Carcinogen

	Treatment for
	Toxicology and poison
	General Toxicology (Forensic); Toxinology; History of poison
	Concepts Poison; Venom; Toxicant (Toxin); Acceptable daily intake; Acute toxicity; Bioaccumulation; Biomagnification; Fixed Dose Procedure; LD50; Lethal dose; Toxic capacity; Toxicity Class
	Treatments Antidote; Gastric lavage; Whole bowel irrigation; Activated carbon; Cathartic; Hemodialysis; Chelation therapy; Hemoperfusion
	Incidents Bradford; Minamata; Niigata; Alexander Litvinenko; Bhopal; 2007 pet food recalls; Seveso disaster; List of poisonings
	Related topics Hazard symbol; Carcinogen; Mutagen; List of Extremely Hazardous Substances; Biological warfare; Food safety
	Biology portal
	v • d • e

From Wikipedia, the free encyclopedia

(Redirected from Carcinogenic)

Jump to: navigation, search

Look up carcinogen in Wiktionary, the free dictionary.

The hazard symbol for carcinogenic chemicals in the Globally Harmonized System.

The term carcinogen refers to any substance, radionuclide or radiation that is an agent directly involved in the promotion of cancer or in the increase of its propagation. This may be due to the ability to damage the genome or to the disruption of cellular metabolic processes. Several radioactive substances are considered carcinogens, but their carcinogenic activity is attributed to the radiation, for example gamma rays and alpha particles, which they emit. Common examples of carcinogens are inhaled asbestos, certain dioxins, and tobacco smoke.

Cancer is a disease where damaged cells of the patient's body do not undergo programmed cell death, but their growth is no longer controlled and their metabolism is altered. Carcinogens may increase the risk of getting cancer by altering cellular metabolism or damaging DNA directly in cells, which interferes with biological processes, and induces the uncontrolled, malignant division, ultimately leading to the formation of tumors. Usually DNA damage, if too severe to repair, leads to programmed cell death, but if the programmed cell death pathway is damaged, then the cell cannot prevent itself from becoming a cancer cell.

There are many natural carcinogens. Aflatoxin B₁, which is produced by the fungus Aspergillus flavus growing on stored grains, nuts and peanut butter, is an example of a potent, naturally-occurring microbial carcinogen. Certain viruses such as Hepatitis B and human papilloma viruses have been found to cause cancer in humans. The first one shown to cause cancer in animals is Rous sarcoma virus, discovered in 1910 by Peyton Rous.

Benzene, kepone, EDB, asbestos, and the waste rock of oil shale mining have all been classified as carcinogenic.^{[citation needed]} As far back as the 1930s, industrial smoke and tobacco smoke were identified as sources of dozens of carcinogens, including benzo[a]pyrene, tobacco-specific nitrosamines such as nitrosonornicotine, and reactive aldehydes such as formaldehyde—which is also a hazard in embalming and making plastics. Vinyl chloride, from which PVC is manufactured, is a carcinogen and thus a hazard in PVC production.

Co-carcinogens are chemicals that do not necessarily cause cancer on their own, but promote the activity of other carcinogens in causing cancer.

After the carcinogen enters the body, the body makes an attempt to eliminate it through a process called biotransformation. The purpose of these reactions is to make the carcinogen more water-soluble so that it can be removed from the body. But these reactions can also convert a less toxic carcinogen into a more toxic one.

DNA is nucleophilic, therefore soluble carbon electrophiles are carcinogenic, because DNA attacks them. For example, some alkenes are toxicated by human enzymes to produce an electrophilic epoxide. DNA attacks the epoxide, and is bound permanently to it. This is the mechanism behind the carcinogenity of benzo[a]pyrene in tobacco smoke, other aromatics, aflatoxin and mustard gas.

[edit] Radiation

CERCLA identifies all radionuclides as carcinogens, although the nature of the emitted radiation (alpha, beta, gamma, or neutron and the radioactive strength), its consequent capacity to cause ionization in tissues, and the magnitude of radiation exposure, determine the potential hazard. Carcinogenity of radiation depends of the type of radiation, type of exposure and penetration. For example, alpha radiation has low penetration and is not a hazard outside the body, but are carcinogenic when inhaled or ingested.

For example, Thorotrast, a (incidentally-radioactive) suspension previously used as a contrast medium in x-ray diagnostics, is a potent human carcinogen known because of its retention within various organs and persistent emission of alpha particles. Marie Curie, one of the pioneers of radioactivity, died of cancer caused by radiation exposure during her experiments.

