Alcohol (also known as ethanol) has a number of effects on health. Short-term effects of alcohol consumption include intoxication and dehydration. Long-term effects of alcohol include changes in the metabolism of the liver and brain, with increased risk of several types of cancer and alcohol use disorder.[1] Alcohol intoxication affects the brain, causing slurred speech, clumsiness, and delayed reflexes. There is an increased risk of developing an alcohol use disorder for teenagers while their brain is still developing.[2] Adolescents who drink have a higher probability of injury including death.[2]
Observational studies suggest a correlation between low to moderate alcohol consumption and cardiovascular protective effects.[3][4] Several studies and meta-analyses have shown a reduction in overall mortality among light to moderate alcohol drinkers compared to lifetime abstainers.[5][6] A statement from The Lancet in 2022, based on the 2020 Global Burden of Disease Study, noted that for adults over 40 consuming small amounts of alcohol may reduce risks for cardiovascular disease, stroke, and diabetes.[7]
Even light to moderate alcohol consumption can have negative effects on health,[8][9][10] such as by increasing a person's risk of developing several cancers.[11][12] A 2014 World Health Organization report found that harmful alcohol consumption caused about 3.3 million deaths annually worldwide.[13] Negative effects are related to the amount consumed with no safe lower limit seen.[14] Some nations have introduced alcohol packaging warning messages that inform consumers about alcohol and cancer, as well as fetal alcohol syndrome.[15] There are several potential ways for light alcohol drinkers to reduce their cancer risk. Research suggests that dietary intake of folate, in amounts commonly found in daily multivitamins, may help protect women from the increased risk of breast cancer associated with light alcohol consumption.[16] Additionally, two large U.S.-based studies on health professionals found no increased cancer risk from light to moderate alcohol consumption in men who do not smoke.[17][18] Some observational studies suggest a potential association between alcohol consumption and a decreased risk of certain cancers, such as kidney cancer, thyroid cancer, and non-Hodgkin lymphoma.[19][20][21][22] Multiple prospective studies suggest a protective effect of light to moderate alcohol consumption on cardiovascular health for both men and women.[23] Several mechanisms have been proposed to explain this association.[24][25][26] Additionally, alcohol may reduce the risk of clot formation, which can contribute to heart attacks and strokes, and lower the risk of developing diabetes.[27][28][29] A 2022 statement from The Lancet, based on its 2020 Global Burden of Disease Study, said that the health risks associated with alcohol consumption vary by age and region, and that for those over age 40, "consuming a small amount of alcohol ... can provide some health benefits, such as reducing the risk of cardiovascular disease, stroke, and diabetes."[30]
The median lethal dose of alcohol in test animals is a blood alcohol content of 0.45%. This is about six times the level of ordinary intoxication (0.08%), but vomiting or unconsciousness may occur much sooner in people who have a low tolerance for alcohol.[31] The high tolerance of chronic heavy drinkers may allow some of them to remain conscious at levels above 0.40%, although serious health hazards are incurred at this level.
Alcohol also limits the production of vasopressin (antidiuretic hormone) from the hypothalamus and the secretion of this hormone from the posterior pituitary gland. This is what causes severe dehydration when alcohol is consumed in large amounts. It also causes a high concentration of water in the urine and vomit, and the intense thirst that goes along with a hangover.
Short-term effects
editThe short-term effects of alcohol consumption range from a decrease in anxiety and motor skills at lower doses to unconsciousness, anterograde amnesia, and central nervous system depression at higher doses. Cell membranes are highly permeable to alcohol, so once alcohol is in the bloodstream it can diffuse into nearly every cell in the body.
The concentration of alcohol in blood is measured via blood alcohol content (BAC). The amount and circumstances of consumption play a large part in determining the extent of intoxication; for example, eating a heavy meal before alcohol consumption causes alcohol to absorb more slowly.[32] Hydration also plays a role, especially in determining the extent of hangovers. After binge drinking, unconsciousness can occur and extreme levels of consumption can lead to alcohol poisoning and death (a concentration in the blood stream of 0.40% will kill half of those affected[33][medical citation needed]). Alcohol may also cause death indirectly, by asphyxiation from vomit.
Alcohol disrupts normal sleep patterns thereby reducing sleep quality and can greatly exacerbate sleep problems. During abstinence, residual disruptions in sleep regularity and sleep patterns are the greatest predictors of relapse.[34]
Heavy alcohol consumption while in a hunger state can cause alcoholic ketoacidosis, a life-threatening metabolic derailment.
Long-term effects
editAccording to the World Health Organization's 2018 Global Status Report on Alcohol and Health, there are more than 3 million people who die from the harmful effects of alcohol each year, which amounts to more than 5% of the burden of disease worldwide.[35] The US National Institutes of Health similarly estimates that 3.3 million deaths (5.9% of all deaths) were believed to be due to alcohol each year.[36]
As per WHO June 2024 report on Alcohol, around 2.6 million deaths were caused by alcohol consumption in 2019 worldwide.[37]
Guidelines in the US and the UK advise that if people choose to drink, they should drink modestly.[38][39]
Even light and moderate alcohol consumption increases a person's cancer risk, especially the risk of developing squamous cell carcinoma of the esophagus, cancers of the mouth and tongue, liver cancer, and breast cancer.[11][12] Using alcohol, especially together with tobacco, is a major risk factor for head and neck cancer. 72% of head and neck cancer cases are caused by using both alcohol and tobacco.[40] This rises to 89% when looking specifically at laryngeal cancer.[41]
A systematic analysis of data from the Global Burden of Disease Study, which was an observational study, found that long-term consumption of any amount of alcohol is associated with an increased risk of death in all people, and that even moderate consumption appears to be risky.[42] Similar to prior analyses, it found an apparent benefit for older women in reducing the risks of death from ischemic heart disease and from diabetes mellitus, but unlike prior studies it found those risks cancelled by an apparent increased risk of death from breast cancer and other causes.[42] A 2016 systematic review and meta-analysis found that moderate ethanol consumption brought no mortality benefit compared with lifetime abstention from ethanol consumption.[43] Risk is greater in younger people due to heavy episodic drinking which may result in violence or accidents.[44]
Long-term heavy use of alcohol damages nearly every organ and system in the body.[45] Risks include alcohol use disorder, malnutrition, chronic pancreatitis, alcoholic liver disease (e.g., permanent liver scarring) and several types of cancer. In addition, damage to the central nervous system and peripheral nervous system (e.g., painful peripheral neuropathy) can occur from chronic alcohol misuse.[46][47]
The developing adolescent brain is particularly vulnerable to the toxic effects of alcohol.[48]
A systematic analysis found in 2022 that the level of alcohol consumption recommended by many existing guidelines is too high in particular for young people in all regions.[49]
DNA damage
editAcetaldehyde is produced when cells process ethanol. Acetaldehyde, is a DNA damaging metabolite that can interact with DNA to crosslink the two strands of the DNA duplex.[50] The mechanisms the cells use for repairing these crosslinks are error prone,[50] thus leading to mutations that in the long term can cause cancer.
