Impact of different cooking methods on polycyclic aromatic hydrocarbons in rabbit meat

Abstract The influence of a variety of cooking methods (poaching, boiling, grilling (charcoal or gas)), frying (pan, deep frying, and stir frying) with a variety of oils (vegetable oil, extra virgin olive oil, sesame oil, extra light olive oil, and sunflower oil), microwaving, and oven roasting on polycyclic aromatic hydrocarbons (PAHs) formation in rabbit meat samples was investigated. Meat samples (including three replicates) were prepared without additives or spices. PAHs extraction was carried out by saponification method with potassium hydroxide in methanol which was followed by a silica gel column technique and the samples were quantified by using gas chromatography with mass spectrometry (GC‐MS). PAHs standards, fluorene, naphthalene, anthracene, phenanthrene, pyrene, acenaphthalene, fluoranthene, and benzopyrene, were used for this study. The other PAHs except fluorene were not observed (detection limit‐0.009 µg/g) in all the samples. Among traditional processing techniques, higher PAH contents were observed as a result of frying. Frying with vegetable oil produced higher fluorene content (0.06–0.13 µg/g) in the deep‐fried sample, although sesame oil is the best oil which produces lowest PAH contents in fried samples. Among all the processing techniques, lower fluorene (0.01–0.02 µg/g) content was noticed in poaching. Benzo(a)pyrene was not observed in all the investigated samples which is viewed as a reliable strategy of the cooking process for human consumption. After processing, the cooking loss was determined and oven roasting and grilling exhibited greater moisture loss.


| Sample preparation
For sampling, thirty rabbits (each weighing around 350 g) were purchased from a supermarket in Faisalabad, Pakistan. The meat samples of rabbit (foreleg, hind leg, and back) were separately cleaned with tap water and then dipped into acetic acid (2% solution) for 10 min and removed layers of fat and bones from meat (Abou-Arab et al., 2014). After dehydrating, the rabbit meat samples were homogenized for 2 min with Waring food grinder. Every part of the rabbit sample was deliberated equally, placed in transparent nylon bags, and frozen at −20°C (Siddique et al., 2021).
In this study, processing methods including poaching, boiling, frying (pan, deep, and stir frying) with a variety of oils, grilling (charcoal grilling and natural gas grilling), microwaving, and oven roasting were applied for samples (three portions for each sample) preparation (Sobral et al., 2018). The list of cooking methods is represented in Figure 1. No spices or condiments were added to the processing treatments. After processing, the samples were cooled and deliberated the cooking mass. Then, the samples were homogenized in a Waring food grinder (Milford, MA, USA). Every sample (including three replicates) was placed in transparent nylon bags and frozen at −20°C (Duedahl-Olesen et al., 2015).

| Sample extraction and clean-up procedure
The extraction and clean-up methodology which is utilized for the separation of PAHs from samples is a slight variation of a procedure used by Chung et al., (2011). A schematic diagram of the sample extraction procedure for PAH determination is shown in

| Analytical method
Polycyclic aromatic hydrocarbons compounds in samples of rabbit meat (108 samples) were quantified with the GC-MS technique by Kao et al., (2012)

| Statistical analysis
Analysis of variance (One and Two way ANOVA) was used for relating various cooking kinds and meat samples. The analysis was done using the statistical software Minitab 13.2.

| Cooking loss
The loss of meat samples during processing is depicted in Table 1.
During thermal treatment, loss of meat samples does not only depend on various cooking treatments, the surface of cooking, time, and temperature but also based on the quality of meat, including the content of fat, protein, and water, as well as pH and size of meat (Alfaia et al., 2010). Processing losses seem to rise directly with the processing time and the internal temperature attained by meat products, with oven roasting and grilling having greater moisture loss and higher intramuscular content of lipids (Alfaia et al., 2010).

