Current State of Foodborne Illness

Arthur P. Liang, MD, MPH
Director, Food Safety Office
National Center for Infectious Diseases
Centers for Disease Control & Prevention

Conclusions

We are not losing the “war.”

Unfortunately, we probably can’t win it either.

Food Safety folks will always have a job.

Causes of Death, United States, 1900

Cause	Percent
Tuberculosis	11.3
Pneumonia	10.2
Diarrhea	8.1
Heart Disease	8
Liver Disease	5.2
Injuries	5.1
Stroke	4.5
Cancer	3.7
Bronchitis	2.6
Diphtheria	2.3

Causes of Death, United States, 1992

Cause	Percent
Heart Disease	33.1
Cancer	23.9
Stroke	6.5
Injuries	4
Bronchitis and emphysema	4.2
Pneumonia and influenza	3.5
Diabetes	2.3
HIV Infection	1.6
Suicide	1.4
Homicide	1.2

Quotes

It is “time to close the book” on the problem of infectious diseases. (1969)
Jesse Steinfeld, MD, U.S. Surgeon General, 1969-73

“The future of infectious diseases will be very dull. (1972)”
Macfarlane Burnet, 1960 Nobel Prize Winner In Medicine

Told students that there were “no new diseases to be discovered. (1976)”
Lewis Thomas, Dean Yale Medical School

Examples of Pathogenic Microbes Identified Since 1973

Source: US Institute of Medicine, 1997; WHO, 1999.

1973 Rotavirus
1977 Ebola virus
1977 Legionella pneumophila
1980 Human T-lymphotrophic
1981 Toxin-producing Staph aureus
1982 Escherichia coli O157:H7
1982 Borrelia burgdorferi
1983 HIV
1983 Helicobacter pylori
1989 Hepatitis C Virus
1992 Vibrio cholerae O139
1993 Hantavirus Virus
1994 Cryptosporidium
1995 Ehrlichiosis
1996 nvCJD Prion
1997 HVN1 Virus Influenza
1999 Nipah Virus

Emergence of non-typhoid Salmonella: Reported infections USA, 1920-1997

(line graph showing that after years of decline, these illnesses are again on the rise.)

Emergence of Foodborne Pathogens

1900

Botulism
Brucellosis
Cholera
Hepatitis
Scarlet fever (streptococcus)
Staphylococcal food poisoning
Tuberculosis
Typhoid fever

1975-1995

Norwalk-like viruses
Campylobacter jenjuni
Salmonella Enteritidis
Shiga toxin-producing E. coli O157:H7, O111:NM, O104:H21
Listeria monocytogenes
Clostridium botulinum (infant)
Vibrio cholerae 0139
Vibrio vulnificus
Yersinia enterocolitica
Arcobacter butzleri
Hepatitis E
Cryptosporidium parvum
Giardia lamblia
Cyclospora cayetanensis
Toxoplasma gondii
BSE prion
Nitzchia pungens (dinoflagellate)

Why Foodborne Diseases Emerge?

(graphic shows connection of hosts, microbes, and environment)

Microbe factors

Norwalk-like virus: person-to-person, hardy, low dose
E. coli O157:H7 - Acid tolerant
Apple cider, salami, mayonnaise
Listeria & Yersinia - refrigeration
Antibiotic resistance

Environment factors

Changes in food production
CAFOs & Manure glut
Globalization of food supply
Centralized production

Democratic Staff Report, US Senate Agriculture Committee (1998) “Animal Waste Pollution in America, An Emerging National Problem”

US Manure Estimates, 1997

5 tons of animal manure / person / year
130 times greater than amount of human waste

(map showing geographic distribution of Cattle Fattened on Grain and Concentrates and Sold: 1997)

E. coli O157

Scotland (JE Coia et al, J. Infect 36:317, 1998)

Handling / preparing raw food (40%)
Gardening / garden play (36%)
Lived on / visited farm (20%)
Direct / indirect contact with manure (17%)
Private H20 supply (12%)
Recent high coliform counts in H20 supplies (12%)

FoodNet Case-control:

farm animals

Campylobacter*

FoodNet Case-control:

Living on or visiting a farm
Contact with farm animals

Imported Food Consumption on the Rise Source: USDA Agricultural Research Service

	Fish, fish products, & shellfish	Fresh fruits	Fresh vegetables	Foreign-grown wheat
1980	45%	24%	5.40%	0.40%
1997	62%	34%	10%	10.40%

Currently, according to FDA 38% Fruit and 12% vegetables are imported.