Pregnancy
editMedical organizations strongly discourage drinking alcohol during pregnancy.[51][52][53] Alcohol passes easily from the mother's bloodstream through the placenta and into the bloodstream of the fetus,[54] which interferes with brain and organ development.[55] Alcohol can affect the fetus at any stage during pregnancy, but the level of risk depends on the amount and frequency of alcohol consumed.[55] Regular heavy drinking and heavy episodic drinking (also called binge drinking), entailing four or more standard alcoholic drinks (a pint of beer or 50 ml drink of a spirit such as whisky corresponds to about two units of alcohol) on any one occasion, pose the greatest risk for harm, but lesser amounts can cause problems as well.[55] There is no known safe amount or safe time to drink during pregnancy, and the U.S. Centers for Disease Control and Prevention recommends complete abstinence for women who are pregnant, trying to become pregnant, or are sexually active and not using birth control.[56][57]
Prenatal alcohol exposure can lead to fetal alcohol spectrum disorders (FASDs). The most severe form of FASD is fetal alcohol syndrome (FAS).[56] Problems associated with FASD include abnormal facial development, low birth weight, stunted growth, small head size, delayed or uncoordinated motor skills, hearing or vision problems, learning disabilities, behavior problems, and inappropriate social skills compared to same-age peers.[58][59] Those affected are more likely to have trouble in school, legal problems, participate in high-risk behaviors, and develop substance use disorders like excessive drinking themselves.[58]
Cardiovascular disease
editIn 2010, a systematic review reported that moderate consumption of alcohol does not cause harm to people with cardiovascular disease. However, the authors did not encourage people to start drinking alcohol in the hope of any benefit.[60] In a 2018 study on 599,912 drinkers, a roughly linear association was found with alcohol consumption and a higher risk of stroke, coronary artery disease excluding myocardial infarction, heart failure, fatal hypertensive disease, and fatal aortic aneurysm, even for moderate drinkers.[61][non-primary source needed] The American Heart Association states that people who are currently non-drinkers should not start drinking alcohol.[62]
Insulin response
editAlcohol is known to potentiate the insulin response of the human body to glucose, which, in essence, "instructs" the body to convert consumed carbohydrates into fat and to suppress carbohydrate and fat oxidation.[63][64] Ethanol is directly processed in the liver to acetyl CoA, the same intermediate product as in glucose metabolism. Because ethanol is mostly metabolized and consumed by the liver, chronic excessive use can lead to fatty liver. This leads to a chronic inflammation of the liver and eventually alcoholic liver disease.
Alcohol consumption can cause hypoglycemia in diabetics on certain medications, such as insulin or sulfonylurea, by blocking gluconeogenesis.[65]
Alcoholic beverages show a lower satiety value per calorie.[66]
Breastfeeding
editThe UK National Health Service states that "an occasional drink is unlikely to harm" a breastfed baby, and recommends consumption of "no more than one or two units of alcohol once or twice a week" for breastfeeding mothers (where a pint of beer or 50 ml drink of a spirit such as whisky corresponds to about two units of alcohol).[67] The NHS also recommends to wait for a couple of hours before breastfeeding or express the milk into a bottle before drinking.[67] Researchers have shown that intoxicated breastfeeding reduces the average milk expression but poses no immediate threat to the child as the amount of transferred alcohol is insignificant.[68]
Mental health
editMental disorders
editAlcohol misuse often coincides with mental health conditions. Many individuals struggling with psychiatric disorders also experience problematic drinking behaviors.[69]
Spiritual use of alcohol
editMost religions prohibit or advise against alcohol use. However, spiritual use of alcohol is found in some religions and schools with esoteric influences, including the Hindu tantra sect Aghori, in the Sufi Bektashi Order and Alevi Jem ceremonies,[70] in the Japanese religion Shinto,[71] by the new religious movement Thelema, in Vajrayana Buddhism, and in Vodou faith of Haiti.
Alcohol education
editAlcohol education is the practice of disseminating information about the effects of alcohol on health, as well as society and the family unit.[72] It was introduced into the public schools by temperance organizations such as the Woman's Christian Temperance Union in the late 19th century.[72] Initially, alcohol education focused on how the consumption of alcoholic beverages affected society, as well as the family unit.[72] In the 1930s, this came to also incorporate education pertaining to alcohol's effects on health.[72] Organizations such as the National Institute on Alcohol Abuse and Alcoholism in the United States were founded to promulgate alcohol education alongside those of the temperance movement, such as the American Council on Alcohol Problems.[72][73]
Alcohol expectations
editAlcohol expectations are beliefs and attitudes that people have about the effects they will experience when drinking alcoholic beverages. Alcohol expectancy theory posits that drinking behaviors are driven by these expectations, and the individual may be motivated to drink to obtain desired alcohol effects or, alternatively, motivated to refrain from drinking due to the expectation of undesirable effects. Intoxication does have real physiological effects, such as altering a drinker's perception of space and time, reducing psychomotor skills, and disrupting equilibrium.[74] But some effects and the degree of the effects that are attributed to alcohol can be due to the expectations rather than the substance itself,[75] similar to the placebo effect.[76]
For example, in a laboratory study, men acted more aggressive when they believed their drink contained alcohol, even when it was plain tonic water. They also were less aggressive when they believed they were consuming a non-alcoholic drink, even if it contained alcohol. This shows that aggression is a result of expectations.[77] The study has been replicated.[78] Another study found that those who believed that intoxication leads to sexual behavior, rowdy behavior, and aggression tended to act that way when intoxicated. But similarly the belief that intoxication leads to relaxation and tranquil behavior was self-fulfilling.[79] As a third example, some societies expect that drinking alcohol will cause disinhibition. However, in societies in which the people do not expect that alcohol will disinhibit, intoxication seldom leads to disinhibition and bad behavior.[74]
Common positive alcohol outcome expectancies include tension reduction, heightened sociability, increased courage, and enhanced sexual experiences, whereas common negative alcohol outcome expectancies include cognitive and behavioral impairment, risk and aggression, as well as worsened self-perception.[75] The manner and degree to which alcohol expectations interact with the physiological short-term effects of alcohol, resulting in specific behaviors, is unclear. Alcohol expectations vary within a society, and people tend to conform to social expectations.[80]
Drug treatment programs
editMost addiction treatment programs encourage people with drinking problems to see themselves as having a chronic, relapsing disease that requires a lifetime of attendance at 12-step meetings to keep in check.[citation needed]
Alcohol use disorder
editThe data on global alcohol consumption in 2019 shows that an estimated 400 million people aged 15 years and older live with alcohol use disorders, and an estimated 209 million live with alcohol dependence.[37]
Alcohol misuse prevention programs of the World Health Organization
editMore than 200 injuries and disease conditions can be caused by alcohol misuse.[82] It is a causative agent influencing maternal health and development, noncommunicable diseases (including cancer and cardiovascular diseases), injuries, violence, mental health, and infectious diseases such as tuberculosis and HIV/AIDS.[83] Harmful use of alcohol has been identified as a global health issue, and its management is a priority in the 2030 Agenda for Sustainable Development issued by the United Nations in 2015.[84] In 2018, the WHO launched the "SAFER" initiative (an acronym defined from the list of planned actions give below), to decrease the number of deaths, diseases and injuries caused by alcohol misuse.[82] Using a set of WHO tools and resources, SAFER was planned to concentrate on the interventions listed below to reduce and prevent alcohol misuse.[85] The list of interventions were selected for prioritization based on cost effectiveness:[82][failed verification]
- Strengthen restrictions on alcohol availability.
- Advance and enforce drink driving countermeasures.
- Facilitate access to screening, brief interventions, and treatment.
- Enforce bans or comprehensive restrictions on alcohol advertising, sponsorship, and promotion.
- Raise prices on alcohol through excise taxes and pricing policies.
