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Investigation of the Formation of PAHs in Foods Prepared in the Home and from Catering Outlets to Determine the Effects of Frying, Grilling, Barbecuing, Toasting and Roasting

Investigators
White, Shaun
Institutions
Central Science Laboratory
Start date
2008
End date
2008
Objective
The effects of frying, grilling, roasting, toasting, using domestic cooking appliances, and barbecuing, will be investigated by carrying out controlled cooking experiments for a range of foods including sausages, beef burgers, beef, chicken and salmon. The effects of different types of fuel will be systematically investigated for the barbecuing experiments. PAH levels in pre-cooked food samples from retail or catering outlets will also be tested. 28 PAHs, including the 16 PAHs identified as mutagenic/genotoxic by the European Food Safety Authority will be analysed by gas chromatography.
More information
Background:
Cooking techniques such as grilling and barbecuing can result in the presence of polycyclic aromatic hydrocarbons (PAHs) in food. Direct contact with flames or very high cooking temperatures may result in the formation of PAHs on the food itself. Pyrolysis of fat dripping from food onto hot charcoal, or a similar heat source, can also be a significant source of PAHs in grilled or barbecued food.

Results and findings:
None of the controlled cooking experiments using domestic cooking appliances caused significant PAH formation in food but barbecuing did result in raised PAH levels to varying degrees depending on the type of food and fuel and the cooking duration.

Overall, barbecued beef burgers contained the highest levels of PAHs, with benzo(a)pyrene concentrations of up to 29 ppb. By comparison, benzo(a)pyrene concentrations were 17- to 125- times greater than in beef steak. For all food types except burgers, barbecuing over charcoal plus wood-chips resulted in the highest PAH concentrations. For example, the maximum benzo(a)pyrene concentration in sausages barbecued over charcoal plus wood chips was about 10-fold greater than for sausages cooked over charcoal alone.

The majority of the pre-cooked retail samples contained low PAH concentrations. However PAH levels were raised in three beef burger samples from catering outlets. Key Findings:

  • Frying, grilling and toasting using domestic cooking appliances did not cause significant PAH concentrations in any of the cooked food samples. The maximum benzo(a)pyrene (BaP) concentration and the maximum total concentration of the 16 PAHs identified by European Food Safety Authority as being mutagenic/genotoxic (the ‘EFSA 16’) were less than 0.09 ppb and 1.0 ppb respectively for these food samples
  • The maximum BaP concentrations in barbecued beef burgers and pork sausages were 29.1 and 30.6 ppb, respectively. The median BAP concentrations for barbecued beef burgers and pork sausages were 12.2 and 1.9 ppb. The maximum BaP concentrations in other types of barbecued food were considerably lower than for sausages or beef burgers.
  • The highest and median concentrations for the ‘EFSA 16’ PAHs in barbecued beef burgers were 566 and 221 ppb. For barbecued pork sausages, the highest and median concentrations for the ‘EFSA 16’ PAHs were 446 and 30.7 ppb, respectively.
  • In general, barbecuing with charcoal plus wood chips gave the highest levels of BaP, but barbecuing over charcoal alone gave the highest BaP concentrations in the case of beef burgers.
  • Extended cooking time resulted in moderate increases in PAH levels for some types of barbecued food, but for beef burgers cooked over charcoal or charcoal plus wood chips, there was a decrease in PAH levels when cooking time was extended by 50% or 100%. Thorough cooking to prevent food poisoning remains the most important food safety consideration.
  • For the barbecued food samples, there was no clear correlation between fat content in the food prior to cooking and the PAH levels found following barbecuing.
  • BaP concentrations were negligible in the majority of pre-cooked food composite samples from retail and catering outlets but the highest three BaP concentrations – all in beef burger samples – were 8.4, 9.8 and 20.4 ppb.

Find more about this project and other FSA food safety-related projects at the Food Standards Agency Research webpage.

Funding Source
Food Standards Agency
Project number
C02069
Categories
Bacterial Pathogens
Natural Toxins
Commodities
Meat, Poultry, Game