Research Article
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Year 2021, , 243 - 252, 17.05.2021
https://doi.org/10.15671/hjbc.656021

Abstract

References

  • REFERENCES
  • 1. J.J. Knapik, R.A. Steelman, S.S. Hoedebecke, Prevalence of dietary supplement use by athletes: Systematic review and meta-analysis, Sports. Med., 46 (2016) 103–123.
  • 2. R.J. Maughan, P.L. Greenhaff, P. Hespel, Dietary supplements for athletes: Emerging trends and recurring themes, J. Sport. Sci., 29 (2011) 57–66.
  • 3. D.T. Thomas, K.A. Erdman, L.M. Burke, Position of the academy of nutrition and dietetics, dietitians of Canada, and the american college of sports Medicine: Nutrition and athletic performance, J. Acad. of Nutr. Diet., 116 (2016) 501–528.
  • 4. L.M. Burke, L. Cato, Supplements and sports foods. In L. M. Burke, & V. Deakin (Eds.). Clinical sports nutrition 5th ed., 493–591, McGraw- Hill Pty Ltd, Australia, 2015.
  • 5. A. Sánchez-Oliver, M. Miranda-León, E. Guerra-Hernández, Statistical analysis of the consumption of nutritional and dietary supplements in gyms [Estudioestadístico del consumo de suplementos nutricionales y dietéticos en gimnasios], Arch. Latin de Nutri., 58 (2008) 221–227.
  • 6. A. Sánchez-Oliver, M.T. Miranda León, E. Guerra-Hernández, Prevalence of protein supplement use at gyms [Estudio estadístico del consumo de suplementos proteícos en gimnasios], Nutr. Hosp., 26 (2011) 1168–1174.
  • 7. R.L. Walzem, C.J. Dillard, J.B. German, Whey components: Millennia of evolution create functionalities for mammalian nutrition: What we know and what we may be overlooking, Crit. Rev. Food Sci. Nutr., 42 (2001) 353 375.
  • 8. G.W. Smithers, Whey and whey proteins-from “gutter to gold”, Int. Dairy J., 18 (2008) 695 704.
  • 9. H.M. Farrell, R. Jimenez Flores, G.T. Bleck, Nomenclature of the proteins of cows' milk sixth revision, J. Dairy Sci., 87 (2004) 1641 1674.
  • 10. C. Mollea, L. Marmo, F. Bosco F, Valorisation of cheese whey, a by product from the dairy industry. In: Food Industry, Muzzalupo I (ed). InTech., 12 (2013) 549-588.
  • 11. K. Marshall, Therapeutic applications of whey protein, Altern. Med. Rev., 9 (2004) 136 156.
  • 12. A.J. Sánchez-Oliver, J. Contreras-Calderónc, J.M. Puya-Brazad, Quality analysis of commercial protein powder supplements and relation to characteristics declared by manufacturer, LWT - Food Sci. Tech., 97 (2018) 100–108.
  • 13. F. Gür, M. Güzel, N. Öncül N, Biological and Physiological Activities of Whey Proteins and Their Derivatives, Akademik Gıda 8 (2010) 23-31.
  • 14. A.O. Afuwape, M.W. Turner, S, Strobel. Oral administration of bovine whey proteins to mice elicits opposing immunoregulatory responses and is adjuvant dependent, Clin. Exp. Immunol., 136 (2004) 40–48.
  • 15. A.M. Holwerda, I.W.K. Kouw, J. Trommelen, Physical Activity Performed in the Evening Increases the Overnight Muscle Protein Synthetic Response to Presleep Protein Ingestion in Older Men, J. Nutr., 146 (2016) 1307–1314.
  • 16. E. Kerasioti, D. Stagos, A.M. Tsatsakis, Effects of sheep/goat whey protein dietary supplementationon the redox status of rats, Mol. Med. Rep., 17 (2018) 5774-5781.
  • 17. C. Karagözlü, M. Bayarer M, The Functional Properties of Whey Proteins and Their Health Effects, Ege Üniv. Ziraat Fak. Derg., 41 (2004) 197-207.
  • 18. X. Zhen, X. Wang, C. Yang, Synthesis, Cellular Uptake, and Biodistribution of Whey-Rich Nanoparticles, Macromol. Biosci., 14 (2014) 1149–1159.
  • 19. B. Noh, T. Richardson, Incorporation of Radiolabeled Whey Proteins into Casein Micelles by Heat Processing, J. Dairy Sci., 72 (1989) 1724-1731.
  • 20. L.D.R. Davis, W.J. Spencer, V.T. Pham, 14C radiolabeling of proteins to monitor biodistribution of ingested proteins, Anal. Biochem. 410 (2011) 57–61.
  • 21. A. Kanda, K. Nakayama, C. Sanbongi, Effects of Whey, Caseinate, or Milk Protein Ingestion on Muscle Protein Synthesis after Exercise, Nutrients 8 (2016) 339-343.
  • 22. G. Rehner, M. Heil, M. Auge, Effect of Proteins on availability of zinc I. Gastrointestinal transit time of casein and whey protein and zinc absorption in weaned rats, Z. Ernahrungswiss 24 (1985) 245-255.
  • 23. K. Schwochau, Technetium Chemistry and Radiopharmaceutical Applications, J. Dairy Sci., 1 (2000) 460-468.
  • 24. D.D. Dischino, J.M. Welch, R.M. Kilbourn, Relationship between Lipophilicity and Brain Extraction of C-11-Radiopharmaceuticals, J. Nucl. Med., 24 (1983) 1030–1038.
  • 25. S. Chattopadhyay, M.K. Das, R. Vanaja R, Purification and stabilization of 99mTc-d, l-HMPAO: role of organic extractants, Nucl. Med. Biol., 28 (2001) 741–744.
  • 26. A.Y. Kilcar, F.Z.B. Muftuler, H. Enginar, Synthesis, characterization and biodistribution of 99mTc-Bioquin-HMPAO (99mTc-BH) as a novel brain imaging agent, J. Radioanal. Nucl. Chem., 302 (2014) 563–573.
  • 27. M. Liu, Y. Zheng, U. Avcibasi, Novel 99mTc(III)-azide complexes [99mTc(N3)(CDO)(CDOH)2B-R] (CDOH2 = cyclohexanedione dioxime) as potential radiotracers for heart imaging, Nucl. Med. Biol., 43 (2016) 732–741.
  • 28. Ö. Uyaroğlu, H. Demiroğlu, G. Topal, Radiosynthesis and biodistribution of 99mTc-Sulfamethoxazole: a novel molecule for in-vivo infection imaging, Med. Chem. Res., 26 (2017) 3149–3157.
  • 29. H. Demiroğlu, G. Topal, Y. Parlak, Radiosynthesis and Biodistribution of 99mTc-Trimethoprim: A Novel Radiolabeled Antibiotic for Bacterial Infection Imaging Using Experimental Animals, Kafkas Univ. Vet. Fak. Derg., 24 (2018) 393-400.

Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı

Year 2021, , 243 - 252, 17.05.2021
https://doi.org/10.15671/hjbc.656021

Abstract

Bu çalışmanın esas amacı Whey proteinin nükleer tıpta bir görüntüleme ajanı olarak kullanılıp kullanılamayacağını tespit etmektir. Bunun için; Whey proteini kalay klorür indirgenme metodu kullanılarak Tc-99m ile işaretlenmiştir. Radyokromatografi çalışmalarında kağıt elektroforezi tekniği kullanılmıştır. Uygun hareketli faz olarak SF (serum fizyolojik) kullanılmıştır. Aynı zamanda Tc-99m ile işaretli Whey protein’in bağlanma verimi yaklaşık %95 olarak bulunmuştur. Daha sonra, sırasıyla lipofilite ve stabilite çalışmaları gerçekleştirilmiştir. Son olarak Albino Wistar sıçanlarda görüntüleme ve biyodağılım çalışmaları yapılmıştır.
Sonuç olarak, bütün elde edilen sonuçlar Tc-99m ile işaretli Whey protein’in gelecekte meme, yumurtalık ve pankreas kanserlerinin teşhisinde kullanılabileceğini göstermiştir.

References

  • REFERENCES
  • 1. J.J. Knapik, R.A. Steelman, S.S. Hoedebecke, Prevalence of dietary supplement use by athletes: Systematic review and meta-analysis, Sports. Med., 46 (2016) 103–123.
  • 2. R.J. Maughan, P.L. Greenhaff, P. Hespel, Dietary supplements for athletes: Emerging trends and recurring themes, J. Sport. Sci., 29 (2011) 57–66.
  • 3. D.T. Thomas, K.A. Erdman, L.M. Burke, Position of the academy of nutrition and dietetics, dietitians of Canada, and the american college of sports Medicine: Nutrition and athletic performance, J. Acad. of Nutr. Diet., 116 (2016) 501–528.
  • 4. L.M. Burke, L. Cato, Supplements and sports foods. In L. M. Burke, & V. Deakin (Eds.). Clinical sports nutrition 5th ed., 493–591, McGraw- Hill Pty Ltd, Australia, 2015.
  • 5. A. Sánchez-Oliver, M. Miranda-León, E. Guerra-Hernández, Statistical analysis of the consumption of nutritional and dietary supplements in gyms [Estudioestadístico del consumo de suplementos nutricionales y dietéticos en gimnasios], Arch. Latin de Nutri., 58 (2008) 221–227.
  • 6. A. Sánchez-Oliver, M.T. Miranda León, E. Guerra-Hernández, Prevalence of protein supplement use at gyms [Estudio estadístico del consumo de suplementos proteícos en gimnasios], Nutr. Hosp., 26 (2011) 1168–1174.
  • 7. R.L. Walzem, C.J. Dillard, J.B. German, Whey components: Millennia of evolution create functionalities for mammalian nutrition: What we know and what we may be overlooking, Crit. Rev. Food Sci. Nutr., 42 (2001) 353 375.
  • 8. G.W. Smithers, Whey and whey proteins-from “gutter to gold”, Int. Dairy J., 18 (2008) 695 704.
  • 9. H.M. Farrell, R. Jimenez Flores, G.T. Bleck, Nomenclature of the proteins of cows' milk sixth revision, J. Dairy Sci., 87 (2004) 1641 1674.
  • 10. C. Mollea, L. Marmo, F. Bosco F, Valorisation of cheese whey, a by product from the dairy industry. In: Food Industry, Muzzalupo I (ed). InTech., 12 (2013) 549-588.
  • 11. K. Marshall, Therapeutic applications of whey protein, Altern. Med. Rev., 9 (2004) 136 156.
  • 12. A.J. Sánchez-Oliver, J. Contreras-Calderónc, J.M. Puya-Brazad, Quality analysis of commercial protein powder supplements and relation to characteristics declared by manufacturer, LWT - Food Sci. Tech., 97 (2018) 100–108.