Recommended maximum intake
editBinge drinking has been a significant issue in the United Kingdom. Advice on weekly consumption levels is often avoided in the UK.[86] Official advice from the National Health Service is that for all genders, regularly drinking more than 14 units of alcohol a week "risks damaging your health".[87]
Since 1995, the UK government has advised that regular consumption of three to four units (one unit equates to 10 mL of pure ethanol) a day for men and or two to three units for women, would not pose significant health risks. However, consistently drinking more than four units a day (for men) and three units (women) is not advisable.[88]
Previously (from 1992 until 1995), the advice was that men should drink no more than 21 units per week, and women no more than 14.[89] (The difference between the sexes was due to the typically lower weight and water-to-body-mass ratio of women.) This was changed because a government study showed that many people were in effect "saving up" their units and using them at the end of the week, a phenomenon referred to as binge drinking.[90] The Times reported in October 2007 that these limits had been "plucked out of the air" and had no scientific basis.[91]
Sobriety
editSobriety is the condition of not having any measurable levels, or effects from mood-altering drugs. According to WHO "Lexicon of alcohol and drug terms", sobriety is continued abstinence from psychoactive drug use.[92] Sobriety is also considered to be the natural state of a human being given at a birth. In a treatment setting, sobriety is the achieved goal of independence from consuming or craving mind-altering substances. As such, sustained abstinence is a prerequisite for sobriety. Early in abstinence, residual effects of mind-altering substances can preclude sobriety. These effects are labeled post-acute-withdrawal syndrome (PAWS). Someone who abstains, but has a latent desire to resume use, is not considered truly sober. An abstainer may be subconsciously motivated to resume drug use, but for a variety of reasons, abstains (e.g. such as a medical or legal concern precluding use).[93] Sobriety has more specific meanings within specific contexts, such as the culture of Alcoholics Anonymous, other 12 step programs, law enforcement, and some schools of psychology. In some cases, sobriety implies achieving "life balance".[94]
Injury and deaths
editInjury is defined as physical damage or harm that is done or sustained. The potential of injuring oneself or others can be increased after consuming alcohol due to the certain short term effects related to the substance such as lack of coordination, blurred vision, and slower reflexes to name a few.[95] Due to these effects the most common injuries include head, fall, and vehicle-related injuries. A study was conducted of patients admitted to the Ulster Hospital in Northern Ireland with fall related injuries. They found that 113 of those patients admitted to that hospital during that had consumed alcohol recently and that the injury severity was higher for those that had consumed alcohol compared to those that had not.[96] Another study showed that 21% of patients admitted to the Emergency Department of the Bristol Royal Infirmary had either direct or indirect alcohol related injuries. If these figures are extrapolated it shows that the estimated number of patients with alcohol related injuries are over 7,000 during the year at this emergency department alone.[97]
In the United States alcohol resulted in about 88,000 deaths in 2010.[98] The World Health Organization calculated that more than 3 million people, mostly men, died as a result of harmful use of alcohol in 2016. This was about 13.5% of the total deaths of people between 20 and 39. More than 5% of the global disease burden was caused by the harmful use of alcohol.[99] There are even higher estimates for Europe.[100]
In 2019, total of 298,000 deaths from alcohol-related road crashes were registered, out of which 156,000 deaths were caused by someone else’s drinking.[37]
Flaming drink
editA flaming drink is often ignited for aesthetic and entertainment purposes. However, bars have been shut down specifically due to failure to follow fire codes and reckless endangerment of patrons. Bartenders have also suffered burns from flaming drinks.[101]
Genetic differences
editAlcohol flush and respiratory reactions
editAlcohol flush reaction is a condition in which an individual's face or body experiences flushes (appears red) or blotches as a result of an accumulation of acetaldehyde, a metabolic byproduct of the catabolic metabolism of alcohol. It is best known as a condition that is experienced by people of Asian descent. According to the analysis by HapMap Project, the rs671 allele of the ALDH2 gene responsible for the flush reaction is rare among Europeans and Africans, and it is very rare among Mexican-Americans. 30% to 50% of people of Chinese and Japanese ancestry have at least one ALDH*2 allele.[102] The rs671 form of ALDH2, which accounts for most incidents of alcohol flush reaction worldwide, is native to East Asia and most common in southeastern China. It most likely originated among Han Chinese in central China,[103] and it appears to have been positively selected in the past. Another analysis correlates the rise and spread of rice cultivation in Southern China with the spread of the allele.[104] The reasons for this positive selection are unknown, but the hypothesis that elevated concentrations of acetaldehyde may have conferred protection against certain parasitic infections, such as Entamoeba histolytica have been suggested.[105] The same SNP allele of ALDH2, also termed glu487lys, and the abnormal accumulation of acetaldehyde following the drinking of alcohol, is associated with the alcohol-induced respiratory reactions of rhinitis and asthma that occur in Eastern Asian populations.[106]
Alcohol and Native Americans
editCompared with the United States population in general, the Native American population is much more susceptible to alcohol use disorder and related diseases and deaths.[107] From 2006 to 2010, alcohol-attributed deaths accounted for 11.7 percent of all Native American deaths, more than twice the rates of the general U.S. population. The median alcohol-attributed death rate for Native Americans (60.6 per 100,000) was twice as high as the rate for any other racial or ethnic group.[108] Males are affected disproportionately more by alcohol-related conditions than females.[109]
Native American and Native Alaskan youth are far more likely to experiment with alcohol at a younger age than non-Native youth.[110] Low self-esteem and transgenerational trauma have been associated with substance use disorders among Native American teens in the U.S. and Canada.[111][112]
Native American populations exhibit genetic differences in the alcohol-metabolizing enzymes alcohol dehydrogenase and ALDH,[113][114] although evidence that these genetic factors are more prevalent in Native Americans than other ethnic groups has been a subject of debate.[115][116][117] According to one 2013 review of academic literature on the issue, there is a "substantial genetic component in Native Americans" and that "most Native Americans lack protective variants seen in other populations."[115] Many scientists have provided evidence of the genetic component of alcohol use disorder by the biopsychosocial model of alcohol use disorder. Molecular genetics research currently has not found one specific gene that is responsible for the rates of alcohol use disorder among Native Americans, implying the phenomenon may be due to an interplay of multiple genes and environmental factors.[118][119] Research on alcohol use disorder in families suggests that learned behavior augments genetic factors in increasing the probability that children of people with alcohol use disorder will themselves have problems with alcohol misuse.[120]
Genetics and amount of consumption
editHaving a particular genetic variant (A-allele of ADH1B rs1229984) is associated with non-drinking and lower alcohol consumption. This variant is also associated with favorable cardiovascular profile and a reduced risk of coronary artery disease compared to those without the genetic variant, but it is unknown whether this may be caused by differences in alcohol consumption or by additional confounding effects of the genetic variant itself.[121]
Gender differences
editHistorically, according to the British Medical Journal, "men have been far more likely than women to drink alcohol and to drink it in quantities that damage their health, with some figures suggesting up to a 12-fold difference between the sexes."[122] However, analysis of data collected over a century from multiple countries suggests that the gender gap in alcohol consumption is narrowing, and that young women (born after 1981) are consuming alcohol more than their male counterparts. Such findings have implications for the way in which alcohol-use prevention and intervention programs are designed and implemented.[123]
Alcohol use disorder
editAlcohol use disorder (AUD) is defined as a medical condition characterized by an impaired ability to stop or control alcohol use despite adverse social, occupational, or health consequences.[124] Excessive alcohol use can lead to health-related illness and continuous alcohol engagement can ultimately lead to death. Behavioral factors of AUD include binge drinking and heavy alcohol use throughout one's day. AUD affects each culture differently, but African Americans are found to be the hardest impacted. Common health-related illnesses that stem from AUD but are prevalent in African American communities are liver disease, cirrhosis, hypertension, heart disease, oral cancer, stroke, and more. In 2020, heart disease ranked number 3 in the leading cause of death for African Americans ages 15–24.[125] However, on the, contrary African Americans have been proven to consume less alcohol than other counterparts. According to American's Health Rankings, 15.4% of blacks reported excessive drinking, 19.4% of Hispanics, 19.2% of whites and 16.9% of Native Americans.[126] In the United States, social economic status affects, one's ability to access basic necessities to support one's health, life, and survival. If one has a higher socioeconomic status, their income is higher, they are able to support their living needs and have better access to healthcare. Higher SES status reduces the risk of AUD for all individuals. However, those with a lower socioeconomic status majority of minorities are less fortunate. They are faced with poverty, low income, unemployment, and lack of access to healthier food options, which then contributes to poor health and higher AUD risk. The correlation between levels of socioeconomic status is prominent in alcohol-related health illnesses between cultures.
