2018
DOI: 10.1111/jvim.15143
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Association between indoor air pollution and respiratory disease in companion dogs and cats

Abstract: BackgroundIndoor air pollution (IAP) leads to important respiratory morbidity and mortality in humans. Companion dogs and cats share the same household environment with their owners and are exposed to IAP.HypothesisPets with respiratory disease are more commonly exposed to indoor air pollutants in their homes and to worse air quality than pets without respiratory disease.AnimalsThree hundred and forty‐eight animals (230 dogs and 118 cats) were recruited.MethodsDogs and cats attending the National Taiwan Univer… Show more

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Cited by 30 publications
(16 citation statements)
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“…AuO-treated A549 cells exhibited 33 proteins with greater than fivefold expression and ALDH1A1 induced enhanced metastasis. No similar observations were noted for normal BEAS2B lung cells [ 77 ] Study of household incense exposure and aggravated respiratory complications in dogs and rats 230 dogs and 118 cats assessed for >12 months after incense exposure at National Taiwan University Veterinary Hospital, clinical treatments performed by veterinarians on all animals with an unbiased recording of respiratory disease status and diagnosis factors Dogs with respiratory disease were vulnerable to incense combustion, key role of body weight, no significant difference in the PM 2.5 exposure between diseased and normal dogs, age and body condition instrumental in incense risk, household cats with >35 μg•m−3PM 2.5 exposure more vulnerable than dogs to respiratory disease, milder outcomes in cats suggested to be due to distinctly programmed metabolic control or gene set-up [ 78 ] Direct consequences of smoking and inhaling herbal incense via smoking tool. Screening of cannabinoid toxicity via hypothermia, analgesia, and akinesia, suppressed locomotor actions in three animal experiments, human CB 1 -receptor expression changes n Chinese Hamster ovary cells, expressing human CB 1 G α16 and mitochondrial apoaequorin protein First experiment placed the mice in an activity chamber for 30 min before administering cannabinoid.…”
Section: Recent Attempts To Assess Incense-combustion Toxicitymentioning
confidence: 99%
“…AuO-treated A549 cells exhibited 33 proteins with greater than fivefold expression and ALDH1A1 induced enhanced metastasis. No similar observations were noted for normal BEAS2B lung cells [ 77 ] Study of household incense exposure and aggravated respiratory complications in dogs and rats 230 dogs and 118 cats assessed for >12 months after incense exposure at National Taiwan University Veterinary Hospital, clinical treatments performed by veterinarians on all animals with an unbiased recording of respiratory disease status and diagnosis factors Dogs with respiratory disease were vulnerable to incense combustion, key role of body weight, no significant difference in the PM 2.5 exposure between diseased and normal dogs, age and body condition instrumental in incense risk, household cats with >35 μg•m−3PM 2.5 exposure more vulnerable than dogs to respiratory disease, milder outcomes in cats suggested to be due to distinctly programmed metabolic control or gene set-up [ 78 ] Direct consequences of smoking and inhaling herbal incense via smoking tool. Screening of cannabinoid toxicity via hypothermia, analgesia, and akinesia, suppressed locomotor actions in three animal experiments, human CB 1 -receptor expression changes n Chinese Hamster ovary cells, expressing human CB 1 G α16 and mitochondrial apoaequorin protein First experiment placed the mice in an activity chamber for 30 min before administering cannabinoid.…”
Section: Recent Attempts To Assess Incense-combustion Toxicitymentioning
confidence: 99%
“…Dogs have been highlighted as excellent animal models for human cancer [ 5 , 6 ], and this includes the use of CMT as a comparative model for human breast cancer (HBC) [ 7 , 8 , 9 , 10 ]. The expedited study rate due to faster disease progression and shorter lifespan, histological and mechanistic similarities [ 5 ], spontaneous disease occurrence, and exposure to similar environments as humans make dogs ideal models for comparative oncology [ 11 , 12 ]. The similar environments to humans that dogs often inhabit as companion animals are particularly interesting from an epigenetic standpoint, as environmental stimuli have been known to influence epigenetics [ 13 , 14 ].…”
Section: Introductionmentioning
confidence: 99%
“…Indoor air pollutant concentrations depend on the dynamic relationship between pollutant source and loss processes within buildings. Source processes include the transport of outdoor air pollution, which can be high in urban areas [11][12][13], into the indoor environment via ventilation and infiltration, and indoor emission sources, which include solid fuel combustion, electronic appliances, cleaning, consumer products, occupants, pets, and volatilization of chemicals from building materials and furnishings, among others [10,[14][15][16][17][18][19][20][21][22][23][24][25][26][27][28]. Loss processes include ventilation, exfiltration, deposition to indoor surfaces, filtration and air cleaning, and pollutant transformations in the air (i.e., coagulation, gas-phase reactions).…”
Section: Introductionmentioning
confidence: 99%