Committee on One Health



Committee on One HealthChair: Liz Wagstrom, IAVice Chair: Joni Scheftel, MNHelen Acland, PA; Gary Anderson, KS; Robin Anderson, TX; Joseph Annelli, MD; Chris Ashworth, AR; James Averill, MI; Kay Backues, OK; Deanna Baldwin, MD; Karen Beck, NC; Justin Bergeron, ME; Kathe Bjork, CO; Richard Breitmeyer, CA; Paul Brennan, IN; Tom Burkgren, IA; Joseph Corn, GA; Michael Costin, IL; Stephen Crawford, NH; Tarrie Crnic, KS; Ignacio dela Cruz, MP; Thomas DeLiberto, CO; Jacques deMoss, MO; Barbara Determan, IA; Cristy Dice, CO; Leah Dorman, OH; Brandon Doss, AR; Tracy DuVernoy, MD; Anita Edmondson, CA; Brigid Elchos, MS; Fran?ois Elvinger, NY; Anna Claire Fagre, CO; William Fales, MO; Heather Fenton, GA; John Fischer, GA; Allison Flinn, DC; Katie Flynn, CA; Patricia Foley, IA; Larry Forgey, MO; Heather Fowler, IA; Nancy Frank, MI; Tony Frazier, AL; Tam Garland, TX; Donna Gatewood, IA; Robert Gerlach, AK; Eric Gingerich, IN; K. Fred Gingrich II, OH; Gail Golab, IL; Timothy Goldsmith, MN; Michael Greenlee, WA; Jean Guard, GA; Scott Gustin, AR; Keith Haffer, SD; Rod Hall, OK; Steven Halstead, MI; Bill Hawks, DC; Kate Hayes, AL; Julie Helm, SC; Kristi Henderson, IL; Warren Hess, IL; Heather Hirst, DE; Christine Hoang, IL; Donald Hoenig, ME; Kristin Holt, GA; Danny Hughes, AR; Eric Jensen, AL; Annette Jones, CA; Anne Justice-Allen, AZ; Subhashinie Kariyawasam, PA; Donna Kelly, PA; Patrice Klein, DC; Michael Kopp, IN; Daniel Kovich, DC; Charlotte Krugler, SC; Todd Landt, IA; Emily Lankau, GA; Dale Lauer, MN; Elizabeth Lautner, IA; Chelsie Lawyer, IN; Jonathan Lebovitz, VA; Molly Jean Lee, IA; Donald Lein, NY; Anne Lichtenwalner, ME; Rick Linscott, ME; Mary Lis, CT; Lindsey Long, WI; Karen Lopez, DE; Mark Luedtke, MN; Margie Lyness, GA; Joanne Maki, GA; David Marshall, NC; Beatriz Martinez Lopez, CA; Rose Massengill, MO; Patrick McDonough, NY; Shirley McKenzie, NC; Caitlin McKenzie, WI; Katherine McNamara, VT; Scott McVey, KS; David Meeker, VA; Shelley Mehlenbacher, VT; Gay Miller, IL; Sarah Mize, CA; Eric Mohlman, NE; Alfred Montgomery, DC; Susan Moore, KS; Brenda Morningstar-Shaw, IA; Lee Myers, GA; Thomas Myers, MD; Cheryl Nelson, KY; Sandra Norman, IN; Dustin Oedekoven, SD; Skip Oertli, TX; Steve Olson, MN; Kristy Pabilonia, CO; Roger Parker, TX; William (Steve) Parker, GA; Janet Payeur, IA; William Pittenger, MO; David Pyburn, IA; Lisa Quiroz, CA; Valerie Ragan, VA; Shelley Rankin, PA; M. Gatz Riddell, AL; G. Donald Ritter, DE; Susan Rollo, TX; Gregorio Rosales, AL; Mark Ruder, GA; Larry Samples, PA; Roxana Sanchez-Ingunza, KS; John Sanders, WV; Travis Schaal, IA; Joni Scheftel, MN; David Schmitt, IA; Krysten Schuler, NY; Marc Schwabenlander, MN; Stacey Schwabenlander, MN; John Shaw, DC; Michael Short, FL; Richard Sibbel, IA; Tom Sidwa, TX; Kathryn Simmons, DC; Shri Singh, KY; Allison Siu, AL; David Smith, NY; Iga Stasiak, KY; Susan Stehman, PA; Patricia Stonger, WI; Kelly Straka, MI; Nick Striegel, CO; Tahnee Szymanski, MT; Manoel Tamassia, NJ; Jane Teichner, FL; Belinda Thompson, NY; Beth Thompson, MN; Alberto Torres, AR; Bob Tully, KS; Jeff Turner, TX; Shauna Voss, MN; Liz Wagstrom, DC; Michele Walsh, ME; Doug Waltman, GA; Margaret Wild, CO; Ben Wileman, MN; Michelle Willette, MN; Brad Williams, TX; Sharon Williams, AR; Ross Wilson, TX; Nora Wineland, MO; Raquel Wong, HI; Mary Wood, WY; Melissa Yates, AR; Alan Young, SD; Marty Zaluski, MT; Andrea Zedek, SC; Bereket Zekarias, KS; Ernest Zirkle, NJ.The Committee met on October 18, 2017 at the Town and Country Hotel in San Diego, California from 8:00 a.m. to 12:00 p.m. There were 41 members and 35 guests present. A discussion was held about development of a mission statement for the committee which will be conducted via email and conference calls with a draft for approval to be introduced to the committee in 2018. Presentations and Reports The following Subcommittee Reports were received by the Committee, and are included in their entirety following this report. Subcommittee on Pharmaceutical IssuesSubcommittee on RabiesSubcommittee on SalmonellaMinnesota One Health Antibiotic Stewardship CollaborationJoni Scheftel, Minnesota Department of HealthPew Charitable Trusts and Farm Foundation Efforts on Antimicrobial StewardshipKarin Hoelzer, The Pew Charitable TrustsThe presentation is available on the Committee web page. The ABCs of Intergovernmental OrganizationsMallory Gage, Gage ConsultingThe presentation is available on the Committee web page. The Codex Task Force on Antimicrobial ResistanceLiz Wagstrom, National Pork Producers CouncilDr. Wagstrom provided an overview of the Codex Antimicrobial Resistance (AMR) efforts. A Code of Practice to Minimize and Contain the Spread of Antimicrobial Resistance was completed in 2005. In 2011, Guidelines for the Risk Assessment of Foodborne AMR was approved by the Codex Commission. A Physical Working Group was held in December, 2016 to suggest scope of potential new work by Codex on this issue. The Physical Working Group report was approved in July 2017 by the Codex Commission to start new work on updating and revising the 2005 Code of Practice, developing a new Guideline on Surveillance and Monitoring of AMR and Antimicrobial Use. Additional Scientific Guidance request of FAO was also approved. First drafts of these documents have been developed by electronic working groups and have been commented on. The revisions are currently open for comment and will be discussed at the Task Force meeting to be held in Korea in November. It is anticipated that this work will take 3-4 years to complete.USDA Position Development on Intergovernmental Organization InitiativesKathe Bjork, USDA CEAHThe presentation is available on the Committee web page. U.S. CDC Interactions with Intergovernmental Organization InitiativesDawn Sievert, CDCThe presentation is available on the Committee web page. FSIS Residue Testing ResultsLouis Bluhm, USDA-FSIS The presentation is available on the Committee web page. Committee Business:A motion was made, seconded and passed to approve the recommendation: RECOMMENDATION: 2017 Recommendations for the Diagnosis, Treatment and Management of Tuberculosis (Mycobacterium tuberculosis [Mtb]) in Elephants in Human CareBACKGROUND INFORMATION: The issue of Mycobacterium tuberculosis infection in elephants in human care was historically the purview of the Subcommittee on Elephant Tuberculosis (TB) of the USAHA Committee on Tuberculosis, which produced “Guidelines for the Control of Tuberculosis in Elephants, 2010”. This document was adopted by USDA-APHIS Animal Care (AC) and remains