Sensitivity
editSeveral biological factors make women more vulnerable to the effects of alcohol than men.[127]
- Body fat. Women tend to weigh less than men, and—pound for pound—a woman's body contains less water and more fatty tissue than a man's. Because fat retains alcohol while water dilutes it, alcohol remains at higher concentrations for longer periods of time in a woman's body, exposing her brain and other organs to more alcohol.
- Enzymes. Women have lower levels of two enzymes—alcohol dehydrogenase and aldehyde dehydrogenase—that metabolize (break down) alcohol in the stomach and liver. As a result, women absorb more alcohol into their bloodstreams than men.
- Hormones. Changes in hormone levels during the menstrual cycle may also affect how a woman metabolizes alcohol.
Metabolism
editFemales demonstrated a higher average rate of elimination (mean, 0.017; range, 0.014–0.021 g/210 L) than males (mean, 0.015; range, 0.013–0.017 g/210 L). Female subjects on average had a higher percentage of body fat (mean, 26.0; range, 16.7–36.8%) than males (mean, 18.0; range, 10.2–25.3%).[128] Further explanation for the difference in alcohol metabolism between males and females can be found in higher alcohol dehydrogenase activity in female livers.[129]
Depression
editThe link between alcohol consumption, depression, and gender was examined by the Centre for Addiction and Mental Health (Canada). The study found that women taking antidepressants consumed more alcohol than women who did not experience depression as well as men taking antidepressants. The researchers, Kathryn Graham and a PhD Student, Agnes Massak, analyzed the responses to a survey by 14,063 Canadian residents aged 18–76 years. The survey included measures of quantity, frequency of drinking, depression, and antidepressant use, over the period of a year. The researchers used data from the GENACIS Canada survey, part of an international collaboration to investigate the influence of cultural variation on gender differences in alcohol use and related problems. The purpose of the study was to examine whether, like in other studies already conducted on male depression and alcohol consumption, depressed women also consumed less alcohol when taking anti-depressants. According to the study, both men and women experiencing depression (but not on antidepressants) drank more than non-depressed counterparts. Men taking antidepressants consumed significantly less alcohol than depressed men who did not use antidepressants. Non-depressed men consumed 436 drinks per year, compared to 579 drinks for depressed men not using antidepressants, and 414 drinks for depressed men who used antidepressants. Alcohol consumption remained higher whether the depressed women were taking antidepressants or not. 179 drinks per year for non-depressed women, 235 drinks for depressed women not using antidepressants, and 264 drinks for depressed women who used antidepressants. The lead researcher argued that the study "suggests that the use of antidepressants is associated with lower alcohol consumption among men with depression. But this does not appear to be true for women."[130]
Teenage alcohol abuse
editWhile most teens understand the negative impacts of drinking a lot of alcohol in one sitting, many believe that consuming some alcohol will not be that risky of a behavior. However, teens who drink alcohol on average consume more alcohol in one sitting than most adults, and nearly half of all teens who consumed some amount of alcohol in the past 30 days had done so in excess.[131] Not only are teen drinkers more likely to get drunk, but the effects of drunkenness are worse. The temporarily impaired judgment can lead to permanent consequences such as serious and crippling injury to oneself or others, unplanned pregnancy, or alcoholism later in life.[132] Even if they were to avoid terrible events, they will still suffer irreversible damage to brain development and be far more likely to abuse other substances in the future.[133]
See also
editReferences
edit- ^ Williams, Roger; Alexander, Graeme; Aspinall, Richard; et al. (1 December 2018). "Gathering momentum for the way ahead: fifth report of the Lancet Standing Commission on Liver Disease in the UK". Lancet. 392 (10162): 2398–2412. doi:10.1016/S0140-6736(18)32561-3. ISSN 1474-547X. PMID 30473364. S2CID 53715414.
- ^ a b "Risks of Adolescent Alcohol Use". HHS.gov. 19 January 2018. Retrieved 3 June 2020.
- ^ Haseeb, Sohaib, Bryce Alexander, and Adrian Baranchuk. "Wine and cardiovascular health: a comprehensive review." Circulation 136, no. 15 (2017): 1434-1448.
- ^ Harvard T.H. Chan, School of Public Health. The Nutrition Source, Alcohol: Balancing Risks and Benefits. (2022).
- ^ de Gaetano, Giovanni, and Simona Costanzo. "Alcohol and health: Praise of the J curves." Journal of the American College of Cardiology 70.8 (2017): 923-925.
- ^ Ronksley, Paul E., et al. "Association of alcohol consumption with selected cardiovascular disease outcomes: a systematic review and meta-analysis." Bmj 342 (2011): d671.
- ^ The Lancet 2022. Health Risks of Alcohol Infographic - Global Burden of Disease Study 2020.
- ^ "No level of alcohol consumption is safe for our health". www.euro.who.int. Retrieved 8 February 2023.
- ^ "No alcohol safe to drink, global study confirms". BBC News. 24 August 2018. Retrieved 21 May 2021.
- ^ Stories, Daily Health (20 November 2018). "Study: No Level of Alcohol is Safe". Cleveland Clinic Newsroom. Archived from the original on 21 May 2021. Retrieved 21 May 2021.
- ^ a b Cheryl Platzman Weinstock (8 November 2017). "Alcohol Consumption Increases Risk of Breast and Other Cancers, Doctors Say". Scientific American. Retrieved 13 November 2018.
The ASCO statement, published in the Journal of Clinical Oncology, cautions that while the greatest risks are seen with heavy long-term use, even low alcohol consumption (defined as less than one drink per day) or moderate consumption (up to two drinks per day for men, and one drink per day for women because they absorb and metabolize it differently) can increase cancer risk. Among women, light drinkers have a four percent increased risk of[breast cancer, while moderate drinkers have a 23 percent increased risk of the disease.
- ^ a b Noelle K. LoConte; Abenaa M. Brewster; Judith S. Kaur; Janette K. Merrill; Anthony J. Alberg (7 November 2017). "Alcohol and Cancer: A Statement of the American Society of Clinical Oncology". Journal of Clinical Oncology. 36 (1).
