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A Debate of Causes vs. Triggers
Emily Cohn, Jahan Mohiuddin
What is Asthma?
• Chronic disease that inflames and narrows the airways
• Symptoms include: wheezing, chest tightness, shortness of breath, and coughing
• Inflammation makes airways hypersensitive and reactive
• When airways react, the muscles constrict, narrowing the airway
• Increased mucous production
•A chronic condition in which the airways periodically constrict, inflame, and secrete excessive amounts of mucus.•2 types: allergic and non-allergic.•Most common chronic childhood disorder in developed countries.
•Triggered by inhaling allergens such as dust mites, pet dander, pollens, mold, etc.•IgE antibodies produced by B cells activate mast cells
•Mast cells initiate inflammatory response with release of histamine and other granules. •One of the effects of histamine is an increase in blood vessel permeability, leading to edema (swelling).
•Very similar symptoms as allergic asthma but non-allergic asthma is characterized by the absence of an immune response.•Caused by factors such as anxiety, stress, exercise, cold air, dry air, hyperventilation, smoke viruses or other irritants
• According to Fisk (2000), “asthma, allergic rhinitis, and other associated airway allergic diseases cost $23 billion in terms of health care and indirect costs including lost work and lost school days.”
•Landrigan et al. (2002) estimated the total annual costs from US children’s asthma caused by environmental exposures at $2.3 billion.
•Between 1980 and 1994 the prevalence of asthma in the US increased 75%.
Asthma PrevalenceUnited States, 1980-2004
0
2
4
6
8
10
12
Year
Pre
vale
nce
(%
)
Source: National Health Interview Survey; National Center for Health Statistics
12-Month
Lifetime
Attack
Current
Asthma Prevalence by SexUnited States, 1980-2004
0
2
4
6
8
10
12
Year
Pre
vale
nce
(%
)
12-Month
Lifetime
Attack
Current
• Female
Male
Source: National Health Interview Survey; National Center for Health Statistics
Child and Adult Asthma Prevalence
United States, 1980-2004
0
2
4
6
8
10
12
Year
Pre
va
len
ce
(%
)
12-Month
Lifetime
Attack
Current
• Child
Adult
Source: National Health Interview Survey; National Center for Health Statistics
Adult and Child Asthma Prevalence
United States, 1997-2004
0
2
4
6
8
10
12
Year
Pre
vale
nce
(%
)
Source: National Health Interview Survey; National Center for Health Statistics
Child Lifetime
Adult Lifetime
Child Attack
Adult Attack
Child Current
Adult Current
12-Month Asthma Prevalence by Race:
United States, 1980-1996
0
2
4
6
8
10
12
Year
Pre
va
len
ce
(%
)
Source: National Health Interview Survey; National Center for Health Statistics
Black
White
Asthma Prevalence by Race/Ethnicity
United States, 1997-2004
0
2
4
6
8
10
12
14
Year
Pre
va
len
ce
(%
)
Lifetime
Attack
Current
▲ Black NH
White NH
Hispanic
Source: National Health Interview Survey; National Center for Health Statistics
Current Asthma Prevalence by MSA Size: United States,
2001
0
2.5
5
7.5
10
Total Child Adult
Pre
vale
nce
%
5 M +2.5 - 4.991.0 - 2.490.50 - 0.990.25 - 0.49< 0.25Non-MSA
Source: National Health Interview Survey; National Center for Health Statistics
MSA size
Current Asthma Prevalence by Poverty Status: United
States, 2004
0
2.5
5
7.5
10
12.5
Total Child Adult
Pre
vale
nce
%
0 - 0.99 1.00 - 2.49 2.50 - 4.49 4.50 +
Source: National Health Interview Survey; National Center for Health Statistics
Poverty
Why is asthma incidence higher now?
• Hygiene Hypothesis– Emphasis on hygiene and sanitation has
changed living conditions and reduced infections
– Different environmental exposure– Increased risk for atopy and asthma
Causes•Genetic
•At least 25 genes associated with asthma1
•Environmental Factors•Only indoor agents are involved.
•Environmental tobacco smoke2
•Poor air quality2
•Mold•Dust mites
•Gene-environment interactions
Triggers•Allergens•Airborne irritants•Respiratory infections•Exercise•Weather•Strong emotions•Some medications
•Ex: aspirin
•Jaakkola et al. (2005) found that children living in homes with mold odor had a >100% increased risk of developing asthma in the following 6 years.
•Strachan (1988), Dales et al. (1991), Brunekreef (1992), and other studies had supporting findings.
•According to Etzel (2003) and Strachan (2000), environmental tobacco smoke and indoor dust mites strongly increase the likelihood of asthma development.