Not all types of electromagnetic radiation are in fact carcinogenic. Low-energy waves on the electromagnetic spectrum are generally not, including radio waves, microwave radiation, infrared radiation and visible light. Higher-energy radiation, including ultraviolet radiation (present in sunlight), x-rays, and gamma radiation, generally is carcinogenic, if received in sufficient doses.

Several published studies suggest a link between exposure to light at night and risk of breast cancer, due to suppression of the normal nocturnal production of melatonin.^[1]^[2] In 1978 Cohen et al. proposed that reduced production of the hormone melatonin might increase the risk of breast cancer and citing "environmental lighting" as a possible causal factor.^[3] Researchers at the National Cancer Institute (NCI) and National Institute of Environmental Health Sciences have concluded a study that suggests that artificial light during the night can be a factor for breast cancer.^[4] A good review of current knowledge of the health consequences of exposure to artificial light at night and an explanation of the causal mechanisms has been published in the Journal of Pineal Research in 2007.^[5]

Substances or foods irradiated with electrons or electromagnetic radiation (such as microwave, X-ray or gamma) are not carcinogenic. No "radiation" remains, just like no light remains in room after you turn out the light. (In contrast, non-electromagnetic neutron radiation produced inside nuclear reactors can produce secondary radiation by making bombarded substances radioactive.)

In other words, there is no possibility of getting cancer if the food is consumed.

[edit] Carcinogens in prepared food

Cooking food at high temperatures, for example grilling or barbecuing meats, can lead to the formation of minute quantities of many potent carcinogens that are comparable to those found in cigarette smoke (i.e., benzo[a]pyrene).^[6] Charring of food resembles coking and tobacco pyrolysis, and produces similar carcinogens. There are several carcinogenic pyrolysis products, such as polynuclear aromatic hydrocarbons, which are converted by human enzymes into epoxides, which attach permanently to DNA. Pre-cooking meats in a microwave oven for 2–3 minutes before grilling shortens the time on the hot pan, and removes heterocyclic amine (HCA) precursors, which can help minimize the formation of these carcinogens.^[7]

Reports from the Food Standards Agency have found that the known animal carcinogen acrylamide is generated in fried or overheated carbohydrate foods (such as french fries and potato chips).^[8] Studies are underway at the FDA and European regulatory agencies to assess its potential risk to humans. The charred residue on barbecued meats has been identified as a carcinogen, along with many other tars.

Casein, a milk protein, may also be a carcinogen as it is linked to the promotion of cancer and other diseases which was discovered in the 1980s by nutrition and health researcher, Dr. T. Colin Campbell, author of The China Study.^{[citation needed]} Casein is often listed as sodium caseinate, calcium caseinate or milk protein. These are often found in energy bars, drinks as well as packaged goods.

Nevertheless, the fact that the food contains minute quantities does not necessarily mean that there is a significant hazard, although eliminating exposure may decrease one's odds of getting cancer, the gastrointestinal tract sheds its outer layer continuously to protect itself from carcinomas, and has a high activity of detoxifying enzymes.^{[citation needed]}

[edit] Carcinogens in cigarettes

Main article: Tobacco and health

Tobacco smoke contains over 4000 chemical compounds, many of which are carcinogenic or otherwise toxic.^[9]

[edit] Circadian disruption

"Shiftwork that involves circadian disruption" was listed, in 2007, as a probable carcinogen by the World Health Organization's International Agency for Research on Cancer. (IARC Press release No. 180).^[10] Multiple studies have documented a link between night shift work and the increased incidence of breast cancer.^[11]^[12]^[13]^[14] Circadian disruption by exposure to light at night suppresses the production of the hormone melatonin which leads to reduction in cellular immune defense and surveillance necessary for protection from development of cancers. Melatonin also seems to have a direct protective effect against cancer possibly in part because of its strong anti oxidant properties.^[15]

[edit] Mechanisms of carcinogenicity

Carcinogens can be classified as genotoxic or nongenotoxic. Genotoxins cause irreversible genetic damage or mutations by binding to DNA. Genotoxins include chemical agents like N-nitroso-N-methylurea (MNU) or non-chemical agents such as ultraviolet light and ionizing radiation. Certain viruses can also act as carcinogens by interacting with DNA.