Clearly, the greatest cancer risks are concentrated in the heavy and moderate drinker categories. Nevertheless, some cancer risk persists even at low levels of consumption. A meta-analysis that focused solely on cancer risks associated with drinking one drink or fewer per day observed that this level of alcohol consumption was still associated with some elevated risk for squamous cell carcinoma of the esophagus (sRR, 1.30; 95% CI, 1.09 to 1.56), oropharyngeal cancer (sRR, 1.17; 95% CI, 1.06 to 1.29), and breast cancer (sRR, 1.05; 95% CI, 1.02 to 1.08), but no discernable associations were seen for cancers of the colorectum, larynx, and liver.
- ^ "Global status report on alcohol and health" (PDF). World Health Organization. 2014. pp. vii. Retrieved 23 November 2015.
- ^ Griswold, MG; Fullman, N; Hawley, C; Arian, N; Zimsen, SM; et al. (August 2018). "Alcohol use and burden for 195 countries and territories, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016". The Lancet. 392 (10152): 1015–35. doi:10.1016/S0140-6736(18)31310-2. PMC 6148333. PMID 30146330.
- ^ "Cancer warning labels to be included on alcohol in Ireland, minister confirms". Belfasttelegraph.co.uk. Belfast Telegraph. 26 September 2018.
- ^ Baglietto, Laura, Dallas R. English, Dorota M. Gertig, John L. Hopper, and Graham G. Giles. " Does dietary folate intake modify effect of alcohol consumption on breast cancer risk? Prospective cohort study.." Bmj 331, no. 7520 (2005): 807.
- ^ Cao, Yin, Walter C. Willett, Eric B. Rimm, Meir J. Stampfer, and Edward L. Giovannucci. "Light to moderate intake of alcohol, drinking patterns, and risk of cancer: results from two prospective US cohort studies." Bmj 351 (2015).
- ^ Harvard T.H. Chan, School of Public Health. The Nutrition Source, Alcohol: Balancing Risks and Benefits. (2022).
- ^ Harvard Public Health “Is alcohol good or bad for you? Yes.”, Kenneth Mukamal and Eric B. Rimm. (August 2024).
- ^ Allen, Naomi E., Valerie Beral, Delphine Casabonne, Sau Wan Kan, Gillian K. Reeves, Anna Brown, and Jane Green. "Moderate alcohol intake and cancer incidence in women." Journal of the National Cancer Institute 101, no. 5 (2009): 296-305.
- ^ Lee JE, Hunter DJ, Spiegelman D, et al. “Alcohol intake and renal cell cancer in a pooled analysis of 12 prospective studies.” Journal of the National Cancer Institute (2007); 99(10):801–810.
- ^ Tramacere I, Pelucchi C, Bonifazi M, et al. “Alcohol drinking and non-Hodgkin lymphoma risk: A systematic review and a meta-analysis.” Annals of Oncology (2012); 23(11):2791–2798.
- ^ Harvard T.H. Chan, School of Public Health. The Nutrition Source, Alcohol: Balancing Risks and Benefits. (2022).
- ^ Harvard T.H. Chan, School of Public Health. The Nutrition Source, Alcohol: Balancing Risks and Benefits. (2022).
- ^ Rodriguez, Adrianna. 2023. “Study reveals how alcohol has heart benefits. Why you should still sip with caution.” USA TODAY, June 12, 2023
- ^ Kenechukwu Mezue, Michael T. Osborne, Shady Abohashem, Hadil Zureigat, Charbel Gharios, Simran S. Grewal, Azar Radfar, Alexander Cardeiro, Taimur Abbasi, Karmel W. Choi, Zahi A. Fayad, Jordan W. Smoller, Rachel Rosovsky, Lisa Shin, Roger Pitman, and Ahmed Tawakol. "Reduced stress-related neural network activity mediates the effect of alcohol on cardiovascular risk." Journal of the American College of Cardiology 81, no. 24 (2023): 2315-2325.
- ^ Harvard T.H. Chan, School of Public Health. The Nutrition Source, Alcohol: Balancing Risks and Benefits. (2022).
- ^ Haseeb, Sohaib, Bryce Alexander, and Adrian Baranchuk. "Wine and cardiovascular health: a comprehensive review." Circulation 136.15 (2017): 1434-1448.
- ^ Koppes, Lando LJ, Jacqueline M. Dekker, Henk FJ Hendriks, Lex M. Bouter, and Robert J. Heine. "Moderate alcohol consumption lowers the risk of type 2 diabetes: a meta-analysis of prospective observational studies." Diabetes care 28, no. 3 (2005): 719-725.
- ^ The Lancet, July 14, 2022. Health Risks of Alcohol Infographic – Global Burden of Disease Study 2020.
- ^ Meyer, Jerold S. and Linda F. Quenzer. Psychopharmacology: Drugs, the Brain, and Behavior. Sinauer Associates, Inc.: Sunderland, Massachusetts. 2005. Page 228.
- ^ Horowitz M, Maddox A, Bochner M, et al. (1989). "Relationships between gastric emptying of solid and caloric liquid meals and alcohol absorption". Am. J. Physiol. 257 (2 Pt 1): G291–6298. doi:10.1152/ajpgi.1989.257.2.G291. PMID 2764113.
- ^ "Carleton College: Wellness Center: Blood Alcohol Concentration (BAC)". Archived from the original on 14 September 2009. Retrieved 29 August 2015.
- ^ Feige B, Scaal S, Hornyak M, Gann H, Riemann D (2007). "Sleep electroencephalographic spectral power after withdrawal from alcohol in alcohol-dependent patients". Alcohol. Clin. Exp. Res. 31 (1): 19–27. doi:10.1111/j.1530-0277.2006.00260.x. PMID 17207097.
- ^ "WHO | Global status report on alcohol and health 2018".
- ^ "Alcohol Facts and Statistics". Archived from the original on 18 May 2015. Retrieved 9 May 2015.
- ^ a b c "Alcohol". www.who.int. Retrieved 21 August 2024.
- ^ "Appendix 9. Alcohol — 2015-2020 Dietary Guidelines — health.gov". U.S. Department of Health and Human Services.
- ^ "New alcohol advice issued". NHS. 8 January 2016. Archived from the original on 30 November 2020. Retrieved 3 September 2018.
- ^ Gormley, Mark; Creaney, Grant; Schache, Andrew; Ingarfield, Kate; Conway, David I. (11 November 2022). "Reviewing the epidemiology of head and neck cancer: definitions, trends and risk factors". British Dental Journal. 233 (9): 780–6. doi:10.1038/s41415-022-5166-x. ISSN 0007-0610. PMC 9652141. PMID 36369568.
- ^ Hashibe, Mia; Brennan, Paul; Chuang, Shu-chun; Boccia, Stefania; Castellsague, Xavier; Chen, Chu; Curado, Maria Paula; Dal Maso, Luigino; Daudt, Alexander W.; Fabianova, Eleonora; Fernandez, Leticia; Wünsch-Filho, Victor; Franceschi, Silvia; Hayes, Richard B.; Herrero, Rolando (1 February 2009). "Interaction between Tobacco and Alcohol Use and the Risk of Head and Neck Cancer: Pooled Analysis in the International Head and Neck Cancer Epidemiology Consortium". Cancer Epidemiology, Biomarkers & Prevention. 18 (2): 541–550. doi:10.1158/1055-9965.EPI-08-0347. ISSN 1055-9965. PMC 3051410. PMID 19190158.
- ^ a b GBD 2016 Alcohol Collaborators (August 2018). "Alcohol use and burden for 195 countries and territories, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016". Lancet. 392 (10152): 1015–35. doi:10.1016/S0140-6736(18)31310-2. PMC 6148333. PMID 30146330.
