eProceedings Chemistry

Trace metals are widely determined in various type of samples such as in industrial wastewater, sewage, soil sediment, poultry or in plants. Many analytical methods are focusing on sample preparation procedure to increase the efficiency of the extraction. Sample preparation is the most time-consuming part of analysis where the samples must be homogeneous. Most conventional techniques such as hot plate and dry ashing are aided with high temperature to aid in the solid sample’s dissolution. Hence, the use of ultrasonic-assisted acid digestion has been recently developed as an efficient method for digestion of trace metals in biological sample. It is an alternative technique to conventional sample pre-treatment methods for shortened and simplified procedure prior to the measurement. Trace metals (Fe, Ni, and Zn) extracted from chicken gizzard samples using ultrasonic bath were determined by flame atomic absorption spectroscopy (FAAS). Three parameters which are type of solvents, time of sonication and weight of sample were studied using ultrasonic bath to obtain the optimum digestion condition. The optimized parameters (HNO3 - HCl solvent mixtures, 40 minutes sonication time and 0.2 g of sample weight were utilized to further analyzed trace metals in chicken gizzard. The concentration of Fe, Zn and Ni were successfully determined with values of (238.107 ± 0.019) mg/kg, (91.754 ± 0.061) mg/kg, and (335.813 ± 0.011) mg/kg respectively. For repeatability study, both intraday and interday measurement were 1.15% and 1.66% respectively. Optimization of ultrasonic-assisted acid digestion can be useful to increase the efficiency of the metal’s digestion in biological samples prior to the determination by FAAS.

Trace metals; ultrasonic-assisted acid digestion; ultrasonic bath; FAAS

Tchounwou, P. B., Yedjou, C. G., Patlolla, A. K., and Sutton, D. J. (2012). 'Heavy metals toxicity and the environment', Molecular, Clinical and Environmental Toxicology, 101, 133-164

Abduljaleel, S. A., Shuhaimi-Othman, M., and Babji, A. (2012). 'Assessment of trace metals contents in chicken (gallus gallus domesticus) and quail (coturnix coturnix japonica) tissues from selangor (malaysia)', Journal of environmental Science and Technology, 5(6), 441-451.

Iwegbue, C. M. A., Nwajei, G. E., and Iyoha, E. H. (2008). 'Heavy metal residues of chicken meat and gizzard and turkey meat consumed in southern nigeria', Bulgarian Journal of Veterinary Medicine, 11(4), 275-280.

Okoye, C.O.B., Ibeto, A. A. U., and Ihedioha, J. N. (2011). 'Heavy metals analysis of local and exotic poultry meat', International Journal of Applied Environmental Sciences, 5(1), 49-55.

Elsharawy, N., and Elsharawy, M. (2015). Some heavy metals residues in chicken meat and their edible offal in new valley, 2nd Conference of Food Safety. August 2015. Suez Canal University, 53-60.

Ashley, K., Andrews, R. N., Cavazos, L., and Demange, M. (2001). 'Ultrasonic extraction as a sample preparation technique for elemental analysis by atomic spectrometry', Journal of Analytical Atomic Spectrometry, 16(10), 1147-1153.

Priego-Capote, F., and de Castro, L. (2007). 'Ultrasound-assisted digestion: A useful alternative in sample preparation', Journal of Biochemical and Biophysical Methods, 70(2), 299-310.

Ashokkumar, M. (2011). 'The characterization of acoustic cavitation bubbles – an overview', Ultrasonics Sonochemistry, 18(4), 864-872.

Priego-Capote, F., and Castro, D. L. (2007). ' Ultrasound-assisted sample digestion', Techniques and Instrumentation in Analytical Chemistry, 26, 69-97.

Doner, G., and Ege, A. (2004). 'Evaluation of digestion procedures for the determination of iron and zinc in biscuits by flame atomic absorption spectrometry', Analytica Chimica Acta, 520(1), 217-222.

Kazi, T. G., Jamali, M. K., Arain, M. B., Afridi, H. I., Jalbani, N., Sarfraz, R. A., and Ansari, R. (2009). 'Evaluation of an ultrasonic acid digestion procedure for total heavy metals determination in environmental and biological samples', Journal of Hazardous Materials, 161(2), 1391-1398.

Gatidou, G., Thomaidis, N., Stasinakis, A., and Lekkas, T. (2007). 'Simultaneous determination of the endocrine disrupting compounds nonylphenol, nonylphenol ethoxylates, triclosan and bisphenol a in wastewater and sewage sludge by gas chromatography-mass spectrometry', Journal of Chromatography A, 1138(2), 32-41.

Moreno-Cid, A., and Yebra, M. C. (2002). 'Flow injection determination of copper in mussels by flame atomic absorption spectrometry after on-line continuous ultrasound-assisted extraction', Spectrochimica Acta Part B: Atomic Spectroscopy, 57(5), 967-974.

Rubio, M. G., Font, V. B., Díaz, A. M., and Cañada, M. J. A. (2006). 'Determination of triazine herbicides and diuron in mud from olive washing devices and soils using gas chromatography with selective detectors', Analytical Letters, 39(4), 835-850.