Antimicrobial Resistance in the Environment: Towards Elucidating the Roles of Bioaerosols in Transmission and Detection of Antibacterial Resistance Genes.
Paul B L GeorgeFlorent RossiMagali-Wen St-GermainPierre AmatoThierry BadardMichel G BergeronMaurice BoissinotSteve J CharetteBrenda L ColemanJacques CorbeilAlexander I CulleyMarie-Lou GaucherMatthieu GirardStéphane GodboutShelley P KirychukAndré MaretteAllison McGeerPatrick T O'ShaughnessyE Jane ParmleySerge SimardRichard J Reid-SmithEdward ToppLuc TrudelMaosheng YaoPatrick BrassardAnne-Marie DelortAraceli D LariosValérie LétourneauValérie E PaquetMarie-Hélène PedneauÉmilie PicBrooke ThompsonMarc VeilletteMary ThalerIlaria ScapinoMaria LebeufMahsa BaghdadiAlejandra Castillo ToroAmélia Bélanger CayouetteMarie-Julie DuboisAlicia F DurocherSarah B GirardAndrea Katherín Carranza DiazAsmaâ KhalloufiSamantha LeclercJoanie LemieuxManuel Pérez MaldonadoGeneviève PilonColleen P MurphyCharly A NotlingDaniel Ofori-DarkoJuliette ProvencherAnnabelle Richer-FortinNathalie TurgeonCaroline DuchainePublished in: Antibiotics (Basel, Switzerland) (2022)
Antimicrobial resistance (AMR) is continuing to grow across the world. Though often thought of as a mostly public health issue, AMR is also a major agricultural and environmental problem. As such, many researchers refer to it as the preeminent One Health issue. Aerial transport of antimicrobial-resistant bacteria via bioaerosols is still poorly understood. Recent work has highlighted the presence of antibiotic resistance genes in bioaerosols. Emissions of AMR bacteria and genes have been detected from various sources, including wastewater treatment plants, hospitals, and agricultural practices; however, their impacts on the broader environment are poorly understood. Contextualizing the roles of bioaerosols in the dissemination of AMR necessitates a multidisciplinary approach. Environmental factors, industrial and medical practices, as well as ecological principles influence the aerial dissemination of resistant bacteria. This article introduces an ongoing project assessing the presence and fate of AMR in bioaerosols across Canada. Its various sub-studies include the assessment of the emissions of antibiotic resistance genes from many agricultural practices, their long-distance transport, new integrative methods of assessment, and the creation of dissemination models over short and long distances. Results from sub-studies are beginning to be published. Consequently, this paper explains the background behind the development of the various sub-studies and highlight their shared aspects.
Keyphrases
- antimicrobial resistance
- antibiotic resistance genes
- wastewater treatment
- healthcare
- human health
- public health
- climate change
- heavy metals
- microbial community
- risk assessment
- primary care
- case control
- genome wide
- quality improvement
- staphylococcus aureus
- mental health
- life cycle
- gene expression
- randomized controlled trial
- systematic review
- drinking water
- municipal solid waste
- label free
- bioinformatics analysis
- meta analyses
- social media