Cellmark’s ISO 17025 accredited hair drug & alcohol testing service provides rapid, reliable scientific analysis which is clearly reported and simply explained. We are also one of the largest suppliers of forensic analysis to the police and the UK’s leading DNA paternity tester with 30 years’ experience of delivering market leading scientific testing to the general public, the legal community and the courts.
Cellmark analyses for chronic alcohol consumption (defined as an average consumption of 60 grams of pure alcohol per day over several months). As a minimum we recommend our standard alcohol testing package which includes both hair and blood sample testing.
In our enhanced package we offer an additional service covering the detection of EtG and ethyl sulphate (EtS) in urine. This alcohol test offers greater sensitivity and accuracy for determination of recent (in the previous 48 hours) alcohol consumption.
We would always advise that a clinical assessment by a medical professional is also undertaken.
The Society of Hair Testing states that the direct determination of ethanol itself in hair is not possible due to its volatility and its potential absorption from external sources. Instead, the minor ethanol metabolites, ethyl glucuronide (EtG) and/or fatty acid ethyl esters (FAEEs) can be measured in hair as direct markers of alcohol consumption.
The concentration of EtG and FAEEs in hair can be influenced by cosmetic treatments including bleaching, perming and thermal straightening products. It is recommended that any cosmetic hair treatment undertaken should be considered during the analysis. Whilst EtG seems not to be affected by a wide range of hair care products their use can lead to a false positive for FAEEs. One reason why our standard recommended test covers both hair and blood sample testing.
Transferrin is a protein present in blood that transports iron around the body and it can also be used to indicate chronic alcohol consumption. In normal subjects transferrin in the blood has between 3-5 carbohydrate sidechains attached to it. When excess alcohol is consumed the attachment of carbohydrate sidechains is reduced to between 0-2. This has become known as carbohydrate deficient transferrin (CDT).
Transferrin remains in the blood circulation for 7 to 14 days and the CDT test can therefore give an indication of excessive alcohol consumption over the previous couple of weeks before the blood sample was taken. A reading of greater than 1.6% in the test indicates possible excessive alcohol consumption during the weeks preceding the test.
Alcohol misuse is the most common reason for elevated CDT levels however elevated levels may also be caused by cirrhosis and other related liver conditions. People with these conditions would also show corresponding anomalies in the liver function (LF) test results. Performing both tests together is therefore important. In addition to our testing we would also always recommend that you seek a clinical assessment by a medical professional.
Liver Function (LF) testing looks at a range of markers within the blood to check how the liver is performing; these are gamma-GT (GGT), alanine aminotransferase (ALT) and aspartate aminotransferase (AST). Excessive consumption of alcohol will affect liver function and produce raised levels of these markers.
Alanine transaminase (ALT) is an enzyme that helps to process proteins. Large amounts of ALT occur in liver cells and if the liver is injured or inflamed the blood level of ALT usually rises.
Aspartate aminotransferase (AST) is another enzyme usually found inside liver cells. High levels of this enzyme in the blood usually mean the liver is injured in some way. However as AST can also be released if heart or skeletal muscle is damaged ALT is usually considered to be more specifically related to liver problems.
Gamma-glutamyl transferase (GGT or 'gamma GT'). A high level of this enzyme is particularly associated with heavy alcohol drinking however there can be other explanations including liver disease and as such it should not be considered in isolation.
In our enhanced package we offer an additional service covering the detection of ethyl glucuronide (EtG) and ethyl sulphate (EtS) in urine. EtG and EtS are direct biomarkers of recent (binge) drinking. They are more stable than ethanol and are consequently more detectable.
Urinary alcohol is normally detectable for a few hours after consumption whereas EtG is detectable in urine up to 3-5 days depending on the amount of alcohol consumed.
Ethyl glucuronide (EtG) was described as early as the 1950's, however, clinical use of the test as an alcohol marker began in 2001 when Dr. Friedrich Wurst, in Switzerland, and Dr. Gregory Skipper, in the USA reported a study of alcoholics in a psychiatric facility in Germany. Their findings demonstrated that EtG was a more sensitive and reliable indicator of both drinking and abstinence than was urine alcohol.
Although some studies have identified false positives which have been allegedly produced by substances other than alcohol, Cellmark's partner laboratory undertakes a process of testing Creatinine levels in order to "normalise" the test. When urine is more concentrated all the values are skewed upward and when urine is more dilute the values are skewed downward - normalising takes account of this.
We have a simple staged pricing structure for alcohol testing:
on its own in hair
EtG and FAEE
Blood alcohol markers
with a hair test
Blood and Urine markers
with a hair test
Please call us on 0800 036 2522 for an alcohol testing quote
From ensuring that you have the right information before commencing the process to understanding what the final test report means - we aim to provide assistance every step of the way.