| Poaching, and boiling
Poaching is a simple moist heat cooking method by submerging meat in the water at low temperatures (70-80°C). Due to low temperature, meat is gradually soft and moist without losing its moisture level. Poaching produced low fluorene content (0.01 µg/g) in all the poached samples.
Boiling is a simple technique used for cooking a variety of foods. Solyakov and Skog (2002) reported that boiling of poultry items does not produce a large number of carcinogenic compounds, because in this cooking technique, low temperature (<100°C) is used.
In this study, the only fluorene was detected in the range of 0.02-0.06 µg/g. The other PAHs were produced below the detection limit (0.009 µg/g) in all the boiled samples. Low PAHs formed in poached samples rather than boiled samples because low temperature and less time were used in poaching (Figure 3).

| Frying
Frying is a rapid cooking methodology that provides a delicious taste.
Frying is classified into three classes: (a) pan frying having no oil or fat, (b) stir frying with minimum oil or fat, (c) deep frying having maximum oil or fat. Pan frying generated low content of PAHs. Benzo [a] pyrene content in raw edible oils is given in Table 2. Among all these edible oils, vegetable oil exhibited a higher concentration of benzo [a] pyrene (0.0005 µg/g) followed by sunflower oil (0.0004 µg/g). Olive oil (extra virgin and extra light) showed the lowest benzo[a]pyrene (0.0001 µg/g).

| Pan-fried
As shown in Figure 3, fluorene was only detected in all the parts (hind leg, back, foreleg) of rabbit meat in the range of 0.05-0.07 µg/g. Panfried samples exhibited a low level of contaminated particles than stir frying (Figure 3) (Raza et al., 2015). Pan-frying process used no oil or fat at the base of samples, so that transfer of heat into the inner portion of muscles is less as compared to stir and deep frying with using oil as a medium and exhibited a smaller concentration of fluorene formed in rabbit meat processed through this technique.

| Stir-fried and deep-fried
The low PAHs and benzo[a]pyrene contents emitted from stir-frying and deep-frying processes are shown in Figure 4. PAH emissions produced from diverse cooking procedures were noticed differently, and PAH levels in deep-frying procedures were significantly greater than those formed via frying process, across oil temperature as well as volume investigated. As presented in Figure 1, the average temperature of the oil was reached at 140-150°C during the deep-frying process, which is higher than the temperature (120°C) used during the other frying cooking methodologies. In the study of Abdullahi et al., (2013) and Yao et al., (2015), deep-frying cooking procedure produced more PAH concentration due to the usage of greater temperature and volume of oil. Hence, oil volume and its temperature significantly affect PAH concentration.
The fluorene range in hind leg portion was 0.03-0.13 µg/g, 0.02-0.09 µg/g in back and 0.05-0.17 µg/g in foreleg. The PAHs contents in rabbit meat were significantly lower than Janoszka et al., (2004) study. Samples were fried with vegetable oil contained the highest fluorene content as compared to other oils. Stir frying with vegetable oil generated 0.08 µg/g fluorene content in
Whereas, deep frying with vegetable oil generated 0.13 µg/g fluorene content in the hind leg, 0.09 µg/g in the back, and 0.17 µg/g in the foreleg. Processing with vegetable oil produced the greatest PAH level, followed by processing with extra virgin olive oil, extra light olive oil, sunflower oil, and sesame oil. Deep-fried foreleg rabbit meat produced the highest content of PAH, followed by hind leg deep frying, and back deep-frying process. By comparing sesame oil with extra virgin olive oil, olive oil produced high PAH concentration in meat (Hao et al., 2016). The fluorene content was also produced at a high concentration (0.08 µg/g) in the foreleg portion by using sunflower oil; sunflower oil possessed a high PAH level (Fromberg et al., 2007) (Figure 5).
The deep-frying process utilized more fat than other cooking techniques. Lipids were absorbed into the inner division of meat samples, so it reduced the protein degradation, and less extreme variations occurred. But foreleg portion of rabbit meat contains larger fat and protein content than the other portions, both of which are accountable for the PAH generation. Protein molecules are degraded to form amino acids, which then react with sugars compounds that are already in the muscle and produce precursors in the generation of contamination. Lipid dilutes these starting materials and transfers extra heat into the meat fiber, which promote them to act together at higher speed and produce PAH at a higher amount (Raza et al., 2015).