- ^ Stockwell T, Zhao J, Panwar S, Roemer A, Naimi T, Chikritzhs T (2016). "Do "Moderate" Drinkers Have Reduced Mortality Risk? A Systematic Review and Meta-Analysis of Alcohol Consumption and All-Cause Mortality". J Stud Alcohol Drugs. 77 (2): 185–198. doi:10.15288/jsad.2016.77.185. PMC 4803651. PMID 26997174.
- ^ O'Keefe, JH; Bhatti, SK; Bajwa, A; DiNicolantonio, JJ; Lavie, CJ (2014). "Alcohol and cardiovascular health: the dose makes the poison...or the remedy". Mayo Clinic Proceedings. 89 (3): 382–393. doi:10.1016/j.mayocp.2013.11.005. PMID 24582196.
- ^ Caan, Woody; Belleroche, Jackie de, eds. (11 April 2002). Drink, Drugs and Dependence: From Science to Clinical Practice (1st ed.). Routledge. pp. 19–20. ISBN 978-0-415-27891-1.
- ^ Müller D, Koch RD, von Specht H, Völker W, Münch EM (March 1985). "Neurophysiologic findings in chronic alcohol abuse". Psychiatr Neurol Med Psychol (Leipz) (in German). 37 (3): 129–32. PMID 2988001.
- ^ Testino G (2008). "Alcoholic diseases in hepato-gastroenterology: a point of view". Hepatogastroenterology. 55 (82–83): 371–7. PMID 18613369.
- ^ Guerri, C.; Pascual, M.A. (2010). "Mechanisms involved in the neurotoxic, cognitive, and neurobehavioral effects of alcohol consumption during adolescence". Alcohol. 44 (1): 15–26. doi:10.1016/j.alcohol.2009.10.003. PMID 20113871.
- ^ "THE LANCET: Alcohol consumption carries significant health risks and no benefits for young people; some older adults may benefit from drinking a small amount of alcohol". EurekAlert!. 14 July 2022. Retrieved 15 July 2022.
- ^ a b Hodskinson MR, Bolner A, Sato K, Kamimae-Lanning AN, Rooijers K, Witte M, Mahesh M, Silhan J, Petek M, Williams DM, Kind J, Chin JW, Patel KJ, Knipscheer P (March 2020). "Alcohol-derived DNA crosslinks are repaired by two distinct mechanisms". Nature. 579 (7800): 603–8. Bibcode:2020Natur.579..603H. doi:10.1038/s41586-020-2059-5. PMC 7116288. PMID 32132710.
- ^ Vice Admiral Richard H. Carmona (2005). "A 2005 Message to Women from the U.S. Surgeon General" (PDF). Retrieved 12 June 2015.
- ^ Institute of Medicine; Committee to Study Fetal Alcohol Syndrome (1995). Kathleen Stratton; Cynthia Howe; Frederick C. Battaglia (eds.). Fetal alcohol syndrome: diagnosis, epidemiology, prevention, and treatment. Washington, D.C.: National Academy Press. doi:10.17226/4991. ISBN 978-0-309-05292-4.
- ^ "Australian Government National Health and Medical Research Council". Archived from the original on 5 November 2012. Retrieved 4 November 2012.
- ^ Nathanson, Vivienne; Nicky Jayesinghe; George Roycroft (27 October 2007). "Is it all right for women to drink small amounts of alcohol in pregnancy? No". BMJ. 335 (7625): 857. doi:10.1136/bmj.39356.489340.AD. PMC 2043444. PMID 17962287.
- ^ a b c "Fetal Alcohol Exposure". April 2015. Retrieved 10 June 2015.
- ^ a b "Facts about FASDs". 16 April 2015. Retrieved 10 June 2015.
- ^ "More than 3 million US women at risk for alcohol-exposed pregnancy". Centers for Disease Control and Prevention. 2 February 2016. Retrieved 3 March 2016.
'drinking any alcohol at any stage of pregnancy can cause a range of disabilities for their child,' said Coleen Boyle, Ph.D., director of CDC's National Center on Birth Defects and Developmental Disabilities.
- ^ a b Coriale; et al. (2013). "Fetal Alcohol Spectrum Disorder (FASD): neurobehavioral profile, indications for diagnosis and treatment". Rivista di Psichiatria. 48 (5): 359–69. doi:10.1708/1356.15062. PMID 24326748.
- ^ Chudley; et al. (2005), "Fetal alcohol spectrum disorder: Canadian guidelines for diagnosis", CMAJ, 172 (5 Suppl): S1 – S21, doi:10.1503/cmaj.1040302, PMC 557121, PMID 15738468
- ^ Costanzo S, Di Castelnuovo A, Donati MB, Iacoviello L, de Gaetano G (2010). "Alcohol consumption and mortality in patients with cardiovascular disease: a meta-analysis". J. Am. Coll. Cardiol. 55 (13): 1339–47. doi:10.1016/j.jacc.2010.01.006. PMID 20338495.
- ^ Wood AM, Kaptoge S, Butterworth AS, Willeit P, Warnakula S, Bolton T, et al. (2018). "Risk thresholds for alcohol consumption: combined analysis of individual-participant data for 599 912 current drinkers in 83 prospective studies". The Lancet. 391 (10129): 1513–23. doi:10.1016/S0140-6736(18)30134-X. PMC 5899998. PMID 29676281.
- ^ "Alcohol and Heart Health". American Heart Association. 15 August 2014.
- ^ Robert Metz; et al. (1969). "Potentiation of the Plasma Insulin Response to Glucose by Prior Administration of Alcohol" (PDF). Diabetes. 18 (8): 517–22. doi:10.2337/diab.18.8.517. PMID 4897290. S2CID 32072796. Archived (PDF) from the original on 22 February 2014. Retrieved 11 February 2014.
- ^ Shelmet, JJ; Reichard, GA; Skutches, CL; Hoeldtke, RD; Owen, OE; Boden, G (1988). "Ethanol Causes Acute Inhibition of Carbohydrate, Fat, and Protein Oxidation and Insulin Resistance". J. Clin. Invest. 81 (4): 1137–45. doi:10.1172/JCI113428. PMC 329642. PMID 3280601.
- ^ "Alcohol & Diabetes — ADA". American Diabetes Association. Retrieved 30 November 2022.
- ^ Westerterp-Plantenga, Margriet S; Verwegen, Christianne RT (1999). "The appetizing effect of an apéritif in overweight and normal-weight humans" (PDF). The American Journal of Clinical Nutrition. 69 (2): 205–212. doi:10.1093/ajcn/69.2.205. Retrieved 15 December 2024.
- ^ a b Choices, N. H. S. (1 May 2017). "Breastfeeding and drinking alcohol — Pregnancy and baby guide — NHS Choices".
- ^ Haastrup, MB; Pottegård, A; Damkier, P (2014). "Alcohol and Breastfeeding". Basic & Clinical Pharmacology & Toxicology. 114 (2): 168–173. doi:10.1111/bcpt.12149. PMID 24118767. S2CID 31580580.
even in a theoretical case of binge drinking, the children would not be subjected to clinically relevant amounts of alcohol
- ^ Palzes, VA; Parthasarathy, S; Chi, FW; Kline-Simon, AH; Lu, Y; Weisner, C; Ross, TB; Elson, J; Sterling, SA (December 2020). "Associations Between Psychiatric Disorders and Alcohol Consumption Levels in an Adult Primary Care Population". Alcoholism: Clinical and Experimental Research. 44 (12): 2536–44. doi:10.1111/acer.14477. PMC 7756330. PMID 33151592.
