A Review of Enrofloxacin for Veterinary Use Tessa Trouchon, Sebastien Lefebvre
Total Page:16
File Type:pdf, Size:1020Kb
Load more
Recommended publications
-
Antibiotic Use Guidelines for Companion Animal Practice (2Nd Edition) Iii
ii Antibiotic Use Guidelines for Companion Animal Practice (2nd edition) iii Antibiotic Use Guidelines for Companion Animal Practice, 2nd edition Publisher: Companion Animal Group, Danish Veterinary Association, Peter Bangs Vej 30, 2000 Frederiksberg Authors of the guidelines: Lisbeth Rem Jessen (University of Copenhagen) Peter Damborg (University of Copenhagen) Anette Spohr (Evidensia Faxe Animal Hospital) Sandra Goericke-Pesch (University of Veterinary Medicine, Hannover) Rebecca Langhorn (University of Copenhagen) Geoffrey Houser (University of Copenhagen) Jakob Willesen (University of Copenhagen) Mette Schjærff (University of Copenhagen) Thomas Eriksen (University of Copenhagen) Tina Møller Sørensen (University of Copenhagen) Vibeke Frøkjær Jensen (DTU-VET) Flemming Obling (Greve) Luca Guardabassi (University of Copenhagen) Reproduction of extracts from these guidelines is only permitted in accordance with the agreement between the Ministry of Education and Copy-Dan. Danish copyright law restricts all other use without written permission of the publisher. Exception is granted for short excerpts for review purposes. iv Foreword The first edition of the Antibiotic Use Guidelines for Companion Animal Practice was published in autumn of 2012. The aim of the guidelines was to prevent increased antibiotic resistance. A questionnaire circulated to Danish veterinarians in 2015 (Jessen et al., DVT 10, 2016) indicated that the guidelines were well received, and particularly that active users had followed the recommendations. Despite a positive reception and the results of this survey, the actual quantity of antibiotics used is probably a better indicator of the effect of the first guidelines. Chapter two of these updated guidelines therefore details the pattern of developments in antibiotic use, as reported in DANMAP 2016 (www.danmap.org). -
An Investigation of Class 1 Integrons and Integrase Gene In
AN INVESTIGATION OF CLASS 1 INTEGRONS AND INTEGRASE GENE IN ESCHERICHIA COLI AND MANNHEIMIA HAEMOLYTICA FROM BEEF CATTLE IN WESTERN CANADA A Thesis Presented to The Faculty of Graduate Studies of The University of Guelph by MATTHEW LESLIE In partial fulfillment of requirements for the degree of Master of Science May, 2011 © Matthew Leslie, 2011 Library and Archives Bibliotheque et 1*1 Canada Archives Canada Published Heritage Direction du Branch Patrimoine de I'edition 395 Wellington Street 395, rue Wellington OttawaONK1A0N4 Ottawa ON K1A 0N4 Canada Canada Your file Vote reference ISBN: 978-0-494-82791-8 Our We Notre r6f6rence ISBN: 978-0-494-82791-8 NOTICE: AVIS: The author has granted a non L'auteur a accorde une licence non exclusive exclusive license allowing Library and permettant a la Bibliotheque et Archives Archives Canada to reproduce, Canada de reproduire, publier, archiver, publish, archive, preserve, conserve, sauvegarder, conserver, transmettre au public communicate to the public by par telecommunication ou par I'lnternet, preter, telecommunication or on the Internet, distribuer et vendre des theses partout dans le loan, distribute and sell theses monde, a des fins commerciaies ou autres, sur worldwide, for commercial or non support microforme, papier, electronique et/ou commercial purposes, in microform, autres formats. paper, electronic and/or any other formats. The author retains copyright L'auteur conserve la propriete du droit d'auteur ownership and moral rights in this et des droits moraux qui protege cette these. Ni thesis. Neither the thesis nor la these ni des extraits substantiels de celle-ci substantial extracts from it may be ne doivent etre imprimes ou autrement printed or otherwise reproduced reproduits sans son autorisation. -
AMEG Categorisation of Antibiotics
