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Toksik ve Kanserojen bir Madde Olarak Baldaki Ağır Metallerin İnsan Sağlığına Olası Etkileri: Sistematik bir İnceleme

Yıl 2021, Cilt: 21 Sayı: 2, 237 - 246, 11.11.2021
https://doi.org/10.31467/uluaricilik.973053

Öz

Toprak kirleticileri, özellikle ağır metaller, bitkiler tarafından emilebilir ve besin döngüsüne girebilir. Arılar ayrıca yiyecek ararken bitki ve toprak yüzeylerinde hareket ederken kirli su, polen ve nektar tüketimi, uçuş sırasında partiküllerin solunması ve partiküllerin tüylü vücutlarına yapışması yoluyla ağır metalleri emer. Bu derleme çalışması için ağır metaller ve bal gibi anahtar kelimeler kullanılmıştır. Bu makalelerde aranan veri tabanları Google scholar, SID, Scopus, PubMed, Science direct ve ISI idi. Aranan makaleler incelendi. Balın, farklı uluslardaki çoğu insanın diyetinde değerli ve yaygın olarak tüketilen bir gıda olduğu göz önüne alındığında, tüketicilerin sağlığını korumak için tüketici pazarında bal kalitesinin araştırılması gerekli görünmektedir. Bu konuda kamuoyunu bilgilendirmemiz gerekiyor, bu yüzden bu derleme balda ağır metallerin varlığını açıklıyor.