Nongenotoxins do not directly affect DNA but act in other ways to promote growth. These include hormones and some organic compounds.^[16]

[edit] Classification of carcinogens

Approximate equivalences
between classification schemes
IARC	GHS	NTP	ACGIH	EU
Group 1	Cat. 1A	Known	A1	Cat. 1
Group 2A	Cat. 1B	Reasonably suspected	A2	Cat. 2
Group 2B	Cat. 1B	Reasonably suspected	A2	Cat. 2
Group 2B	Cat. 2		A3	Cat. 3
Group 3	Cat. 2		A3	Cat. 3
Group 3			A4
Group 4			A5

[edit] International Agency for Research on Cancer

The International Agency for Research on Cancer (IARC) is an intergovernmental agency established in 1965, which forms part of the World Health Organization of the United Nations. It is based in Lyon, France. Since 1971 it has published a series of Monographs on the Evaluation of Carcinogenic Risks to Humans^[17] that have been highly influential in the classification of possible carcinogens.

Group 1: the agent (mixture) is definitely carcinogenic to humans. The exposure circumstance entails exposures that are carcinogenic to humans.
Group 2A: the agent (mixture) is probably carcinogenic to humans. The exposure circumstance entails exposures that are probably carcinogenic to humans.
Group 2B: the agent (mixture) is possibly carcinogenic to humans. The exposure circumstance entails exposures that are possibly carcinogenic to humans.
Group 3: the agent (mixture or exposure circumstance) is not classifiable as to its carcinogenicity to humans.
Group 4: the agent (mixture) is probably not carcinogenic to humans.

[edit] Globally Harmonized System

The Globally Harmonized System of Classification and Labelling of Chemicals (GHS) is a United Nations initiative to attempt to harmonize the different systems of assessing chemical risk which currently exist (as of March 2009) around the world. It classifies carcinogens into two categories, of which the first may be divided again into subcategories if so desired by the competent regulatory authority:

Category 1: known or presumed to have carcinogenic potential for humans
- Category 1A: the assessment is based primarily on human evidence
- Category 1B: the assessment is based primarily on animal evidence
Category 2: suspected human carcinogens

[edit] U.S. National Toxicology Program

The National Toxicology Program of the U.S. Department of Health and Human Services is mandated to produce a biennial Report on Carcinogens.^[18] As of March 2009, the latest edition was the 11th report (2005).^[19] It classifies carcinogens into two groups:

Known to be a human carcinogen
Reasonably anticipated to be a human carcinogen

[edit] American Conference of Governmental Industrial Hygienists

The American Conference of Governmental Industrial Hygienists (ACGIH) is a private organization best known for its publication of threshold limit values (TLVs) for occupational exposure and monographs on workplace chemical hazards. It assesses carcinogenicity as part of wider assessment of the occupational hazards of chemicals.

Group A1: Confirmed human carcinogen
Group A2: Suspected human carcinogen
Group A3: Confirmed animal carcinogen with unknown relevance to humans
Group A4: Not classifiable as a human carcinogen
Group A5: Not suspected as a human carcinogen

[edit] European Union

The European Union classification of carcinogens is contained in the Dangerous Substances Directive and the Dangerous Preparations Directive. It consists of three categories:

Category 1: Substances known to be carcinogenic to man.
Category 2: Substances which should be regarded as if they are carcinogenic to man.
Category 3: Substances which cause concern for man, owing to possible carcinogenic effects but in respect of which the available information is not adequate for making a satisfactory assessment.

This assessment scheme is being phased out in favor of the GHS scheme (see above), to which it is very close in category definitions.

[edit] Procarcinogen

A procarcinogen is a precursor to a carcinogen. One example is nitrites when taken in by the diet. They are not carcinogenic themselves, but turn into nitrosamines in the body, which are carcinogenic.^[20]

[edit] Common carcinogens

[edit] Occupational carcinogens

Occupational carcinogens are agents that pose a risk of cancer in several specific work-locations:

Carcinogen	Associated cancer sites or types	Occupational uses or sources
Arsenic and its compounds	Lung Skin Hemangiosarcoma	Smelting byproduct Component of: Alloys Electrical and semiconductor devices Medications (e.g. melarsoprol) Herbicides Fungicides Animal dips
Asbestos	Lungs Mesothelioma Gastrointestinal tract	Not in use, but still found in: Constructions Roofing papers Floor tiles Fire-resistant textiles Friction linings
Benzene	Leukemia Hodgkin lymphoma	Light fuel oil Former use as solvent and fumigant Printing Lithography Paint Rubber Dry cleaning Adhesives Coatings Detergents
Beryllium and its compounds	Lung	Missile fuel Lightweight alloys Aerospace applications Nuclear reactors
Cadmium and its compounds	Prostate	Yellow pigments Phosphors Solders Batteries Metal paintings and coatings
Hexavalent chromium(VI) compounds	Lung	Paints Pigments Preservatives
Ethylene oxide	Leukemia	Ripening agent for fruits and nuts Rocket propellant Fumigant for foodstuffs and textiles Sterilant for hospital equipment
Nickel	Nose Lung	Nickel plating Ferrous alloys Ceramics Batteries Stainless-steel welding byproduct
Radon and its decay products	Lung	Uranium decay Quarries and mines Cellars and poorly ventilated places
Vinyl chloride	Hemangiosarcoma Liver	Refrigerant Vinyl polymers Adhesive for plastics Former use in pressurized containers
Shiftwork that involves circadian disruption^[10]	Breast
Involuntary smoking (Passive smoking)^[21]	Lung	Tobacco smoke
Unless else specified in boxes, then ref is: ^[22]