12 December 2019 EMA/CVMP/CHMP/682198/2017 Committee for Medicinal Products for Veterinary use (CVMP) Committee for Medicinal Products for Human Use (CHMP) Categorisation of antibiotics in the European Union Answer to the request from the European Commission for updating the scientific advice on the impact on public health and animal health of the use of antibiotics in animals Agreed by the Antimicrobial Advice ad hoc Expert Group (AMEG) 29 October 2018 Adopted by the CVMP for release for consultation 24 January 2019 Adopted by the CHMP for release for consultation 31 January 2019 Start of public consultation 5 February 2019 End of consultation (deadline for comments) 30 April 2019 Agreed by the Antimicrobial Advice ad hoc Expert Group (AMEG) 19 November 2019 Adopted by the CVMP 5 December 2019 Adopted by the CHMP 12 December 2019 Official address Domenico Scarlattilaan 6 ● 1083 HS Amsterdam ● The Netherlands Address for visits and deliveries Refer to www.ema.europa.eu/how-to-find-us Send us a question Go to www.ema.europa.eu/contact Telephone +31 (0)88 781 6000 An agency of the European Union © European Medicines Agency, 2020. Reproduction is authorised provided the source is acknowledged. Categorisation of antibiotics in the European Union Table of Contents 1. Summary assessment and recommendations .......................................... 3 2. Introduction ............................................................................................ 7 2.1. Background ........................................................................................................ -
WSAVA List of Essential Medicines for Cats and Dogs
The World Small Animal Veterinary Association (WSAVA) List of Essential Medicines for Cats and Dogs Version 1; January 20th, 2020 Members of the WSAVA Therapeutic Guidelines Group (TGG) Steagall PV, Pelligand L, Page SW, Bourgeois M, Weese S, Manigot G, Dublin D, Ferreira JP, Guardabassi L © 2020 WSAVA All Rights Reserved Contents Background ................................................................................................................................... 2 Definition ...................................................................................................................................... 2 Using the List of Essential Medicines ............................................................................................ 2 Criteria for selection of essential medicines ................................................................................. 3 Anaesthetic, analgesic, sedative and emergency drugs ............................................................... 4 Antimicrobial drugs ....................................................................................................................... 7 Antibacterial and antiprotozoal drugs ....................................................................................... 7 Systemic administration ........................................................................................................ 7 Topical administration ........................................................................................................... 9 Antifungal drugs ..................................................................................................................... -
Nitroaromatic Antibiotics As Nitrogen Oxide Sources
Review biomolecules Nitroaromatic Antibiotics as Nitrogen Oxide Sources Review Allison M. Rice, Yueming Long and S. Bruce King * Nitroaromatic Antibiotics as Nitrogen Oxide Sources Department of Chemistry and Biochemistry, Wake Forest University, Winston-Salem, NC 27101, USA; Allison M. Rice , Yueming [email protected] and S. Bruce (A.M.R.); King [email protected] * (Y.L.) * Correspondence: [email protected]; Tel.: +1-336-702-1954 Department of Chemistry and Biochemistry, Wake Forest University, Winston-Salem, NC 27101, USA; [email protected]: Nitroaromatic (A.M.R.); [email protected] antibiotics (Y.L.) show activity against anaerobic bacteria and parasites, finding * Correspondence: [email protected]; Tel.: +1-336-702-1954 use in the treatment of Heliobacter pylori infections, tuberculosis, trichomoniasis, human African trypanosomiasis, Chagas disease and leishmaniasis. Despite this activity and a clear need for the Abstract: Nitroaromatic antibiotics show activity against anaerobic bacteria and parasites, finding usedevelopment in the treatment of new of Heliobacter treatments pylori forinfections, these conditio tuberculosis,ns, the trichomoniasis, associated toxicity human Africanand lack of clear trypanosomiasis,mechanisms of action Chagas have disease limited and their leishmaniasis. therapeutic Despite development. this activity Nitroaro and a clearmatic need antibiotics for require thereductive development bioactivation of new treatments for activity for theseand this conditions, reductive the associatedmetabolism toxicity can convert -