Kaynakça

  • Abbasi, N,, Khalighi, Z,, Eftekhari, Z,, Bahmani, M. Extraction and phytoanalysis of chemical compounds of Eucalyptus globulus leaf native to Dehloran, Ilam province, Iran by HS-SPME and GC-MS. Advances in Animal and Veterinary Sciences 2020; 8(6): 647-652.
  • Abbasi, N., Ghaneialvar, H., Saneei, S., Zangeneh, M.M., Zangeneh, A. (2021). Assessment of the wound healing property of aqueous extract of Stevia rebaudiana: An ethno medicinal plant. Plant Biotechnol Persa, 3 (1), http://pbp.medilam.ac.ir/article-1-61-en.html
  • Abbasi, N., Khosravi, A., Aidy, A., Shafiei, M. (2016). Biphasic response to luteolin in MG-63 osteoblast-like cells under high glucose-induced oxidative stress. Iranian Journal of Medical Sciences, 41(2), 118-125.
  • Abbaszadeh, S., Andevari, A.N., Koohpayeh, A., Naghdi, N., Alizadeh, M., Beyranvand, F., Harsej, Z. (2018). Folklore medicinal plants used in liver disease: A review. Int J Green Pharmacy, 12(3), 463-472.
  • Aghamirlou, H. M., Khadem, M., Rahmani, A., Sadeghian, M., Mahvi, A. H., Akbarzadeh, A., & Nazmara, S. (2015). Heavy Metals Determination In Honey Samples Using Inductively Coupled Plasma-Optical Emission Spectrometry. Journal of Environmental Health Science and Engineering, 13(1), 1-8.
  • Aidy, A,, Karimi, E,, Ghaneialvar, H,, Mohammadpour, S,, Abbasi, N. (2020). Protective effect of Nectaroscordum tripedale extract and its bioactive component tetramethylpyrazine against acetaminophen-induced hepatotoxicity in rats. Advances in Traditional Medicine, 20(3), 471-477.
  • Akbari, B., Gharanfoli, F., Khayyat, M. H., Khashyarmanesh, Z., Rezaee, R., & Karimi, G. (2012). Determination Of Heavy Metals In Different Honey Brands From Iranian Markets. Food Additives And Contaminants: Part B, 5(2), 105-111.
  • Aljedani, D. M. (2017). Determination Of Some Heavy Metals And Elements In Honeybee And Honey Samples From Saudi Arabia. Entomol Appl Sci Lett, 4(3), 1-11.
  • Al-Khalifa, A., & Al-Arify, I. (1999). Physicochemical Characteristics and Pollen Spectrum- of Some Saudi Honeys. Food Chemistry, 67(1), 21-25.
  • Altekin, E., Dizman, S., & Keser, R. (2015). Radioactivity And Heavy Metal Concentrations In Various Honey Samples. Journal of Environmental Protection and Ecology, 16(2), 716-722.
  • Berinde, Z. M., & Michnea, A. M. (2013). A Comparative Study On The Evolution Of Environmental And Honey Pollution With Heavy Metals. Journal of Science and Arts, 13(2), 173.
  • Bhalchandra, W., & Baviskar, R (2015). Essential And Toxic Trace Metals In Raw Honey Of Apis Dorsata Harvested From Different Locations Of Paithan Taluka Of Aurangabad District. Essential And Toxic Trace Metals In Raw Honey, Special issue, Vol. VII: 00-00: 2015.
  • Bilandžić, N., Đokić, M., Sedak, M., Kolanović, B. S., Varenina, I., Končurat, A., & Rudan, N. (2011). Determination Of Trace Elements In Croatian Floral Honey Originating From Different Regions. Food chemistry, 128(4), 1160-1164.
  • Bogdanov, S. (2006). Contaminants Of Bee Products. Apidologie, 37(1), 1-18.
  • Bonyadian, M., Moshtaghi, H., Nematallahi, A., & Naghavi, Z. (2011). Determination Of Lead, Tin, Cupper And Cadmium In Iranian Caned Fish. Iranian Journal Of Food Science And Technology, 29(8), 27-32
  • Celli, G., & Maccagnani, B. (2003). Honey Bees As Bioindicators Of Environmental Pollution. Bulletin Of Insectology, 56(1), 137-139.
  • Cimino, G., Ziino, M., & Panuccio, M. R. (1984). Heavy Metal Pollution. Part X: Impact Of Volcanic Activity On Etnean Honey. Environmental Technology, 5(1-11), 453-456.
  • da C Azeredo, L., Azeredo, M., De Souza, S., & Dutra, V. (2003). Protein Contents And Physicochemical Properties In Honey Samples Of Apis Mellifera Of Different Floral Origins. Food Chemistry, 80(2), 249-254.
  • de Andrade, C. K., dos Anjos, V. E., Felsner, M. L., Torres, Y. R., & Quináia, S. P. (2014). Direct Determination Of Cd, Pb And Cr In Honey By Slurry Sampling Electrothermal Atomic Absorption Spectrometry. Food Chemistry, 146, 166-173.
  • Demirezen, D., & Aksoy, A. (2005). Determination Of Heavy Metals In Bee Honey Using By Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES). Gazi University Journal of Science, 18(4), 569-575.