the official guidance, although subsequent editions were produced, sometimes causing confusion. The Stakeholders Task Force on Management and Research Priorities of Tuberculosis in Elephants (hereafter Elephant TB Task Force) was formed following a recommendation from USDA-APHIS to bring more transparency and stakeholder involvement to the development of useful, consistent, and easy to follow guidelines for managing elephant tuberculosis. Members include veterinarians, elephant managers, animal and public health officials, epidemiologists, pharmacologists, physicians and other professionals with many years of experience working with elephants in zoos, circuses, and private facilities. After a multi-year effort, the Elephant TB Task Force produced the “2017 Recommendations for the Diagnosis, Management, and Treatment of Tuberculosis (Mycobacterium tuberculosis) in Elephants” as a guide for veterinarians, elephant caretakers, and animal and public health officials dealing with elephants, as well as an accurate source of information for the general public. The document reflects the most up to date and accurate information about what is currently the standard for diagnosis, treatment, and care of Mtb in elephants in human care based on current research, and the expertise and extensive experience of the Elephant TB Task Force.Updates and improvements in the 2017 Recommendations:The 2017 Recommendations clearly differentiate occupational risk from public health risk for humans in contact with TB infected elephants and provides guidance for how facilities with Mtb positive elephant should work with public health officials. Human health risk based on type of contact was not discussed in the 2010 document.New in the 2017 Recommendations is an extensive table of diagnostic tests that includes which tests are available, where they are available and if they are still research based tests. The table separates diagnostic tests by whether they are direct (identify the organism) or indirect (antibody tests) and gives their advantages and short comings. It provides information on how veterinarians can contribute to the validation of some research-based tests, particularly the qPCR at NVSL. The 2017 Recommendations provide guidance on how different serologic tests can be used to support a TB diagnosis and or used as a surveillance tool to guide other testing.The 2017 Recommendations provide a simple framework for categorizing elephants into A-C risk categories based on their TB trunk wash test history and their previous or current exposure to other elephants with known status. It gives a clear roadmap for long-term monitoring and surveillance. In comparison, the 2010 Guidelines has multiple risk groups in confusing subsets based on serologic results and no clear way for an elephant to move from one group to another, particularly if the disease is never diagnosed in the animal.Treatment protocols for Mtb infected elephants have improved over time as the veterinary community has gained experience with doses, methods of delivery and toxic side effects. The 2017 Recommendations include extensive treatment information as well as updated dosing regimens and schedules based on elephant tolerance and delivery success. New also are recommendations for therapeutic blood level monitoring and guidance on how to interpret these levels.USDA-APHIS-AC will not be updating their 2010 Guidelines. The “2017 Recommendations for the Diagnosis, Management, and Treatment of Tuberculosis (Mycobacterium tuberculosis) in Elephants” has been carefully crafted in light of new scientific knowledge, and the experience and expertise of veterinarians and other experts currently working with TB in elephants. These are the most current guidelines available. RECOMMENDATION:The USAHA recommends that the USDA, National Assembly of State Animal Health Officials (NASAHO), National Association of Public Health Veterinarians (NASPHV), veterinarians and others involved in elephant care, adopt the “2017 Recommendations for the Diagnosis, Treatment and Management of Tuberculosis (Mycobacterium tuberculosis) in Elephants in Human Care” document, as the best standard of care for elephants that may be exposed to Mtb or test positive for the disease, and encourages licensees and registrants who own elephants to follow these Recommendations as the current standard of the state of the disease in elephants. A motion was made, seconded, and approved to accept the Subcommittee reports, including the recommendation from the Subcommittee on Rabies REPORT OF THE SUBCOMMITTEE ON Pharmaceutical IssuesChair: Michael CostinVice Chair: Timothy GoldsmithThe Subcommittee met on Tuesday, October 17, 2017 at the Town and Country Hotel in San Diego, California from 1:00 until 5:30 p.m. There were 12 members and 13 guests present. Basic housekeeping tasks were covered, including requesting attendees to sign-in. No old business or resolutions were discussed from previous year.Presentations and Reports FDA Perspective on the Veterinary Feed DirectiveMike Murphy, Center for Veterinary Medicine (CVM), Food and Drug Administration (FDA)Link to presentation publicly available at: American Feed Industry Association, Feed Industry Perspective of the Veterinary Feed DirectivePreston R. Buff, American Council of Animal Naturopathy (ACAN), Regulatory Affairs, American Feed Industry Association (AFIA)The American Feed Industry Association (AFIA), based in Arlington, Virginia, is the world’s largest organization devoted exclusively to representing the business, legislative and regulatory interests of the U.S. animal food industry and its suppliers. Founded in 1909, the organization’s membership is comprised of the total feed industry - from commercial and integrated feed manufacturers, to ingredient suppliers, pet food manufacturers, pharmaceutical companies, industry support and equipment manufacturers. The feed industry, by representation from AFIA has been involved with the Veterinary Feed Directive (VFD) from the creation of the Animal Drug Availability Act of 1996. Since this time, AFIA has been working in coalition with industry organizations, producer organizations, veterinarian organizations, and drug manufacturers to ensure the new changes in the VFD would happen as seamlessly as possible. Some of the actions AFIA has taken were to petition the Food and Drug Administration’s Center for Veterinary Medicine (CVM) to reduce the regulatory burdens. AFIA conducted a survey of AFIA member companies prior to the rule’s January 1, 2017, compliance deadline to determine the stockpile