Estimating Aluminum Leaching into Meat Baked with Aluminum Foil Using Gravimetric and UV-Vis Spectrophotometric Method

Baking meat by wrapping them in Aluminum (Al) foil is common in many countries. The excessive use of Al foil in baking and the disagreement about using Al foils were the motivation to do this study especially after the 2007 WHO/FDA Report. In this investigation, a gravimetric and a UV-Vis spectrophotometric method are used to estimate Aluminum (Al) leaching into meat baked by wrapping in Al foil. Three kinds of meat were used fish, cow stakes and chicken. The importance of Al exposure area was neglected by many studies. Five factors affecting Al leaching into meat are studied (baking temperature, baking time, additives, Al exposure area and weight of meat). The effect of cooking times (20, 40, 60 minutes) at 180 ̊C and cooking temperatures (160 ̊C, 180 ̊C, 200 ̊C) at 60 minutes on the amount of Al leaching were evaluated. It was found that Al leaching into meat increased with increasing temperature, baking time, additives and Al exposure area. Moreover, Al exposure area was more effective than the weight of the meat. The Al leaching was highest in fish and lowest in chicken. Comparing the present results with the Provisional Tolerance Weekly Intake of Al approved by WHO/FDA, it shows that Al leaching into meat baked by wrapping in Al foil may add considerable doses into the diet. Continuous monitoring of Al foil used for baking meat is recommended.


Introduction
Sources of Aluminum (Al) entering the human body include water, food, beverages, medicines, food additives and leaching from Al cook wares.The neurotoxic potential of Al is undisputed nowadays.It can be toxic when injected directly into animals [1] or accidentally to humans as in the case of dialysis [2].Aluminum had also been associated with various disorders (dialysis encephalopathy and bone disorder) due to its accumulation in brain, bones, and liver [3] [4].Aluminum was regarded a neurotoxin agent since 1980 [2].There are a few studies in the Middle East which relate the daily habits of Al consumption with Al toxicity.An earlier study correlated Aluminum in blood serum for elementary school girls with the daily habits [5].Later on, another study tried to find a solution against Aluminum Chloride Induced Toxicity in the kidney and liver of White Albino Rats using Camel's Milk [6].
There is some disagreement about using Al cook wares in cooking.Some studies regard them hazardous and do not recommend using them especially in acidic food [7]- [9].Other studies regard using Al utensil and Al foils safe for cooking [4] [10]- [12].The old Provisional Tolerance Weekly Intake (PTWI) of Al from WHO/ FDA in 1989 was 7 mg/Kg body weight.In 2007, the PTWI was changed to 1 mg/Kg body weight [13] which reflected the neurotoxic potential of Al.
There are several analytical techniques to evaluate low-level metals such as flame atomic absorption spectrometry (FAA), Atomic Absorption spectrometry (AAS) and inductively coupled plasma-optical emission spectrometry (ICP-OES).However, these are expensive instruments and they require high operational costs.UV-Vis spectrophotometric method is a well-established analytical technique that provides low cost, simplicity and wide range of applications for Al 3+ determinations in food and water with high precision.It is well known that Al dissolution is highly dependent on temperature, pH and the presence of complexing agents.Using Eriochrome Cyanine R (EC) for analysis of Al 3+ ions and some trace elements is not a new method.It was introduced for trace analysis of dissolved Al 3+ ions and other cations in 1969 by Garg et al. from the University of Allahabad in India [14].EC behaves like a bidentate univalent ligand forming a chelate with several metal ions like Al 3+ .Using UV-Vis and EC for analysis of Al 3+ ions was later updated by some researchers [15] [16].
It is a common practice in many countries to bake fish, shrimp, and chicken and meat stakes by wrapping them in Al foil.Even many cooking books and cooking programs use this practice because of the most important characteristics of aluminum foil that is its ease of handling, ability to transmit heat and its impermeability to gasses.The excessive use of Al foil in baking and the disagreement about using Al foils motivated me to do this study especially after the 2007 WHO/FDA Report.The purpose of this investigation is to estimate the amount of Al leaching from fish, chicken and meat baked in Al foil using a cheap weight loss (WL) and UV-Vis spectrophotometric method.Then compare the results with PTWI from WHO/FDA.