  • Dhahir, S. A., & Hemed, A. H. (2015). Determination Of Heavy Metals And Trace Element Levels In Honey Samples From Different Regions Of Iraq And Compared With Other Kind. American Journal of Applied Chemistry, 3(3), 83-92.
  • Duruibe, J. O., Ogwuegbu, M., & Egwurugwu, J. (2007). Heavy Metal Pollution And Human Biotoxic Effects. International Journal of physical sciences, 2(5), 112-118.
  • Ediriweera, E., & Premarathna, N. (2012). Medicinal And Cosmetic Uses Of Bee’s Honey–A Review. Ayu, 33(2), 178.
  • Ekici, H. (2018). Determination Of Heavy Metal Pollution In Honey Samples Collected From Ardahan And Counties. Journal of Advances in VetBio Science and Techniques VetBio, 3(2), 1-7.
  • Ernest, E., Onyeka, O., Ozuah, A., & Benard, N. (2018). Comparative Assessment Of The Heavy And Trace Metal Levels In Honey Produced Within Nsukka And Enugu Metropolis. Food Public Health, 8(2), 42-46.
  • Fadil, M., Krasniqi, D., & Ahmet, M (2020). Heavy Metals In Honey Produced In Some Localities In Kosovo. Rasāyan J Chem, 4(13), 2013-2036.
  • Fakhri, Y., Abtahi, M., Atamaleki, A., Raoofi, A., Atabati, H., Asadi, A., Miri, A., Shamloo, E., Alinejad, A., & Keramati, H. (2019). The Concentration Of Potentially Toxic Elements (Ptes) In Honey: A Global Systematic Review And Meta-Analysis And Risk Assessment. Trends in food science & technology, 91, 498-506.
  • Fredes, C., & Montenegro, G. (2006). Heavy Metal And Other Trace Elements Contents In Honey Bee In Chile. Cien. Inv. Agr.(in English) 33 (1): 50-58. International Journal of Agriculture and Natural Resources, 33(1), 50-58.
  • Hegazi, A., & El-Kay, A. Y. (2010). Effect Of Road Dust On Vegetative Characters And Leaves Heavy Metal Contents Of Zizyphus Spina-Christi (L.) Wild, Syzygium Cumini (L.) Skeels And Olea Europaea L. Seedlings. Journal of Horticultural Science and Ornamental Plants, 2(3), 98-107.
  • Ioannidou, M., Zachariadis, G., Anthemidis, A., & Stratis, J. (2005). Direct Determination Of Toxic Trace Metals In Honey And Sugars Using Inductively Coupled Plasma Atomic Emission Spectrometry. Talanta, 65(1), 92-97.
  • Kanbur, E. D., Yuksek, T., Atamov, V., & Ozcelik, A. E. (2021). A Comparison Of The Physicochemical Properties Of Chestnut And Highland Honey: The Case Of Senoz Valley In The Rize Province Of Turkey. Food Chemistry, 345, 128864.
  • Karimi, E,, Abbasi, S,, Abbasi, N. (2019). Thymol polymeric nanoparticle synthesis and its effects on the toxicity of high glucose on OEC cells: Involvement of growth factors and integrin-linked kinase. Drug Design, Development and Therapy, 13, 2513-2532.
  • Khaneghah, A. M., Fakhri, Y., Nematollahi, A., & Pirhadi, M. (2020). Potentially Toxic Elements (Ptes) In Cereal-Based Foods: A Systematic Review And Meta-Analysis. Trends in Food Science & Technology, 96, 30-44.
  • Leblebici, Z., & Aksoy, A. (2008). Determination Of Heavy Metals In Honey Samples From Central Anatolia Using Plasma Optical Emission Spectrofotometry (ICP-OES). Polish Journal of Environmental Studies, 17(4).
  • Magna, E. K., Dabi, M., Badu, E., & Owusu, P. (2018). Determination Of Heavy Metals And Potential Health Risk Assessment Of Honey Harvested From The Tamale Metropolis Of Ghana Using Atomic Absorption Spectrophotometer (AAS). Elixir Pollut, 121, 51522-51525.
  • Mahmoudi, R., & Emami, S. (2015). Honey Contamination With Heavy Metals In Iran. Journal of Inflammatory Disease, 18(6), 67-70.
  • Mahmoudi, R., Mardani, K., & Rahimi, B. (2018). Analysis Of Heavy Metals In Honey From North-Western Regions Of Iran. Journal of Chemical Health Risks, 5(4).
  • Mahmoudi, R., Moosavy, M., Norian, R., Kazemi, S., ASADI, N. M. R., & Mardani, K. (2014). Detection Of Oxytetracycline Residues In Honey Samples Using ELISA And HPLC Methods. Pharmaceutical sciences, 2014, 19(4), 145-150.
  • Malakootian, M., Yaghmaeian, K., Meserghani, M., & Mahvi, A. (2011). Determination Of Pb, Cd, Cr And Ni Concentration In Imported Indian Rice To Iran. Iranian Journal Of Health And Environment, 4(1), 77-84.
  • Manouchehri, A,, Shakib, P,, Biglaryan, F,, Nazer, M,, Darvishi, M. (2021). The most important medicinal plants affecting bee stings: A systematic review study. Uludag Aricilik Dergisi, 21(1), 91-103.