of Type A medicated articles which were not labeled with the updated usage restrictions. Based on the data received from these companies, AFIA submitted a citizen petition to the CVM to request an extension to exhaust the supply of medicated articles in a legal manner and to avoid disposal. The FDA responded and offered some guidance as to how best to use the remaining inventory of Type A medicated articles. The new rule also required VFD forms to be kept in paper format to comply with 21 CFR Part 11, electronic records and electronic signature requirements, which has been burdensome for member facilities. AFIA, along with the National Grain and Feed Association, submitted a citizen petition to the CVM to request an exemption from Part 11 requirements and allow feed distributors to maintain VFD records in an electronic format. Medicated feed mills who manufacture feed using Category II Type A medicated articles are required to submit duplicative information to the FDA for the Drug Establishment Registration (DER) and Medicated Feed Mill License. AFIA has discussed the issue of DER with the CVM and requested it be addressed for medicated feed mills. Educational efforts have been underway, including programs created by feed manufactures and AFIA to ensure the industry is prepared for the new implementation of the VFD rule. Most of the emphasis has been centered on training staff in retail outlets for medicated feed. Overall, the feed industry has made a smooth transition to be in compliance with the new rule. Some of the challenges feed distributors continue to be faced with are incomplete or inaccurate VFD forms. The feed industry has taken the approach to work collaboratively with the veterinarians and producers and to provide training where needed to practice continual improvement.Veterinary Panel Discussion, Veterinary Feed Directive (VFD), After Action ReportTom Burkgren, American Association of Swine VeterinariansEric Gonder, representing American Association of Avian PathologistsJim Logan, representing American Association of Small Ruminant Practitioners Don Hoenig, representing veterinarians who practice with bees.A panel discussion of veterinarians representing different segments of the veterinary profession who have been impacted by the implementation of the Veterinary Feed Directive. Panelists were asked to prepare statements outlining the following questions:What were some of your species-specific concerns leading up to the implementation of the VFD?What did your organization do to try and alleviate those concerns?How has the implementation of the VFD gone for your segment of the profession? What complications have arisen since the implementation of the VFD that were not anticipated?How have those complications impacted your segment of the industry?What actions have been taken to address these issues?Have you noticed any changes in your memberships’ practices and perceptions since the implementation of the VFD?Producer Panel Discussion, Veterinary Feed Directive (VFD), After Action ReportKathy Simmons, National Cattleman’s Beef AssociationHeather Fowler, National Pork BoardJim Logan, representing American Sheep IndustryEric Gonder, Butterball, LLCDon Hoenig, representing bee producersA panel discussion of representatives of different segments of animal agriculture who have been impacted by the implementation of the Veterinary Feed Directive. Panelists were asked to prepare statements outlining the following questions:What were some of your species-specific concerns leading up to the implementation of the VFD?What did your organization do to try and alleviate those concerns?How has the implementation of the VFD gone for your segment of the profession? What complications have arisen since the implementation of the VFD that were not anticipated?How have those complications impacted your segment of the industry?What actions have been taken to address these issues?Have you noticed any changes in your memberships’ practices and perceptions since the implementation of the VFD?USDA – Update on the Current USDA-VS Antimicrobial Use and Future Longitudinal Antimicrobial Use and Resistance Studies on Swine and Cattle Feedlot OperationsKathy Bjork, USDA-APHIS-VS Center for Epidemiology and Animal Health (CEAH) National Animal Health Monitoring System (NAHMS)The USDA-APHIS-VS-NAHMS is conducting antimicrobial use surveys on U.S. swine operations and cattle feedlots in 23 states in 2017, with anticipated study completion dates in mid-2018. These two initiatives are the first targeted studies conducted by NAHMS of antimicrobial use on farms, and they complement NAHMS’ traditional studies. The results from these two studies will serve as a calendar year 2016 benchmark for monitoring changes related to the implementation of the FDA Veterinary Feed Directive on January 1, 2017. In the coming months, NAHMS will enter, validate, and analyze questionnaire data, with reports to be released in 2018. On-farm antimicrobial use studies are one component of USDA’s approach to addressing antimicrobial resistance under the USDA Antimicrobial Resistance Action Plan and the U.S. National Action Plan for Combating Antimicrobial Resistance in Bacteria. Funding was appropriated in FY2017 by the U.S. Congress to APHIS-VS for many initiatives and activities; these include on-farm surveillance and pathogen and commensal testing to better understand levels of antibiotic use and resistance, and the impact of use on resistance. In the future, APHIS-VS plans to conduct longitudinal studies of concurrent on-farm antimicrobial use and bacterial resistance to enhance understanding of trends in use and resistance and the relationship between them.Subcommittee Business:No resolutionsNew Business:Belinda Thompson, Cornell Veterinary Diagnostic LaboratoryIssue highlights include:Concerns with Enrofloxicin use in the dairy industry (dogs as well).Routinely being used extra-label drug use (ELDU) for treatment of Salmonella.May not be recognizing as an issue in creation of resistance.Training of producers by veterinarians on how to record (falsify treatment records to show a respiratory disease).Think that should be removed from the use in cattle, to stop this use.Veterinarians contributing to the significance of this problem.Discussion was held regarding process on moving issues forward through recommendations and resolutions. The Committee agreed that this would be captured and moved forward to the public health committee as a discussion.REPORT OF THE SUBCOMMITTEE ON RabiesChair: Tarrie CrnicVice Chair: Ernest OertliNo committee