  • 13. F. Gür, M. Güzel, N. Öncül N, Biological and Physiological Activities of Whey Proteins and Their Derivatives, Akademik Gıda 8 (2010) 23-31.
  • 14. A.O. Afuwape, M.W. Turner, S, Strobel. Oral administration of bovine whey proteins to mice elicits opposing immunoregulatory responses and is adjuvant dependent, Clin. Exp. Immunol., 136 (2004) 40–48.
  • 15. A.M. Holwerda, I.W.K. Kouw, J. Trommelen, Physical Activity Performed in the Evening Increases the Overnight Muscle Protein Synthetic Response to Presleep Protein Ingestion in Older Men, J. Nutr., 146 (2016) 1307–1314.
  • 16. E. Kerasioti, D. Stagos, A.M. Tsatsakis, Effects of sheep/goat whey protein dietary supplementationon the redox status of rats, Mol. Med. Rep., 17 (2018) 5774-5781.
  • 17. C. Karagözlü, M. Bayarer M, The Functional Properties of Whey Proteins and Their Health Effects, Ege Üniv. Ziraat Fak. Derg., 41 (2004) 197-207.
  • 18. X. Zhen, X. Wang, C. Yang, Synthesis, Cellular Uptake, and Biodistribution of Whey-Rich Nanoparticles, Macromol. Biosci., 14 (2014) 1149–1159.
  • 19. B. Noh, T. Richardson, Incorporation of Radiolabeled Whey Proteins into Casein Micelles by Heat Processing, J. Dairy Sci., 72 (1989) 1724-1731.
  • 20. L.D.R. Davis, W.J. Spencer, V.T. Pham, 14C radiolabeling of proteins to monitor biodistribution of ingested proteins, Anal. Biochem. 410 (2011) 57–61.
  • 21. A. Kanda, K. Nakayama, C. Sanbongi, Effects of Whey, Caseinate, or Milk Protein Ingestion on Muscle Protein Synthesis after Exercise, Nutrients 8 (2016) 339-343.
  • 22. G. Rehner, M. Heil, M. Auge, Effect of Proteins on availability of zinc I. Gastrointestinal transit time of casein and whey protein and zinc absorption in weaned rats, Z. Ernahrungswiss 24 (1985) 245-255.
  • 23. K. Schwochau, Technetium Chemistry and Radiopharmaceutical Applications, J. Dairy Sci., 1 (2000) 460-468.
  • 24. D.D. Dischino, J.M. Welch, R.M. Kilbourn, Relationship between Lipophilicity and Brain Extraction of C-11-Radiopharmaceuticals, J. Nucl. Med., 24 (1983) 1030–1038.
  • 25. S. Chattopadhyay, M.K. Das, R. Vanaja R, Purification and stabilization of 99mTc-d, l-HMPAO: role of organic extractants, Nucl. Med. Biol., 28 (2001) 741–744.
  • 26. A.Y. Kilcar, F.Z.B. Muftuler, H. Enginar, Synthesis, characterization and biodistribution of 99mTc-Bioquin-HMPAO (99mTc-BH) as a novel brain imaging agent, J. Radioanal. Nucl. Chem., 302 (2014) 563–573.
  • 27. M. Liu, Y. Zheng, U. Avcibasi, Novel 99mTc(III)-azide complexes [99mTc(N3)(CDO)(CDOH)2B-R] (CDOH2 = cyclohexanedione dioxime) as potential radiotracers for heart imaging, Nucl. Med. Biol., 43 (2016) 732–741.
  • 28. Ö. Uyaroğlu, H. Demiroğlu, G. Topal, Radiosynthesis and biodistribution of 99mTc-Sulfamethoxazole: a novel molecule for in-vivo infection imaging, Med. Chem. Res., 26 (2017) 3149–3157.
  • 29. H. Demiroğlu, G. Topal, Y. Parlak, Radiosynthesis and Biodistribution of 99mTc-Trimethoprim: A Novel Radiolabeled Antibiotic for Bacterial Infection Imaging Using Experimental Animals, Kafkas Univ. Vet. Fak. Derg., 24 (2018) 393-400.
There are 30 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Article
Authors

