No abstract available
Acetaldehyde ; Liver ; Metabolism*

No abstract available.
Acetaldehyde* ; Disulfiram* ; Ethanol* ; Patch Tests*

Alcohol-related problems are prevalent and lead to substantial economic, physical, and psychological burden. Among the various effects of alcohol, the effect on the brain is a matter of importance. The brain controls drinking behaviors and may be damaged earlier than other organs by alcohol. Moreover, alcohol-related brain pathologies are difficult to treat once they have progressed. Therefore, we overviewed the mechanisms and results of alcohol-induced brain damage and interventions against it in this article. Alcohol exerts neurotoxic effects mediated by various mechanisms, such as acetaldehyde toxicity, glutamate excitotoxicity, increased oxidative stress, and chronic inflammatory responses. In both functional and structural neuroimaging studies, the evidence of alcohol-induced brain damage was observed in various regions of gray and white matter. Brain damage has been known to be more prominent when it begins during the period of brain development and in women. Symptomatically, alcohol hangovers and alcohol-induced blackouts, which are highly prevalent alcohol-related problems, have been suggested to be early signs of alcohol-related brain damage. However, neurological changes induced by alcohol have been reported to be partly recovered by abstinence. The development of effective interventions would be clinically important. Although following the rules of low-risk drinking and abstinence have been the primary approaches up to the present, studies on mechanism-based neuroprotective interventions, such as acamprosate and memantine, have attempted. Further prospective and well-designed studies of neuroprotective interventions against neurotoxic effects of alcohol are required.
Acetaldehyde ; Brain ; Drinking ; Drinking Behavior ; Female ; Glutamic Acid ; Humans ; Memantine ; Neuroimaging ; Oxidative Stress ; Taurine

PURPOSE: This study was designed to investigate the direct effects of ethanol and its metabolites, acetaldehyde and acetic acid, on isolated rat bladder muscle. MATERIALS AND METHODS: For measuring of isometric tension change, rat bladder muscle strips were used. Following ethanol(0.25-3%) was applied to bethanechol(0.1mM)-precontracted muscle strips, acetaldehyde(0.1 to 10mM) and acetic acid(0.1 to 10mM) were applied to resting muscle strips respectively, and were applied to bethanechol(0.1 mM)-precontracted muscle strips respectively. RESULTS: Bladder contraction of tissue strips induced by bethanechol was reduced by ethanol in a dose-dependent manner. Acetaldehyde(1 to 10mM) and acetic acid(5 to 1 0mM) increased the rssting tension(control group), and acetaldehyde(0.1 to 10mM) and acetic acid(0.1 to 10mM) applied to bethanechol-induced contraction enhanced significantly contraction compared to control group. CONCLUSIONS: The results of this study indicate that responses of the rat bladder muscle were reduced by exposure to ethanol, and however, acetaldehyde and acetic acid affect the resting tension itself and show synergistic effect to bethanechol in bladder contractility. These suggest that all of the acute ethanol intoxication did not cause to urinary retention in human with benign prostatic hyperplasia.
Acetaldehyde ; Acetic Acid ; Animals ; Bethanechol ; Ethanol* ; Humans ; Prostatic Hyperplasia ; Rats* ; Urinary Bladder* ; Urinary Retention

BACKGROUND: Anticholinesterase drug inhibits acetylcholinesterase(AChE), induce accumulation of acetylcholine(ACh) near cholinergic receptors and cholinergic stimulation. This experiment was performed to study the effects of anticholinesterase drugs on gastric motility and the effect of ethanal on anticholinesterase drug-induced motility change. MATERIALS AND METHODS: After excision of stomach, 2x10mm circular musele strips were made, which were then fixed to the isolated muscle chamber. An isometric tension transducer was used to measure the contraction change of the gastric smooth muscle strips after drug addition. RESULTS: Fenthion, and irreversible anticholinesterase drug, increased ACh induced contraction of gastric smooth muscle strips and PAM, a cholinesterase activator, antagnized this action. Physostigmine, a reversible anticholinesterase drug, also increased the ACh induced contraction. The gastric motility was decreased by PAM. Ethanol, which is known to induce smooth muscle relaxation, inhibited the increase of contraction by fenthion. CONCLUSION: These results indicate that irreversible and reversible anticholinesterase drugs increase gastric motility and antagonized by cholinesterase activating drugs. And when exposed to both ethanol and anticholinesterase drug, gastric motility was decreased by the smooth muscle relaxation effect by ethanal.
Acetaldehyde ; Cholinesterase Inhibitors* ; Cholinesterases ; Ethanol ; Fenthion ; Muscle, Smooth ; Physostigmine ; Receptors, Cholinergic ; Relaxation ; Stomach ; Transducers

This study was conducted to evaluate the ability of plants to purify indoor air by observing the effective reduction rate among pollutant types of particulate matter (PM) and volatile organic compounds (VOCs). PM and four types of VOCs were measured in a new building that is less than three years old and under three different conditions: before applying the plant, after applying the plant, and a room without a plant. The removal rate of each pollutant type due to the plant was also compared and analyzed. In the case of indoor PM, the removal effect was negligible because of outdoor influence. However, 9% of benzene, 75% of ethylbenzene, 72% of xylene, 75% of styrene, 50% of formaldehyde, 36% of acetaldehyde, 35% of acrolein with acetone, and 85% of toluene were reduced. The purification of indoor air by natural ventilation is meaningless because the ambient PM concentration has recently been high. However, contamination by gaseous materials such as VOCs can effectively be removed through the application of plants.
Acetaldehyde ; Acetone ; Acrolein ; Benzene ; Formaldehyde ; Particulate Matter* ; Plants ; Styrene ; Toluene ; Ventilation ; Volatile Organic Compounds* ; Xylenes

