effluent, Hospital, OuagadougouArya S, Williams A, Reina SV, Knapp CW, Kreft J-U, Hobman JL, Stekel DJ (2021). Towards a general model for predicting minimal metal concentrations co-selecting for antibiotic resistance plasmids. Environmental Pollution 275: 116602 https://doi.org/10.1016/j.envpol.2021.116602
Huang L, Gao K, Chen G, Zhong H, Li Z, Guan X, Deng Q, Xie Y, Ji W, McIver DJ, Chang CY, Liu H. (2021). Rapid Classification of Multilocus Sequence Subtype for Group B Streptococcus Based on MALDI-TOF Mass Spectrometry and Statistical Models. Front Cell Infect Microbiol. Jan 29;10:577031. https://doi.org/10.3389/fcimb.2020.577031
Hassoun-Kheir N, Stabholtz Y, Kreft J-U, de la Cruz R, Romalde JL, Nesme J, Sørensen SJ, Smets BF, Graham D, Paul M (2020). Comparison of antibiotic-resistant bacteria and antibiotic resistance genes abundance in hospital and community wastewater: A systematic review. Science of The Total Environment 743: 140804 https://doi.org/10.1016/j.scitotenv.2020.140804
Keywords: Antimicrobial resistance; Antibiotic resistant bacteria; antibiotic resistance genes; wastewater; hospital; communityAsaduzzaman, M., F. Zaman, and E. Rousham, (2020). Antibiotic consumption may be linked to exaggeration of COVID-19. Medical Hypotheses, 143: p. 109913. https://www.sciencedirect.com/science/article/pii/S0306987720309300?via%3Dihub https://doi.org/10.1016/j.mehy.2020.109913
Claas Kirchhelle, Paul Atkinson, Alex Broom, Komatra Chuengsatiansup, Jorge Pinto Ferreira, Nicolas Fortané, Isabel Frost, Christoph Gradmann, Stephen Hinchliffe, Steven J Hoffman, Javier Lezaun, Susan Nayiga, Kevin Outterson, Scott H Podolsky, Stephanie Raymond, Adam P Roberts, Andrew C Singer, Anthony D So, Luechai Sringernyuang, Elizabeth Tayler, Susan Rogers Van Katwyk, Clare I R Chandler (2020). Setting the standard: multidisciplinary hallmarks for structural, equitable and tracked antibiotic policy. BMJ Global Health, 5:e003091. https://doi.org/10.1136/bmjgh-2020-00309
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Keywords: antibiotic resistance, AMR, clinical practice, rural China, cultural capital, social capital, economic capital With: Helen LambertLambert, H., Gupte, J., Fletcher, H. et al. (2020). COVID-19 as a global challenge: towards an inclusive and sustainable future. The Lancet Planetary Health. 4(8), e312-e314 https://doi.org/10.1016/S2542-5196(20)30168-6
Arya S, Todman H, Baker M, Hooton S, Millard A, Kreft J-U, Hobman JL, Stekel DJ (2020). A generalised model for generalised transduction: the importance of co-evolution and stochasticity in phage mediated antimicrobial resistance transfer. FEMS Microbiology Ecology 96: fiaa100 https://doi.org/10.1093/femsec/fiaa100
Keywords: antimicrobial resistance, generalised transduction, bcateriophage, mathematical model, sensitivity analysisIvica Petrikova, Jennifer Cole, Andrew Farlow. (2020). COVID-19, wet markets, and planetary health, The Lancet Planetary Health,Volume 4, Issue 6, 2020, Pages e213-e214 https://doi.org/10.1016/S2542-5196(20)30122-4
Fisher, M.C., Gurr, S.J., Cuomo C.A., Blehert, D.S., Jine, H., Stukenbrock, E.H., Stajich, J.E., Kahmannh, R., Boone, C., David W. Denning, D.W., Gow. N.A.R., Klein, B.S., Kronstad, J.W., Sheppard, D.C., Taylor, J.W., Wright, G.D., Heitman, J., Casadevall, A., and Cowen, L.E. (2020). Threats posed by the Fungal Kingdom to humans, wildlife, and agriculture. MBio 11:e00449-20 https://doi.org/10.1128/mbio.00449-20
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Keywords: antimicrobial resistance, international law, global health policy, collective actionFones, H.N., Bebber, D.P., Chaloner, T.M. et al. (2020). Threats to global food security from emerging fungal and oomycete crop pathogens. Nat Food 1, 332–342. https://doi.org/10.1038/s43016-020-0075-0
Asaduzzaman, Muhammad; Muhammed, Iqbal Hossain; & Islam, Mohammad Aminul (2019). Quantification of Airborne Resistant Organisms With Temporal and Spatial Diversity in Bangladesh: Protocol for a Cross-Sectional Study. JMIR Research Protocols. ISSN 1929-0748. 8(12). doi: 10.2196/14574. https://doi.org/10.2196/14574
