Food provides essential nutrients like calcium, potassium and phosphorus, but it can also carry harmful heavy metals such as arsenic, mercury and lead. These toxic elements – whether absorbed from soil or introduced during production – pose serious health risks, especially for children.
This article explores how triple quadrupole inductively coupled plasma mass spectrometry (ICP-MS) delivers fast, sensitive detection of a wide range of elements to support compliance with regulatory standards in baby food analysis.
Download this article to discover:
- The unique advantages of triple quadrupole ICP-MS for accurate contaminant detection
- How this technology overcomes interference issues common in complex matrices
- Practical insights into achieving regulatory compliance with efficient analysis methods
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Improving Speed, Sensitivity and
Accuracy of Baby Food Analysis
With Triple Quadrupole ICP-MS
Article Published: August 3, 2022 | Sukanya Sengupta and Daniel Kutscher, Thermo Fisher Scientific
Food contains an abundance of nutritional elements, such as calcium, potassium and phosphorus,
that are essential for proper bodily function and growth. Alongside these, food can also contain heavy
metal contaminants such as arsenic, mercury and lead. These toxic elements can occur either naturally
(as a result of them being absorbed from the soil in which the foodstuff is grown) or be introduced
through contamination during production, and can cause negative effects on human health. Children are
particularly vulnerable to these toxins due to their low body mass and underdeveloped immune systems.
A study showed that daily exposure to even small quantities of toxic elements can lead to brain function
decline and other negative long-term effects in children.
Based on these health concerns, it is essential to be able to accurately determine levels of different
elements in foods intended for babies and young children to ensure that they are safe for consumption.
In this article, we outline the current regulations regarding heavy metal contamination, and how triple
quadrupole inductively coupled plasma mass spectrometry (ICP-MS) can help quantify both nutrients and
toxins to meet these regulations and support human health.
The importance of accurate and sensitive determination
To protect consumers, there are stringent limits on the quantities of toxic elements in food. These vary
from country to country, and several regulations exist to define these limits: for example the Federal
Food, Drug, and Cosmetic Act (FDCA) in the US, and GB-2762-2017 in China. Due to the vulnerability of
infants, the specific European regulations EC 609/2013 and EC 1881/2006 have set very low limits for arsenic, lead and cadmium in food for babies and young children. These stricter regulations are expected
to be adopted worldwide, as illustrated by the Baby Food Safety Act of 2021, which proposes extremely
low levels of elements such as lead and mercury.
Globally, the lowest current limits for toxic elements set in the above-mentioned regulations are 10 μg
kg-1 for arsenic, 5 μg kg-1 for cadmium and lead, and 2 μg kg-1 for mercury. With such low limits (that
are likely to decrease further), highly sensitive techniques are required to ensure that samples comply
with regulations and protect consumers. In addition, food is a very complex matrix with many different
components. Analytical methods must therefore be able to detect and correct any interferences caused
by this sample matrix to truly be capable of quantifying accurate levels of toxins in baby food.
The false positive problem
Single quadrupole ICP-MS is a generally accepted standard technique for analyzing nutrients and toxic
elements in food. This approach routinely provides elemental analysis in a wide range of samples and
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IMPROVING SPEED, SENSITIVITY AND ACCURACY OF BABY FOOD ANALYSIS WITH TRIPLE QUADRUPOLE ICP-MS 2
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facilitates high sample throughput through rapid sample scanning. However, false positives in the data
may occur using this technique, reducing confidence in the results. For example, molybdenum and tungsten in the samples can form 95Mo16O+ and 186W16O+ interferences in the ICP which cause false positive results for 111Cd and 202Hg. While a kinetic energy discrimination approach can generally be used to reduce
the effect of polyatomic interferences, this approach is less efficient for those interferences with masses
larger than 100 amu. In addition, obtaining accurate results with single quadrupole ICP-MS can be time
consuming, as multiple operation modes need to be used to measure all elements. Therefore, techniques
that have improved sensitivity and accuracy are essential for meeting regulatory performance requirements.
Improved analysis with triple quadrupole ICP-MS
Triple quadrupole ICP-MS is a promising approach that can overcome the drawbacks of single quadrupole
ICP-MS, offering many benefits when used for baby food detection. Most notably, the technique is highly
sensitive and accurate as it has enhanced interference removal capabilities compared to single quadrupole ICP-MS. This is because it can be operated with oxygen collision/reaction cell gas, which removes the
MoO+ and WO+ interferences on Cd and Hg mentioned earlier (as well as removing 40Ar35Cl+ interference
on 75As) thereby eliminating false positive results. The technique has a similar linear dynamic range to
single quadrupole ICP-MS, being capable of measuring from 0.005 μg kg-1 to 100,000 μg kg-1 for major
elements, meaning that all target elements can be analyzed in one run without any extra dilution or calibration steps. However, use of a single operation mode means the method can achieve high accuracy in
less time.
Accurate and sensitive results
A single method was recently developed for the analysis of 30 elements (both toxic and nutritional) present
in baby foods, using triple quadrupole ICP-MS (Table 1). Ten different commercially available baby food
samples were analyzed by this method, including milk powders, purees and cereals.
Detection limits of below 1 μg L-1 were achieved for 29 of the elements analyzed, and 1.5 μg L-1 for calcium. The minimum limit of quantitation (MLOQ) of As, Cd, Hg and Pb in real samples was at least 70% lower
than global regulatory limits, showing the method’s exceptional sensitivity and suitability for future stringent regulations. The method validity and accuracy were determined, giving results between 85–120% of
the certified concentration. Finally, excellent run times of 1 minute 19 seconds per sample were achieved,
giving a sample throughput comparable to that of the single quadrupole ICP-MS method.
IMPROVING SPEED, SENSITIVITY AND ACCURACY OF BABY FOOD ANALYSIS WITH TRIPLE QUADRUPOLE ICP-MS 3
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Improving baby food safety
Triple quadrupole ICP-MS is a valuable tool for analyzing a host of essential nutrients and harmful heavy
metals in baby food in a single analysis. The method is accurate, sensitive and rapid, making it perfect for high
throughput testing laboratories. This approach will support laboratories to quantify these elements to meet
increasingly stringent requirements, both now and in the future, and ensure food safety for children and babies
for generations to come.
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Table 1: Compositions of ten different baby food samples analyzed by triple quadrupole ICP-MS. Values of the toxic heavy
metals As, Cd, Hg, and Pb (in blue) are in μg kg-1, and all other values are in mg kg-1.
<DL = below detection limit. N.A. = not applicable.