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  • Negahdari, S., Sabaghan, M., Pirhadi, M., Alikord, M., Sadighara, P., Darvishi, M., & Nazer, M (2021). Potential Harmful Effects Of Heavy Metals As A Toxic And Carcinogenic Agent In Marine Food-An Overview. Egyptian Journal of Veterinary Sciences, 52(3), 379-385.
  • Nouri, A., Heidarian, E., Amini-Khoei, H., Abbaszadeh, S., Basati, G. (2019). Quercetin through mitigation of inflammatory response and oxidative stress exerts protective effects in rat model of diclofenac-induced liver toxicity. J Pharmacy Pharmacog Res, 7(3), 200-212.
  • Oroian, M., Prisacaru, A., Hretcanu, E. C., Stroe, S.-G., Leahu, A., & Buculei, A. (2016). Heavy Metals Profile In Honey As A Potential Indicator Of Botanical And Geographical Origin. International journal of food properties, 19(8), 1825-1836.
  • Piran, F., Emamifar, A., & Delalat, H. (2015). Investigation Of Heavy Metal (Arsenic) Of Honey Samples From Sanandaj, Ghorveand Saghez In Kurdistan, Iran. Int. J. Farm Alli. Sci, 4(6), 522-525.
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  • Quinto, M., Miedico, O., Spadaccino, G., Paglia, G., Mangiacotti, M., Li, D., Centonze, D., & Chiaravalle, A. E. (2016). Characterization, Chemometric Evaluation, And Human Health-Related Aspects Of Essential And Toxic Elements In Italian Honey Samples By Inductively Coupled Plasma Mass Spectrometry. Environmental Science and Pollution Research, 23(24), 25374-25384.
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  • Saghaei, S., Ekici, H., Demirbas, M., Yarsan, E., & Tumer, I. (2012). Determination Of The Metal Contents Of Honey Samples From Orumieh In Iran. Kafkas Univ Vet Fak Derg, 18(2), 281-284.
  • Sajtos, Z., Herman, P., Harangi, S., & Baranyai, E. (2019). Elemental Analysis Of Hungarian Honey Samples And Bee Products By MP-AES Method. Microchemical Journal, 149, 103968.
  • Samimi, A., Maymand, O. E., & Mehrtabatabaei, M. (2001). Determination Of Cadmium And Arsenic Pollution By Bee Honey Based On The Study On Ja’far Abad Area From Saveh City From Iran. Water and Geoscience, 199-192.
  • Sarker, N., Chowdhury, M. A. Z., Fakhruddin, A. N. M., Fardous, Z., Moniruzzaman, M., & Gan, S. H. (2015). Heavy Metal Contents And Physical Parameters Of Aegiceras Corniculatum, Brassica Juncea, And Litchi Chinensis Honeys From Bangladesh. BioMed research international, https://doi.org/10.1155/2015/720341.
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  • Singh, A., Sharma, R. K., Agrawal, M., & Marshall, F. M. (2010). Health Risk Assessment Of Heavy Metals Via Dietary Intake Of Foodstuffs From The Wastewater Irrigated Site Of A Dry Tropical Area Of India. Food and chemical toxicology, 48(2), 611-619.
  • Sobhanardakani, S., & Kianpour, M. (2016). Heavy Metal Levels And Potential Health Risk Assessment In Honey Consumed In Thewest Of Iran. Avicenna J Environ Health Eng, 3(2): e7795
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  • Toma, I., Jefferson, J., Clifford, L., & Mofio, B (2020). Assessment Of Heavy Metals And Pesticide Residues In Honey Samples Collected From Selected Villages In Five Local Government Areas Of Adamawa State, Nigeria. International Journal of Scientific and Research Publications (IJSRP), 10(9): 383-392.
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  • Tuzen, M., Silici, S., Mendil, D., & Soylak, M. (2007). Trace Element Levels In Honeys From Different Regions Of Turkey. Food Chemistry, 103(2), 325-330.
  • UT, Ş (2015). Detection Of Metals In Different Honey Brands. Kafkas Universitesi Veteriner Fakultesi Dergis, 21 (6): 915-918.
  • Winiarska-Mieczan, A., Wargocka, B., Jachimowicz, K., Baranowska-Wójcik, E., Kwiatkowska, K., & Kwiecień, M (2021). Evaluation Of Consumer Safety Of Polish Honey—The Content Of Cd And Pb In Multifloral, Monofloral And Honeydew Honeys. Biological Trace Element Research, 1-14.
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THE POSSIBLE EFFECTS OF HEAVY METALS IN HONEY AS TOXIC AND CARCINOGENIC SUBSTANCES ON HUMAN HEALTH: A SYSTEMATIC REVIEW

