Dr Scott Henderson
August 2021
An estimated 68% of consumers worldwide have a low ability to digest lactose. Lactose intolerance is an uncomfortable dietary restriction that affects the ability to digest lactose, a sugar found in milk and dairy products.
The intolerance occurs when the intestine does not produce enough of the lactase enzyme which breaks down lactose so the body can absorb it. After it is diagnosed, there is no cure, only management of the symptoms.
According to medical research, the most effective treatment for lactose intolerance is to regulate the diet in accordance with a health care provider to reduce or eliminate lactose consumption. 1
Demand for lactose-free dairy is expanding and food testing laboratories need to be able to test dairy samples efficiently. Both the equipment and the consumables used in the process are critical to obtaining accurate results.
Jeff Rohrer, the Director of Applications Development at Thermo Fisher Scientific in Sunnyvale, California, notes that the traditional methods of testing milk for lactose are not as accurate or quick as using new technologies such as Ion Chromatography (IC) and High-Performance Liquid Chromatography (HPLC).
“The traditional techniques were enzyme and colormetric based and very labour intensive,” says Jeff. “In these methods, we treat with enzymes in a way that converts the lactose to a coloured compound that we then measure.”
However, this process is often not sensitive enough to detect trace lactose and there can be interferences that cause ‘false positives,’ explains Jeff.
“With new technology, modern methods are more sensitive, automated, and directed toward detecting exactly that compound,” asserts Jeff.
Additionally, the standard for a lactose-free classification “varies country to country,” he explains.
“In France, to define something as lactose-free it has to be 0.01% lactose or less,” he highlights. “While in Germany, it’s 0.1%, which is ten times higher.”
Since low levels of lactose are difficult to determine through traditional methods, countries like France and Germany are looking at more advanced methods like IC or HPLC.
IC or HPLC? The point of difference
Not every lab requires a complex testing setup. According to Jeff, the correct methods when utilising new technology and automation processes for detecting lactose will depend on the application.
“The IC method is best for people who really need a sensitive analysis. We have something called “eluent generation” that makes the eluents (mobile phases) we need to perform the test automatically. You don’t have to mix your own solutions,” he says.
Elaborating, Jeff explains the IC lactose testing process in detail.
“We take a milk sample and we add acetic acid to it. Then we precipitate proteins out and then filter that solution through syringe filters that will take out all the particulates. Then we are left with a clear solution that we inject into our system. The system separates lactose from other sugars and detects using electrochemistry. With this detection, we oxidise the lactose which gives us an electronic signal, which we measure.”
Once a sample is prepared, the IC method can be a completely automated process.
“I can do a simple sample preparation, set up my programs and then come back the next morning and have the answer for all my samples,” says Jeff.
Alternatively, Jeff breaks down the HPLC method, which is for customers with a more substantial budget.
“This method requires the use of a mass spectrometer, which is placed next to the liquid chromatography,” he says. “It is not for routine samples. HPLC requires a lot more hands-on work.”
It is important to note that the quality of the consumables in a laboratory is critical to the success of either the IC or HPLC method.
“For example, we use the same syringes you would use to administer a vaccine and we move the liquid through a filter,” explains Jeff. “The quality of that filter affects your samples a lot. Using low quality filters can result in extra compounds presenting in an analysis.”
“Our objective is to ensure that nothing takes away analyte (i.e. lactose) from our samples or adds extra compounds,” concludes Jeff.
Thermo Fisher Scientific understands the criticality of using the right type of consumables for these testing techniques. Their instrument and consumable product range offers applications and methods that will obtain the most accurate and efficient results in lactose analysis.
If you require help with any of your analyses, get in touch with one of our chromatography specialists
About the author:
Dr. Scott Henderson is an ANZ Product Manager for CCS Chromatography Consumables. Scott brings together twenty years of practical experience working within research institutes and the pharmaceutical industry with extensive technical knowledge to provide solutions for customers chromatography needs. He is currently based in Scoresby, Australia.
References: