Slide 1

Use of Epidemiology in Field Settings and Experiences on the Front Lines of Public Health: The Life of an EIS Officer Jennifer Gordon Wright, DVM, MPH, DACVPM Centers for Disease Control and Prevention jgwright@cdc.gov Slide 2 Public Health is what we, as a society, do collectively to assure the conditions in which people can be healthy. Institute of Medicine, The Future of Public Health, 1988 Slide 3 The Veterinary Oath Being admitted to the profession of veterinary medicine, I solemnly swear to use my scientific knowledge and skills for the benefit of society through the protection of animal health, the relief of animal suffering, the conservation of animal resources, the promotion of public health, and the advancement of medical knowledge. Slide 4 Emerging Zoonoses 1415 species of infectious agents reported to cause disease in humans Viruses, prions, bacteria, rickettsia, fungi, protozoa, helminths 868 (61%) are known to be zoonotic 175 species considered emerging 132 (75%) are known to be zoonotic Taylor et al. Risk factors for disease emergence. 2001, Philosophical Transactions, The Royal Society, London Slide 5 The Long and Winding Road Bachelor of Science in Microbiology, Auburn University Interest in working at CDC, but in what capacity? DVM from Auburn University, 1998 Planned a career in small animal practice or with a drug company Turning point a lecture in sophomore PH lecture about a human case of plague Went into practice for a few years Found the EIS program while searching the web for jobs Began MPH work in 2000, worked at CDC Entered EIS in July 2002 Slide 6 History of CDC 1946 - Communicable Disease Center founded in Atlanta by Dr Joseph W Mountin 400 employees, mostly engineers and entomologists working on malaria prevention Original focus on vectorborne and zoonoses Growing awareness that expansion to all communicable diseases was necessary Slide 7 CDC today One of 13 components of DHHS >8000 employees Headquarters Atlanta, Morgantown, Ft. Collins, Cincinnati, Hyattsville State health departments International reputation Applies research and findings to improve daily lives Respond to health emergencies Not just infectious diseases Chronic diseases, injuries, workplace hazards, disabilities, environmental health threats Slide 8 How CDC operates Jurisdiction over: Cruise ships docking in US ports Importation of people/animals with communicable disease Otherwise, need invitation of the state or reservation to assist Slide 9 Veterinarians at CDC As of December 2005 Slide 10 What is the EIS Program? Epidemic Intelligence Service (aka Disease Detectives) Established in 1951 Mission: To prevent & control communicable diseases A 2 year training program in applied epidemiology Domestic and International Service Respond to Requests for Epidemiologic Assistance Slide 11 EIS continued 55-75 officers, 6-9% are veterinarians Applications are due in October for the following years class Additional training or experience in public health encouraged prior to application http://www.cdc.gov/eis/about/about.htm Slide 12 So What is Epidemiology? The science of studying patterns of disease in populations and the factors that determine such patterns and the utilization of such knowledge for diagnosis, control, and prevention Slide 13 So What is Epidemiology? The science of studying patterns of disease in populations and the factors that determine such patterns and the utilization of such knowledge for diagnosis, control, and prevention The study of why some get sick and some dont Slide 14 So What is Epidemiology? The science of studying patterns of disease in populations and the factors that determine such patterns and the utilization of such knowledge for diagnosis, control, and prevention The study of why some get sick and some dont The study of skin Slide 15 Epidemic Dorlands defines as: Disease attacking many people at the same time, widely diffused and rapidly spreading Excessive occurrence of disease Slide 16 Descriptive epidemiology Who is affected (gender, age, race/ethnicity) What disease is causing the problem Where is outbreak occurring When did the outbreak occur Slide 17 Analytic epidemiology Why Did the outbreak occur How Risk factors for illness Examples: Eat a certain food item Swam in contaminated lake Exposure to ticks Slide 18 Establishing Causality (continued) Hills Causal Criteria Strength of association Magnitude of the risk (Odds Ratio, Relative Risk) Temporality Exposure must precede outcome Dose-response The greater the dose the greater the risk Consistency The association between risk factor and outcome is consistent across studies, samples, populations, etc. Slide 19 Establishing Causality (continued) Hills Causal Criteria Biological plausibility Association is biologically rational Coherence Association is consistent with pathogenesis of disease, similar known associations exist Specificity one exposure equals one outcome Slide 20 Outbreak investigation Establish a case definition (epi vs. lab) Find cases Determine if an epidemic has occurred Characterize the epidemic in space and time Investigate risk factors Formulate/test hypotheses (case-control) Design control/prevention strategies Monitor and evaluate for recurrence Slide 21 Risk factors Specific exposures or characteristics associated with disease, i.e. age, gender, breed, race, nutritional status, physiological status, activities, employment, housing, etc. Slide 22 Characterizing risk factors Relative Risk Odds Ratio Attributable Risk Slide 23 AB CD Disease YesNo A + B Risk Factor/exposure Yes NoC + D A + CB + D The Association between a Risk Factor and a Disease Odds Ratio AD BC Risk Ratio A A+B divided by C C+D Slide 24 Come Sail Away: Cruise Related Illness, Caribbean, 2002 Slide 25 Vessel Sanitation Program (VSP) 24 hours before arrival in US port ship physician must report number of passengers seen for acute gastroenteritis (AGE) > 2.0% of passengers/crew with AGE special report > 3.0% of passengers/crew with AGE outbreak investigation Slide 26 Timeline September 28, 2002 1980 passengers, 941 crew October 2, 2002 79 (4.0%) of 1980 passengers with acute gastroenteritis (AGE) No crew reported illness October 3, 2002 CDC team boarded the ship in the Cayman Islands Slide 27 Objectives Determine the etiologic agent Determine the source of the outbreak Implement control measures Slide 28 Methods Epidemiologic Case Finding -GI logs -Survey Case-control study -Survey data Illness onset Symptoms of illness Illness-associated risk factors Other Environmental inspection Stool collection -Laboratory testing Viral Bacterial Slide 29 Survey Case Definition Diarrhea (3 or more loose or watery bowel movements in a 24-hour period) OR Vomiting with 1 of the following: Abdominal cramps, nausea, fever AND Onset September 28 - October 4, 2002 Slide 30 Case-Control Definitions Case Illness onset 9/29 or 9/30 Excluded secondary cases: Persons who met the case definition but cabin mate had onset of illness > 24 hours prior Control Persons on the cruise who did not report diarrheal illness, vomiting or accompanying symptoms between September 28 and October 4, 2002 Slide 31 Results Slide 32 Laboratory Results 4 of 11 specimens Norovirus Slide 33 Norovirus ssRNA, Caliciviridae Norwalk-like virus Incubation 24 to 48 hours Acute onset Vomiting, non-bloody diarrhea Duration 24 to 60 hours Asymptomatic 30% Transmission easy Slide 34 Survey Results Response Rate 1897 (96%) of 1980 Attack Rate 356 (19%) of 1897 We randomly selected 83 ill persons and 152 controls from our returned surveys 55 cases: onset September 29 28 cases: onset September 30 Slide 35 Cases of vomiting or diarrhea among passengers and crew, cruise ship C, by date of onset (6-hour periods), Sept 27 to Oct 4, 2002 Date of embarkation Slide 36 Date of embarkation Case Control Study period Date of embarkation Case Control Study period Cases of vomiting or diarrhea among passengers and crew, cruise ship C, by date of onset (6-hour periods), Sept 27 to Oct 4, 2002 Slide 37 Descriptive Results Age Cases: median 54 years Controls: median 51 years Gender Cases: males 43% Controls: males 42% Slide 38 Risk Factors Significant Restaurants Food Activities