Yıl 2021, Cilt: 21 Sayı: 2, 237 - 246, 11.11.2021
https://doi.org/10.31467/uluaricilik.973053

Öz

Heavy metals are widely known through natural resources, natural resources such as soil, dust in the atmosphere, snow and rain. Soil contaminants, especially heavy metals, can be absorbed by plants and enter the food cycle. Heavy metal contamination causes environmental concerns, such as entering the food chain and contaminating food, which can be harmful to human health. Consumption of food contaminated with heavy metals can cause several disorders including genetic toxicity, carcinogenicity, mutagenicity, teratogenicity, neurotoxicity, endocrine disorders, immune problems and impaired psychosocial function. Bees also absorb heavy metals through the consumption of contaminated water, pollen, and nectar, inhalation of particles during flight, and adhesion of particles to their hairy body as they move on plant and soil surfaces while searching for food. For this review study, keywords such as heavy metals and honey were used. The databases searched in those articles were Google Scholar, SID, Scopus, PubMed, Science Direct, and ISI. The searched articles were reviewed. Given that honey is a valuable and widely consumed food in the diet of most people in different nations, so the study of the quality of honey in the consumer market in order to maintain the health of consumers seems necessary.

Kaynakça

  • Abbasi, N,, Khalighi, Z,, Eftekhari, Z,, Bahmani, M. Extraction and phytoanalysis of chemical compounds of Eucalyptus globulus leaf native to Dehloran, Ilam province, Iran by HS-SPME and GC-MS. Advances in Animal and Veterinary Sciences 2020; 8(6): 647-652.
  • Abbasi, N., Ghaneialvar, H., Saneei, S., Zangeneh, M.M., Zangeneh, A. (2021). Assessment of the wound healing property of aqueous extract of Stevia rebaudiana: An ethno medicinal plant. Plant Biotechnol Persa, 3 (1), http://pbp.medilam.ac.ir/article-1-61-en.html
  • Abbasi, N., Khosravi, A., Aidy, A., Shafiei, M. (2016). Biphasic response to luteolin in MG-63 osteoblast-like cells under high glucose-induced oxidative stress. Iranian Journal of Medical Sciences, 41(2), 118-125.
  • Abbaszadeh, S., Andevari, A.N., Koohpayeh, A., Naghdi, N., Alizadeh, M., Beyranvand, F., Harsej, Z. (2018). Folklore medicinal plants used in liver disease: A review. Int J Green Pharmacy, 12(3), 463-472.
  • Aghamirlou, H. M., Khadem, M., Rahmani, A., Sadeghian, M., Mahvi, A. H., Akbarzadeh, A., & Nazmara, S. (2015). Heavy Metals Determination In Honey Samples Using Inductively Coupled Plasma-Optical Emission Spectrometry. Journal of Environmental Health Science and Engineering, 13(1), 1-8.
  • Aidy, A,, Karimi, E,, Ghaneialvar, H,, Mohammadpour, S,, Abbasi, N. (2020). Protective effect of Nectaroscordum tripedale extract and its bioactive component tetramethylpyrazine against acetaminophen-induced hepatotoxicity in rats. Advances in Traditional Medicine, 20(3), 471-477.
  • Akbari, B., Gharanfoli, F., Khayyat, M. H., Khashyarmanesh, Z., Rezaee, R., & Karimi, G. (2012). Determination Of Heavy Metals In Different Honey Brands From Iranian Markets. Food Additives And Contaminants: Part B, 5(2), 105-111.
  • Aljedani, D. M. (2017). Determination Of Some Heavy Metals And Elements In Honeybee And Honey Samples From Saudi Arabia. Entomol Appl Sci Lett, 4(3), 1-11.
  • Al-Khalifa, A., & Al-Arify, I. (1999). Physicochemical Characteristics and Pollen Spectrum- of Some Saudi Honeys. Food Chemistry, 67(1), 21-25.
  • Altekin, E., Dizman, S., & Keser, R. (2015). Radioactivity And Heavy Metal Concentrations In Various Honey Samples. Journal of Environmental Protection and Ecology, 16(2), 716-722.
  • Berinde, Z. M., & Michnea, A. M. (2013). A Comparative Study On The Evolution Of Environmental And Honey Pollution With Heavy Metals. Journal of Science and Arts, 13(2), 173.
  • Bhalchandra, W., & Baviskar, R (2015). Essential And Toxic Trace Metals In Raw Honey Of Apis Dorsata Harvested From Different Locations Of Paithan Taluka Of Aurangabad District. Essential And Toxic Trace Metals In Raw Honey, Special issue, Vol. VII: 00-00: 2015.