Mert Akınlı 0000-0003-0653-9261

Volkan Tekin 0000-0002-0264-3814

Fazilet Müftüler 0000-0001-8184-9660

Gökçen Topal 0000-0002-2268-8921

Yasemin Parlak 0000-0002-3682-7611

Gül Gümüşer 0000-0001-7103-2323

Uğur Avcıbaşı 0000-0002-3718-4195

Publication Date May 17, 2021
Acceptance Date November 9, 2020
Published in Issue Year 2021

Cite

APA Akınlı, M., Tekin, V., Müftüler, F., Topal, G., et al. (2021). Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı. Hacettepe Journal of Biology and Chemistry, 49(3), 243-252. https://doi.org/10.15671/hjbc.656021
AMA Akınlı M, Tekin V, Müftüler F, Topal G, Parlak Y, Gümüşer G, Avcıbaşı U. Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı. HJBC. May 2021;49(3):243-252. doi:10.15671/hjbc.656021
Chicago Akınlı, Mert, Volkan Tekin, Fazilet Müftüler, Gökçen Topal, Yasemin Parlak, Gül Gümüşer, and Uğur Avcıbaşı. “Tc-99m Ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı”. Hacettepe Journal of Biology and Chemistry 49, no. 3 (May 2021): 243-52. https://doi.org/10.15671/hjbc.656021.
EndNote Akınlı M, Tekin V, Müftüler F, Topal G, Parlak Y, Gümüşer G, Avcıbaşı U (May 1, 2021) Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı. Hacettepe Journal of Biology and Chemistry 49 3 243–252.
IEEE M. Akınlı, V. Tekin, F. Müftüler, G. Topal, Y. Parlak, G. Gümüşer, and U. Avcıbaşı, “Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı”, HJBC, vol. 49, no. 3, pp. 243–252, 2021, doi: 10.15671/hjbc.656021.
ISNAD Akınlı, Mert et al. “Tc-99m Ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı”. Hacettepe Journal of Biology and Chemistry 49/3 (May 2021), 243-252. https://doi.org/10.15671/hjbc.656021.
JAMA Akınlı M, Tekin V, Müftüler F, Topal G, Parlak Y, Gümüşer G, Avcıbaşı U. Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı. HJBC. 2021;49:243–252.
MLA Akınlı, Mert et al. “Tc-99m Ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı”. Hacettepe Journal of Biology and Chemistry, vol. 49, no. 3, 2021, pp. 243-52, doi:10.15671/hjbc.656021.
Vancouver Akınlı M, Tekin V, Müftüler F, Topal G, Parlak Y, Gümüşer G, Avcıbaşı U. Tc-99m ile İşaretli Whey Proteinin Deney Hayvanlarındaki Biyodağılımı. HJBC. 2021;49(3):243-52.

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