Compendium of the most significant studies with reference to properties, intake, effects.

White AM, Matthews DB, Best PJ. Ethanol, memory, and hippocampal function: a review of recent findings. Hippocampus. 2000;10(1):88-93. doi: 10.1002/(SICI)1098-1063(2000)10:1<88::AID-HIPO10>3.0.CO;2-L.

Abstract. For well over a century, ethanol was believed to exert its effects on cognition and behavior by producing a ubiquitous depression of central nervous system activity. A general disruption in brain function was consistent with the belief that ethanol's effects on cognition and behavior were also quite general. Substantial evidence now indicates that ethanol produces a host of selective effects on neural activity, resulting in regional differences in ethanol's effects in the brain. Consistent with such evidence, recent research suggests that ethanol's effects on cognition and behavior are not as global as previously assumed. The present paper discusses evidence that many of ethanol's effects on learning and memory stem from altered cellular activity in the hippocampus and related structures. Potential mechanisms for ethanol's disruption of hippocampal function are reviewed. Evidence suggests that ethanol disrupts activity in the hippocampus by interacting directly with hippocampal neurons and by interacting with critical hippocampal afferents.

Kramer A, Arvand M, Christiansen B, Dancer S, Eggers M, Exner M, Müller D, Mutters NT, Schwebke I, Pittet D. Ethanol is indispensable for virucidal hand antisepsis: memorandum from the alcohol-based hand rub (ABHR) Task Force, WHO Collaborating Centre on Patient Safety, and the Commission for Hospital Hygiene and Infection Prevention (KRINKO), Robert Koch Institute, Berlin, Germany. Antimicrob Resist Infect Control. 2022 Jul 6;11(1):93. doi: 10.1186/s13756-022-01134-7.

Abstract. The approval of ethanol by the Biocidal Products Regulation has been under evaluation since 2007. This follows concern over alcohol uptake from ethanol-based hand rubs (EBHR). If ethanol is classified as carcinogenic, mutagenic, or reprotoxic by the European Chemicals Agency (ECHA), then this would affect infection prevention and control practices.

Huovinen M, Ietta F, Repo JK, Paulesu L, Vähäkangas KH. The effect of ethanol and nicotine on ER stress in human placental villous explants. Curr Res Toxicol. 2022 Jun 28;3:100081. doi: 10.1016/j.crtox.2022.100081.

Abstract. Pregnant mothers continue smoking and drinking during pregnancy. To clarify the mechanisms of nicotine and ethanol toxicity during development, we have examined their effects on endoplasmic reticulum (ER) stress in human first trimester and term placental explants. 

Le Daré B, Lagente V, Gicquel T. Ethanol and its metabolites: update on toxicity, benefits, and focus on immunomodulatory effects. Drug Metab Rev. 2019 Nov;51(4):545-561. doi: 10.1080/03602532.2019.1679169. 

Abstract. This article summarizes recent experimental and epidemiological data on the toxic and beneficial effects of ethanol and its metabolites (acetaldehyde), and focuses on their immunomodulatory effects. The section dealing with the toxic effects of alcohol focuses on its chronic toxicity (liver disorders, carcinogenic effects, cardiovascular disorders, neuropsychic disorders, addiction and withdrawal syndrome, hematologic disorders, reprotoxicity, osteoporosis) although acute toxicity is considered. The role of oxidative metabolism of ethanol by alcohol dehydrogenase, cytochrome P450 2E1, and aldehyde dehydrogenase, as well as the impact of genetic polymorphism in its physiopathology are also highlighted. The section dealing with the beneficial effects of low to moderate alcohol consumption (on cardiovascular system, diabetes, the nervous system and sensory organs, autoimmune diseases, and rheumatology) highlights the importance of anti-inflammatory and immunomodulatory effects in these observations. This knowledge, enriched by a focus on the immunomodulatory effects of ethanol and its metabolites, in particular on the NLRP3 inflammasome pathway, might facilitate the development of treatments that can reduce ethanol's harmful effects or accentuate its beneficial effects.

