World Aquaculture September 2018

WWW.WA S.ORG • WORLD AQUACULTURE • SEP TEMBER 2018 69 Conductometric formaldehyde sensitive biosensor with specifically adapted analytical characteristics. Analytica Chimica Acta 445:47- 55. FAO (Food and Agriculture Organization of the United Nations). 2016. The State of World Fisheries and Aquaculture. Department of Fisheries and Aquaculture, Rome, Italy. Goon, S., M. Bipasha, M.S. Islam and M.B. Hossain. 2014. Fish Marketing Status with Formalin Treatment in Bangladesh. International Journal of Public Health Science 3:95- 100. Hauptmann, M., J.H. Lubin, P.A. Stewart, R.B. Hayes and A. Blair. 2004. Mortality from solid cancers among workers in formaldehyde industries. American Journal of Epidemiology 159:1117-1130. Herschkovitz, Y., I. Eshkenazi, C.E. Campbell and J. Rishpon. 2000. An electrochemical biosensor for formaldehyde. Journal of electroanalytical chemistry 491:182-187. Hoque, M.Z., M.S. Islam, M.I. Khalil and M.R. Bari. 2016. Formalin treated fish marketing and its impact on public health. International Journal of Academic Research and Development 1:7-12. Hossain M.S., M.A. Rahman, T.K. Sharkar and H.M. Shahjalal. 2008. Formaldehyde content in the Rui Fish ( Labeo rohita ) in Bangladesh and effect of formaldehyde on lipid peroxidation in rat liver and intestinal tissues. Journal of Medicinal Science 8:405- 409. IARC (International Agency for Research on Cancer). 2012. Chemical agents and related occupations. IARCMonographs on the Evaluation of Carcinogenic Risks to Humans, France. Indang, M.N., A.S. Abdulamir, A.A. Bakar, A.B. Salleh, Y.H. Lee and Y.N. Azah. 2009. A review: Methods of determination of health-endangering formaldehyde in diet. Research Journal of Pharmacology 3:31-47. Joshi, R., R. Bhatta, P.N. Paudel and B.K. Kafle. 2015. Formaldehyde content of selected fish from the wet markets of Kathmandu valley markets. International Food Research Journal 22:1434-1437. Korpan, Y.I., M.V. Gonchar, A.A. Sibirny, C. Martelet, A.V. El’skaya, T.D. Gibson and A.P. Soldatkin. 2000. Development of highly selective and stable potentiometric sensors for formaldehyde determination. Biosensors and Bioelectronics 15:77-83. Li, J.R., J.L. Zhu and L.F. Ye. 2007. Determination of formaldehyde in squid by high-performance liquid chromatography. Asia Pacific Journal of Clinical Nutrition 16:127-130. Malaysian Food Regulations. 1985. In : Food Act 1983 &Regulations. International Law Book Services. Malaysia. Nash, T. 1953. The colorimetric estimation of formaldehyde by means of the Hantzsch Reaction. Biochemical Journal 55:416-421. Nayana A. and S. Sabu. 2018. Incidence of formaldehyde residues in fresh seer fish ( Scomberomorus guttatus ) collected from Ernakulum fish market. Indian Journal of Scientific Research 19:56-61. Noordiana, N., A.B. Fatimah and Y.C.B. Farhana. 2011. Formaldehyde content and quality characteristics of selected fish and seafood fromwet markets. International Food Research Journal 18:125-136. Rahman, M.M., S. Ahmed, M.M. Hosen and A.K. Talukder. 2012. Detection of formalin and quality characteristics of selected fish fromwet markets at Sylhet city in Bangladesh. Bangladesh Research Publications Journal 7:161-169. Sanyal, S., K. Sinha, S. Saha and S. Banerjee. 2017. Formalin in fish trading: an inefficient practice for sustaining fish quality. Archives of Polish Fisheries 25:43-50. Uddin, R., M.I. Wahid, T. Jasmeen, N.H. Huda and K.B. Sutradhar. 2011. Detection of formalin in fish samples collected from Dhaka City, Bangladesh. Stamford Journal of Pharmaceutical Sciences 4:49-52. USEPA (United State Environmental Protection Agency). 1997. Exposure Factors Handbook. National Center for Environmental Assessment Office of Research and Development. USA. Wahed, P., M.A. Razzaq, S. Dharmapuri and M. Corrales. 2016. Determination of formaldehyde in food and feed by an in-house validated HPLCmethod. Food Chemistry 202:476-83. Wang, S., X. Cui and G. Fang. 2007. Rapid determination of formaldehyde and sulphur dioxide in food products and Chinese herbals. Food Chemistry 103:1487-1493. Wooster, G.A., C.M. Martinez, P.R. Bowser and D.S. O’Hara. 2005. Human health risks associated with formalin treatments used in aquaculture: initial study. North American Journal of Aquaculture 67:111-113. WHO (World Health Organization). 2002. Formaldehyde. Concise International Chemical Assessment, Document 40, Geneva, Switzerland. Yeasmin, T., M.S. Reza, M.N.A. Khan, F.H. Shikha and M. Kamal. 2010. Present status of marketing of formalin treated fishes in domestic markets at Mymensingh district in Bangladesh. International Journal of Biological Research 1:21- 24. Zailina, H. and A.B. Fatimah. 2013. Health risk assessment of adults consuming commercial fish contaminated with formaldehyde. Food and Public Health 3:52-58. Zhang, L., C. Steinmaus, D.A. Eastmond, X.K. Xin and M.T. Smith. 2009a. Formaldehyde exposure and leukemia: a new meta-analysis and potential mechanisms. Mutation Research/ Reviews in Mutation Research 681:150-168. Zhang, S., C. Xe, Z. Bai, M. Hub, H. Li and D. Zeng. 2009. Spoiling and formaldehyde-containing detections in octopus with an E-nose. Food Chemistry 113:1346-1350. Zhang, X., X.S. Shen, Y.H. Hui, C. Kong, Y. Wang, B. Feng and D. Mei. 2015. Studies on the Determination of Formaldehyde in Squid and Bummalo. Journal of Advanced Engineering Research 46:20-22. Stringent policies for formalin mixing in fish should be in place so that consumer safety is considered. Awareness among the consumers should be disseminated widely by modern communication media at national and international levels. Quick and cheap detection techniques and harsh punishment for formalin adulteration should be implemented by national and international regulators.