roster required on subcommittee reports!The Subcommittee met on Tuesday October 17th, 2017 at the Town and Country Hotel in San Diego, California from 8:00 am to 12:00 pm PT. There were 22 members and 14 guests present. The meeting was opened at by Dr. Crnic with a welcome to members, guests, and students present. The chair brought forward to the committee that the current mission statement for the committee would need updating due to the organizational restructure. Several conference calls will be held between the end of the 2017 annual meeting and 2018 annual meeting to update the mission statement to reflect the current mission of the committee. The updated mission statement will be voted on at the 2018 annual meeting. Next the chair presented on the status of the 2016 resolutions approved by the committee in Greensboro, North Carolina. Both resolutions are still in pending status with no action over the last year. The chair reminded attendees that only approved members could vote, but everyone was welcome to participate in discussion and ask questions. After opening remarks were completed, the fist presenter of the day was introduced. Presentations & Reports Rabies Control Projects in Bangladesh: Current Efforts by Global HealthShare (GHS) Initiative and Humanity Beyond Barriers (HBB)Sheikh Selim DVM, MPVM, PhDDirector PHL Associates, Inc.Davis, CA The FactsRabies remains endemic in Bangladesh today No known evidence to date that the current government programs so far meet the target herd immunity even in defined localized field trial data Uncoordinated national effortsFunding and corruption issues – unavailability and inadequate vaccinesNo effective animal ID, tracking system inadequate for surveillance of stray dogsRabies has NOT been an effective reportable disease Human rabies is a disease of poverty affecting vulnerable populations and children Ignorance coupled with superstitions in extreme poverty creates a perfect storm for rabiesElimination of human rabies is dependent on rabies elimination in dogs Breaking the urban cycle involving maintenance of infection in dog populations and a sylvatic cycle involving wildlife Rabies ControlAwareness & Education (AE) and Interdisciplinary approach are critical [Compendium Animal Rabies Control (2016)] Human Rabies Control must also include PEP, AE and elimination of rabid animal exposures With similar missions, GHS and HBB partnered together and came forward to complement as a strategic partners to help eliminate the pernicious cycle of rabies in Bangladesh HBB initiative: pilot project – community-empowerment tool – awareness building campaignGHS partnership: includes identifying and developing market driven solutions to promote health and wellness in connection with rabies in BangladeshImmediate objective: Break the barriers of IGNORANCE & Save Lives!Awareness Building and EducationPart 1: 2015-’16Day Camp at central Infectious Disease Hospital (IDH) rabies prevention unit Distribute calendars, posters, and brochures to visitors/bite victims, health workersAdvocacy meeting with hospital staff including doctors, nurses, and health workers Part 2: 2016A quantitative pilot study - Knowledge, Attitude and Practice (KAP). Baseline data collection/educational diagnosis (for Capacity Building and Mobilization) High school students and teachers (n=1,500) – Awareness building among school students. Share and spread the knowledge/word with families, friends, relatives and the community.Part 3: 2017Collaboration with government – MOU/formal collaborationAdvocacy/partnering meeting at the routine monthly Local Government Coordination MeetingMeeting resolution by the Administration Department to delegate task to respective departments (including Departments of Information, Education, Health, and Livestock) to work with NGO (HBB)Initiate pilot project to train slaughter house workers and butchers who may get exposed to rabid food animals Future plans of HBB in Bangladesh Conduction of one integrated pilot study in an Island as Kutubdia / Cox’s bazar / Hatia. (Advocacy meeting at all levels; animal and human vaccination; dog birth control; training to medical and paramedical personnel on diagnosis, prevention and treatment of animal bite cases)Development of internet applications to help animal bite victims, establish a network of trained people for immediate advise and referral for PEPEstablishment of a call center and maintain databaseCoordination with MOH, LGRD, DLS for proper implementation of rabies control activities GHS/HBB Future plans in BangladeshEstablishment of a central Rabies Diagnostic and Research Lab, lab diagnosis and treatment at central and field levelDevelopment of national database and surveillance system for animal bite and rabies casesHuman Resource DevelopmentTechnical support for procurement and production of quality vaccine (IDTCV & RIG) by government and private sector Coordination with stakeholders working on rabies control (WHO, MOH, LGRD, DLS, FAO, OIE and NGOs)Rabies Awareness in the United States: Two Opinion Surveys on Wildlife Rabies PreventionJoanne Maki1, North America, Veterinary Public Health, Technical Director1Boehringer Ingelheim, 1730 Olympic Drive, Athens, GA; joanne.maki@boehringer-Wildlife rabies prevention programs using oral rabies vaccines (ORV) in the United States (US) have proven over time to be cost-beneficial. US ORV success stories include the elimination of the canine rabies variant from the US, potential elimination of the gray fox variant from Texas as well as stopping the raccoon variant from spreading westward beyond the Appalachian Mountains. Agencies tasked with wildlife rabies prevention in the US have limited resources to raise community awareness about the benefits of their programs. Increased public support and state level funding of ORV programs will be required to eliminate raccoon and skunk rabies on a national scale. State public health veterinarians play a critical role in rabies prevention and collaborate with federal, state and county ORV programs vaccinating wildlife reservoir populations against rabies. To identify challenges, gaps and opportunities to support ORV programs in general, US state public health veterinarians and state veterinarians were interviewed by phone in 2014 and surveyed using a web-based opinion poll in 2017. Results of these surveys provided insights as to how to improve rabies awareness in the general public as well as suggest ways to foster communication and increase collaboration between state agencies. A summary of findings from both surveys will