Materials
1) Fish fillet (Hamour), chicken (from breast) and cow stakes (from the leg) were purchased from the local market and used immediately.These kinds of meat contain minimum amount of fat.For each experiment a piece of meat of about 20 ± 0.20 g was used.2) Al foil was purchased from the local market (from Classic Company) with a thickness of 0.40 mm.The alloying elements in Al foil was evaluated using Atomic Absorption instrument from Shimadzu (A.A. 6701F).The samples of Al foil were cut into square tray (10.0 cm × 10.0 cm) with a height of 2.0 cm to wrap completely the piece of meat.The surface area was 280 ± 2 cm 2 .3) HNO 3 70% (from Sigma-Aldrich) was used to clean all glass wares and to digest the meat.4) Pure sea salt (from Sasa Company, Saudi Arabia) and fresh lemon juice were used as additives.5) Standard Al solution (1000 ppm) (Merck, Germany).6) Eriochrome Cyanine R (EC) (Merck, Germany).A 5 mmol/L Eriochrome Cyanine R stock solution was prepared in DI water.7) The surfactant cetyltrimethylammonium bromide (CTAB) with a molecular weight of 364.45 was provided from BDH Company.It was prepared by dissolving the appropriate amount in DI water to make 50 mL of 1 mmol/L.8) Acetone for washing and drying the Al samples.9) A sensitive balance (Mettler Toledo ± 0.0001 g).10) An electrical oven (Shanghai Experimental Factory) was used for the experiments.11) Hot Plate (Gallen Kamp).12) PH meter (Mettler).The pH of the reaction medium was adjusted using acetate buffer (1.0 M, pH 5).

Weight Loss Method
Al foil sample was treated in the following way prior to each experiment.It was washed with acetone using an ultrasonic cleaner (from Cole Palmer) for one minute before drying.After that the Al foil sample was weighed in the sensitive balance.Then the Al foil sample was shaped like a square tray where the piece of meat was wrapped during the experiment with minimum overlapping.The exposed area was 280 ± 2 cm 2 Samples of cow stake, chicken breast and fish (Hamour fillet) were weighed to about 20 ± 0.20 g.A blank experiment was done without using the Al foil to check the level of Al in meat.The meat samples were wrapped in the Al foil and introduced in the hot oven in a Pyrex tray at the desired temperature and the specified time.After the leaching experiments, the Al foils was washed generously with distilled water then acetone to remove the entire leaching product.The juices of the meat and the water used for washing Al foil were collected and the acetone was evaporated.The dry Al foil sample was weighed again to determine the weight loss.All WL experiments were performed in two-three experiments.

UV-Vis Spectrophotometric Method Method
After WL experiment, the meat was placed in a beaker and digested by adding the required amount of 70% HNO 3 to dissolve all the tissue.The remaining solution from the meat juice and the water of washing the Al foil was mixed with the digested meat solution.Then the solution was heated using a heating mantel till about 20 mL of the solution remained followed by cooling to room temperature.The cooled solution was filtered through Whatman filter paper (No. 41) and transferred quantitatively to a 100 mL volumetric flask and diluted with DI Water.The amount of Al in real samples using UV-Vis spectrophotometric method was found according to Siriangkhawut et al. method [16].To build up the analytical curve, the appropriate volume of each Al sample was added to 25 mL volumetric flasks.To each flask, 1.5 mL of 0.4 mmol/L EC, 0.5 mL of 1 mmol/L CTAB and 5 mL of 1.0 M acetate buffer pH 5 and a known volume of the Al solution was added, in the same sequence.The mixture was shaken well to promote the reaction then the volume was completed to the mark with DI water.The absorbance of the final solution was measured against a blank solution containing only the reagents.Standard Al solutions were prepared (10 -100 ppm) and the previous procedure was repeated.The values of λ max and t max were determined.The effect of baking time, temperature, additives, weight of meat and Al exposure area were investigated.