  • Bilandžić, N., Đokić, M., Sedak, M., Kolanović, B. S., Varenina, I., Končurat, A., & Rudan, N. (2011). Determination Of Trace Elements In Croatian Floral Honey Originating From Different Regions. Food chemistry, 128(4), 1160-1164.
  • Bogdanov, S. (2006). Contaminants Of Bee Products. Apidologie, 37(1), 1-18.
  • Bonyadian, M., Moshtaghi, H., Nematallahi, A., & Naghavi, Z. (2011). Determination Of Lead, Tin, Cupper And Cadmium In Iranian Caned Fish. Iranian Journal Of Food Science And Technology, 29(8), 27-32
  • Celli, G., & Maccagnani, B. (2003). Honey Bees As Bioindicators Of Environmental Pollution. Bulletin Of Insectology, 56(1), 137-139.
  • Cimino, G., Ziino, M., & Panuccio, M. R. (1984). Heavy Metal Pollution. Part X: Impact Of Volcanic Activity On Etnean Honey. Environmental Technology, 5(1-11), 453-456.
  • da C Azeredo, L., Azeredo, M., De Souza, S., & Dutra, V. (2003). Protein Contents And Physicochemical Properties In Honey Samples Of Apis Mellifera Of Different Floral Origins. Food Chemistry, 80(2), 249-254.
  • de Andrade, C. K., dos Anjos, V. E., Felsner, M. L., Torres, Y. R., & Quináia, S. P. (2014). Direct Determination Of Cd, Pb And Cr In Honey By Slurry Sampling Electrothermal Atomic Absorption Spectrometry. Food Chemistry, 146, 166-173.
  • Demirezen, D., & Aksoy, A. (2005). Determination Of Heavy Metals In Bee Honey Using By Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES). Gazi University Journal of Science, 18(4), 569-575.
  • Dhahir, S. A., & Hemed, A. H. (2015). Determination Of Heavy Metals And Trace Element Levels In Honey Samples From Different Regions Of Iraq And Compared With Other Kind. American Journal of Applied Chemistry, 3(3), 83-92.
  • Duruibe, J. O., Ogwuegbu, M., & Egwurugwu, J. (2007). Heavy Metal Pollution And Human Biotoxic Effects. International Journal of physical sciences, 2(5), 112-118.
  • Ediriweera, E., & Premarathna, N. (2012). Medicinal And Cosmetic Uses Of Bee’s Honey–A Review. Ayu, 33(2), 178.
  • Ekici, H. (2018). Determination Of Heavy Metal Pollution In Honey Samples Collected From Ardahan And Counties. Journal of Advances in VetBio Science and Techniques VetBio, 3(2), 1-7.
  • Ernest, E., Onyeka, O., Ozuah, A., & Benard, N. (2018). Comparative Assessment Of The Heavy And Trace Metal Levels In Honey Produced Within Nsukka And Enugu Metropolis. Food Public Health, 8(2), 42-46.
  • Fadil, M., Krasniqi, D., & Ahmet, M (2020). Heavy Metals In Honey Produced In Some Localities In Kosovo. Rasāyan J Chem, 4(13), 2013-2036.
  • Fakhri, Y., Abtahi, M., Atamaleki, A., Raoofi, A., Atabati, H., Asadi, A., Miri, A., Shamloo, E., Alinejad, A., & Keramati, H. (2019). The Concentration Of Potentially Toxic Elements (Ptes) In Honey: A Global Systematic Review And Meta-Analysis And Risk Assessment. Trends in food science & technology, 91, 498-506.
  • Fredes, C., & Montenegro, G. (2006). Heavy Metal And Other Trace Elements Contents In Honey Bee In Chile. Cien. Inv. Agr.(in English) 33 (1): 50-58. International Journal of Agriculture and Natural Resources, 33(1), 50-58.
  • Hegazi, A., & El-Kay, A. Y. (2010). Effect Of Road Dust On Vegetative Characters And Leaves Heavy Metal Contents Of Zizyphus Spina-Christi (L.) Wild, Syzygium Cumini (L.) Skeels And Olea Europaea L. Seedlings. Journal of Horticultural Science and Ornamental Plants, 2(3), 98-107.
  • Ioannidou, M., Zachariadis, G., Anthemidis, A., & Stratis, J. (2005). Direct Determination Of Toxic Trace Metals In Honey And Sugars Using Inductively Coupled Plasma Atomic Emission Spectrometry. Talanta, 65(1), 92-97.
  • Kanbur, E. D., Yuksek, T., Atamov, V., & Ozcelik, A. E. (2021). A Comparison Of The Physicochemical Properties Of Chestnut And Highland Honey: The Case Of Senoz Valley In The Rize Province Of Turkey. Food Chemistry, 345, 128864.
  • Karimi, E,, Abbasi, S,, Abbasi, N. (2019). Thymol polymeric nanoparticle synthesis and its effects on the toxicity of high glucose on OEC cells: Involvement of growth factors and integrin-linked kinase. Drug Design, Development and Therapy, 13, 2513-2532.