be presented. Compendium of Animal Rabies Prevention and Control, 2016Jennifer House, DVM, MPH, DACVPMState Public Health VeterinarianColorado Department of Public Health and EnvironmentThe Compendium of Animal Rabies Prevention and Control is a publication of the National Association of State Public Health Veterinarians (NASPHV). It contains best practice recommendations for animal rabies prevention and control programs throughout the U.S. to facilitate standardization across jurisdictions. The document is reviewed and revised as necessary. These recommendations do not supersede state and local laws or requirements. It is traditionally published in JAVMA with subsequent MMWR publication.Consensus guidelines based on:Peer reviewed literatureExpert opinionUnpublished dataApplied differently by jurisdiction:Flexible enough to account for variabilitySpecific enough to be used as regulation or lawThe Compendium acknowledges the lack of standardized data collection by jurisdictions. No national data exists on:Incubation periodsNumber of animals quarantinedVaccination histories of exposed animalsThose that completed strict quarantine versus those that didn’tVaccine failuresEpidemiologic characteristics of animals developing rabiesAreas of the Compendium discussed include: reporting of surveillance data; pre-exposure vaccination; post-exposure management of currently vaccinated animals, animals overdue on vaccination, animals never vaccinated, animals vaccinated with no documentation; livestock; and reduced quarantine period. Ontario’s Wildlife Rabies Control Program Beverly Stevenson, Wildlife Research Technician, Wildlife Research and Monitoring Section, Ministry of Natural Resources and Forestry A review and update of rabies control efforts in Ontario was presented via teleconference. Ontario was once the rabies capital of North America averaging 1,500 confirmed cases per year. Due to successful rabies control programs, Ontario was able to eliminate both raccoon strain and fox strain rabies from southern Ontario. After more than ten years of being raccoon strain rabies free, cases were confirmed in December 2015 in a highly-populated area of the province. Aggressive control measures were immediately implemented and have been ongoing since then in an attempt to contain the spread of the disease with the goal of eventual elimination. Also in December 2015, fox strain rabies was again confirmed in southwestern Ontario after nearly a three year absence. This presentation will focus on the current status, control strategies, the need for surveillance, and the need to mitigate wildlife translocation. There have been 100 new case of raccoon variant rabies and 8 new cases of artic fox variant rabies found in Ontario to date in 2017.Subcommittee Business:The business meeting was opened by Dr. Crnic at 8:50 am and the presence of a quorum was established. Two resolutions were brought forward for consideration. The first resolution considered was a funding request in the 2018 Farm Bill for the elimination of raccoon Rabies in the United States. The committee approved this resolution to be moved forward for consideration by the One Health Committee. The second resolution considers was a request for increased fiscal 2019 funding for the United States Department of Agriculture, Animal Plan Health Inspection Service, Wildlife Services Oral Rabies Vaccination Program. This resolution was also approved by the committee to be moved forward for consideration by the One Health Committee. Upon completing work on the resolutions a discussion on companion animal interstate movement Rabies vaccination requirements was opened. This topic was brought was forward by a member of the USDA APHIS Animal Care staff as a concern expressed by licensed breeders under the Pet Animal Act relating to the inconsistency of interstate movement vaccination requirements between states. After discussion, it was established that it was unlikely that standardization of requirements could be reached. Committee members suggested that a recommendation from the committee could be brought forth to promote the inclusion of companion animal vaccination and movement requirements on other established animal movement regulation websites. The committee voted on and approved the following recommendation:“The USAHA Subcommittee on Rabies recommends to responsible state agencies that the dog, cat, and ferret vaccinations and any requirements for interstate movement for each state be added to websites listing requirements for interstate movement of animals.”This recommendation will be moved forward to the One Health Committee for further consideration. The business meeting was adjourned at 9:50 am. REPORT OF THE SUBCOMMITTEE ON SALMONELLAActing Chair: Julie Helm, SCActing Vice Chair: Pat McDonough, NYThe Subcommittee on Salmonella for the One Health Committee met on October 16, 2017 at the Town and Country Hotel in San Diego, California from 1:00 – 4:00 PM. There were 25 members and 18 guests present (with 51 attendees present in the room at one time). Acting Chair Julie Helm presided and welcomed the Subcommittee. There were no resolutions from 2016 to review.Dr. Matthew Wise, Centers for Disease Control and Prevention, in lieu of Dr. Megin Nichols, Centers for Disease Control and Prevention, presented the Multistate Outbreaks of Salmonella in 2017 Linked to Food and is included in these proceedings.Ms. Lauren Stevenson, Centers for Disease Control and Prevention, in lieu of Dr. Megin Nichols, Centers for Disease Control and Prevention, presented the Multistate outbreaks of Salmonella in 2017 Linked to Animal Contact and is included in these proceedings.Dr. Misha Robyn, Centers for Disease Control and Prevention, presented A Multi-tiered Approach to Prevent Human Salmonella Outbreaks from Contact with Live Animals and is included in these proceedings.Dr. Eric Gingerich, Diamond V, presented A Pre-Harvest Intervention Effect on Salmonella Contamination of Processed Broilers and Turkeys and is included in these proceedings.Dr. Kristina Lantz, USDA, National Veterinary Services Laboratories, in lieu of Ms. Brenda Morningstar-Shaw, USDA, National Veterinary Services Laboratories, presented Salmonella Serotypes Isolated from Animals and Related Sources, January 1-December 31, 2016 and is included in these proceedings.Dr. Kis Robertson Hale, US Department of Agriculture (USDA), Food Safety and Inspection Service, presented Salmonella Update from USDA’s Food Safety and Inspection Service and is included in these proceedings.Dr. Julie Helm, Clemson University