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CHAPTER 4 Epidemiology and the Evidence-Based Medicine Approach 95

28. BSAVA: SAVSNET The next stage, BSAVA Companion 4–5, 2013. 52. Hernandez JA, Anderson AE, Holmes WL, et al.: Pulmonary
29. Veterinary Companion Animal Surveillance System (VetCompass) parenchymal defects in dogs following prolonged cigarette smoke
www.rvc.ac.uk/vetcompass. accessed; 08/13/2017. exposure, Am Rev Respir Dis 93:78–83, 1966.
VetBooks.ir 30. Latter M: VetCompass Australia – a leap forward for companion 53. Cross FT, Palmer RF, Filipy RE, et al.: Carcinogenic effects of
radon daughters, uranium ore dust and cigarette smoke in beagle
animals, Aust Vet J 94:N14, 2016.
31. O’Neill DG, Church DB, McGreevy PD, et al.: Approaches to
dogs, Health Phys 42:33–52, 1982.
canine health surveillance, Canine Genet Epidemiol 1:1–13, 2014. 54. Reif JS, Bruns C, Lower KS: Cancer of the nasal cavity and para-
32. Egenvall A, Hedhammar A, Bonnett BN, et al.: Survey of the nasal sinuses and exposure to environmental tobacco smoke in pet
Swedish dog population: age, gender, breed, location and enroll- dogs, Am J Epidemiol 147:488–492, 1998.
ment in animal insurance, Acta Vet Scand 40:231–240, 1999. 55. Reif JS, Dunn K, Ogilvie GK, et al.: Passive smoking and canine
33. Egenvall A, Bonnett BN, Hedhammar A, et al.: Mortality in over lung cancer risk, Am J Epidemiol 135:234–239, 1992.
350,000 insured Swedish dogs from 1995-2000: II. breed-specific 56. Bertone ER, Snyder LA, Moore AS: Environmental tobacco smoke
age and survival patterns and relative risk for causes of death, Acta and risk of malignant lymphoma in pet cats, Am J Epidemiol
Vet Scand 46:121–136, 2005. 156:268–273, 2002.
34. Egenvall A, Nodtvedt A, Penell J, et al.: Insurance data for research 57. Bertone ER, Snyder LA, Moore AS: Environmental and lifestyle
in companion animals: benefits and limitations, Acta Vet Scand risk factors for oral squamous cell carcinoma in domestic cats, J Vet
51:42, 2009. Intern Med 17:557–562, 2003.
35. Dobson JM, Samuel S, Milstein H, et al.: Canine neoplasia in the 58. Dich J, Zahm SH, Hanberg A, et al.: Pesticides and cancer, Cancer
UK: estimates of incidence rates from a population of insured dogs, Causes Control 8:420–443, 1997.
J Small Anim Pract 43:240–246, 2002. 59. Hardell L: Pesticides, soft-tissue sarcoma and non-Hodgkin lym-
36. Egenvall A, Nodtvedt A, von Euler H: Bone tumors in a population phoma—historical aspects on the precautionary principle in cancer
of 400 000 insured Swedish dogs up to 10 y of age: incidence and prevention, Acta Oncol 47:347–354, 2008.
survival, Can J Vet Res 71:292–299, 2007. 60. Andrade FH, Figueiroa FC, Bersano PR, et al.: Malignant mam-
37. Egenvall A, Bonnett BN, Ohagen P, et al.: Incidence of and sur- mary tumor in female dogs: environmental contaminants, Diagn
vival after mammary tumors in a population of over 80,000 insured Pathol 5(45), 2010.
female dogs in Sweden from 1995 to 2002, Prev Vet Med 69:109– 61. Zahm SH, Blair A: Pesticides and non-Hodgkin’s lymphoma, Can-
127, 2005. cer Res 52:5485s–5488s, 1992.
38. Egenvall A, Nodtvedt A, Haggstrom J, et al.: Mortality of life- 62. Garabrant DH, Philbert MA: Review of 2,4-dichlorophenoxy-
insured Swedish cats during 1999-2006: age, breed, sex, and diag- acetic acid (2,4-D) epidemiology and toxicology, Crit Rev Toxicol
nosis, J Vet Intern Med 23:1175–1183, 2009. 32:233–257, 2002.