  • Khaneghah, A. M., Fakhri, Y., Nematollahi, A., & Pirhadi, M. (2020). Potentially Toxic Elements (Ptes) In Cereal-Based Foods: A Systematic Review And Meta-Analysis. Trends in Food Science & Technology, 96, 30-44.
  • Leblebici, Z., & Aksoy, A. (2008). Determination Of Heavy Metals In Honey Samples From Central Anatolia Using Plasma Optical Emission Spectrofotometry (ICP-OES). Polish Journal of Environmental Studies, 17(4).
  • Magna, E. K., Dabi, M., Badu, E., & Owusu, P. (2018). Determination Of Heavy Metals And Potential Health Risk Assessment Of Honey Harvested From The Tamale Metropolis Of Ghana Using Atomic Absorption Spectrophotometer (AAS). Elixir Pollut, 121, 51522-51525.
  • Mahmoudi, R., & Emami, S. (2015). Honey Contamination With Heavy Metals In Iran. Journal of Inflammatory Disease, 18(6), 67-70.
  • Mahmoudi, R., Mardani, K., & Rahimi, B. (2018). Analysis Of Heavy Metals In Honey From North-Western Regions Of Iran. Journal of Chemical Health Risks, 5(4).
  • Mahmoudi, R., Moosavy, M., Norian, R., Kazemi, S., ASADI, N. M. R., & Mardani, K. (2014). Detection Of Oxytetracycline Residues In Honey Samples Using ELISA And HPLC Methods. Pharmaceutical sciences, 2014, 19(4), 145-150.
  • Malakootian, M., Yaghmaeian, K., Meserghani, M., & Mahvi, A. (2011). Determination Of Pb, Cd, Cr And Ni Concentration In Imported Indian Rice To Iran. Iranian Journal Of Health And Environment, 4(1), 77-84.
  • Manouchehri, A,, Shakib, P,, Biglaryan, F,, Nazer, M,, Darvishi, M. (2021). The most important medicinal plants affecting bee stings: A systematic review study. Uludag Aricilik Dergisi, 21(1), 91-103.
  • Manouchehri, A,A,, Pirhadi, M,, Parsaei, P,, Alikord, M,, Safian Boldaji, H. (2021). A review of aflatoxin M1 in milk and dairy products and new procedure for evaluating aflatoxin M1. J Chem Health Risks, 11(0), 0-0.
  • Moujanni, A., Terrab, A., Eddoha, R., Nasser, B., Benbachir, M., Tannaoui, M., Zouaoui, A., & Essamadi, A. (2017). Quantification Of Heavy Metals And Pesticides Residues In Labeled Moroccan Euphorbia Resinifera Honey From Tadla-Azilal. Journal of Materials and Environmental Sciences, 2, 1826-1836.
  • Negahdari, S., Sabaghan, M., Pirhadi, M., Alikord, M., Sadighara, P., Darvishi, M., & Nazer, M (2021). Potential Harmful Effects Of Heavy Metals As A Toxic And Carcinogenic Agent In Marine Food-An Overview. Egyptian Journal of Veterinary Sciences, 52(3), 379-385.
  • Nouri, A., Heidarian, E., Amini-Khoei, H., Abbaszadeh, S., Basati, G. (2019). Quercetin through mitigation of inflammatory response and oxidative stress exerts protective effects in rat model of diclofenac-induced liver toxicity. J Pharmacy Pharmacog Res, 7(3), 200-212.
  • Oroian, M., Prisacaru, A., Hretcanu, E. C., Stroe, S.-G., Leahu, A., & Buculei, A. (2016). Heavy Metals Profile In Honey As A Potential Indicator Of Botanical And Geographical Origin. International journal of food properties, 19(8), 1825-1836.
  • Piran, F., Emamifar, A., & Delalat, H. (2015). Investigation Of Heavy Metal (Arsenic) Of Honey Samples From Sanandaj, Ghorveand Saghez In Kurdistan, Iran. Int. J. Farm Alli. Sci, 4(6), 522-525.
  • Pirhadi, M., Shariatifar, N., Bahmani, M., & Manouchehri, A. (2021). Heavy Metals In Wheat Grain And Its Impact On Human Health: A Mini-Review. Journal of Chemical Health Risks. doi: 10.22034/jchr.2021.1924307.1269.
  • Pirhadi, M., Shariatifar, N., Bahmani, M., Manouchehri, A.A. (2021). Heavy metals in wheat grain and its impact on human health: A review. J Chem Health Risks, 10.22034/jchr.2021.1924307.1269
  • Piven, O., Khimych, M., Salata, V., Gutyj, B., Naidich, O., Skrypka, H., Коreneva, Z., Dvylyuk, I., Gorobey, O., & Rud, V. (2020). Contmination Of Heavy Metals And Radionuclides In The Honey With Different Production Origin. Ukrainian Journal of Ecology, 10(2), 405-409.
  • Quinto, M., Miedico, O., Spadaccino, G., Paglia, G., Mangiacotti, M., Li, D., Centonze, D., & Chiaravalle, A. E. (2016). Characterization, Chemometric Evaluation, And Human Health-Related Aspects Of Essential And Toxic Elements In Italian Honey Samples By Inductively Coupled Plasma Mass Spectrometry. Environmental Science and Pollution Research, 23(24), 25374-25384.