Livestock Poultry Health, in lieu of Dr. Denise L. Brinson, US Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, presented the National Poultry Improvement Plan Salmonella Status Report and is included in these proceedings.Subcommittee Business: There were no old business items, new business items, recommendations nor resolutions presented to the Subcommittee. The meeting adjourned at 4:00 PM on October 16, 2017.Reports and PresentationsMultistate Outbreaks of Salmonella in 2017 Linked to FoodMatthew WiseCenters for Disease Control and Prevention (CDC), Division of Foodborne, Waterborne, and Environmental Diseases,Outbreak Response and Prevention BranchMultistate outbreak investigations of salmonellosis require the use of molecular subtyping techniques to identify illness clusters for further investigation. CDC works with numerous other local, state, and federal agencies to investigate these illness clusters, using epidemiologic, microbiologic, traceback, and environmental assessment data to link outbreaks to a food or animal source. The gold standard subtyping technique for these investigations has been pulsed-field gel electrophoresis for over 2 decades. However, whole genome sequencing is now routinely being used in multistate salmonellosis investigations, making them more effective by refining case definitions and increasing the confidence that clinical, food, and environmental isolates are likely to share a common source. Major multistate foodborne salmonellosis investigations conducted in 2017 were linked to vehicles such as imported papayas, ground beef, and chicken. These investigations highlight the growing utility of whole genome sequencing in multistate investigations and how it is helping to identify new questions to tackle with respect to food safety. Multistate outbreaks of Salmonella in 2017 Linked to Animal ContactLauren StevensonCenters for Disease Control and Prevention (CDC), Division of Foodborne, Waterborne and Environmental Diseases,Outbreak Response and Prevention BranchCDC, several states, and the U.S. Department of Agriculture’s Animal and Plant Health Inspection Service (USDA-APHIS) are reopening the investigation of a multistate outbreak of multidrug-resistant Salmonella Heidelberg infections. Since 2015, 46 people infected with the outbreak strains of Salmonella Heidelberg have been reported from 14 states. Fourteen (30%) people have been hospitalized. No deaths have been reported. Illnesses started on dates ranging from January 27, 2015 to July 11, 2017. Fifteen (33%) people in this outbreak are children under the age of 5 years. Epidemiologic and laboratory investigations linked ill people in this outbreak to contact with calves, including dairy bull calves. Additional information can be found at: . CDC and multiple states are investigating a multistate outbreak of human Salmonella infections linked to contact with pet turtles. Thirty-seven people infected with the outbreak strain of Salmonella Agbeni have been reported from 13 states. Illnesses started on dates ranging from March 1, 2017 to August 3, 2017. Of 33 people with available information, 16 have been hospitalized. No deaths have been reported. Twelve (32%) ill people are children 5 years of age or younger. Epidemiologic and laboratory findings link the outbreak of human Salmonella Agbeni infections to contact with turtles or their environments, such as water from a turtle habitat. CDC and multiple states are investigating 10 separate multistate outbreaks of Salmonella infections in people who had contact with live poultry in backyard flocks. These outbreaks are caused by several DNA fingerprints of different Salmonella bacteria: Salmonella Braenderup, Salmonella Enteritidis, Salmonella Hadar, Salmonella I 4,[5],12:i-, Salmonella Indiana, Salmonella Infantis, Salmonella Litchfield, Salmonella Mbandaka, Salmonella Muenchen, and Salmonella Typhimurium. The outbreak strains of Salmonella have infected over 1,000 people in 48 states and the District of Columbia. Illnesses started on dates ranging from January 4, 2017 to July 31, 2017; 215 ill people have been hospitalized. One death has been reported. Epidemiologic, traceback, and laboratory findings link the 10 outbreaks to contact with live poultry, such as chicks and ducklings, from multiple hatcheries. In interviews, 498 (74%) of 672 ill people reported contact with live poultry in the week before illness started. Contact with live poultry or their environment can make people sick with Salmonella infections. Live poultry can be carrying Salmonella bacteria but appear healthy and clean, with no sign of illness. A Multi-tiered Approach to Prevent Human Salmonella Outbreaks from Contact with Live AnimalsMisha RobynCenters for Disease Control and Prevention, Division of Foodborne, Waterborne and Environmental Diseases,Outbreak Response and Prevention BranchHuman Salmonella outbreaks from contact with live animals continue to be a serious public health problem. These outbreaks present unique challenges for prevention. In comparison with foodborne Salmonella outbreaks, there is limited regulatory authority for investigation and implementation of prevention measures. Additionally, as many animals carry Salmonella asymptomatically, there might be limited ability and incentive to eliminate or reduce strains that are pathogenic to humans but do not cause animal disease. The focus of prevention strategies has changed over time, in some situations focusing on legislation, in other situations on education and awareness of those who contact live animals, and more recently, on comprehensive approaches involving animal producers, distributors, and retail stores. This multi-tiered approach is best illustrated in prevention efforts for live poultry-associated salmonellosis, but examples can also be found in prevention approaches to turtle-associated salmonellosis and ruminant-associated salmonellosis. In the continuing efforts to prevent Salmonella outbreaks, possibilities for disease prevention in all segments in the “farm to customer” chain should be explored. A Pre-Harvest Intervention Effect on Salmonella Contamination of Processed Broilers and TurkeysEric GingerichDiamond VMost broiler and turkey processors rely heavily on post-harvest interventions in the plant to reduce Salmonella contamination to levels that will comply with USDA standards of performance. Very little emphasis has been given to pre-harvest interventions.Pre-harvest interventions can include the use of probiotics, prebiotics, vaccines, organic or inorganic acids, botanicals, etc. given in the