Examples of U.S. outbreaks traced to foods from other countries

Norwalk-like virus & Raspberries (Europe and Canada)
Seafood salad on an airplane from Peru caused cholera
Cyclospora & Raspberries from Guatemala
Salmonella & OJ from Mexico
Alfalfa seeds shipped from Netherlands caused Salmonella diarrhea in persons who ate alfalfa sprouts

1999 FDA Imported Produce Sampling, n=1003

4.4% positive
No E. coli o157:H7
Salmonella - 80% of violations

Domestic Produce Sampling Program
Contamination Rate: 1.6% (as of July 2001)

Mass production & distribution

(graphic - map of states affected by an outbreak related to cereal)

215 (65%) of 331 tested patient isolates from 23 states matched by PFGE
675 cases were reported to PHLIS
432 cases (64%) over expected baseline

Large, multi-state outbreaks

1990	Salmonella & Cantaloup	295 infections in 28 states
1991	Salmonella & Salads	400 infections in 23 states & Canada
1993	E. coli 0157 in hamburger	>700 cases, 4 died in four states.
1994	Salmonella in ice cream	~ 224,000 ill in 41 states
1995	S. Stanley in Alfalfa sprouts	242 ill in 17 states
1996	Cyclospora & raspberries	>1000 ill, 22 hospitalizations
1997	E. coli 0157 & alfalfa sprouts	108 ill in 2 states
1998	Listeria in hotdogs	>100 ill, 21 deaths in 21 states
1999	Salmonella & OJ	360 ill in 16 states and Canada
2000	Norwalk-like virus & pasta salad	333 ill in 13 states

Number of multi-state outbreaks, 1990-1999

1988-92 8 multi-state outbreaks

1993-97 = 30 multi-state outbreaks

’98 = 9

’99 = 8

Host factors

Increased numbers of susceptible persons
Aging , HIV infection, immunosuppressive drugs
Changing eating habits
Dietary, "fast food“, eating out,…
Improved surveillance & detection
Bioterrrorism

Changing eating habits

changes in types of foods consumed:
- more turkey, chicken, fruits & vegetables, ground beef
- less beef, eggs
popularity of "fast food" & salad bars
increased availability of ready-to-eat
increased spending outside the home

Eating Habits: Restaurants?

Salmonella Enteritidis & Salmonella Heidelberg*

Eating chicken outside home

Campylobacter*

Turkey or chicken cooked outside the home
Other meat cooked outside the home

* FoodNet case-control studies

Norwalk-like virus Outbreaks, 1997 – 2000

Settings

Restaurants/catered events, 38%
Nursing homes, 26%
Schools/daycares, 16%
Vacation/cruise ships, 10%
Other, 5%
Not given, 5%
Total: 229

Mode of transmission

Food borne, 58%
Person-to-person, 16%
Water, 3%
Not determined, 23%
Total: 172

E. coli O157 case-control study, 1996-1997

Previously Identified Risk Factors for Sporadic Infection -Eating at a table service restaurant

E. coli O157 Study, 1999-2000 - Restaurant consumption of pink hamburger was NOT associated with infection

* FoodNet case-control studies

Improved surveillance & detection

Molecular subtyping "DNA Fingerprinting" (example shown)

Converts genetic material into a “bar code”
Identifies hundreds of different strains
Can be scanned & transmitted electronically

PFGE: Strains of patients' isolates, cereal & production line indistinguishable

(PFGE patterns shown from patients, cereal, production line)

CaliciNet (map)

PulseNet (1995 TX, MA, MN, WA) E.coli, Salmonella, Listeria, & Shigella
States in Orange (WA, ID, NV, CA, AK, IL, OH, WV, TN, GA, FL) have RT-PCR capability for NLV & have submitted positive samples to CDC for confirmation & typing

States in Green (ND, MI, IN, MS, ME, VT, NY) have RT-PCR capability, but have not yet submitted positive samples

States in Gray (remaining states) have the protocols for RT-PCR, but have not yet tested outbreak samples

Burden of Foodborne Disease, 21st Century

Estimated 76 million cases resulting in 323,000 hospitalization & 5000 deaths each year in the U.S.