  • Rezaei Raja, O., Sobhanardakani, S., & Cheraghi, M (2016). Health Risk Assessment Of Citrus Contaminated With Heavy Metals In Hamedan City, Potential Risk Of Al And Cu. Environmental Health Engineering and Management Journal, 3(3), 131-135.
  • Saghaei, S., Ekici, H., Demirbas, M., Yarsan, E., & Tumer, I. (2012). Determination Of The Metal Contents Of Honey Samples From Orumieh In Iran. Kafkas Univ Vet Fak Derg, 18(2), 281-284.
  • Sajtos, Z., Herman, P., Harangi, S., & Baranyai, E. (2019). Elemental Analysis Of Hungarian Honey Samples And Bee Products By MP-AES Method. Microchemical Journal, 149, 103968.
  • Samimi, A., Maymand, O. E., & Mehrtabatabaei, M. (2001). Determination Of Cadmium And Arsenic Pollution By Bee Honey Based On The Study On Ja’far Abad Area From Saveh City From Iran. Water and Geoscience, 199-192.
  • Sarker, N., Chowdhury, M. A. Z., Fakhruddin, A. N. M., Fardous, Z., Moniruzzaman, M., & Gan, S. H. (2015). Heavy Metal Contents And Physical Parameters Of Aegiceras Corniculatum, Brassica Juncea, And Litchi Chinensis Honeys From Bangladesh. BioMed research international, https://doi.org/10.1155/2015/720341.
  • Sedighi, M., Sewell, R.D.E, Nazari, A., Abbaszadeh, S., Cheraghi, M., Amini, A., Heydari, Z., Rafieian-Kopaei, M. (2019). A review on the most important medicinal plants effective in cardiac ischemia-reperfusion injury. Current Pharmaceutical Design, 25(3), 352-358.
  • Singh, A., Sharma, R. K., Agrawal, M., & Marshall, F. M. (2010). Health Risk Assessment Of Heavy Metals Via Dietary Intake Of Foodstuffs From The Wastewater Irrigated Site Of A Dry Tropical Area Of India. Food and chemical toxicology, 48(2), 611-619.
  • Sobhanardakani, S., & Kianpour, M. (2016). Heavy Metal Levels And Potential Health Risk Assessment In Honey Consumed In Thewest Of Iran. Avicenna J Environ Health Eng, 3(2): e7795
  • Temizer, İ., Güder, A., Temel, F., & Cüce, H. (2018). Antioxidant Activities And Heavy Metal Contents Of Castanea Sativa Honey. Global Nest Journal, 20(3), 541-550.
  • Toma, I., Jefferson, J., Clifford, L., & Mofio, B (2020). Assessment Of Heavy Metals And Pesticide Residues In Honey Samples Collected From Selected Villages In Five Local Government Areas Of Adamawa State, Nigeria. International Journal of Scientific and Research Publications (IJSRP), 10(9): 383-392.
  • Tomczyk, M., Zaguła, G., Puchalski, C., & Dżugan, M. (2020). Transfer Of Some Toxic Metals From Soil To Honey Depending On Bee Habitat Conditions. Acta Universitatis Cibiniensis. Series E: Food Technology, 24(1), 49-59.
  • Tuzen, M., Silici, S., Mendil, D., & Soylak, M. (2007). Trace Element Levels In Honeys From Different Regions Of Turkey. Food Chemistry, 103(2), 325-330.
  • UT, Ş (2015). Detection Of Metals In Different Honey Brands. Kafkas Universitesi Veteriner Fakultesi Dergis, 21 (6): 915-918.
  • Winiarska-Mieczan, A., Wargocka, B., Jachimowicz, K., Baranowska-Wójcik, E., Kwiatkowska, K., & Kwiecień, M (2021). Evaluation Of Consumer Safety Of Polish Honey—The Content Of Cd And Pb In Multifloral, Monofloral And Honeydew Honeys. Biological Trace Element Research, 1-14.
  • Yohannes, W., Chandravanshi, B. S., & Moges, G. (2018). Assessment Of Trace Metals And Physicochemical Parametres Of Commercially Available Honey In Ethiopia. Chemistry International, 4(2), 91-101.
Toplam 65 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat Mühendisliği (Diğer)
Bölüm Derlemeler
Yazarlar

Aliasghar Manouchehri Bu kişi benim 0000-0003-1741-9791

Mohadeseh Pirhadi Bu kişi benim 0000-0003-2576-7374

Samira Shokri Bu kişi benim 0000-0002-4532-1129

Gholmreza Jahed Khaniki Bu kişi benim 0000-0001-9983-4838

Yayımlanma Tarihi 11 Kasım 2021
Kabul Tarihi 23 Eylül 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 21 Sayı: 2

Kaynak Göster

Vancouver Manouchehri A, Pirhadi M, Shokri S, Jahed Khaniki G. THE POSSIBLE EFFECTS OF HEAVY METALS IN HONEY AS TOXIC AND CARCINOGENIC SUBSTANCES ON HUMAN HEALTH: A SYSTEMATIC REVIEW. U.Arı D.-U.Bee J. 2021;21(2):237-46.

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