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Vehicular air pollution: Human health in urbanized Cities with emphasis on Quetta, Pakistan

By: Muhammad Ibrahim, Sehrish Noor, Lawang Gurgnari, Hafiz Muhammad Arif, Dad Muhammad Anwar, Abdul Nasir, Ashiq Hussain, Muhammad Din Mandokheil

Key Words: Air pollution, Vehicular air pollution, Human health disorders, Quetta

J. Bio. Env. Sci. 16(1), 134-140, January 2020.

Certification: jbes 2020 0248 [Generate Certificate]

Abstract

Vehicular air pollution is recognized as the major source of air pollution contributing 40-80% of the total air pollution affecting human health directly or indirectly. The drastic climate change owing to the expanding economic activities in the mega cities of the developing world have compromised human health, causing around 7 million premature deaths with larger number of hospitalization cases. Vehicular exhaust has become the main source of air pollution emitting carbon monoxide, nitrogen oxides, hydrocarbons, and particulate matter.  It is very important to have depth knowledge about urbanization and human biology for analyzing the adverse effects of environmental pollution on human health. Current review highlights major vehicular air pollutants and the resulting human ailments including, respiratory, cardiovascular and neuropsychiatric disorders demonstrating the state of research regarding the significance of vehicular air pollution in the urban cities and its impact on human health. Quetta is the main capital city of Balochistan Province but with poor urban planning. This study urges to draw the attention of high ups to construct environment friendly policy in all new housing schemes and also implement strict rules in major cities to improve the standard of life.

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Vehicular air pollution: Human health in urbanized Cities with emphasis on Quetta, Pakistan

Abbey DE, Nishino N, McDonnell WF, Burchette RJ, Knutsen SF. 1999. Long term inhalable particles and other air pollutantsrelated to mortality in nonsmokers. Am.J. Respiratory Critical Care Medicine 159, 373-82.

Andersen ZJ, Kristiansen LC, Andersen KK, Olsen TS, Hvidberg M, Jensen SS. 2012. Stroke and long-term exposure to outdoor air pollution from nitrogen dioxide: A cohort study. Stroke 43, 320-5.

Bahadar H, Mostafalou S, Abdollahi M. 2014. Current understandings and perspectives on non-cancer health effects of benzene: A global concern. Toxicological Application Pharmacology 276, 83-94.

Brunekreef B, Beelen R, Hoek G, Schouten L, Bausch-Goldbohm S, Fischer P. 2009. Effects of long-term exposure to traffic-related air pollution on respiratory and cardiovascular mortality in the Netherlands: The NLCS-AIR study. Research Health Effects Insternational 139, 5-71.

Calderón-Garcidueñas L, Mora-Tiscareño A, Ontiveros E, Gómez-Garza G, Barragán-Mejía G, Broadway J. 2008. Air pollution, cognitive deficits and brain abnormalities: A pilot study with children and dogs. Brain Cognenital 68,117-27.

Calderón-Garcidueñas L, Solt AC, Henríquez-Roldán C, Torres-Jardón R, Nuse B, Herritt L. 2008. Long-term air pollution exposure is associated with neuroinflammation, an altered innate immune response, disruption of the blood-brain barrier, ultrafine particulate deposition, and accumulation of amyloid beta-42 and alpha-synuclein in children and young adults. Toxicological Pathology 36, 289-310.

Dagouassat M, Lanone S, Boczkowski J. 2012. Interaction of matrix metalloproteinases with pulmonary pollutants. European. Respiratory Journal 39, 1021-1032.

Dessinioti C, Antoniou C, Katsambas A, Stratigos AJ. 2010. Basal cell carcinoma: What’s new under the sun. Photochemistry Photobiology 86, 481‑91.

Drakaki E, Dessinioti C, Antoniou CV. 2014. Air pollution and skin. Frontier in Environmental Sciences 2, 1‑6.

Eberlein-König B, Przybilla B, Kûhnl P, Pechak J, Gebefügi I, Kleinschmidt J. 1998. Influence of airborne nitrogen dioxide or formaldehyde on parameters of skin function and cellular activation in patients with atopic eczema and control subjects. Journal of Allergy Clinical. Immunology 101,141-143.

Flament F, Bazin R, Laquieze S, Rubert V, Simonpietri E, Piot B. 2013. Effect of the sun on visible clinical signs of aging in Caucasian skin. Clinical Cosmetics Investigation Dermatology 6, 221‑32.

Friedman MS, Powell KE, Hutwagner L, Graham, LM, Teague WG. 2001. Impact of changes in transportation and commuting behaviorsduring the 1996 summer Olympicgames in Atlanta on air quality and childhood asthma. Journal of American Medical Association 285, 897-905.