feed or water prior to slaughter. This presentation will give data on the effect of one pre-harvest, feed administered fermentation metabolite product* on the reduction of Salmonella contamination of carcasses, parts, and ground meat. The fermentation metabolite product is fed at 2.5 lbs. per ton from day old to slaughter. Initial evidence of a reduction in Salmonella shedding was performed by Dr. Steve Carlson at Iowa State University where broiler chicks were infected with a nalidixic acid resistant strain of Salmonella typhimurium and half were placed on the product in the feed at 21 days and the other half served as controls. Feces tested at 28, 35, and 42 days showed a significant reduction (p<0.0001) in Salmonella numbers and cecal contents showed this same reduction at 49 days. The same experiment was conducted three separate times with the same results.In field trials, ceca samples taken from control (not fed product) and treated (fed product) during evisceration show a consistent, significant reduction in both prevalence and Salmonella numbers per gram of cecal contents. In 21 field trials, the average percent reduction in prevalence was 54.1% and showed an 86.8% reduction in Salmonella colony forming unit per gram of cecal material. This indicates that the fecal material shed into the house prior to loadout that is eaten by the birds or found on the feathers of the birds is reduced before coming to the plant. Upon entering the plant, any material from the digestive tract, crop or intestines, is theorized to be reduced. Also, the level of contamination of feathers contaminating the scalder water is likely reduced. Two trials will be shown where two flocks fed the product in succession show a successive reduction in Salmonella prevalence and numbers in cecal contents. A correlation to this finding of reduced cecal load and a reduction in Salmonella contamination further in processing was found as well. Results of four trials will be shown that show a significant reduction in Salmonella contamination of carcasses, parts, and/or ground meat. The trial data of one trial also shows that feeding the product in successive flocks, reduces contamination levels of ground meat in each successive flock.* Diamond V XPCSalmonella Serotypes Isolated from Animals and Related Sources, January 1-December 31, 2016B.R. Morningstar-Shaw, T.A. Mackie, D.K. Barker, E.A. PalmerUSDA, National Veterinary Services Laboratories, Diagnostic Bacteriology Laboratory, Ames, IA The Diagnostic Bacteriology Laboratory within the National Veterinary Services Laboratories (NVSL) routinely performs serotyping of Salmonella isolates submitted by private, State, and Federal laboratories as well as veterinarians, researchers and other animal health officials. This report summarizes Salmonella serotyping submissions received at the NVSL from January 1 through December 31, 2016. Salmonella isolates are identified as clinical (clinical signs of salmonellosis from primary or secondary infection) or non-clinical (herd and flock monitoring programs, environmental sources, food and other). Serotyping data from isolates submitted for research purposes are not included in the source-specific summaries. Based on information provided by the submitter, the isolates were divided into animal source categories for analysis. The animal sources include Avian, Cattle, Chicken, Dog/Cat, Equine, Pig, Reptile/Amphibian, Turkey, Wild/Zoo, and Other (environment, unknown).Salmonella serotyping at the NVSL is an ISO 17025 accredited test. Salmonellae are typed via classical serotyping using polyvalent and single factor antisera to determine the O and H antigens and/or via molecular typing using the xMAP Salmonella serotyping assay. Approximately 60% of the sera used at the NVSL is produced in-house as previously described (Ewing, 1986), the remaining antisera are purchased from commercial vendors. All sera are subject to extensive quality control testing prior to use. Salmonella antigenic formulae are determined as previously described (Ewing) and interpreted via the White-Kauffmann-Le Minor scheme (Grimont, 2007). The subspecies designation precedes the antigenic formula for those serotypes other than subspecies I. In 2016, 13,295 submissions were received for Salmonella serotyping. Salmonella isolates were divided into clinical isolates (5,258), non-clinical isolates (5,727), and research (2,310). The sources of clinical and non-clinical Salmonella isolates are shown in Table 1. There were 254 different serotypes identified from 47 states and the District of Columbia in 2016. Table 2 lists the 10 most common serotypes when all animal sources were combined. The 10 most common serotypes accounted for 62% of the total clinical isolates submitted and 60% of the total non-clinical isolates submitted. The most common isolates from chickens, turkeys, pigs, cattle, and equine are listed in Tables 3-7.The NVSL provided a Salmonella Group D proficiency test to 98 individuals in 85 different laboratories. The purpose of the proficiency test was to assess the ability of laboratories to detect or isolate Salmonella Group D and/or Salmonella Enteritidis from simulated environmental samples. The test consisted of 10 lyophilized cultures containing various combinations of Salmonella and common contaminants typically found in environmental swabs. The 2016 test included Salmonella serotypes Anatum, Enteritidis, Heidelberg, Javiana, Newport and I 9,12:non-motile. Contaminant bacteria included Citrobacter sedlakii, Citrobacter amalonaticus, Citrobacter freundii, Enterobacter cloacae, Enterobacter species, Klebsiellae pneumoniae, Providencia rettgeri, and Pseudomonas aeruginosa. Laboratories were instructed to test the samples according to the procedures used in their laboratories. The NVSL randomly retained 13% of the test kits and tested them blindly for quality assurance purposes. The results of the proficiency test are shown in Table 8.Table 1: Sources of submissions to the NVSL for Salmonella serotyping in 2016SourceNo. Clinical SubmissionsNo. Non-Clinical SubmissionsCattle1,414194Chicken2873,252Horse83039Swine1,885235Turkey2591,156All others583851Total5,2585,727Table 2: Most common serotypes in 2016: All sourcesClinicalNon-ClinicalSerotypeNo. IsolatesSerotypeNo. Isolates4,[5],12:i:-776Senftenberg751Typhimurium755Mbandaka412Dublin345Enteritidis364Cerro296Typhimurium309Javiana231Hadar300Derby189Worthington252Montevideo183Thompson223Heidelberg178Cerro217Newport177Montevideo212Agona161London/Newport198All others1,967All others2,291Total5,258Total5,727Table 3: Most common serotypes in 2016: Chickens ClinicalNon-ClinicalSerotypeNo. IsolatesSerotypeNo. IsolatesEnteritidis129Senftenberg490Typhimurium32Mbandaka363Kentucky31Worthington237Heidelberg15Enteritidis213III 13,23:g,z51:-8Thompson198All others72All others1,751Total287Total3,252Table 4: Most common serotypes in 2016: TurkeysClinicalNon-ClinicalSerotypeNo. IsolatesSerotypeNo. IsolatesSenftenberg38Hadar291Ouakam25Senftenberg239Bredeney/Albany21London194Typhimurium19Muenchen95Uganda17Uganda/Albany51All others118All others235Total259Total1,156Table 5: Most common serotypes in 2016: PigsClinicalNon-ClinicalSerotypeNo. IsolatesSerotypeNo. Isolates4,[5],12:i:-6524,[5],12:i:-48Typhimurium277Typhimurium41Derby179Derby25Infantis98Agona17Agona91Infantis12All others588All others92Total1,885Total235Table 6: Most common serotypes in 2016: CattleClinicalNon-ClinicalSerotypeNo. IsolatesSerotypeNo. IsolatesDublin332Cerro30Cerro275Typhimurium25Typhimurium142Montevideo17Montevideo110Heidelberg16Heidelberg101Newport15All others454All others104Total1603Total290Table 7: Most common serotypes in 2016: HorsesAll sourcesSerotypeNo. IsolatesJaviana207Typhimurium202Newport67Agona40Montevideo38All others315Total869Table 8: Summary of NVSL Salmonella Group D proficiency test201120122013201420152016Participants707361809498Mean Score97%92%94%98%98%97%Score Range100-85%100%-29%100-68%100-80%100-68%100-80%Below Passing074010Ewing, WH. 1986. Edward and Ewing’s Identification of Enterobacteriaceae. 4th edition. Elsevier Science Publishing Co., Inc., New York, U.S.Grimont, PAD, Weill, FX. 2007. Antigenic Formulae of the Salmonella Serovars. 9th edition. WHO Collaborating Centre for Reference and Research on Salmonella. Paris, France.Salmonella Update from USDA’s Food Safety and Inspection ServiceKis Robertson HaleUS Department of Agriculture (USDA), Food Safety and Inspection Service, Office of Public Health ScienceSalmonella reduction is an important priority for USDA's Food Safety and Inspection Service (FSIS). This presentation will highlight recent developments in the agency's ongoing efforts to prevent foodborne salmonellosis attributable to meat and poultry products. With the application of Whole Genome Sequencing and adoption of a new sampling medium that maximizes pathogen recovery during verification testing, FSIS has leveraged advanced technology and science to better confront Salmonella in its regulated products. In addition, FSIS continues to contribute data from two sampling programs to the interagency National Antimicrobial Resistance Monitoring System (NARMS), partnering with other federal partners to ensure the detection of resistance trends among Salmonella (and other bacteria) of food animal origin. Analysis shows patterns of resistance that appear to vary depending on the animal or commodity source and the kind of sample taken [(cecal vs. Hazzard analysis and critical control points (HACCP)]. While these findings enhance our understanding of Salmonella, they also signal the need to further explore questions concerning factors contributing to antimicrobial resistance. National Poultry Improvement Plan (NPIP) Status ReportDenise L. BrinsonUS Department of Agriculture, Animal and Plant Health Inspection Service, Veterinary Services, Surveillance, Preparedness and Response ServicesPullorumTyphoid Status: There were no isolations of Salmonella pullorum in commercial poultry in FY2013, FY2014, FY2015, FY2016, or FY2017. There were no isolations of Salmonella pullorum in backyard birds in FY2014, FY2015, FY2016, or FY2017. There have been no isolations of Salmonella gallinarum since 1987 in any type poultry in the US. Hatchery Participation in the National Poultry Improvement PlanTesting Year FY2017Egg and Meat-Type Chickens:Participating254Turkeys:Participating49Waterfowl, Exhibition Poultry and Game Birds:Participating665Egg-Type Chicken Breeding Flocks in the National Poultry Improvement Plan Participation and Testing Summary Testing Year FY2017U.S. PullorumTyphoid Clean Flocks291Birds in Flocks6,998,694Birds Tested53,455Meat-Type Chicken Breeding Flocks in the National Poultry Improvement Plan Participation and Testing Summary, Testing Year FY2017U.S. Pullorum-Typhoid Clean Flocks5,169Birds in Flocks107,420,261Birds Tested294,097Turkey Breeding Flocks in the National Poultry Improvement Plan Participation and Testing Summary, Testing Year FY2017U.S. Pullorum-Typhoid Clean Flocks:386Birds in Flocks4,301,448Birds Tested27,421Waterfowl, Exhibition Poultry, and Game Birds Breeding Flocks in the National Poultry Improvement Plan Participation and Testing SummaryTesting Year FY2017U. S. Pullorum-Typhoid Clean Flocks9,134Birds in Flocks2,989,785Birds Tested448,200U.S. Salmonella enteritidis Clean EggType Breeding ChickensNo. of flocks and birds in flocks by State with Salmonella enteritidis isolates, 19902017StateEnvironmentalDead GermBirdsArkansasFlocks12Birds in Flocks6,00015,000GeorgiaFlocks42Birds in Flocks50,40046000IllinoisFlocks321Birds in Flocks3,90037001200IndianaFlocks1521Birds in Flocks158,34527,47915,092KentuckyFlocks1Birds in Flocks6,625OhioFlocks179Birds in Flocks192,70091,600OregonFlocks2Birds in Flocks19,516PennsylvaniaFlocks166Birds in Flocks166,38578,450TexasFlocks1Birds in Flocks10,000U.S. Salmonella enteritidis Clean EggType Breeding ChickensNo. of flocks and birds in flocks by Phage Type with Salmonella enteritidis isolatedPhage Type 13EnvironmentalDead GermFlocks112Birds in Flocks152,0003,700Phage type 13AFlocks52Birds in Flocks54,32127,479Phage type 2Flocks2Birds in Flocks28,900Phage type 23Flocks21Birds in Flocks16,000Phage type 28Flocks22Birds in Flocks15,00046,000Phage type 34Flocks2Birds in Flocks12,500Phage type RNDCFlocks1Birds in Flocks7,000Phage type-UntypeableFlocks2Birds in Flocks24,000Phage type 8Flocks21Birds in Flocks237,701Egg-type Chicken breeding flocks with isolates of Salmonella enteritidis by phage type and by year 1989-2017YearNo. FlocksPhage Type1989113A19901113A, 13, 8, 2819911213A, 13, 8199210Untypeable,13A,8,28,3419935Untypeable, 8, 21994313A, 81995213A, 2819965Untypeable, RNDC, 13A,8,219972819982819991132000413, 82001113200202003020040200511320061342007413, 820083820090201038(2), 1320110201202013020141NA201502016020170U.S. Salmonella enteritidis Clean EggType Breeding ChickensNo. of flocks and birds in the flocks with Salmonella enteritidis isolates, 19902017EnvironmentalDead GermBirdFlocks72619Birds in Flocks726,87177,179201,342 ................
................

In order to avoid copyright disputes, this page is only a partial summary.

Google Online Preview   Download