- ^ Soileau M (August 2012). "Spreading the Sofra: Sharing and Partaking in the Bektashi Ritual Meal". History of Religions. 52 (1): 1–30. doi:10.1086/665961. JSTOR 10.1086/665961. Retrieved 5 June 2021.
- ^ Bocking B (1997). A popular dictionary of Shintō (Rev. ed.). Richmond, Surrey [U.K.]: Curzon Press. ISBN 0-7007-1051-5. OCLC 264474222.
- ^ a b c d e Moore, Mark Harrison; Gerstein, Dean R. (1981). Alcohol and Public Policy. National Academies. p. 90–93. ISBN 9780585119823.
- ^ Martin, Scott C. (2014). The SAGE Encyclopedia of Alcohol: Social, Cultural, and Historical Perspectives. SAGE Publications. ISBN 978-1-4833-7438-3. OCLC 907238072.
- ^ a b MacAndrew, C.; Edgerton, R.B. (1969). Drunken Comportment: A Social Explanation. Chicago: Aldine. OCLC 571244985.
- ^ a b Lee, Christine M.; Fairlie, Anne M.; Ramirez, Jason J.; Patrick, Megan E.; Luk, Jeremy W.; Lewis, Melissa A. (March 2020). "Self-fulfilling prophecies: Documentation of real-world daily alcohol expectancy effects on the experience of specific positive and negative alcohol-related consequences". Psychology of Addictive Behaviors. 34 (2): 327–334. doi:10.1037/adb0000537. PMC 7360337. PMID 31804099.
- ^ Testa, Maria; Fillmore, Mark T.; Norris, Jeanette; et al. (February 2006). "Understanding Alcohol Expectancy Effects: Revisiting the Placebo Condition". Alcoholism: Clinical and Experimental Research. 30 (2): 339–348. doi:10.1111/j.1530-0277.2006.00039.x. PMC 1403295.
- ^ Lang, Alan R.; Goeckner, Daniel J.; Adesso, Vincent J.; Marlatt, G. Alan (October 1975). "Effects of alcohol on aggression in male social drinkers". Journal of Abnormal Psychology. 84 (5): 508–518. doi:10.1037/h0077055. PMID 1194512.
- ^ Bègue, Laurent; Subra, Baptiste; Arvers, Philippe; Muller, Dominique; Bricout, Véronique; Zorman, Michel (January 2009). "A message in a bottle: Extrapharmacological effects of alcohol on aggression" (PDF). Journal of Experimental Social Psychology. 45 (1): 137–142. doi:10.1016/j.jesp.2008.07.018.
- ^ Marlatt GA, Rosenow (1981). "The think-drink effect". Psychology Today. 15: 60–93.
- ^ Grattan, Karen E.; Vogel-Sprott, M. (2001). "Maintaining Intentional Control of Behavior Under Alcohol". Alcoholism: Clinical and Experimental Research. 25 (2): 192–7. doi:10.1111/j.1530-0277.2001.tb02198.x. PMID 11236832.
- ^ Nutt D, King LA, Saulsbury W, Blakemore C (March 2007). "Development of a rational scale to assess the harm of drugs of potential misuse". Lancet. 369 (9566): 1047–53. doi:10.1016/s0140-6736(07)60464-4. PMID 17382831. S2CID 5903121.
- ^ a b c "WHO launches SAFER alcohol control initiative to prevent and reduce alcohol-related death and disability". World Health Organization (Press release). Archived from the original on 1 October 2018. Retrieved 21 November 2019.
- ^ Management of Substance Abuse Team, World Health Organization (14 February 2019). Global status report on alcohol and health 2018. Geneva: World Health Organization. ISBN 978-92-4-156563-9. OCLC 1089229677.
- ^ "Transforming governance for the 2030 agenda for sustainable development". World Public Sector Report 2015. 31 December 2015. pp. 73–87. doi:10.18356/e5a72957-en. ISBN 9789210541442.
- ^ Global action plan for the prevention and control of noncommunicable diseases: 2013–2020. Geneva, Switzerland: World Health Organization. 2013. ISBN 978-92-4-150623-6. OCLC 960910741.
- ^ "Sensible Drinking". Aim-digest.com. Archived from the original on 19 November 2010. Retrieved 5 February 2013.
- ^ The risks of drinking too much. NHS. Retrieved 23 July 2024.
- ^ "Alcohol misuse: Department of Health". Dh.gov.uk. Archived from the original on 9 February 2010. Retrieved 5 February 2013.
- ^ "Alcohol and health: how alcohol can affect your long and short term health". Drinkaware.co.uk. Retrieved 5 February 2013.
- ^ Mohsin Beg (31 August 2021). "Medical Detox Center". Retreatofatlanta.com. Retrieved 24 May 2020.
- ^ Drink limits 'useless', The Times, 20 October 2007
- ^ "Lexicon and drug terms". Who.int. 9 December 2010. Archived from the original on 4 July 2004. Retrieved 5 February 2013.
- ^ MD Basharin K.G. (2010). "Scientific grounding for sobriety: Western experience" (PDF). Retrieved 5 February 2013.
- ^ Twelve Steps and Twelve Traditions (PDF). Alcoholics Anonymous World Services. April 1953. ISBN 978-0-916856-01-4. Archived from the original (PDF) on 16 January 2017. Retrieved 31 December 2018. (Electronic .PDF version, September 2005).
- ^ "Drinkwise Australia". DrinkWise Australia.
- ^ Johnson J, McGovern S (2003). "Alcohol related falls: an interesting pattern of injuries". Emergency Medicine Journal. 21 (2): 185–8. doi:10.1136/emj.2003.006130. PMC 1726307. PMID 14988344.
- ^ Hoskins R, Benger J (2013). "What is the burden of alcohol-related injuries in an inner city emergency department?". Alcoholism: Clinical and Experimental Research. 33 (9): 1532–8. doi:10.1111/j.1530-0277.2009.00981.x. PMC 2757258. PMID 19485974.
- ^ "Alcohol-attributable deaths and years of potential life lost — 11 states, 2006–2010". Centers for Disease Control and Prevention.
- ^ "Alcohol". World health Organization. 21 September 2018. Retrieved 5 November 2018.
- ^ Korotayev A, Khaltourina D, Meshcherina K, Zamiatnina E (November 2018). "Distilled Spirits Overconsumption as the Most Important Factor of Excessive Adult Male Mortality in Europe". Alcohol Alcohol. 53 (6): 742–752. doi:10.1093/alcalc/agy054. PMID 30113627.
- ^ Urken, Ross Kenneth (5 November 2010). "Where to Score Flaming Cocktails in New York City". Retrieved 24 September 2013.
- ^ "Rs671". SNPmedia.
- ^ Hui Li; et al. (2009). "Refined Geographic Distribution of the Oriental ALDH2*504Lys (nee 487Lys) Variant". Ann Hum Genet. 73 (Pt 3): 335–345. doi:10.1111/j.1469-1809.2009.00517.x. PMC 2846302. PMID 19456322.
- ^ Yi Peng; Hong Shi; Xue-bin Qi; Chun-jie Xiao; Hua Zhong; Run-lin Z Ma; Bing Su (2010). "The ADH1B Arg47His polymorphism in East Asian populations and expansion of rice domestication in history". BMC Evolutionary Biology. 10 (1): 15. Bibcode:2010BMCEE..10...15P. doi:10.1186/1471-2148-10-15. PMC 2823730. PMID 20089146.
