allergy banner

Climate Change

To add the references below to your reference management program: 1. Download the file; 2. Open your reference management program or EndNote; 3. Select File and import

Download references for EndNote

Download references for others

31 Articles

A gene variant of AKR1C3 contributes to interindividual susceptibilities to atopic dermatitis triggered by particulate air pollution

Vogeley, C., Kress, S., Lang, D., et al. Allergy. First published: 16 December 2022

COP27 Climate Change Conference: Urgent action needed for Africa and the world

Atwoli, L., Erhabor, G.E., Gbakima, A.A., et al. Allergy. First published: 18 October 2022

Effect of indoor air pollution on atopic dermatitis in dogs

Lee, J.-H., Kang, B.-T. and Kim, H.-J. Allergy. First published: 20 September 2022

Impact of air pollution and meteorological factors on incidence of allergic rhinitis: A low-latitude multi-city study in China

Luo, X., Hong, H., Lu, Y., et al. Allergy. First published: 04 August 2022

A pathogenic integrated view explaining the different endotypes of asthma and allergic disorders

Maggi, E., Parronchi, P., Azzarone, B.G. and Moretta, L. Allergy. First published: 16 July 2022

Pollen exposure is associated with risk of respiratory symptoms during the first year of life

Gisler, A., Eeftens, M., de Hoogh, K., et al. Allergy. First published: 18 March 2022

COVID-19 pandemic and environment: Not only air pollution

Caminati, M., Guarnieri, G., Marchetti, P., et al. Allergy. 2022; 77: 3699-3701

Exiting the Anthropocene: Achieving personal and planetary health in the 21st century

Prescott, S.L., Logan, A.C., Bristow, J., et al. Allergy. 2022; 77: 3498-3512

Desert dust and respiratory diseases: Further insight on the epithelial barrier hypothesis

D’Amato, G. and Akdis, C.A. Allergy. 2022; 77: 3490-3492

Reply to: “COVID-19 pandemic and environment: Not only air pollution.”

Fiorito, S., Soligo, M., Gao, Y., Ogulur, I., Akdis, C.A. and Bonini, S. Allergy. 2022;77: 3702-3703

Fungal exposome, human health and unmet needs: a 2022 update with special focus on allergy

Vitte, J., Michel, M., Malinovschi, A., et al. Allergy. 2022; 77: 3199-3216

Allergic diseases and fungal exposome: prevention is better than cure

Gangneux, J.-P., Godet, C. and Denning, D.W. Allergy. 2022; 77: 3182-3184

Poultry exposure and environmental protection against asthma in rural children

Xing, Y., Wang, M.H., Leung, T.-F., et al. Allergy. 2022; 77: 2949-2960

Effect of desert dust storms and meteorological factors on respiratory diseases in southeast Turkey

Boğan, M., Kul, S., Al, B., et al. Allergy. 2022; 77: 2243-2246

World Health Organization global air quality guideline recommendations: Executive summary

Goshua, A, Akdis, C, Nadeau, KC. Allergy. 2022; 77: 1955– 1960

Alpine Altitude Climate Treatment for severe and uncontrolled asthma: an EAACI Position Paper

Fieten, K., Drijver-Messelink, M., Cogo, A., et al. Allergy. 2022; 77: 1991-2024

Has the Spring 2020 lockdown modified the relationship between air pollution and COVID-19 mortality in Europe?

Annesi-Maesano, I., Maesano, C.N., Dessimond, B., et al. Allergy. 2022; 77: 1620-1622

Epithelial barrier hypothesis: Effect of external exposome on microbiome and epithelial barriers in allergic disease

Celebi Sozener, Z., Ozdel Ozturk, B., Cerci, P., et al. Allergy. 2022; 77: 1418-1449

Is epithelial barrier hypothesis the key to understanding the higher incidence and excess mortality during COVID-19 pandemic? - The case of Northern Italy

Fiorito, S., Soligo, M., Gao, Y., Ogulur, I., Akdis, C.A. and Bonini, S. Allergy. 2022; 77: 1408-1417