Keywords: antimicrobial resistance, airborn resistomes, air quality, global health, planetary health, environmental risk assessmentJennifer Cole, Jayant Desphande (2019). Poultry farming, climate change, and drivers of antimicrobial resistance in India. The Lancet Planetary Health, Volume 3, Issue 12,e494-e495 https://doi.org/10.1016/S2542-5196(19)30236-0
Bouskill, Kathryn E. and Elta Smith (2019). Global Health and Security: Threats and Opportunities. Santa Monica, CA: RAND Corporation\. https://www.rand.org/pubs/perspectives/PE332.html
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Landeg, O., Whitman, G. P., Walker-Springett, K., Butler, C., Bone, A., & Kovats, S. (2019) Coastal Flooding and Frontline Health Care Services: Challenges for Flood Risk Resilience in the English Health Care System. Journal of Health Services Research & Policy, vol. 24, no. 4, pp. 219–228 https://doi.org/10.1177/1355819619840672
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Shen, X., Xie, M., Chai, J., et al. (2019). Pathways of healthcare and antibiotics use following reported gastrointestinal illness: a cross-sectional study in rural Anhui, China. BMJ open, 9(8), e030986. https://doi.org/10.1136/bmjopen-2019-030986
Zhao, L, Kwiatkowska, R, Chai, J, et al. (2019). Pathways to optimising antibiotic use in rural China: identifying key determinants in community and clinical settings, a mixed methods study protocol. BMJ open, 9(8), e027819. https://doi.org/10.1136/bmjopen-2018-027819
Keywords: China, antibiotics, antimicrobial resistance, medical records, mixed methods, outpatients With: Helen LambertRodgers, K., McLellan, I., Peshkur, T. et al. (2019). Can the legacy of industrial pollution influence antimicrobial resistance in estuarine sediments? Environ Chem Lett 17, 595–607. https://doi.org/10.1007/s10311-018-0791-y
Keywords: Antimicrobial resistance, metals, polyaromatic hydrocarbons, environment, microbiome, pollutionChaloner Thomas M., Fones Helen N., Varma Varun, Bebber Daniel P. and Gurr Sarah J. (2019). A new mechanistic model of weather-dependent Septoria tritici blotch disease risk. Phil. Trans. R. Soc. B37420180266 https://doi.org/10.1098/rstb.2018.0266
Swift, B. M. C., Bennett, M., Waller, K., Dodd, C., Murray, A., Gomes, R. L., Humphreys, B., Hobman, J. L., Jones, M. A., Whitlock, S. E., Mitchell, L. J., Lennon, R. J. & Arnold, K. E. (2019). Anthropogenic environmental drivers of antimicrobial resistance in wildlife. Science of the Total Environment. 649, p. 12-20 https://doi.org/10.1016/j.scitotenv.2018.08.180
Keywords: Antimicrobial resistance; Birds; E. coli; Multi-drug resistance; Wastewater treatment; WildlifeMcCann, C. M., Christgen, B., Roberts, J. A., Su, J-Q., Arnold, K. E., Gray, N. D., Zhu, Y-G. & Graham, D. W. (2019) Understanding drivers of antibiotic resistance genes in High Arctic soil ecosystems. Environment International. 8 p. https://doi.org/10.1016/j.envint.2019.01.034
Keywords: Antibiotic resistance; Geochemistry; High Arctic; High throughput qPCR; International spread; WildlifePurves, J., Thomas, J., Riboldi, G.P., Zapotoczna, M., Tarrant, E., Andrew, P.W., Londoño, A., Planet, P.J., Geoghegan, J.A., Waldron, K.J. and Morrissey, J.A. (2018). A horizontally gene transferred copper resistance locus confers hyper-resistance to antibacterial copper toxicity and enables survival of community acquired methicillin resistant Staphylococcus aureus USA300 in macrophages. Environ Microbiol, 20: 1576-1589 https://doi.org/10.1111/1462-2920.14088
Asaduzzaman, Muhammad (2018). Antimicrobial resistance: an urgent need for a planetary and ecosystem approach. The Lancet Planetary Health, 2(3), p. e99–e100. doi: 10.1016/S2542-5196%2818%2930019-6. https://doi.org/10.1016/S2542-5196(18)30019-6
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Kadetz, P and Mock, N (2017). Problematizing Vulnerability: unpacking gender, intersectionality and the normative disaster paradigm. In Zakour, M. J., Mock, N. and Kadetz, P. (eds). Creating Katrina, Rebuilding Resilience: Lessons from New Orleans On Vulnerability and Resiliency. New York: Elsevier. https://doi.org/10.1016/B978-0-12-809557-7.00009-0
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Fones, H.N., Gurr, S.J. (2017). NOXious gases and the unpredictability of emerging plant pathogens under climate change. BMC Biol 15, 36. https://doi.org/10.1186/s12915-017-0376-4
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