Belgian Veterinary Surveillance of Antibacterial Consumption National
Belgian Veterinary Surveillance of Antibacterial Consumption National consumption report 2020 Publication : 22 June 2021 1 SUMMARY This annual BelVet-SAC report is now published for the 12th time and describes the antimicrobial use (AMU) in animals in Belgium in 2020 and the evolution since 2011. For the third year this report combines sales data (collected at the level of the wholesalers-distributors and the compound feed producers) and usage data (collected at farm level). This allows to dig deeper into AMU at species and farm level in Belgium. With a consumption of 87,6 mg antibacterial compounds/kg biomass an increase of +0.2% is seen in 2020 in comparison to 2019. The increase seen in 2020 is spread over both pharmaceuticals (+0.2%) and antibacterial premixes (+4.0%). This unfortunately marks the end of a successful reduction in antibacterial product sales that was seen over the last 6 years resulting in a cumulative reduction of -40,2% since 2011. The gap seen in the coverage of the sales data with the Sanitel-Med collected usage data increased substantially compared to 2019, meaning continuous efforts need to be taken to ensure completeness of the collected usage data. When looking at the evolution in the number of treatment days (BD100) at the species level, as calculated from the SANITEL- MED use data, use increased in poultry (+5,0%) and veal calves (+1,9%), while it decreased in pigs (-3,1%). However, the numerator data for this indicator remain to be updated for 2020, potentially influencing the reliability of the result. -
DANMAP 2016 - Use of Antimicrobial Agents and Occurrence of Antimicrobial Resistance in Bacteria from Food Animals, Food and Humans in Denmark
Downloaded from orbit.dtu.dk on: Oct 09, 2021 DANMAP 2016 - Use of antimicrobial agents and occurrence of antimicrobial resistance in bacteria from food animals, food and humans in Denmark Borck Høg, Birgitte; Korsgaard, Helle Bisgaard; Wolff Sönksen, Ute; Bager, Flemming; Bortolaia, Valeria; Ellis-Iversen, Johanne; Hendriksen, Rene S.; Borck Høg, Birgitte; Jensen, Lars Bogø; Korsgaard, Helle Bisgaard Total number of authors: 27 Publication date: 2017 Document Version Publisher's PDF, also known as Version of record Link back to DTU Orbit Citation (APA): Borck Høg, B. (Ed.), Korsgaard, H. B. (Ed.), Wolff Sönksen, U. (Ed.), Bager, F., Bortolaia, V., Ellis-Iversen, J., Hendriksen, R. S., Borck Høg, B., Jensen, L. B., Korsgaard, H. B., Pedersen, K., Dalby, T., Træholt Franck, K., Hammerum, A. M., Hasman, H., Hoffmann, S., Gaardbo Kuhn, K., Rhod Larsen, A., Larsen, J., ... Vorobieva, V. (2017). DANMAP 2016 - Use of antimicrobial agents and occurrence of antimicrobial resistance in bacteria from food animals, food and humans in Denmark. Statens Serum Institut, National Veterinary Institute, Technical University of Denmark National Food Institute, Technical University of Denmark. General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. Users may download and print one copy of any publication from the public portal for the purpose of private study or research. You may not further distribute the material or use it for any profit-making activity or commercial gain You may freely distribute the URL identifying the publication in the public portal If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. -
NVA237 / Glycopyrronium Bromide Multinational, Multi-Database Drug