- ^ Oota H, Pakstis AJ, Bonne-Tamir B, Goldman D, Grigorenko E, Kajuna SL, et al. (2004). "The evolution and population genetics of the ALDH2 locus: random genetic drift, selection, and low levels of recombination". Ann. Hum. Genet. 68 (Pt 2): 93–109. doi:10.1046/j.1529-8817.2003.00060.x. PMID 15008789. S2CID 31026948.
- ^ Adams, KE; Rans, TS (2013). "Adverse reactions to alcohol and alcoholic beverages". Annals of Allergy, Asthma & Immunology. 111 (6): 439–445. doi:10.1016/j.anai.2013.09.016. PMID 24267355.
- ^ May, Philip A. (1996). "Overview of Alcohol Abuse Epidemiology for American Indian Populations" (PDF). In Sandefur, Gary D.; Rindfuss, Ronald R.; Cohen, Barney (eds.). Changing Numbers, Changing Needs: American Indian Demography and Public Health. Washington, D.C.: Committee on Population, Commission on Behavioral and Social Sciences and Education National Research Council, National Academy Press. ISBN 0-585-03246-7. OCLC 42329948.
- ^ Gonzales, K; Roeber, J; Kanny, D; Tran, A; Saiki, C; Johnson, H; Yeoman, K; Safranek, T; Creppage, K; Lepp, A; Miller, T; Tarkhashvili, N; Lynch, KE; Watson, JR; Henderson, D; Christenson, M; Geiger, SD (2014). "Alcohol-attributable deaths and years of potential life lost—11 States, 2006–2010". MMWR Morb Mortal Wkly Rep. 63 (10): 213–6. PMC 5779340. PMID 24622285.
- ^ Whitesell, NR; Beals, J; Crow, CB; Mitchell, CM; Novins, DK (2012). "Epidemiology and etiology of substance use among American Indians and Alaska Natives: risk, protection, and implications for prevention". Am J Drug Alcohol Abuse. 38 (5): 376–82. doi:10.3109/00952990.2012.694527. PMC 4436971. PMID 22931069.
- ^ Beauvais F (1998). "Cultural identification and substance use in North America--an annotated bibliography". Substance Use & Misuse. 33 (6): 1315–36. doi:10.3109/10826089809062219. PMID 9603273.
- ^ Myhra LL (2011). ""It runs in the family": intergenerational transmission of historical trauma among urban American Indians and Alaska Natives in culturally specific sobriety maintenance programs". American Indian and Alaska Native Mental Health Research. 18 (2): 17–40. doi:10.5820/aian.1802.2011.17. PMID 22302280.
- ^ Bombay, Amy; Matheson, Kim; Anisman, Hymie (2009). "Intergenerational trauma: convergence of multiple processes among First Nations peoples in Canada". Journal of Aboriginal Health. 5 (3): 6–47. Archived from the original on 3 August 2019. Retrieved 2 July 2020.
- ^ Ehlers, CL (2007). "Variations in ADH and ALDH in Southwest California Indians". Alcohol Res Health. 30 (1): 14–7. PMC 3860438. PMID 17718395.
- ^ Ehlers, CL; Liang, T; Gizer, IR (2012). "ADH and ALDH polymorphisms and alcohol dependence in Mexican and Native Americans". Am J Drug Alcohol Abuse. 38 (5): 389–94. doi:10.3109/00952990.2012.694526. PMC 3498484. PMID 22931071.
- ^ a b Ehlers CL, Gizer IR (February 2013). "Evidence for a genetic component for substance dependence in Native Americans". Am J Psychiatry. 170 (2): 154–64. doi:10.1176/appi.ajp.2012.12010113. PMC 3603686. PMID 23377636.
- ^ Caetano R, Clark CL, Tam T (1998). "Alcohol consumption among racial/ethnic minorities: theory and research". Alcohol Health Res World. 22 (4): 233–241. PMC 6761890. PMID 15706749.
- ^ Chartier K, Caetano R (2010). "Ethnicity and health disparities in alcohol research". Alcohol Res Health. 33 (1–2): 152–60. PMC 3887493. PMID 21209793.
- ^ Wall, Tamara L.; Carr, Lucinda G.; Ehlers, Cindy L. (2003). "Protective association of genetic variation in alcohol dehydrogenase with alcohol dependence in Native American Mission Indians". American Journal of Psychiatry. 160 (1): 41–46. doi:10.1176/appi.ajp.160.1.41. PMID 12505800.
- ^ Wilhelmsen, KC; Ehlers, C (2005). "Heritability of substance dependence in a native American population". Psychiatr Genet. 15 (2): 101–7. doi:10.1097/00041444-200506000-00006. PMID 15900224. S2CID 5859834.
- ^ Brockie, TN; Heinzelmann, M; Gill, J (2013). "A Framework to Examine the Role of Epigenetics in Health Disparities among Native Americans". Nurs Res Pract. 2013: 410395. doi:10.1155/2013/410395. PMC 3872279. PMID 24386563.
- ^ Holmes, Michael V.; et al. (2014). "Association between alcohol and cardiovascular disease: Mendelian randomisation analysis based on individual participant data". BMJ. 349: g4164. doi:10.1136/bmj.g4164. PMC 4091648. PMID 25011450.
- ^ "Women catching up with men in alcohol consumption and its associated harms" (PDF). BMJ Open (Press release). 25 October 2016.
- ^ Slade T, Chapman C, Swift W, Keyes K, Tonks Z, Teesson M (2016). "Birth cohort trends in the global epidemiology of alcohol use and alcohol-related harms in men and women: systematic review and metaregression". BMJ Open. 6 (10): e011827. doi:10.1136/bmjopen-2016-011827. PMC 5093369. PMID 27797998.
- ^ "Alcohol's Effects on Health: Research-based information on drinking and its impact". National Institute on Alcohol Abuse and Alcoholism. Retrieved 29 October 2022.
- ^ "WISQARS: Injury Data Visualization Tools". Centers for Disease Control and Prevention. Retrieved 30 October 2022.[unreliable source?]
- ^ "Excessive Drinking in United States". America's Health Rankings. Retrieved 30 October 2022.
- ^ "Women & Alcohol: The Hidden Risks of Drinking". Helpguide.org. Archived from the original on 3 January 2013. Retrieved 5 February 2013.
- ^ Cowan, JM Jr; Weathermon, A; McCutcheon, JR; Oliver, RD (September 1996). "Determination of volume of distribution for ethanol in male and female subjects". J Anal Toxicol. 20 (5): 287–90. doi:10.1093/jat/20.5.287. PMID 8872236.
- ^ Eaton, Shannon E.; Jagielo-Miller, Julia E.; Prendergast, Mark A.; Akins, Chana K. (18 February 2022). "Sex differences in alcohol dehydrogenase levels (ADH) and blood ethanol concentration (BEC) in Japanese quail". Poultry Science. 101 (5): 101790. doi:10.1016/j.psj.2022.101790. ISSN 0032-5791. PMC 8943298. PMID 35316649.
- ^ Graham, K.; Massak, A. (2007). "Alcohol consumption and the use of antidepressants". Canadian Medical Association Journal. 176 (5): 633–7. doi:10.1503/cmaj.060446. PMC 1800314. PMID 17325328.
- ^ "Teen Alcohol Consumption: 5 Dangerous Trends Parents Need to Know". 7 April 2020.
- ^ "Effect_of_smoking_and_alcohol_on_ballers_". zoliberry.com. Retrieved 21 March 2024.
- ^ "Alcohol harms the brain in teen years –– before and after that, too". 15 January 2021.