Miranda RC, Pietrzykowski AZ, Tang Y, Sathyan P, Mayfield D, Keshavarzian A, Sampson W, Hereld D. MicroRNAs: master regulators of ethanol abuse and toxicity? Alcohol Clin Exp Res. 2010 Apr;34(4):575-87. doi: 10.1111/j.1530-0277.2009.01126.x. Epub 2010 Jan 26.

Abstract. This critical review discusses new evidence showing that ethanol-sensitive miRNAs are indeed regulatory master-switches. More specifically, miRNAs control the development of tolerance, a crucial component of ethanol addiction. Other drugs of abuse also target some ethanol-sensitive miRNAs suggesting that common biochemical mechanisms underlie addiction. This review also discusses evidence that miRNAs mediate several ethanol pathologies, including disruption of neural stem cell proliferation and differentiation in the exposed fetus, gut leakiness that contributes to endotoxemia and alcoholic liver disease, and possibly also hepatocellular carcinomas and other gastrointestinal cancers. Finally, this review provides a perspective on emerging investigations into potential roles of miRNAs as mediators of ethanol's effects on inflammation and fracture healing, as well as the potential for miRNAs as diagnostic biomarkers and as targets for therapeutic interventions for alcohol-related disorders.

Gálvez G, González-Gutiérrez JP, Hödar-Salazar M, Sotomayor-Zárate R, Quintanilla ME, Quilaqueo ME, Rivera-Meza M, Iturriaga-Vásquez P. UFR2709, an Antagonist of Nicotinic Acetylcholine Receptors, Delays the Acquisition and Reduces Long-Term Ethanol Intake in Alcohol-Preferring UChB Bibulous Rats. Biomedicines. 2022 Jun 22;10(7):1482. doi: 10.3390/biomedicines10071482. 

Abstract. Alcoholism is a worldwide public health problem with high economic cost and which affects health and social behavior. It is estimated that alcoholism kills 3 million people globally, while in Chile it is responsible for around 9 thousand deaths per year. Nicotinic acetylcholine receptors (nAChRs) are ligand-gated ion channels expressed in the central nervous system, and they were suggested to modulate the ethanol mechanism involved in abuse and dependence. Previous work demonstrated a short-term treatment with UFR2709, a nAChRs antagonist, which reduced ethanol intake using a two-bottle free-choice paradigm in University of Chile bibulous (UChB) rats. Here, we present evidence of the UFR2709 efficacy in reducing the acquisition and long-term ethanol consumption. Our results show that UFR2709 (2.5 mg/kg i.p.) reduces the seek behavior and ethanol intake, even when the drug administration was stopped, and induced a reduction in the overall ethanol intake by around 55%. Using naïve UChB bibulous rats, we demonstrate that UFR2709 could delay and reduce the genetically adaptive impulse to seek and drink ethanol and prevent its excessive intake.

Chin VS, Van Skike CE, Matthews DB. Effects of ethanol on hippocampal function during adolescence: a look at the past and thoughts on the future. Alcohol. 2010 Feb;44(1):3-14. doi: 10.1016/j.alcohol.2009.10.015.

Abstract. The current review explores the present state of the field as it relates to ethanol's effects in the hippocampus, particularly as it relates to spatial memory. In addition, we review potential neurobiological mechanisms that might underlie the age-dependent effects of ethanol in the hippocampus.

Vena AA, Zandy SL, Cofresí RU, Gonzales RA. Behavioral, neurobiological, and neurochemical mechanisms of ethanol self-administration: A translational review. Pharmacol Ther. 2020 Aug;212:107573. doi: 10.1016/j.pharmthera.2020.107573. 

Abstract.  In the present review, we discuss ethanol's interactions with a variety of neurotransmitter systems, summarizing findings from preclinical and translational studies to highlight recent progress in the field. We then describe animal models of ethanol self-administration, emphasizing the value, limitations, and validity of commonly used models. Lastly, we summarize the behavioral changes induced by chronic ethanol self-administration, with an emphasis on cue-elicited behavior, the role of ethanol-related memories, and the emergence of habitual ethanol seeking behavior.