Quantitative Safety & Epidemiology NVA237 / Glycopyrronium bromide Non-interventional Final Study Report NVA237A2401T Multinational, multi-database drug utilization study of inhaled NVA237 in Europe Author Document Status Final Date of final version 28 April 2016 of the study report EU PAS register ENCEPP/SDPP/4845 number Property of Novartis Confidential May not be used, divulged, published or otherwise disclosed without the consent of Novartis NIS Report Template Version 2.0 August-13-2014 Novartis Confidential Page 2 Non-interventional study report NVA237A/Seebri® Breezhaler®/CNVA237A2401T PASS information Title Multinational, multi-database drug utilization study of inhaled NVA237 in Europe –Final Study Report Version identifier of the Version 1.0 final study report Date of last version of 28 April 2016 the final study report EU PAS register number ENCEPP/SDPP/4845 Active substance Glycopyrronium bromide (R03BB06) Medicinal product Seebri®Breezhaler® / Tovanor®Breezhaler® / Enurev®Breezhaler® Product reference NVA237 Procedure number SeebriBreezhaler: EMEA/H/C/0002430 TovanorBreezhaler: EMEA/H/C/0002690 EnurevBreezhaler: EMEA/H/C0002691 Marketing authorization Novartis Europharm Ltd holder Frimley Business Park Camberley GU16 7SR United Kingdom Joint PASS No Research question and In the context of the NVA237 marketing authorization objectives application, the Committee for Medicinal Products for Human Use (CHMP) recommended conditions for marketing authorization and product information and suggested to conduct a post-authorization -
Antimicrobial Stewardship: Getting the Most out of Culture and Susceptibility Tests Insights from a Microbiologist
ANTIMICROBIAL STEWARDSHIP: GETTING THE MOST OUT OF CULTURE AND SUSCEPTIBILITY TESTS INSIGHTS FROM A MICROBIOLOGIST Joe Rubin, DVM, PhD Associate Professor Department of Veterinary Microbiology University of Saskatchewan DISCLOSURES • Received research grants from • Zoetis • Elanco/Novartis • I am a microbiologist and not a practitioner! OBJECTIVES • To give an overview of the scope of the problem of AMR • To inspire the intent to change/improve/reevaluate prescribing practices • To provide tools to use antimicrobials more effectively • Antimicrobial mechanisms of action and resistance • Introduction to intrinsic resistance • Overview of key emerging resistance in veterinary medicine THE POST-ANTIBIOTIC ERA Estimated Attributable Deaths in 2050 https://amr-review.org/ CURRENT THREATS BROAD SPECTRUM Β-LACTAMASES METHICILLIN RESISTANT STAPH AUREUS EMERGING RESISTANCE IN CANADA CHANGING RESISTANCE? ANTIMICROBIAL USE ANIMALS ANTIMICROBIAL USE COMPANION ANIMALS ANTIMICROBIAL USE COMPANION ANIMALS • Large study out of UK • 216 practices • Included data from >400,000 dogs and >200,000 cats • Beta-lactams most commonly used • Amox + clav in dogs • 3rd Generation cephalosporins in cats HOW CANADA’S AMU COMPARES STEWARDSHIP – WHAT IS IT? “The term “antimicrobial stewardship” is used to describe the multifaceted and dynamic approaches required to sustain the clinical efficacy of antimicrobials by optimizing drug use, choice, dosing, duration, and route of administration, while minimizing the emergence of resistance and other adverse effects.” STEWARDSHIP -
Comparative Efficacy of Kanamycin, Enrofloxacin, Moxifloxacin and Cefoperazone for the Treatment of Pneumonia in Buffaloes
Journal of Animal Research: v.8 n.5, p. 807-811. October 2018 DOI: 10.30954/2277-940X.10.2018.10 Comparative Efficacy of Kanamycin, Enrofloxacin, Moxifloxacin and Cefoperazone for the Treatment of Pneumonia in Buffaloes Praveen Kumar1*, V.K. Jain1, Tarun Kumar2, Parveen Goel1 and Neelesh Sindhu2 1Department of Veterinary Medicine, College of Veterinary Sciences, Lala Lajpat Rai University of Veterinary and Animal Sciences, Hisar, INDIA 2Veterinary Clinical Complex, Lala Lajpat Rai University of Veterinary and Animal Sciences, Hisar, INDIA *Corresponding author: P Kumar; Email: [email protected] Received: 05 March., 2018 Revised: 21 July, 2018 Accepted: 31 July, 2018 ABSTRACT A study was conducted to evaluate the comparative efficacy of kanamycin, enrofloxacin, moxifloxacin and cefoperazone to treat pneumonia in buffaloes. During study period, a total of 28 buffaloes brought to VCC, LUVAS, Hisar with the history of fever, anorexia, nasal discharge, coughing and dyspnoea. Clinical examination revealed abnormal lung sounds during auscultation. All the buffaloes diagnosed with pneumonia were randomly divided into four equal groups viz. group I, II, III and IV. Animals of group I were treated with kanamycin @ 7.0 mg/kg b.wt., i/m, b.i.d., group II with enrofloxacin @ 5 mg/kg b.wt., i/m, o.d., group III with moxifloxacin @ 5 mg/kg b.wt., i/m, o.d. and group IV with cefoperazone@ 20 mg/kg b.wt., i/m, o.d., along with supportive therapy for 5 days. Clinical recovery was determined on the basis of remittance of clinical signs. The highest and earliest recovery was found in group II animals. -