1 in 4 Americans will develop a foodborne illness; 1 in 1000 will be hospitalized

Cost: an estimated $6.5 billion per year
~CDC Annual budget

Most common causes of foodborne Illness Mead et al, 1999

(Bar graph. In descending order, Norwalk-like virus, Salmonella, C. perfringens, Giardia, S. aureus)

Deaths Due to Foodborne Illness

Salmonella, 31%
Listeria, 28%
Toxoplasmosis, 21%
Norwalk-like, 7%
Campylobacter, 5%
E. coli O157:H7, 3%
Other, 5%

Where do the microbes come from?

Agent	# of cases	resevoir	% food
Norwalk-like viruses	9,200,000	man	40
Campylobacter spp	1,963,141	poultry	80
Salmonella, nontyphoidal	1,341,873	animal	95
Clostridium perfringens	248,520	soil, man, animal	100
Giardia lamblia	200,000	Man, animal	10
Staphylococcal	185,060	man	100
Toxoplasma gondii	112,500	cat	50
Shigella spp.	89,648	man	20
Yersinia enterocolitica	86,731	pig	90
Escherichia coli O157:H7	62,458	cow	85

Mead, et al, Emerging Infectious Diseases 1999:5(5); 607-625

Are we winning the war against foodborne disease?

Emergence of non-typhoid Salmonella: Reported infections USA, 1920-1997 (rising in 1980's/1990's)

2001 FoodNet Data

23 percent overall drop in 7 bacterial foodborne illnesses since 1996.

27% Campylobacter
15% Salmonella
35% Listeria
49% Yersinia

"Preliminary FoodNet Data on the Incidence of Foodborne Illnesses -- Selected Sites, United States, 2001" Morbidity & Mortality Weekly Report (April 19, 2002) http://www.cdc.gov/mmwr/

Infections Associated with Food, 1900 vs 2000

1900s

Botulism
Brucellosis
Cholera
Hepatitis
Scarlet fever (streptococcus)
Staphylococcal
Tuberculosis
Typhoid fever

2000

Norwalk-like viruses
Campylobacter
Salmonella
Clostridium perfringens
Giardia lamblia
Staphylococcal
Toxoplasma gondii
Shigella
Yersinia enterocolitica
E coli O157:H7

Addressing Food Hazards in the 21th century

Inspection & regulation (GAPs, GMPs, HACCP)
Hygienic processing, Water chlorination
Refrigeration, safe canning, additives & preservatives
Pasteurization, monitoring
Medical advances: antibiotics, vaccines
Foodhandler education & behavior change

Woesian Tree of Life (illustration)

At the top of Haeckel's tree are Menschen - men, & Haeckel meant white European males. In middle of his tree are reptiles, & below them amphibians At the base of his tree are single celled amoebas, & "monera" - Haeckel's name for the bacteria. Haeckel's picture of evolution was a picture of linear progress from bacteria to humans. Indeed, he defines four explicit stages of progress (on the right side of the picture): Protozoa, Invertebrates, Vertebrates, Mammals.

In terms of bio-diversity, all plants & animals are just twigs compared to the branches that make up micro-organisms. The majority of eukaryotic life is, in fact, microbial (protists). There is far more phenotypic & genotypic diversity in all the protist groups combined than within the plant, animal or fungal kingdoms.

Carl Woese University of Illinios in the late 1970s, Woese wanted to determine evolutionary relationships; using ribosomal RNA. Bacteria appear about 3.5 billion years ago. The oldest fossil evidence for anatomically modern humans is about 130,000 years old in Africa, & there is evidence for modern humans in the Near East sometime before 90,000 years ago. Bacteria can go through 30 generations in a day; this would be equivalent to 1000 years of human evolution. Bacteria can acquire & spread genetic material laterally via plasmids & transposons. Through biofilms can form alliances with other bacteria & microorganisms.

Conclusions

We are not losing

Microbes rapidly adapt through biologic evolution, transfer of genes.

Microbes appear 3.5 Billion years ago

Homo sapien adapts through cultural evolution, transfer of information

The World is counting on you to pass down the lessons of civiliztion to this and future generations

Once you start you can’t stop

The Red Queen Principle - Leigh van Valen (evolutionary biologist, 1973)

“…in this place it takes all the running you can do, to keep in the same place.“
- Red Queen to Alice in Through the Looking Glass

Est. Foodborne Illnesses (thousands) by etiology, Mead et al, 1999

Virus, 9282
Parasites, 357
Bacteria, 4176
Unknown, 62000

Closing (Florida scene and conference logo)