Not Significant Unbottled water consumption Slide 39 Restaurants 4 main restaurants 1 and 2 shared a galley 3 and 4 shared a galley 6 specialty restaurants Additional cost to eat in these Slide 40 Restaurant-Illness associations RestaurantOnset 9/29 (n=55) Lunch 9/28 (Rest 1 & 2) number of cases OR (95% CI) p-value 48 (87%) 2.5 (1.0, 5.9) 0.037 Dinner 9/28 (Rest 3) number of cases OR ( 95% CI) P-value 22 (27%) 2.5 (1.3, 4.8) 0.007 Slide 41 Food, Restaurants 1 and 2 onset of illness Sept 29 Lunch (9/28)Onset 9/29 (n=48) Seafood Salad number of cases OR (95% CI) P-value 24 (50%) 2.5 (1.5, 5.6) 0.001 Roasted Steamship (beef) number of cases OR (95% CI) P-value 8 (17%) 5.4 (1.5, 18.7) 0.004 Slide 42 Activities Onset of illness Sept 30 Onset 9/30Cases (n=28) Odds Ratio 95% CIP-value Casino (9/29) 13 (46%)3.41.4, 7.80.004 8:45 Concert (9/29) 13 (46%)3.81.6, 9.00.001 Hot tub (9/29) 8 (29%)2.81.1, 7.20.030 Slide 43 Limitations Number of food items served >200 in 2 days Time between exposure and survey 6 days after suspect foods served Passenger discussions Asymptomatic infections as high as 30% Controls could have been infected Slide 44 Discussion Foodborne Galley worker reported illness 9/27 Distributor prior to bringing on ship Norovirus outbreak Illness onset on Sept 29 th due to a food item Illness onset on Sept 30 th Person-to-person spread Aggressive control measures by cruise line may have led to less person-to-person spread than in other outbreaks Slide 45 Control Measures Before CDC team arrival Heightened disinfection: 1000 ppm chlorine on hard surfaces Food serving procedures: gloves, no self serve buffets After CDC team arrival Soft fabric disinfection Cruise line mandated any ill passenger be confined to cabin for 24 hours Slide 46 Recommendations Prompt and aggressive control Environmental contamination Food safety Proper handling Hand washing Strategies to improve employee reporting of illness Slide 47 First Outbreak of Monkeypox in the Western Hemisphere, 2003 Slide 48 Monkeypox Orthopoxvirus, related to smallpox Restricted to Africa (West Africa, DRC) Zoonotic disease Wildlife reservoir unknown Antibodies to virus found in rodents Primates and humans accidental hosts Clinically resembles smallpox Vesicular rash Lymphadenopathy Case fatality < 15% Limited potential for human-to-human spread 9 day incubation period Slide 49 5/ 11/03 6/1/036/2/036/3/036/4/036/5/036/6/036/7/036/8/036/9/036/ 10/03 6/ 11/03 5/ 14/035/ 15/035/ 16/035/ 17/035/ 18/03 5/ 27/03 5/ 28/035/ 29/035/ 30/035/ 19/035/ 20/035/ 21/035/ 22/035/ 23/035/ 24/035/ 25/035/26/035/ 13/035/ 12/03 5/ 31/03 Child ill On May 20, 2003 a 3 year old Wisconsin girl became ill with fever and presumed cellulitis. Purchase PD at swap meet Family had purchased 2 PDs from a swap meet on May 11 th. Lesions appeared at site of a bite from a sick PD on May 13th. PD bites child Multistate Monkeypox Outbreak, 2003 Slide 50 Skin Lesions, Index Case (3 year old child) Marshfield Clinic, WI DAY 11 Slide 51 Purchase PD at swap meet PD bites child Child ill 5/ 11/03 6/1/036/2/036/3/036/4/036/5/036/6/036/7/036/8/036/9/036/ 10/03 6/ 11/03 5/ 14/035/ 15/035/ 16/035/ 17/035/ 18/03 5/ 27/03 5/ 28/035/ 29/035/ 30/035/ 19/035/ 20/035/ 21/035/ 22/035/ 23/035/ 24/035/ 25/035/26/035/ 13/035/ 12/03 5/ 31/03 Mother ill On May 26 th, the childs mother became ill. Dealer ill On May 23 rd, the exotic animal dealer that sold the family their PDs became sick. Slide 52 Wisconsin Animal Dealer, Primary lesion Slide 53 Purchase PD at swap meet Mother ill Dealer ill Child ill 5/ 11/03 6/1/036/2/036/3/036/4/036/5/036/6/036/7/036/8/036/9/036/ 10/03 6/ 11/03 5/ 14/035/ 15/035/ 16/035/ 17/035/ 18/03 5/ 27/03 5/ 28/035/ 29/035/ 30/035/ 19/035/ 20/035/ 21/035/ 22/035/ 23/035/ 24/035/ 25/035/26/035/ 13/035/ 12/03 5/ 31/03 The Marshfield Clinic grew virus from mother and PD identified as a poxvirus by EM. Poxvirus on EM, WI DOH notified The WI DOH was notified of illnesses in all parties, initiated traceback on Prairie Dogs and notified CDC. PD bites child Slide 54 Purchase PD at swap meet Mother ill Dealer ill Child ill 5/ 