Habre R, Coull B, Moshier E, Godbold J, Grunin A, Nath A. 2014. Sources of indoor air pollution in New York City residences of asthmatic children. Journal of Expo Science Environmental Epidemiology 24, 269-78.

Jensen S. 1966. Report of a new chemical hazard. New Science 32, 612.

Kampa M, Castanas E. 2008. Human health effects of air pollution. Environmental Pollution 151, 362‑367.

Kim EH, Kim S, Lee JH, Kim J, Han Y, Kim YM. 2015. Indoor air pollution aggravates symptoms of atopic dermatitis in children. PLoS One.10:e0119501.

Lademann J, Schaefer H, Otberg N, Teichmann A, Blume‑Peytavi U, Sterry W. 2004. Penetration of microparticles into human skin. Hautarzt 55,1117‑9.

Michielsen CC, van Loveren H, Vos JG, 1999. The role of the immune system in hexachlorobenzene‑induced toxicity. Environmental Health Perspective. 5,783‑92.

Newman NC, Ryan P, Lemasters G, Levin L, Bernstein D, Hershey GK. 2013. Traffic-related air pollution exposure in the first year of life and behavioral scores at 7 years of age. Environmental Health Perspective 121,731-6.

Okada Y, Nakagoshi A, Tsurukawa M, Matsumura C, Eiho J, Nakano T. 2012. Environmental risk assessment and concentration trend of atmospheric volatile organic compounds in Hyogo Prefecture, Japan Environmental Science Pollution Research International 19, 201‑13.

Poonam Puri, Shashi Kumar Nandar Sushruta Kathuria, V. 2017. Ramesh. Effects of air pollution on the skin: A review Indian journal of Dermatology 14(139), 60-66.

Robinson DL. 2005. Air pollution in Australia: Review of costs, sources and potential solutions. Health Promotor Journal 16, 213-20.

Rumana HS, Sharma RC, Beniwal V, Sharma AK. 2014. A retrospective approach to assess human health risks associated with growing air pollution in urbanized area of Thar Desert, Western Rajasthan. Indian Journal of Environmental Health Sciences 12, 23.

Schwartz J. 1989. Lung function and chronic exposure to air pollution: a cross-sectional analysis of NHANES II. Environmental. Research 50, 309-21.

Schwela D. 2000. Air pollution and health in urban areas. Revista Environmental Health 15, 13-42.

Sun Q, Yue P, Ying Z, Cardounel AJ, Brook RD, Devlin R. 2008. Air pollution exposure potentiates hypertension through reactive oxygen species-mediated activation of Rho/ ROCK. Arteriosclerosis Thrombo Vascular Biology 28, 1760-66.

Trueman RE. 2007. Incremental (marginal) analysis of basic inventory models. Decis Science 2, 341-55.

Tsai DH,  Riediker M,  Wuerzner G. 2012.Short-term increase in particulate matter blunts nocturnal blood pressure dipping and daytime urinary sodium excretion Hypertension 60, 1061-1069.

Valacchi G, Sticozzi C, Pecorelli A, Cervellati F, Cervellati C, Maioli E.  2012. Cutaneous responses to environmental stressors. Annals of New Yark Academic Sciences 1271, 75-81.

WHO. 2006. Air Quality Guidelines for Particulate Matter, Ozone, Nitrogen Dioxide and Sulfur Dioxide, Global Update 2005, Summary of Risk Assessment; 2006. Available from: http://www.who.int/phe/ health_topics/outdoorair/outdoorair_aqg/en/.

World Health Organization. 2005. Health effects of transport-related air pollution. Copenhagen: WHO Regional Office for Europe 125-65.

Xu X,  Wang G,  Chen N. 2016. Long-term exposure to air pollution and increased risk of membranous nephropathy in China. Journal of American Society of Nephrology.

Xu Z, Jing L, Yu D, Xu X. 2000. Air pollution and daily mortality in Shenyang, China. Archives of Environmental Health 55,115-20.

Yang SC, Yang SP. 1994. Respiratory function changes from inhalation of polluted air. Archives. Environmental Health 49,182-87.

Zmirou D, Schwartz J, Saez M, Zanobetti A,Wojtyniak B. 1998. Time-series analysis of air pollution and cause-specific mortality. Epidemiology 9, 495-503.

Muhammad Ibrahim, Sehrish Noor, Lawang Gurgnari, Hafiz Muhammad Arif, Dad Muhammad Anwar, Abdul Nasir, Ashiq Hussain, Muhammad Din Mandokheil.
Vehicular air pollution: Human health in urbanized Cities with emphasis on Quetta, Pakistan.
J. Bio. Env. Sci. 16(1), 134-140, January 2020.
https://innspub.net/jbes/vehicular-air-pollution-human-health-urbanized-cities-emphasis-quetta-pakistan/
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