Climate change and global health: A call to more research and more action

Agache, I., Sampath, V., Aguilera, J., et al. Allergy. 2022; 77: 1389-1407

Climate change: A call to action for the United Nations

Nadeau, KC, Agache, I, Jutel, M, et al. Allergy. 2022; 77: 1087-1090

Call for emergency action to limit global temperature increases, restore biodiversity and protect health

Atwoli, L., Baqui, A.H., Benfield, T., et al. Allergy. 2022;77:730-733

Environment-dependent alterations of immune mediators in urban and rural south African children with atopic dermatitis

Lunjani, N, Tan, G, Dreher, A, et al. Allergy. 2022; 77: 569– 581

Adding the variable of environmental complexity into the COVID-19 pandemic equation

Damialis, A., Gilles, S. and Traidl-Hoffmann, C. Allergy. 2022; 77: 331-333

Infant gut microbiome is enriched with bifidobacteria longumssp. infantisin old order mennoniteswith traditional farming lifestyle

Seppo, A.E., Bu, K., Jumabaeva, M., et al. Allergy. 2021; 76: 3489-3503

Health effects of exposure to chlorination by-products in swimming pools

Couto, M, Bernard, A, Delgado, L, et al. Allergy. 2021; 76: 3257– 3275

Identification of ulocladium chartarum as an important indoor allergen source

Pfeiffer, S., Sandler, P., Raith, M., et al. Allergy. 2021; 76: 3202-3206

Intrauterine exposure to immunosuppressants influences the development of postnatal allergic diseases

Kohno, C., Kaneko, K., Takahashi, K., Ohya, Y., Nakajima, H. and Murashima, A.Allergy. 2021; 76: 2886-2890

Pros and cons for the role of air pollution on COVID-19 development

Annesi-Maesano, I., Maesano, C.N., D’Amato, M. and D’Amato, G. Allergy. 2021; 76: 2647-2649

One Health in allergology: A concept that connects humans, animals, plants, and the environment

Pali-Schöll, I., Roth-Walter, F. and Jensen-Jarolim, E. Allergy.2021; 76: 2630-2633

Association between ambient air pollution and development and persistence of atopic and non-atopic eczema in a cohort of adults

Lopez, D.J., Lodge, C.J., Bui, D.S., et al. Allergy.2021; 76: 2524-2534

Exposure to indoor and airborne food allergens in commercial airplanes

Paciência, I., Cavaleiro Rufo, J., Farraia, M., Leal, M. and Moreira, A.Allergy.2021; 76: 2295-2296

Association of prenatal exposure to fine particulate matter pollution with childhood eczema

Yao, T.-C., Huang, H.-Y., Pan, et al.Allergy.2021; 76: 2241-2245

Higher environmental composite quality index score and risk of asthma and allergy in Northeast China

Zhang, S., He, Y., Liang, H., et al.Allergy.2021; 76: 1875-1879

Ragweed plants grown under elevated CO2 levels produce pollen which elicit stronger allergic lung inflammation

Rauer, D, Gilles, S, Wimmer, M, et al. Allergy. 2021; 76: 1718-1730

Identification of Pru du 6 as a potential marker allergen for almond allergy

Kabasser, S, Hafner, C, Chinthrajah, S, et al. Allergy. 2021; 76: 1463– 1472

The neighbourhood natural environment is associated with asthma in children: A birth cohort study

Rufo J. C., Paciência I., Hoffimann E., Moreira A., Barros H., Ribeiro A. I. Allergy. 2021; 76: 348– 358

The impact of exposure to desert dust on infants' symptoms and countermeasures to reduce the effects

Itazawa, T, Kanatani, KT, Hamazaki, K, et al. Allergy. 2020; 75: 1435– 1445

Is short-term exposure to grass pollen adversely associated with lung function and airway inflammation in the community?

Idrose, NS, Tham, RCA, Lodge, CJ, et al. Allergy. 2021; 76: 1136– 1146