11/03 6/1/036/2/036/3/036/4/036/5/036/6/036/7/036/8/036/9/036/ 10/03 6/ 11/03 5/ 14/035/ 15/035/ 16/035/ 17/035/ 18/03 5/ 27/03 5/ 28/035/ 29/035/ 30/035/ 19/035/ 20/035/ 21/035/ 22/035/ 23/035/ 24/035/ 25/035/26/035/ 13/035/ 12/03 5/ 31/03 Monkeypox confirmed at CDC by PCR CDC confirmed monkeypox in samples from mother and PD. Executive Order FDA/CDC CDC and FDA issued a joint emergency order prohibiting trade and movement of PDs and African rodents. Poxvirus on EM, WI DOH notified PD bites child Slide 55 Slide 56 47 human cases in 5 states All cases reported contact with sick prairie dogs No clear person-to-person spread High hospitalization rate for quarantine/infection control issues Over 25% of cases occurred in veterinary staff First outbreak of monkeypox in humans outside Africa 2003 Monkeypox Outbreak Characteristics Slide 57 Animal Traceback All sick prairie dogs were traced to an IL dealer IL dealer had African rodents (Gambian rats and dormice) on the premises Traced movements of all prairie dogs and African rodents Tracing capabilities limited Cash sales, often no record Trade at swap meets- widespread distribution Dealer recall limited Exposure without ownership (contact in store) Slide 58 Movement of Imported African Rodents to Animal Distributors and Distribution of Prairie Dogs from Point of Infection Rodent Shipment from Accra, Ghana TX 1** 50 Gambian rats (GR) 53 rope squirrels (RS) 2 brush-tailed porcupines (BTP) 47 sun squirrels (SS) 100 striped mice (SM) ~510 dormice (DM) 4/9/03 NJ RS, BTP SS TX 3 RS, SM DM 4/11/03 4/17/03 IA GR, DM 4/16/03 TX 4 DM TX 5 DM 4/21/03 TX 6 SS, SM DM 4/26/03 TX 2 GR ? TX 8 DM TX 7 DM 4/28/03 TX 9 DM ? 4/28/03 Japan DM TX 10 DM 4/29/03 5/18/03 MN DM WI DM 6/1/03 1 PDs traced IL 2 DM 5/12/03 IL 1 GR, DM 200 prairie dogs (PDs) in existing inventory MI No human cases SC No human cases MO Human cases: 2 confirmed KS Human cases: 1 confirmed IN Human cases: 7 confirmed 9 probable/ suspect IL Human cases: 8 confirmed 4 probable/ suspect WI Human cases: 17 confirmed 22 probable/ suspect 1 PD traced 11 PDs traced 24 PDs traced 14 PDs traced 42 PDs traced MMWR July 2003 June 2003 lab confirmation: diseased animals derived from shipment Slide 59 Gambian Giant (Pouched) Rat Rope Squirrel Sun Squirrel Dormouse Striped Mouse Evidence of monkepox infection in laboratory testing Slide 60 Reasons for the 2003 Monkeypox Outbreak Unrestricted importation of animals from Africa Wild caught animals with unknown history Exotic pet trade allows rapid movement of animals Not regulated by federal statues No requirements to maintain records Human medicine is not familiar with monkeypox Did not recognize lesions as smallpox-like Delayed reporting of unusual illness to state authorities Slide 61 Thyrotoxicosis South Dakota, June 1985 Eight persons aged 29-76 years (5 men) Symptoms: anxiety, palpitations, dyspnea, weight loss, tachycardia Signs: elevated T4, low RAIU Onset: May - June 1985 Slide 62 Slide 63 Background Cases clustered in two SD towns (near MN) Interviewed eight patients No common exposures Drew blood from patients and family Tests run Slide 64 Preliminary Investigation Case-finding 33 additional patients who in the past year had High T4 Low RAIU Cases clustered around Luverne, MN Results from other 8 patients' families: 75% of asymptomatic family members had elevated T4s Slide 65 Further Findings Total: 121 cases Age range: 0-76 years Sex: 62 male, 59 female Onset: April 1984-August 1985 Location: Clustered around MN-SD border Slide 66 Case-Control Study Cases: first patient in household Controls: same phone exchange Questions: History of viral illness Ingestion of Iodine-containing food Medications Toxic exposures Food additives/Health food products Contacts with others who were ill Slide 67 Additional Findings New patient from outside the area Shopped at a grocery store in area All foods national brands except: Fresh chicken eggs Beef trimmings from plant A in Luverne, MN One family: all members were cases except one boy (vegetarian) Case-control study implicated beef trimmings from Plant A Slide 68 Summary "Before April 1983 thyroid glands were selectively removed and sold for use in the manufacture of thyroid extract. After that time, 'gullet trimming' was employed to harvest muscle from the bovine larynx...motion allowed portions of both lobes of the thyroid gland to be inadvertently included in the muscle trimming... Thyroid was being ground up with muscle and ingested as part of ground beef Slide 69 Salmonellosis January 1981 call to CDC: 36 cases Salmonella munchen in Jefferson Co., OH since mid-December 1980 26 cases with same serotype in Lansing, MI Slide 70 Descriptive Epidemiology Age range: 1 month - 76 years 28% of patients aged 20-29 years Located in 3 disparate neighborhoods in Jefferson County, OH Slide 71 Investigation No common exposures among cases except ham Brands/Types of hams different All ham cultures negative Other activities to consider? Ongoing source of infection? Weekly stool cultures all positive One turned negative -- pregnant woman Slide 72 Pregnant Woman - Key Interviewed pregnant woman for activities (in which she no longer participated) Slide 73 Pregnant Woman - Key Interviewed pregnant woman for activities (in which she no longer participated) Smoking Drinking alcohol Smoking marijuana Slide 74 Smoking Gun Upon further questioning: At least one member of each case- household smoked marijuana Marijuana from all households in town positive for S. munchen Biologic plausibility Slide 75 Infection control survey Slide 76 Survey of Veterinary Hospital Infection Control Practices AVMA/CDC collaborative effort Survey Knowledge Attitudes Practices regarding infection control practices Use of PPE WHY? To determine current practices To determine what additional resources are needed Slide 77 Methodology AVMA 2004 Membership list (n=48,548) Employer codes (n=45,185) Species Codes Small Animal, Mixed Animal, Equine, Large Animal Randomly selected veterinarians from each category to receive a survey Slide 78 All *SmallMixedEquineLarge Female48%52%27%21%19% < 10 years in practice 26%27%24% Owner58%54%78%66%72% 40 hours per week 66%61%86% 84% Teaching5%6%0.5%11%10% Mobile Only4%2%3%47%67% Policy (yes)22%24%13%20%11% *weighted population averagePreliminary results Slide 79 Infection control practices All *SmallMixedEquin e Larg e Always wash hands before eat 53%55%47%31%28% May eat in animal areas 86% 91%82%79% May recap needles 93%92%95%98%97% May re-use needles 32%28%52%15%41% *weighted population averagePreliminary results Slide 80 Engage in protective behavior when handling All*SmallMixedEquineLarge Healthy animal57%58%56%16%76% Animal w- vomiting/diarrhea 25%24%40%52%54% Animal w- neurologic signs 20%16%37%18%62% Feces44% 47%16%69% Urine27%26%34%14%54% Products of parturition 4%5%1% 0% *weighted population averagePreliminary results Slide 81 When looking at veterinarians by years in practice* < 10 year10 years Always wash hands53% May eat in treatment area 91%85% Recap needles96%92% Hours per week worked66% Owner of clinic21%71% Bitten in last year50%53% Needlestick in last year71%60% Cut by instrument28%23% *weighted population averagePreliminary results Slide 82 Conclusions Zoonoses are of great importance in human health Veterinarians are often front line of defense, but do not protect selves adequately Need for written guidance for veterinary profession Self-reported behavior not always accurate MPH student thesis analysis of small animal practitioners only demonstrated that males, those in the Midwest and those working in clinics without written infection control policies were more likely to have poor infection control practices Slide 83 Compendium Committee Representatives from NASPHV, CDC, academia, AAHA, state and local health departments Tasked to develop written Universal Precautions for veterinarians Data from the survey will point to where gaps exist Slide 84 Acknowledgements Jennifer McQuiston, CDC Sherry Jung, Rollins School of Public Health Nina Marano, CDC Doug Hamilton, CDC Marc-Alain Widdowson, CDC American Veterinary Medical Association Dr. John New and Katie Portacci, UT Slide 85 jgwright@cdc.gov