05183nam 2201465z- 450 991057688640332120220621(CKB)5720000000008310(oapen)https://directory.doabooks.org/handle/20.500.12854/84435(oapen)doab84435(EXLCZ)99572000000000831020202206d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMonitoring and Surveillance of Veterinary Antimicrobial Use and Antibiotic Resistance in AnimalsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (292 p.)3-0365-4082-2 3-0365-4081-4 Antimicrobial resistance is a global One Health topic that affects us all, whether we are working in human or veterinary medicine. Although antibiotic use in farm animals is decreasing in many countries, other nations are still using these essential medical resources as growth promoters to boost economic gains. As veterinarians responsible for animal welfare, it is vital that we are permitted to treat sick animals effectively, but we must learn to be more prudent in our use of these drugs. It is essential that we, as responsible clinicians, policy makers, and researchers, develop methods of quantifying, monitoring, benchmarking, and reporting antibiotic use in both farm and companion animals, so that antimicrobial stewardship schemes can be implemented and their successes or failures analyzed. This Special Issue includes research on antibiotic use and resistance in a variety of animal species, covering cattle, sheep, pigs, poultry, and pets. The relationship between antimicrobial use and resistance in animals is investigated on a global scale, with authors from Austria, Australia, Brazil, Germany, Italy, India, the Netherlands, Peru, Portugal, Slovenia, and the United Kingdom.MedicinebicsscAMRantibioticantibiotic growth promotersantibiotic resistanceantibiotic useantibioticsantimicrobialantimicrobial resistanceantimicrobial resistance (AMR)antimicrobial resistance genesantimicrobial susceptibility testingantimicrobial usageantimicrobial usebeef cattlebiosecuritybovinebovine respiratory diseasebroilerscalvescanine parvoviruscarbapenemsCarnivore protoparvovirus 1catschickencoagulase-negative Staphylococcuscompanion animalCoNSCPEcritically important antimicrobialsdairydairy farmdogdogsE. colienteritisEnterobacteriaceaeenvironmentESBLEscherichia coliextensively drug-resistantexudative epidermitisfarmfarmsfarmworkersfeedFlexicult Vetgrowth promotersgrowth promotionHPCIAIndiaintroduction riskisolatesKAP surveylivestockMannheimia haemolyticaMDRmeat-producing animalmetagenomicsmonitoringMRSAmultidrug resistancemultidrug-resistancemultidrug-resistantneonatal calf diarrheanormalised resistance interpretationOne HealthPasteurella multocidapathogen identificationPFGEpigspoultryprudent usepublic awarenessqPCRquailsrisk assessmentrisk factorserotypessheepStaphylococcus hyicusstochastic risk modelsurveyswinetetracyclinesTimor-LestetravelersTruperella pyogenesturkeysurinary tract infectionveterinariansveterinaryveterinary microbiologyvirulenceweaned pigletMedicineFirth Clair Ledt1326497Firth Clair LothBOOK9910576886403321Monitoring and Surveillance of Veterinary Antimicrobial Use and Antibiotic Resistance in Animals3037568UNINA04606nam 2201261z- 450 991058020330332120220706(CKB)5690000000012057(oapen)https://directory.doabooks.org/handle/20.500.12854/87435(oapen)doab87435(EXLCZ)99569000000001205720202207d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierModern Developments in Transcranial Magnetic Stimulation (TMS) - Applications and Perspectives in Clinical NeuroscienceBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (286 p.)3-0365-4398-8 3-0365-4397-X Transcranial magnetic stimulation (TMS) is being increasingly used in neuroscience and clinics. Modern advances include but are not limited to the combination of TMS with precise neuronavigation as well as the integration of TMS into a multimodal environment, e.g., by guiding the TMS application using complementary techniques such as functional magnetic resonance imaging (fMRI), electroencephalography (EEG), diffusion tensor imaging (DTI), or magnetoencephalography (MEG). Furthermore, the impact of stimulation can be identified and characterized by such multimodal approaches, helping to shed light on the basic neurophysiology and TMS effects in the human brain. Against this background, the aim of this Special Issue was to explore advancements in the field of TMS considering both investigations in healthy subjects as well as patients.Modern Developments in Transcranial Magnetic Stimulation Medical equipment and techniquesbicsscA1RA2ARaberrant and repetitive behaviorsaction namingadenosineagingalpha oscillationsAlzheimer's diseaseaphasiaAutism spectrum disorderbihemisphericbilingualbrain networksbrain stimulationbrain tumorcase reportCD73chronic painconnectivitydorsolateral prefrontal cortexEEGEEG state-dependent TMSelectric fieldeloquent cortexevoked and induced gamma oscillationsexcitabilityfiber tractographyfMRIfunctional connectivityfunctional mappingglioblastoma multiformegray matterhippocampusICUintensive careiTBSlanguagelanguage mappinglow back painMEGmemorymild cognitive impairmentmotor evoked potentialsmotor mappingmotor thresholdn/anavigated transcranial magnetic stimulationneurocritical careneuroinflammationneuromodulationneuromonitoringneuronavigationneuroplasticitynon-invasive brain stimulationnTMSobject namingoddball taskpaired associative stimulationpicture namingplasticitypreoperative mappingpresurgical evaluationprimary motor cortexpurinergic signalingreaction timerehabilitationrepetition suppressionrepetitive transcranial magnetic stimulationrTMSsource reconstructionstroketheta-burst stimulationTMStranscranial magnetic stimulationMedical equipment and techniquesSollmann Nicoedt1328763Julkunen PetroedtSollmann NicoothJulkunen PetroothBOOK9910580203303321Modern Developments in Transcranial Magnetic Stimulation (TMS) – Applications and Perspectives in Clinical Neuroscience3038914UNINA