Gold (2000)
Indoor Exposure Asthma Development Asthma Exacerbations
House dust mite Increased Increased
Environmental Tobacco Smoke
Probably increased Increased
Cockroach Maybe Increased Increased
Cat Maybe Increased Increased
Dog Maybe Increased Probably Increased
Etzel RA (2003)
• “The Institute of Medicine has concluded that sensitizationto house dust mites is an important risk factor for asthma development” Etzel (2003)•“These data strongly suggest that dust mite exposure is a risk factor for the development of symptomatic asthma in children” Gold (2000)
•Prenatal maternal smoking is correlated with reduced infant airway size, among many other things. Gold (2000)•The influence of ETS on the development of asthma among children less than 6 years old is much greater than that among school-age children. Gold (2000)
Non-Environmental Causes
• Viral or sinus infections and antibiotic use- early antibiotic use that prevents differentiation toward TH1 (Delfino 2002)
-RSV infection in infants is asthma risk factor (Sigurs 2000)
• Diet • Obesity• Genetics
Diet and Asthma
• “Westernization” of societies caused change in diet
• Between 1961-1985, the British diet decreased:– Fresh fruit consumption by 26%– Green vegetables by 51%
• reduced antioxidants causes increased susceptibility to oxidant attack and airway inflammation
Seaton 1993
Obesity and Asthma
• Reduced residual capacity, increased airway responsiveness
• In children, might affect lung growth leading to reduced pulmonary function
• Increased airway contractility through chronic, low-grade inflammation
• Alteration of serum concentrations of hormones which could affect airway function
Shore 2005
Genetic Factors of Asthma
• No simple Mendelian pattern of inheritance
• Exhibits polygenic inheritance and genetic heterogeneity
• six loci have been implicated: -chromosomes 6p21,5q, 11q13, 13q, and 12q
Sandford 2000
Evidence of Genetic Basis in
Causation of Asthma
• “in families with asthma in successive generations, genetic factors alone explained as much as 87% of the development of asthma in offspring (Holloway, 1999) ”
• Harris et al. twin study-RR for identical twins was 17.9-RR for fraternal twins was 2.3
Factors which suggest genetic components in causation of
asthma
• Prevalence of asthma in the US differs between:- males and females-racial groups
Outdoor air pollution and asthma
• Lang and Polansky study in Philadelphia between 1969-1991:
- concentrations of all major air pollutants declined
-asthma morality rates increased• American six cities study found no
association between exposure to PM, NO2, SO2 and prevalence of asthma
• Leipzig and Munich studySeaton 1993
Non-environmental Triggers
• Gastroesophageal reflux (AAAAI)
• Exercise• Smoking• Stress
•What do you think is the primary cause of asthma? •If there is an environmental component to asthma, what kinds of public health implications are there? •What types of public health measures need to be created/ enforced to reduce the burden of asthma and other chronic diseases?•Why does correlation not equal causation? •Why do people so often make the mistake of equating the two?•How does this fact make it difficult to prove that environmental factors can cause the development of asthma?•What are your thoughts on the hygiene hypothesis?
Ober C,Hoffjan S (2006). "Asthma genetics 2006: the long and winding road to gene discovery". Genes Immun 7 (2): 95–100.
Gold DR,Wright R (2005). "Population disparities in asthma". Annu Rev Public Health 26: 89–113.
Fisk, WJ. 2000. Estimates of potential nationwide productivity and health benefits from better indoor environments: an update. In: Indoor Air Quality Handbook (Spengler J, Samet JM, McCarthy JF, eds). New York:McGraw Hill, 4.1–4.36.
Landrigan, PJ; Schecter, CB; Lipton, JM; Fahs, MC; Schwartz, J. Environmental pollutants and disease in American children: estimates of morbidity, mortality, and costs for lead poisoning, asthma, cancer and developmental disabilities. Environ Health Perspect. 2002;110:721–728.
Jaakkola, JJK; Hwang, BF; Jaakkola, N. Home dampness and molds, parental atopy, and asthma in childhood: a six-year population-based cohort study. Environ Health Perspect. 2005;113:357–361.
Etzel RA. How environmental exposures influence the development and exacerbation of asthma. Pediatrics. 2003. 112(1 Pt 2):233-9.
Strachan DP. Damp housing and childhood asthma: validation of reporting of symptoms. BMJ 1988;
297: 1223-6 Dales RE, Burnett R, Zwanenburg H. Adverse
health effects among adults exposed to home dampness
and molds. Am Rev Respir Dis 1991; 143: 505-9 Brunekreef B. Associations between
questionnaire reports of home dampness and childhood
respiratory symptoms. Set Total Environ 1992; 127: 79-89
Strachan DP. The role of environmental factors in asthma. Br Med Bull. 2000. 56(4):865-82.
Gold DR. Environmental tobacco smoke, indoor allergens, and childhood asthma. Environ Health Perspect. 2000 Aug;108 Suppl 4:643-51.
Brim SSN. Asthma prevalence among US children in underrepresented minority populations: American Indian/Alaska native, chinese, filipino, and asian indian. Pediatrics (Evanston). 2008;122(1):e217-22.
References con’t Delfino RJ. Epidemiologic evidence for asthma
and exposure to air toxics: Linkages between occupational, indoor, and community air pollution research. Environmental health perspectives.Supplements. 2002;110(suppl 4):573.
HARRIS JR. No evidence for effects of family environment on asthma A retrospective study of norwegian twins. American journal of respiratory and critical care medicine. 1997;156(1):43.
HOLLOWAY JW. The genetic basis of atopic asthma. Clinical and experimental allergy. 1999;29(8):1023.
SANDFORD AJ. The genetics of asthma. the important questions. American journal of respiratory and critical care medicine. 2000;161(3):202.
Seaton A. Increase in asthma: A more toxic environment or a more susceptible population? Thorax. 1994;49(2):171.
Shore SA, Fredberg JJ. Obesity, smooth muscle, and airway hyperresponsiveness. Journal of Allergy and Clinical Immunology,. 2005 5;115(5):925-7.
SIGURS N. Respiratory syncytial virus bronchiolitis in infancy is an important risk factor for asthma and allergy at age 7. American journal of respiratory and critical care medicine. 2000;161(5):1501.
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