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→Time needed to absorb and metabolize different amounts of alcohol
The higher the dietary fat content, the more time this emptying will require and the longer the process of absorption will take.
The higher the dietary fat content, the more time this emptying will require and the longer the process of absorption will take.
One study found that subjects who drank alcohol after a meal that included fat, protein, and carbohydrates, absorbed the alcohol about three times more slowly than when they consumed alcohol on an empty stomach. Ref???
One study found that subjects who drank alcohol after a meal that included fat, protein, and carbohydrates, absorbed the alcohol about three times more slowly than when they consumed alcohol on an empty stomach. [[Need citation]]
==== Role of fructose and carbohydrates in alcohol absorption ====
Rogers et al, showed that carbohydrates significantly increased the rate of alcohol metabolism in fasting humans while protein and fat failed to show the same effect. In this context it is interesting to mention that for a long time (prior to controlled scientific interventions) a common nonscientific experience existed claiming that consumption of honey may shorten the period of alcohol intoxication (honey is an excellent rich source of nutritional fructose). The honey significantly increased blood alcohol disappearance and elimination rates by 32.4 and 28.6 percent, respectively, and reduced the intoxication time (that is, the time taken to attain zero blood alcohol level) and its degree (the peak blood alcohol level) by 30 and 4.4 percent.
Rogers et al, showed that carbohydrates significantly increased the rate of alcohol metabolism in fasting humans while protein and fat failed to show the same effect. In this context it is interesting to mention that for a long time (prior to controlled scientific interventions) a common nonscientific experience existed claiming that consumption of honey may shorten the period of alcohol intoxication (honey is an excellent rich source of nutritional fructose). The honey significantly increased blood alcohol disappearance and elimination rates by 32.4 and 28.6 percent, respectively, and reduced the intoxication time (that is, the time taken to attain zero blood alcohol level) and its degree (the peak blood alcohol level) by 30 and 4.4 percent.
Fructose, also known as “fruit Sugar”, is naturally-occurring, is characterized by “clean” non-lingering sweet taste. Fructose is highly soluble, and is characterized by a Relative Sweetening Value (RSV) of 1.1-1.7 (where sucrose = 1.0), depending on temperature and pH.
Fructose, also known as “fruit Sugar”, is naturally-occurring, is characterized by “clean” non-lingering sweet taste. Fructose is highly soluble, and is characterized by a Relative Sweetening Value (RSV) of 1.1-1.7 (where sucrose = 1.0), depending on temperature and pH.
With regards to the possible mechanism by which fructose accelerates ethanol metabolism, a literature review indicates a possible shift in the metabolism of fructose in the presence of alcohol. This shift has been linked to the production in the liver of NAD+ which facilitates alcohol oxidation. Therefore, in the presence of alcohol, the metabolism of fructose in the liver is diverted from NAD+ to NADH requiring pathways, which in turn generates the NAD+ needed for alcohol oxidation<ref>Agro Food Industry hi tech Sep-Oct2009, Vol. 20 No.5; Fructose and its effect on alcohol elimination from blood following alcohol consumption; Fernando Schved</ref>.
Index 1:
Index 1:
Verse no. Name as per Charaka Lattin name Useful Part Rasa
Verse no. Name as per Charaka Lattin name Useful Part Rasa
Index 2:
Index 2:
(www.alcoholservices-ateam.org)
(www.alcoholservices-ateam.org)
References:
1. Charaka Samhita; Chaukhamba, Bhagwan Das, R K Sharma
2. Charaka Samhita; Chaukhamba, Bhagwan Das, Sharma
3. Alcohol Health and Research World; Mechanisms and Mediators; Robert swift, Dena Davidson; page 54-60
4. Frontiers in Psychology; Olfaction in alcohol dependence: a neglected yet promising research field; Maurage et al; Jan 2014, Vol.4. Article 1007
5. Journal of Neurosciences, May 1, 2002, 22(9), 3332-3337; Behavioural Neurobiology of Alcohol addiction; Weiss and Porrino
6. Journal of Plosone; August 2011, Vol.6, Issue 8; Olfactory Impairment Is Correlated with Confabulation in Alcoholism: Towards a Multimodal Testing of Orbito-frontal Cortex
Pierre Maurage et al
7. Alcohol Health and Research World; Alcohol’s role in Gastrointestinal disorders; Chirstian Bode & J. Christian Bode
8. Biological Psychology, Vol. 88, Issue 1; Sep 2011. 28-36; Chemosensory event-related potentials in alcoholism: A specific impairment for olfactory function; Maurage et al
9. Agro Food Industry hi tech Sep-Oct2009, Vol. 20 No.5; Fructose and its effect on alcohol elimination from blood following alcohol consumption; Fernando Schved
10. Charak Sutrasthana 1/ 44.
11. Sushrut sutrasthana 2:
Gunaha ye ukta dravyeshu sharireshu api te tathaI
sthana vriddhi kshayah tasmad dehino dravyahetukaII
12. Ashtang Hridaya Sutrasthana 11/37-38 commentary by Arundatta
13. Ashtang Hridaya Chilitsasthana 7 Madatyayachikitsa – Hemadri & Arundatta
14. Alcohol, the body and health effects; The Alcohol Advisory Council, NZ