Weight Loss Method
Using Atomic Absorption method, the analysis of the alloying elements in Al foil is shown in Table 1.The percentage of Al is 98.428% and the highest alloying elements are Sn, Fe, Si (about 0.3% each).Although WL is an old technique, it is used to simulate Al leaching used in cooking.WL is a cost effective, quick and environmentally friendly method.Al leaching from WL method is calculated using the following corrosion weight (CR) equation: where ∆w is the weight loss or the leaching amounts of Al foil (mg); A is the exposed surface area (A = 280 cm 2 ) and t is the immersion time (hour).

Effect of Baking Time
The baking time was changed from 30 -60 minutes at a temperature of 180˚C.The corrosion rate (CR) of the three types of meat (fish, cow stakes and chicken) w/without additives is listed in Table 2. W is the average weight of the raw meat of two-three experiments.
The weight of Al leaching (mg Al/kg raw meat) increased with increasing baking time at constant temperature (180˚C).Moreover from these results the order of Al leaching into meat appears to be: Fish > Cow > chicken This order is similar to the order of Al leaching in meat extract found in an earlier investigation [9] where fish is higher than red meat, whereas chicken showed the lowest leaching.The third column in Table 2 shows the Al leaching per unit weight of raw meat.The amino acids in meat have high susceptibility to react with A 3+ to form Aluminium complexes are shown by many studies [9] [17].The present data are in agreement with a previous study for Turhan [12].As an example, Turhan got 38.27 ± 2.73 mg Al/ kg dry meat at 200˚C after 40 minutes [12].In the present study at 180˚C and after 45 minutes of baking, I got 40.29 ± mg Al/kg raw meat.Using chicken breast, Turhan obtained 43.19 ± 1.28 mg Al/kg dry meats at 200˚C after 40 minutes whereas I obtained 39.80 ± 1.35 mg Al/kg raw meats at 180˚C and after 45 minutes of baking.
However, the present results are about 100 fold more than the results of Ranau et al. [11].Comparing the result of fish fillet baked without any ingredient for 30 minutes at 180˚C, I got 38.67 ±1.79 mg Al/kg raw fish.On the other hand, Ranau et al. [11] results for Cod fillet at 200˚C after 25 minutes were 0.295 ± 0.074 mg/kg net wt.The reason for this huge difference in results between the present study and Ranue et al. [11] is not clear.
The WL method simulates the amounts of Al leaching into food at conditions close to the real ones.Distilled water was used in this study but it is expected that Al leaching from Al cook wares using tap water may leach more Al as found from a previous study [9].In real life during cooking, people may add tomato paste, lemon juice, table salt and other spices.The previous table illustrates the effect of adding table salt and lemon juice as additives (Ad.) to the three kinds of meat.It is noticed that the Al leaching increased with the addition of table salt and lemon by 115% -125%.The aggressive effect of Chloride ion and citric acid in lemon is well documented and were shown by some researchers to leach more Al when using Al utensils [4] [10].

The Effect of Al Exposure Area
One of the advantages of WL method is showing the importance of the exposure area (A) which is an important factor neglected by many researchers.To accomplish this, the Al leaching of the same weight of meat (20 g ± 0.20 g) was determined at 180˚C after increasing the exposure area from 280 cm 2 to 328 cm 2 (a box of dimensions 10 × 12 × 2).The Al leaching was found to be 70.402mg/kg net meat (area = 328 cm 2 ) instead of 59.87 mg/kg net meat (area = 280 cm 2 ) which shows the importance of the exposure area.Moreover another experiment was done to detect the Al leaching when the same weight of meat (20 g ± 0.20 g) was placed in a Pyrex tray covered with Al foil but without touching the meat which is a usual procedure in cooking.The inside face of Al foil turned black but the amount of Al leaching into meat was below the detection limit of the balance (four digits).