Pharmacology for Veterinary Medicine Students Part II by Staff Members Depatment of Pharmacology Faculty of Veterinary Medicine
Pharmacology for veterinary medicine students Part II By Staff members Depatment of Pharmacology Faculty of Veterinary Medicine Beni-Suef University 2019-2020 Item Page Drugs affecting etabolism……………………………………………….3 Antibiotics……………………………………………………………...17 Sulphonamides and Other antimicrobials……………………………….47 Antifungal drugs………………………………………………………...62 Antitubercular drugs……………………………………….………....…66 Antiparasitics………………………………………………..………….68 Antiprotozoals…………………………………………….……………78 Antiseptics and disinfectants……………………………….…….…….85 Antiviral agents…………………………………………….………..…90 Cancer chemotherapy………………………………………..………….97 Drug affecting endocrine system………………………………………101 Clinical pharmacology………………………………………….……. 116 Drug toxicology……………………………………………………… 125 Fish pharmacology…………………………………………………… 137 2 Fluids, electrolytes and acid-base therapy About 60 % of a normal animal's body weight is composed of water, fat, age, obese and older animals tend to have a small percentage of water of this 60 %, 33 % is within the body cells and is referred to as intracellular fluid compartment (ICF). The remaining 27 % is outside (between) the cells and is referred to as the extracellular fluid compartment (ECF). ECF may be further divided into sub-compartments (plasma 5 %, interstitial fluid 8 %, transcellular fluid 2 %, dense connective tissue and bone 12 %). Sodium is principally responsible for ECF osmolality. Osmolality in the ICF is principally determined by potassium, magnesium, phosphates and proteins. Na-K ATPase that is present in most cellular membranes (except for most canine and feline red blood cell membranes) maintains a very low intracellular Na concentration. Hence, if Na is added to the ECF it stays there and increases the osmolality and tonicity consequently, water is be drawn out of the ICF and into the ECF compartments until the osmolalities of the two fluid compartments are nearly equal. Chloride atoms usually follow Na atoms in order to maintain electroneurality. -
The Grohe Method and Quinolone Antibiotics
The Grohe method and quinolone antibiotics Antibiotics are medicines that are used to treat bacterial for modern fluoroquinolones. The Grohe process and the infections. They contain active ingredients belonging to var- synthesis of ciprofloxacin sparked Bayer AG’s extensive ious substance classes, with modern fluoroquinolones one research on fluoroquinolones and the global competition of the most important and an indispensable part of both that produced additional potent antibiotics. human and veterinary medicine. It is largely thanks to Klaus Grohe – the “father of Bayer quinolones” – that this entirely In chemical terms, the antibiotics referred to for simplicity synthetic class of antibiotics now plays such a vital role for as quinolones are derived from 1,4-dihydro-4-oxo-3-quin- medical practitioners. From 1965 to 1997, Grohe worked oline carboxylic acid (1) substituted in position 1. as a chemist, carrying out basic research at Bayer AG’s Fluoroquinolones possess a fluorine atom in position 6. In main research laboratory (WHL) in Leverkusen. During this addition, ciprofloxacin (2) has a cyclopropyl group in posi- period, in 1975, he developed the Grohe process – a new tion 1 and also a piperazine group in position 7 (Figure A). multi-stage synthesis method for quinolones. It was this This substituent pattern plays a key role in its excellent achievement that first enabled him to synthesize active an- antibacterial efficacy. tibacterial substances such as ciprofloxacin – the prototype O 5 O 4 3 6 COOH F COOH 7 2 N N N 8 1 H N R (1) (2) Figure A: Basic structure of quinolone (1) (R = various substituents) and ciprofloxacin (2) Quinolones owe their antibacterial efficacy to their inhibition This unique mode of action also makes fluoroquinolones of essential bacterial enzymes – DNA gyrase (topoisomer- highly effective against a large number of pathogenic ase II) and topoisomerase IV.