Joseph JA, Akkermans S, Van Impe JFM. Processing Method for the Quantification of Methanol and Ethanol from Bioreactor Samples Using Gas Chromatography-Flame Ionization Detection. ACS Omega. 2022 Jul 8;7(28):24121-24133. doi: 10.1021/acsomega.2c00055.

Abstract.  In this study, a fast, simple, and sensitive method is developed to process biological samples by using the salting-out-assisted liquid-liquid extraction technique to quantify the concentration of methanol and ethanol using gas chromatography. 

Santhakumar C, Ormiston W, McCall JL, Bartlett A, Duncan D, Holden A. Portal vein embolization with absolute ethanol to induce hypertrophy of the future liver remnant. CVIR Endovasc. 2022 Jul 23;5(1):36. doi: 10.1186/s42155-022-00312-3. 

Abstract. Preoperative portal vein embolization (PVE) is widely used prior to major liver resection to reduce the risk of post-hepatectomy liver failure (PHLF). We evaluated the efficacy and safety of PVE using absolute ethanol.

Oyeyinka A, Kansal M, O'Sullivan SM, Gualtieri C, Smith ZM, Vonhoff FJ. Corazonin Neurons Contribute to Dimorphic Ethanol Sedation Sensitivity in Drosophila melanogaster. Front Neural Circuits. 2022 Jun 22;16:702901. doi: 10.3389/fncir.2022.702901.

Abstract. Exposure to alcohol has multiple effects on nervous system function, and organisms have evolved mechanisms to optimally respond to the presence of ethanol. Sex differences in ethanol-induced behaviors have been observed in several organisms, ranging from humans to invertebrates. However, the molecular mechanisms underlying the dimorphic regulation of ethanol-induced behaviors remain incompletely understood.

Yan SL, Mong MC, Liu WH, Yin MC. Anti-apoptotic and Anti-oxidative Effects of Aqueous Extract prepared from Steamed Daylily Flower in Normal Cardiac and Hepatic Cells against Ethanol. Curr Top Med Chem. 2022 Jul 4. doi: 10.2174/1568026622666220704093652. 

Abstract. Alcohol abuse resulted in high prevalence of alcoholic cardiac and hepatic disorders. Any agent(s) with the bio-activities to suppress mitochondrial apoptotic pathway, and attenuate apoptotic and oxidative stresses might be able to protect cardiac and hepatic cells against ethanol.

Munier JJ, Marty VN, Spigelman I. Sex differences in α-adrenergic receptor function contribute to impaired hypothalamic metaplasticity following chronic intermittent ethanol exposure. Alcohol Clin Exp Res. 2022 Jul 5. doi: 10.1111/acer.14900.

Abstract. Individuals with alcohol use disorder (AUD) exhibit maladaptive responses of the hypothalamic-pituitary-adrenal (HPA) axis to stress, which has been linked to high rates of relapse to drinking among abstinent individuals. Corticotropin-releasing factor (CRF) parvocellular neuroendocrine cells (PNCs) within the paraventricular nucleus of the hypothalamus (PVN) are critical to stress-induced HPA axis activation. Here, we investigate sex differences in synaptic transmission and plasticity in PNCs following the application of the stress-associated neurotransmitter norepinephrine (NE) in a rat model of AUD.

Ethanol or ethyl alcohol, is a primary alcohol, a molecule with two carbon atoms. it is obtained from the fermentation of certain carbohydrates by an industrial process.

The name describes the structure of the molecule:

• Eth- refers to two carbon atoms in the main chain.
• -anol indicates that the molecule is an alcohol, which is an organic compound with a -OH (hydroxyl) group attached to a carbon atom.

Description of raw materials used in production

• Sugar or starch - These are the main raw materials for the production of ethanol through the fermentation process.
• Water - Used in combination with yeast in the fermentation process.
• Yeast - Provides the enzymes necessary to convert sugar or starch into ethanol.

Synthesis process

• Fermentation: Sugars or starches are converted into ethanol and carbon dioxide through fermentation by yeast.
• Distillation: The ethanol is then separated from the fermentation mixture through distillation.