[edit] Others

Gasoline (contains aromatics)
Lead and its compounds
Alkylating antineoplastic agents (chemotherapy)
Ultraviolet radiation from the sun and UV lamps

[edit] Notes

^ Scott Davis, Dana K. Mirick, Richard G. Stevens (2001). "Night Shift Work, Light at Night, and Risk of Breast Cancer". Journal of the National Cancer Institute 93 (20): 1557–1562. doi:10.1093/jnci/93.20.1557. PMID 11604479. http://jncicancerspectrum.oupjournals.org/cgi/content/full/jnci;93/20/1557?ijkey=e1472aefe9398c2c26bf8515391f5940acc05495.
^ Eva S. Schernhammer, Francine Laden, Frank E. Speizer, Walter C. Willett, David J. Hunter, Ichiro Kawachi, Graham A. Colditz (2001). "Rotating Night Shifts and Risk of Breast Cancer in Women Participating in the Nurses' Health Study". Journal of the National Cancer Institute 93 (20): 1563–1568. doi:10.1093/jnci/93.20.1563. PMID 11604480. http://jncicancerspectrum.oupjournals.org/cgi/content/full/jnci;93/20/1563?ijkey=c01d8ce29cb0ba35061db9c434a0c8e4816e70a9.
^ Cohen M, Lippman M, Chabner B. Role of pineal gland in aetiology and treatment of breast cancer. Lancet 1978;2:14-16.
^ The Independent Avoid breast cancer. Sleep in the dark...
^ Navara KJ, Nelson RJ (2007) The dark side of light light at night: physiological, epidemiological, and ecological consequences. J. Pineal Res. 2007; 43:215–224
^ Wei Zheng, Deborah R Gustafson, Rashmi Sinha, James R Cerhan, et al. "Well-done meat intake and the risk of breast cancer." Journal of the National Cancer Institute. Oxford: Nov 18, 1998.Vol. 90, Iss. 22; pg. 1724, 6 pgs.
^ National Cancer Institute, 2004 analysis and recommendations
^ "Acrylamide". http://www.food.gov.uk/safereating/chemsafe/acrylamide_branch/.
^ http://quitsmoking.about.com/cs/nicotineinhaler/g/carbonmonoxide.htm
^ ^a ^b IARC Monographs Programme finds cancer hazards associated with shiftwork, painting and firefighting, International Agency for Research on Cancer, http://www.iarc.fr/en/Media-Centre/IARC-Press-Releases/Communiques-recents/IARC-Monographs-Programme-finds-cancer-hazards-associated-with-shiftwork-painting-and-firefighting, retrieved on 2009-01-24
^ Schernhammer E, Schulmeister K. Melatonin and cancer risk: does light at night compromise physiologic cancer protection by lowering serum melatonin levels? Br J Cancer 2004;90:941–943.
^ Hansen J. Increased breast cancer risk among women who work predominantly at night. Epidemiology 2001; 12:74–77.
^ Hansen J. Light at night, shiftwork, and breast cancer risk.J Natl Cancer Inst 2001; 93:1513–1515.
^ Schernhammer E, Laden F, Speizer FE et al. Rotating night shifts and risk of breast cancer in women participating in the nurses' health study. J Natl Cancer Inst 2001; 93:1563–1568.
^ Navara KJ, Nelson RJ (2007) The dark side of light light at night: physiological, epidemiological, and ecological consequences. J. Pineal Res. 2007; 43:215–224
^ "The Gale Encyclopedia of Cancer: A guide to Cancer and its Treatments, Second Edition. Page no. 137".
^ IARC Monographs
^ Section 301(b)(4) of the Public Health Service Act, as amended by Section 262, Pub. L. 95–622.
^ Report on Carcinogens, Eleventh Edition; U.S. Department of Health and Human Services, Public Health Service, National Toxicology Program (2005).
^ Web definitions for Procarcinogen
^ Tobacco Smoke and Involuntary Smoking, IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Volume 83 (2004).
^ Table 6-2 in: Mitchell, Richard Sheppard; Kumar, Vinay; Abbas, Abul K.; Fausto, Nelson (2007). Robbins Basic Pathology. Philadelphia: Saunders. ISBN 1-4160-2973-7. 8th edition.