39. Egenvall A, Bonnett BN, Haggstrom J, et al.: Morbidity of insured 63. Hayes HM, Tarone RE, Cantor KP, et al.: Case-control study of
Swedish cats during 1999-2006 by age, breed, sex, and diagnosis, canine malignant lymphoma: positive association with dog owner’s
J Feline Med Surg 12:948–959, 2010. use of 2,4-dichlorophenoxyacetic acid herbicides, J Natl Cancer Inst
40. Rissetto K, Villamil JA, Selting KA, et al.: Recent trends in feline 83:1226–1231, 1991.
intestinal neoplasia: an epidemiologic study of 1,129 cases in the 64. Hayes HM, Tarone RE, Cantor KP: On the association
veterinary medical database from 1964 to 2004, J Am Anim Hosp between canine malignant lymphoma and opportunity for
Assoc 47:28–36, 2011. exposure to 2,4-dichlorophenoxyacetic acid, Environ Res 70:
41. Hayes HM, Milne KL, Mandell CP: Epidemiological features of 119–125, 1995.
feline mammary carcinoma, Vet Rec 108:476–479, 1981. 65. Glickman LT, Schofer FS, McKee LJ, et al.: Epidemiologic study
42. Stovring M, Moe L, Glattre E: A population-based case-control of insecticide exposures, obesity, and risk of bladder cancer in
study of canine mammary tumours and clinical use of medroxy- household dogs, J Toxicol Environ Health 28:407–414, 1989.
progesterone acetate, APMIS 105:590–596, 1997. 66. Gavazza A, Presciuttini S, Barale R, et al.: Association between
43. Marconato L, Leo C, Girelli R, et al.: Association between waste canine malignant lymphoma, living in industrial areas, and use of
management and cancer in companion animals, J Vet Intern Med chemicals by dog owners, J Vet Intern Med 15:190–195, 2001.
23:564–569, 2009. 67. Comba P, Bianchi F, Fazzo L, et al.: Cancer mortality in an area
44. Glickman LT, Raghavan M, Knapp DW, et al.: Herbicide expo- of Campania (Italy) characterized by multiple toxic dumping sites,
sure and the risk of transitional cell carcinoma of the urinary blad- Ann N Y Acad Sci 1076:449–461, 2006.
der in Scottish Terriers, J Am Vet Med Assoc 224:1290–1297, 2004. 68. Upton AC, Kneip T, Toniolo P: Public health aspects of
45. Weeth LP, Fascetti AJ, Kass PH, et al.: Prevalence of obese dogs in toxic chemical disposal sites, Annu Rev Public Health 10:
a population of dogs with cancer, Am J Vet Res 68:389–398, 2007. 1–25, 1989.
46. Paluszkiewicz P, Smolinska K, Debinska I, et al.: Main dietary 69. Vrijheid M: Health effects of residence near hazardous waste land-
compounds and pancreatic cancer risk. The quantitative analy- fill sites: a review of epidemiologic literature, Environ Health Per-
sis of case-control and cohort studies, Cancer Epidemiol 36: spect 108:101–112, 2000.
60–67, 2012. 70. Dosemeci M, Wacholder S, Lubin JH: Does nondifferential mis-
47. Sun CL, Yuan JM, Koh WP, et al.: Green tea, black tea and breast classification of exposure always bias a true effect toward the null
cancer risk: a meta-analysis of epidemiological studies, Carcinogen- value? Am J Epidemiol 132:746–748, 1990.
esis 27:1310–1315, 2006. 71. Wacholder S, Hartge P, Lubin JH, et al.: Non-differential misclas-
48. Aune D, Chan DS, Lau R, et al.: Dietary fibre, whole grains, and sification and bias towards the null: a clarification, Occup Environ
risk of colorectal cancer: systematic review and dose-response meta- Med 52:557–558, 1995.
analysis of prospective studies, BMJ 343, 2011. 72. Cooley DM, Beranek BC, Schlittler DL, et al.: Endogenous
49. Backer LC, Grindem CB, Corbett WT, et al.: Pet dogs as sentinels gonadal hormone exposure and bone sarcoma risk, Cancer Epide-
for environmental contamination, Sci Total Environ 274:161–169, miol Biomarkers Prev 11:1434–1440, 2002.
2001. 73. Millanta F, Calandrella M, Bari G, et al.: Comparison of steroid
50. Reif JS: Animal sentinels for environmental and public health, Pub- receptor expression in normal, dysplastic, and neoplastic canine
lic Health Rep 126:50–57, 2011. and feline mammary tissues, Res Vet Sci 79:225–232, 2005.
51. Kelsey JL, Moore AS, Glickman LT: Epidemiologic stud- 74. Rhodes L, Ding VD, Kemp RK, et al.: Estradiol causes a dose-
ies of risk factors for cancer in pet dogs, Epidemiol Rev 20: dependent stimulation of prostate growth in castrated beagle dogs,
204–217, 1998. Prostate 44:8–18, 2000.

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