It appears as a colourless transparent, volatile, flammable liquid that can be mixed with water. Hygroscopic. Incompatible with strong oxidising agents, peroxides, acids, acid chlorides, acid anhydrides, alkali metals, ammonia. It is a reducing alcohol that cannot be mixed with potassium dichromate, chromic acid, osmium and other oxidising agents. It can dissolve fats and lipids and precipitate nucleic acid.

What it is used for and where

Normal ethyl alcohol is 95% alcohol and never pure alcohol.

Medical

The most common use of ethanol in medicine is its external application as an antiseptic, disinfectant and antimicrobial. The action of ethanol is broad-spectrum and counteracts mycobacteria with the exception of sporigenic bacteria, vegetative bacteria, fungi (which also have some viral and bacterial resistance to alcohols) and a number of viruses. Contrast activity takes place by interfering with cell metabolism and denaturing cytoplasmic and membrane proteins. The main applications are for surface disinfection and skin antisepsis, however, due to its rapid evaporation, ethanol is combined with other antiseptics. The WHO (World Health Organisation) has classified ethanol as an essential medicine in hand washing and disinfection (1) and the FDA (Food and Drug Administration) considers ethanol safe for human health although there is a risk of absorption and long-term exposure. This study ascertained the efficacy of ethanol over a 30-second period against:  SARS coronavirus, MERS coronavirus, ebolavirus, influenza A viruses including human type H3N2, avian type H3N8 and human type H1N1, influenza B ivirus, HIV, HBV, vacciniavirus, duck hepatitis B virus, togavirus, pseudorabies virus Newcastle disease virus, bovine viral diarrhoea virus, zikavirus, herpes simplex virus types 1 and 2 and RSV as well as numerous other viruses, all of which are listed in the study and represent the majority of clinically relevant viruses (2).

It is the most widely used compound for sclerotherapy of cysts where it has demonstrated excellent tolerance, low cost and repeatability of sclerosis in the presence of large cysts.

It has been indicated as a local analgesic agent in the treatment of spasticity and chemical neurosis, a procedure using ethanol, phenol or other alcohols injection after contrast medium injection. Other analgesic indications include neuropathic pain, manifestations of pain caused by viruses such as shingles, neuralgia and other types of pain.

For ethanol chemoembolisation, the guidelines (3) published in the 2016 edition by the e Japanese Society of Interventional Radiology (JSIR), specify aspects for the safe and effective use of absolute ethanol, such as the properties of absolute ethanol and recommendations, complications, methods of use and other aspects in typical pathologies.

Solvent in Drug Formulation. Ethanol acts as a solvent in many pharmaceutical formulations, especially in liquid preparations like elixirs and tinctures. It helps in dissolving ingredients that might not be soluble in water, ensuring even distribution of the medicinal components.

Treatment for Methanol or Ethylene Glycol Poisoning. In cases of methanol or ethylene glycol (antifreeze) poisoning, ethanol can be administered as an antidote. It competes with these toxic alcohols for the same metabolic pathways, reducing the formation of toxic metabolites.

Cryosurgery. Ethanol can be used in cryosurgery as a means to freeze and destroy malignant lesions.

Injection for Nerve or Tumor Ablation. Ethanol can be injected directly into nerves or tumors to cause cell death. This is sometimes used in procedures to alleviate chronic pain or to treat certain types of tumors.

Extraction and Preservation. Ethanol is used to extract medicinal compounds from plants and other sources. It's also used in the preservation of specimens in laboratories due to its antimicrobial properties.

Topical Use. Ethanol, when combined with other ingredient

Contraindications

Ethanol abuse leads to severe intoxication, neurobiological and neurochemical behavioural problems, and serious toxic effects on the liver, brain, and heart. In adolescents in particular, alcohol consumption may impair brain function and worsen health status in adulthood (4).

The concentration of ethanol in the blood varies depending on whether the subject is fasting or has consumed food, but ranges from a minimum of 1 mM, where no effects are noticed, to over 100 mM, which is highly lethal (5).

What natural products can counteract the toxic effects induced by ethanol? Vitamins, which have antioxidant functions, polyphenols extracted from plants, phenols such as resveratrol, flavonoids can generally help. However, it should be noted that the quantities of these components, when taken with vegetables, fruit and other foods, are not sufficient to prevent liver damage. Antioxidants such as catechins found in tea, blueberries are also mentioned in the scientific literature. Garlic with its enzymes, onion powder containing flavonols and sulphurates can also reduce liver damage. And then ginger, carnosine, cannabidiol.

Food

Used in the production of alcoholic beverages, wine.

Chemistry

Basic chemical raw material used in industrial processes for the production of acetic acid, ethylamine, acetaldehyde, ethyl acetate, ethyl chloride etc. Analytical reagent. Organic solvent.

Other uses

• Important organic solvent used in sanitary products, cosmetics, oils.
• Due to its low melting point at -114.5 °C it is used in antifreeze products.
• Nitro paints, paint solvent, fuels, inks.

Ethanol studies

Typical commercial product characteristics Ethanol/alcohol

Appearance	Colorless transparent liquid
Boiling Point	72.6±3.0°C at 760 mmHg
Melting Point	-114°C
Flash Point	8.9±0.0°C
Density	0.8±0.1 g/cm3
Vapor Pressure	82.8±0.2 mmHg at 25°C
Refraction Index	1.354
PSA	20.23000
LogP	-0.19
Acid (acetic acid)	10 max mg/L
Ethylacetate	<2 mg/L
Acetaldehyde	≤0.002%
Methanol	16 mg/L
Higher Alcohol(c3-c5)	200 mg/L
Evaporation residue	≤0.0005%
Acidity as H+	≤0.1 mmol/100g
Basicity as OH-	≤0.0005 mmol/100g
Carbonyl compounds as C	≤0.003%
Isopropanol（CH3)2CHOH	≤0.003%
Methyl alchol	≤0.015%
Safety

• Molecular Formula      C₂H₆O
• Linear Formula       CH₃CH₂OH
• PMolecular Weight     46.07
• Exact Mass    46.041866
• CAS  64-17-5
• UNII    3K9958V90M
• EC Number   200-578-6
• DSSTox Substance ID  
• IUPAC  ethanol
• InChI=1S/C2H6O/c1-2-3/h3H,2H2,1H3  
• InChl Key      LFQSCWFLJHTTHZ-UHFFFAOYSA-N
• SMILES   CCO
• MDL number  MFCD00003568
• PubChem Substance ID    329757771
• ChEBI    16236
• Beilstein    1718733
• NCI    c2190
• ICSC    0044
• NSC   85228
• RTECS   KQ6300000
• RIDADR    1170
• UN    1987  
• RXCUI    448
• FEMA    2419
• NACRES NA.25

Synonyms

• Ethyl alcohol
• Alcohol

References________________________________________________________________

(1) World Health Organization. (2015). The selection and use of essential medicines: report of the WHO Expert Committee, 2015 (including the 19th WHO Model List of Essential Medicines and the 5th WHO Model List of Essential Medicines for Children) (Vol. 994). World Health Organization.

(2) Kampf G. Efficacy of ethanol against viruses in hand disinfection. J Hosp Infect. 2018 Apr;98(4):331-338. doi: 10.1016/j.jhin.2017.08.025. Epub 2017 Sep 5.

(3) https://www.jstage.jst.go.jp/article/interventionalradiology/3/1/3_3-1G3/_pdf/-char/en

(4) Khan KM, Bierlein-De La Rosa G, Biggerstaff N, Pushpavathi Selvakumar G, Wang R, Mason S, Dailey ME, Marcinkiewcz CA. Adolescent ethanol drinking promotes hyperalgesia, neuroinflammation and serotonergic deficits in mice that persist into adulthood. Brain Behav Immun. 2022 Jul 27:S0889-1591(22)00334-8. doi: 10.1016/j.bbi.2022.07.160. 

(5) Contreras-Zentella ML, Villalobos-García D, Hernández-Muñoz R. Ethanol Metabolism in the Liver, the Induction of Oxidant Stress, and the Antioxidant Defense System. Antioxidants (Basel). 2022 Jun 26;11(7):1258. doi: 10.3390/antiox11071258.