Mouse Lung Structure and Function after Long-Term Exposure to an Atmospheric Carbon Dioxide Level Predicted by Climate Change Modeling
Climate change models predict that atmospheric carbon dioxide [ ] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric (as compared with experienced today), especially when exposures extend from preco...
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| Published in | Environmental health perspectives Vol. 129; no. 1; p. 17001 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
National Institute of Environmental Health Sciences
01.01.2021
Environmental Health Perspectives |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0091-6765 1552-9924 1552-9924 |
| DOI | 10.1289/EHP7305 |
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| Abstract | Climate change models predict that atmospheric carbon dioxide [
] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric
(as compared with
experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied.
In this study we aimed to assess the respiratory structure and function effects of long-term exposure to
from preconception to adulthood using a mouse model.
We exposed mice to
(
) from prepregnancy, through the
and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure.
exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased
for a similar amount of time (
), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to
.
To the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of
can impact respiratory function in the mouse. https://doi.org/10.1289/EHP7305. |
|---|---|
| AbstractList | Climate change models predict that atmospheric carbon dioxide [CO2] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric CO2 (as compared with ∼410 ppm experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied.BACKGROUNDClimate change models predict that atmospheric carbon dioxide [CO2] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric CO2 (as compared with ∼410 ppm experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied.In this study we aimed to assess the respiratory structure and function effects of long-term exposure to 890 ppm CO2 from preconception to adulthood using a mouse model.OBJECTIVESIn this study we aimed to assess the respiratory structure and function effects of long-term exposure to 890 ppm CO2 from preconception to adulthood using a mouse model.We exposed mice to CO2 (∼890 ppm) from prepregnancy, through the in utero and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure.METHODSWe exposed mice to CO2 (∼890 ppm) from prepregnancy, through the in utero and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure.CO2 exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased CO2 for a similar amount of time (∼8wk), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to CO2.RESULTSCO2 exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased CO2 for a similar amount of time (∼8wk), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to CO2.To the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of CO2 can impact respiratory function in the mouse. https://doi.org/10.1289/EHP7305.DISCUSSIONTo the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of CO2 can impact respiratory function in the mouse. https://doi.org/10.1289/EHP7305. Climate change models predict that atmospheric carbon dioxide [ ] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric (as compared with experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied. In this study we aimed to assess the respiratory structure and function effects of long-term exposure to from preconception to adulthood using a mouse model. We exposed mice to ( ) from prepregnancy, through the and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure. exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased for a similar amount of time ( ), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to . To the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of can impact respiratory function in the mouse. https://doi.org/10.1289/EHP7305. Background: Climate change models predict that atmospheric carbon dioxide [CO2 ] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric CO2 (as compared with ∼410 ppm experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied. Objectives: In this study we aimed to assess the respiratory structure and function effects of long-term exposure to 890 ppm CO2 from preconception to adulthood using a mouse model. Methods: We exposed mice to CO2 (∼890 ppm ) from prepregnancy, through the in utero and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure. Results: CO2 exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased CO2 for a similar amount of time (∼8wk ), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to CO2 . Discussion: To the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of CO2 can impact respiratory function in the mouse. Background: Climate change models predict that atmospheric carbon dioxide [C[O.sub.2]] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct physiological effects of exposure to slightly elevated atmospheric C[O.sub.2] (as compared with ~410 ppm experienced today), especially when exposures extend from preconception to adulthood, have not been thoroughly studied. OBJECTIVES: In this study we aimed to assess the respiratory structure and function effects of long-term exposure to 890 ppm C[O.sub.2] from preconception to adulthood using a mouse model. Methods: We exposed mice to C[O.sub.2] (~ 890 ppm) from prepregnancy, through the in utero and early life periods, until 3 months of age, at which point we assessed respiratory function using the forced oscillation technique, and lung structure. RESULTS: C[O.sub.2] exposure resulted in a range of respiratory impairments, particularly in female mice, including higher tissue elastance, longer chord length, and lower lung compliance. Importantly, we also assessed the lung function of the dams that gave birth to our experimental subjects. Even though these mice had been exposed to the same level of increased C[O.sub.2] for a similar amount of time (~ 8 wk), we measured no impairments in lung function. This suggests that the early life period, when lungs are undergoing rapid growth and development, is particularly sensitive to C[O.sub.2]. Discussion: To the best of our knowledge, this study, for the first time, shows that long-term exposure to environmentally relevant levels of C[O.sub.2] can impact respiratory function in the mouse. |
| Audience | Academic |
| Author | Larcombe, Alexander N. Berry, Luke J. Papini, Melissa G. Chivers, Emily K. Wyrwoll, Caitlin S. Lucas, Robyn M. |
| Author_xml | – sequence: 1 givenname: Alexander N. surname: Larcombe fullname: Larcombe, Alexander N. organization: Respiratory Environmental Health, Wal-yan Respiratory Research Centre, Telethon Kids Institute, Perth, Australia, Occupation, Environment and Safety, School of Population Health, Curtin University, Perth, Australia – sequence: 2 givenname: Melissa G. surname: Papini fullname: Papini, Melissa G. organization: Respiratory Environmental Health, Wal-yan Respiratory Research Centre, Telethon Kids Institute, Perth, Australia, School of Human Sciences, University of Western Australia, Nedlands, Western Australia, Australia – sequence: 3 givenname: Emily K. surname: Chivers fullname: Chivers, Emily K. organization: Respiratory Environmental Health, Wal-yan Respiratory Research Centre, Telethon Kids Institute, Perth, Australia – sequence: 4 givenname: Luke J. surname: Berry fullname: Berry, Luke J. organization: Respiratory Environmental Health, Wal-yan Respiratory Research Centre, Telethon Kids Institute, Perth, Australia – sequence: 5 givenname: Robyn M. surname: Lucas fullname: Lucas, Robyn M. organization: National Centre for Epidemiology and Population Health, Research School of Population Health, College of Health and Medicine, Australian National University, Canberra, Australian Capital Territory, Australia – sequence: 6 givenname: Caitlin S. surname: Wyrwoll fullname: Wyrwoll, Caitlin S. organization: School of Human Sciences, University of Western Australia, Nedlands, Western Australia, Australia |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33439053$$D View this record in MEDLINE/PubMed |
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| Snippet | Climate change models predict that atmospheric carbon dioxide [
] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct... Background: Climate change models predict that atmospheric carbon dioxide [C[O.sub.2]] levels will be between 700 and 900 ppm within the next 80 y. Despite... Background: Climate change models predict that atmospheric carbon dioxide [CO2 ] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the... Climate change models predict that atmospheric carbon dioxide [CO2] levels will be between 700 and 900 ppm within the next 80 y. Despite this, the direct... |
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| Title | Mouse Lung Structure and Function after Long-Term Exposure to an Atmospheric Carbon Dioxide Level Predicted by Climate Change Modeling |
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