Among all the PAHs, benzo[a]pyrene is the most toxic PAH, and it
is considered as an indicator of total PAH in the environment (Tiwari et al., 2013). Abdullahi et al., (2013) described that greater amount of heavy PAHs was produced in the deep-frying process. Moreover, See et al., (2006) explained that lower and heavy PAH compounds were produced by providing the low-and high-temperature processing methodologies.
In our study, benzo[a]pyrene was not detected in all the samples. By comparison of all the results, it can be confirmed that parameters (temperature and volume of oil) set for frying conditions are more suitable and produced safer food for human consumption.

| Grilling
Grilling was seen to be the most dominant processing method in the generation of these mutagens. It is a quick meal preparation technique that uses a direct heat source. Meat is cooked directly over gas grills or charcoal at high temperatures. Temperature and the distance between the heat source and meat are the other major factors to PAH formation (Chung et al., 2011). The generation of PAHs is greatly dependent on the type of grilling; gas grilling as well as charcoal grilling (Gorji et al., 2016;Viegas et al., 2012). In this study, charcoal grilling produced significantly higher fluorene content (0.02-0.11 µg/g) in all the parts ( Figure 6). Grilling with charcoal leads to higher PAH generation which resulted from incomplete burning of charcoal as compared to gas grilling (Gorji et al., 2016).
In charcoal grilling, the dripping of fat molecules on fire generates higher PAH values (Farhadian et al., 2010). According to previous literature, wood charcoal grilling presented PAH levels at a high range F I G U R E 3 Impact of boiling, poaching, and pan-frying methods on fluorene concentration (µg/g)
By observing all the parameters, in our research work, the distance was increased 15 cm in gas grilling and 25 cm at 160-180°C in charcoal grilling. Benzopyrene, a toxic PAH, was not detected in all the grilled samples. Maintain a low temperature (<200°C) and a high distance between a heat source and the food can be responsible for the reduction of PAH levels. In conclusion, the safety of grilled food from carcinogenic contaminants can be controlled by maintaining the temperature and the distance from the heat source.

| Microwaving and oven roasting
For microwave processing, cooking of rabbit meat in a microwave was carried out in an automatic mode for 2 min. All PAHs except fluorene were not detected in all the microwaving samples. Fluorene content was significantly higher in the foreleg (0.06 µg/g) as compared to back (0.02 µg/g) and hind leg (0.02 µg/g) samples (Figure 7).
Roasting using an oven is a common cooking technique that is used for enhancing the flavor. In this cooking, neither fat nor oil is used for oven roasting. Oven roasting resulted in the generation of

| CON CLUS ION
It was difficult to compare our results with the previous studies because there is no such type of literature in rabbit meat by using a variety of processing treatments. The effect of diversified cooking techniques, a variety of oils, and temperature are important factors for controlling PAHs concentration in meat. Deep frying is rapid processing that involves meat is submerged in a huge amount of oil, which produced the significantly highest impact on PAHs in rabbit meat. Vegetable oil is not suitable oil for deep frying; it produced high PAH contents. Hence, sesame oil produced lower PAHs concentration. Among all the cooking procedures, poaching is the best processing methodology that exhibits lower PAHs levels. Control of processing time, less temperature, and more distance can overcome the PAH values. All the parameters set for various cooking techniques were the greatest step to control the PAH range.
Benzo[a]pyrene (carcinogenic compound) was not detected in all the samples.

CO N FLI C T O F I NTE R E S T
Authors declared no conflict of interest exists.

F I G U R E 7
Effect of microwaving and oven roasting on fluorene concentration (µg/g)