Disulfiram has been used for the treatment of alcohol dependence for nearly 65 years and is approved by the Food and Drug Administration. It causes negative reinforcement by accumulating toxic acetaldehyde due to irreversible inhibition of aldehyde dehydrogenase. Disulfiram has very few side effects when taken without alcohol. Epileptic seizure induction is a rare side effect in therapeutic doses, and its mechanism is unknown. We present a patient with a single epileptic seizure which was thought to be due to disulfiram used in the treatment of alcohol dependence. We did not find it ethical to administer disulfiram again because the patient discontinued alcohol use and was afraid of epileptic seizures.
Acetaldehyde ; Alcoholism ; Aldehyde Dehydrogenase ; Disulfiram ; Epilepsy ; Humans ; Reinforcement (Psychology) ; United States Food and Drug Administration

This study was conducted to evaluate the ability of plants to purify indoor air by observing the effective reduction rate among pollutant types of particulate matter (PM) and volatile organic compounds (VOCs). PM and four types of VOCs were measured in a new building that is less than three years old and under three different conditions: before applying the plant, after applying the plant, and a room without a plant. The removal rate of each pollutant type due to the plant was also compared and analyzed. In the case of indoor PM, the removal effect was negligible because of outdoor influence. However, 9% of benzene, 75% of ethylbenzene, 72% of xylene, 75% of styrene, 50% of formaldehyde, 36% of acetaldehyde, 35% of acrolein with acetone, and 85% of toluene were reduced. The purification of indoor air by natural ventilation is meaningless because the ambient PM concentration has recently been high. However, contamination by gaseous materials such as VOCs can effectively be removed through the application of plants.
Acetaldehyde ; Acetone ; Acrolein ; Benzene ; Formaldehyde ; Particulate Matter ; Plants ; Styrene ; Toluene ; Ventilation ; Volatile Organic Compounds ; Xylenes

BACKGROUND/OBJECTIVES: Telomere length is a useful biomarker for determining general aging status. Some studies have reported an association between alcohol consumption and telomere length in a general population; however, it is unclear whether the alcohol flush reaction, which is an alcohol-related trait predominantly due to acetaldehyde dehydrogenase deficiency, is associated with telomere length. This cross-sectional study aimed to evaluate the associations of alcohol consumption and alcohol flush reaction with leukocyte telomere length (LTL). SUBJECTS/METHODS: The study included 1,803 Korean adults. Participants provided blood specimens for LTL measurement assay and reported their alcohol drinking status and the presence of an alcohol flush reaction via a questionnaire-based interview. Relative LTL was determined by using a quantitative polymerase chain reaction. Statistical analysis used multiple linear regression models stratified by sex and age groups, and potential confounding factors were considered. RESULTS: Age-specific analyses showed that heavy alcohol consumption (> 30 g/day) was strongly associated with a reduced LTL in participants aged ≥ 65 years (P < 0.001) but not in younger participants. Similarly, the alcohol flush reaction was associated with a reduced LTL only in older participants who consumed > 15 g/day of alcohol (P < 0.01). No significant alcohol consumption or alcohol flush reaction associations with LTL were observed in the sex-specific analyses. CONCLUSIONS: The results suggest that older alcohol drinkers, particularly those with the alcohol flush reaction, may have an accelerated aging process.
Acetaldehyde ; Adult* ; Aging ; Alcohol Drinking* ; Aldehyde Dehydrogenase ; Cross-Sectional Studies ; Humans ; Leukocytes* ; Linear Models ; Oxidoreductases ; Polymerase Chain Reaction ; Telomere*

The present study was performed to evaluate the hangover relieving effect of germinated buckwheat (GB) and Sanghwang mushroom mycelium cultured in GB (SGB). Both GB and SGB showed 1,1-diphenyl-2-picrylhydrazyl radical scavenging activities and significantly increased (p < 0.001) aldehyde dehydrogenase (ALDH) activities; up to 140% increase at concentrations of 16 µL/mL. Locomotor activity test results from alcohol-SGB and alcohol-GB groups showed improved motor activities over that of the alcohol-water group at 90 min post-administration. Both alcohol-GB and alcohol-SGB groups had significantly reduced (p < 0.001) alcohol (40.02 ± 33.38 µg/mL, 66.01 ± 22.04 µg/mL, respectively) and aldehyde (5.72 ± 0.47 µg/mL, 6.72 ± 1.70 µg/mL, respectively) concentrations in blood compared to those in the alcohol-water group (199.75 ± 33.83 µg/mL, 50.43 ± 13.88 µg/mL, respectively) at 90 min post-administration. Based on cDNA microarray analysis, expressions of ALDH genes ALDH1a7 and ALDH18a1 and cytochrome P450 (CY450) gene CYP4a30b were upregulated in the alcohol-GB and alcohol-SGB groups compared to levels in the control group. Overall, the results suggest that both GB and SGB have hangover relieving effects by reducing blood acetaldehyde levels. The molecular mechanisms may involve ALDH activation and upregulated expression of alcohol metabolism-related genes such as ALDH and CYP450.
Acetaldehyde ; Agaricales* ; Aldehyde Dehydrogenase ; Cytochrome P-450 Enzyme System ; Fagopyrum* ; Motor Activity ; Mycelium* ; Oligonucleotide Array Sequence Analysis