UV-Vis Spectrophotometric Method
The digested meat solutions from WL experiments were used for UV-Vis Spectrophotometric method.The formation of Al-EC complexes was time consuming and required a control of pH and temperature [16].It was found that using a method of Cloud Point Extraction the extraction of Al 3+ was quantitative in the range of pH 2.5 -8.0 [15].The precision and accuracy of the proposed method was evaluated with real samples and the limits of detection and quantification were 0.0020 -0.0126 ppm [16].The maximum wavelength (λ max ) differs depending on the method of preparation of the EC solution ranging from 540 nm for Garg et al. (1969) [14] to 595 nm for Hejri et al. [15] to 584 nm for Siriangkhawut et al. [16].
The values of λ max were determined for the EC-Al complex in the range 500 -600 nm and the maximum wave length was found at 568 nm as shown in Figure 1.It is well known that Al dissolution is highly dependent on the temperature, pH and the presence of the complexing agents.An experiment was done with small pieces of fish, cow meat and chicken before baking in Al foil and the concentration of Al was below the detection limit.This means that the amount of Al estimated in this study was due mainly to leaching from Al foil only.After determining λ max it was important to find the best time for the experiment to ensure that the EC-Al complex is completely formed.The absorbance was measured every 2 minutes and it was found that the maximum absorbance was after 15 minutes.Using UV-Vis at λ max of 568 nm after 15 minutes of formation of EC-Al complex, the calibration curve of the present data was obtained as shown in Figure 2. The results after one hour and at the temperature of 220˚C were only used.
To compare the UV-Vis results with WL data, the results from UV-Vis were multiplied by the volume of solution used then divided by the weight of raw meat used.The graphical representation of the comparison of WL and UV-Vis are shown in Figure 3 where the results after one hour and at the temperature of 220˚C are de-   picted.A good consistency was observed between the data from WL and UV-Vis with the results of UV-Vis slightly higher by 4% -6%.This difference may be due to the small area of Al foil which was not in complete contact with the meat.

Comparison of Al Leaching with PTWI
In 1989, the joint WHO/FAO Expert committee on food additives has established the Provisional Tolerance Weekly Intake (PTWI) of 7 mg of Al/kg body weight of adult.Due to the increased awareness about Aluminum toxicity, this value was withdrawn and changed into 1 mg of Al/kg body weight in 2007 [13].A study of the average Al concentration in daily diet showed that under normal circumstances the average dietary intake of Al (without water) is about 6 -15 mg/day [4].Some researchers recognized the risk of Al in the daily diet [18] [19].The value of PTWI for a child weighing 30 kg will be 30 mg/week or 4.29 mg/day.From Table 1 and Table 2, the amount of Al leaching from the different types of meat baked in Al foil for an hour ranged from 0.97 -3.08

C(ppm)
A mg for baking 20 gram of meat.Comparing the PTWI for a child weighing 30 kg with the average amount of Al leaching into meat in the present data showed that Al leaching constitutes a large amount of the allowed daily intake.Some previous studies did not recognize the risk of Al leaching from baking meat in Al foil [11] [12].However, based on the present results, using Al foil may leach significant amounts of Al into the food, which raises the amounts of Al to high levels and may be dangerous to children, the elderly and people with kidney problems.

Conclusion
Weight loss method allows us to estimate Al leaching into meat baked by wrapping in Al foil.WL and UV-Vis Spectroscopy give comparable results.Using Al foil leaches significant amounts of Al into the meat, which raises the amounts of Al to levels close to the Provisional Tolerance Weekly Intake (PTWI).Continuous monitoring of Al foil used for baking meat is recommended.

Figure 1 .
Figure 1.Determining λ max for the EC-Al complex.

Figure 2 .
Figure 2. Calibration curve for the EC-Al complex.

Figure 3 .
Figure 3.Comparison of leaching from Al foil into meat using WL and UV-Vis at 220˚C after one hour.

Table 1 .
Alloying elements of Al foils.

Table 2 .
Al leaching into meat from weight loss method at different times at 180˚C.

. The Effect of Baking Temperature
The effect of baking the meat for one hour while changing the temperature from 160˚C -220˚C was studied as shown in

Table 3 .
It is noticed that baking the meat wrapped in Al foil for an hour at 220˚C increased the Al leaching (mg/kg net) compared to that in 180˚C by 43% -49%.The effect of temperature in increasing the rate of reactions is well documented.The Al leaching of meat after baking for one hour from weight loss method at different temperatures without any additives.