[edit] See also

[edit] External links

[0] Scott Davis, Dana K. Mirick, Richard G. Stevens (2001). "Night Shift Work, Light at Night, and Risk of Breast Cancer". Journal of the National Cancer Institute 93 (20): 1557–1562. doi:10.1093/jnci/93.20.1557. PMID 11604479. http://jncicancerspectrum.oupjournals.org/cgi/content/full/jnci;93/20/1557?ijkey=e1472aefe9398c2c26bf8515391f5940acc05495.

[1] Eva S. Schernhammer, Francine Laden, Frank E. Speizer, Walter C. Willett, David J. Hunter, Ichiro Kawachi, Graham A. Colditz (2001). "Rotating Night Shifts and Risk of Breast Cancer in Women Participating in the Nurses' Health Study". Journal of the National Cancer Institute 93 (20): 1563–1568. doi:10.1093/jnci/93.20.1563. PMID 11604480. http://jncicancerspectrum.oupjournals.org/cgi/content/full/jnci;93/20/1563?ijkey=c01d8ce29cb0ba35061db9c434a0c8e4816e70a9.

[2] Cohen M, Lippman M, Chabner B. Role of pineal gland in aetiology and treatment of breast cancer. Lancet 1978;2:14-16.

[3] The Independent Avoid breast cancer. Sleep in the dark...

[4] Navara KJ, Nelson RJ (2007) The dark side of light light at night: physiological, epidemiological, and ecological consequences. J. Pineal Res. 2007; 43:215–224

[5] Wei Zheng, Deborah R Gustafson, Rashmi Sinha, James R Cerhan, et al. "Well-done meat intake and the risk of breast cancer." Journal of the National Cancer Institute. Oxford: Nov 18, 1998.Vol. 90, Iss. 22; pg. 1724, 6 pgs.

[6] National Cancer Institute, 2004 analysis and recommendations

[7] "Acrylamide". http://www.food.gov.uk/safereating/chemsafe/acrylamide_branch/.

[8] ttp://quitsmoking.about.com/cs/nicotineinhaler/g/carbonmonoxide.htm

[IARC180-9] IARC Monographs Programme finds cancer hazards associated with shiftwork, painting and firefighting, International Agency for Research on Cancer, http://www.iarc.fr/en/Media-Centre/IARC-Press-Releases/Communiques-recents/IARC-Monographs-Programme-finds-cancer-hazards-associated-with-shiftwork-painting-and-firefighting, retrieved on 2009-01-24

[10] Schernhammer E, Schulmeister K. Melatonin and cancer risk: does light at night compromise physiologic cancer protection by lowering serum melatonin levels? Br J Cancer 2004;90:941–943.

[11] Hansen J. Increased breast cancer risk among women who work predominantly at night. Epidemiology 2001; 12:74–77.

[12] Hansen J. Light at night, shiftwork, and breast cancer risk.J Natl Cancer Inst 2001; 93:1513–1515.

[13] Schernhammer E, Laden F, Speizer FE et al. Rotating night shifts and risk of breast cancer in women participating in the nurses' health study. J Natl Cancer Inst 2001; 93:1563–1568.

[14] Navara KJ, Nelson RJ (2007) The dark side of light light at night: physiological, epidemiological, and ecological consequences. J. Pineal Res. 2007; 43:215–224

[15] "The Gale Encyclopedia of Cancer: A guide to Cancer and its Treatments, Second Edition. Page no. 137".

[16] IARC Monographs

[17] Section 301(b)(4) of the Public Health Service Act, as amended by Section 262, Pub. L. 95–622.

[18] Report on Carcinogens, Eleventh Edition; U.S. Department of Health and Human Services, Public Health Service, National Toxicology Program (2005).

[19] Web definitions for Procarcinogen

[20] Tobacco Smoke and Involuntary Smoking, IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Volume 83 (2004).

[Kumar6-2-21] Table 6-2 in: Mitchell, Richard Sheppard; Kumar, Vinay; Abbas, Abul K.; Fausto, Nelson (2007). Robbins Basic Pathology. Philadelphia: Saunders. ISBN 1-4160-2973-7. 8th edition.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[18]

[19]

[20]

[21]

[22]