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Year 2019, Volume: 5 Issue: 1, 43 - 49, 27.06.2019

Abstract

References

  • BASAR, H.M. (2006), Yüksek LisansTezi, Organik kokulu doğal adsorbanlarla kontrollü ilaç salımı. İstanbul Teknik Üniversitesi/ Fen Bilimleri Enstitüsü , İstanbulBAYINDIR, Z., YUKSEL, N. (2007), Pegilasyon, PEG konjugantlarının hazırlanması ve uygulamaları, Ankara Ecz. Fak. Derg., 36 (4), 249 – 266.BULDUR, P.M. ( 2012), Yüksek LisansTezi, Encapsulatıon of Food Flavors Vıa Coacervatıon Method. Molecular Biology–Genetics & Biotechnology Programme, ISTANBUL TECHNICAL UNIVERSITY, İstanbul.CANEFE, K., DUMAN, G. (1994), İlaçların seçici taşınması ve hedeflendirilmesi, Ankara Ecz. Fak. Derg., 23: 1-2.CHIEN Y.W., LIN S. (2006), Drug delivery: controlled release. Encyclopedia of Pharmaceutical Technology, 1(1), 1082-103.ÇELEBI, N., GURSOY, A. (2014), Nanojeller zırh içinde, nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 89-100.DANCWERTS, M., FASSIHI A. (1991), Implantable controlledrelease drug delivery systems: A review, Drug Dev lnd Pharm, 17(11), 1465-502.DEGIM, L.T., GURSOY, A. (2014), Fulleren, karbon nanotüp, nanolif, zırh nanokafesler içinde, Nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 139-150.DERMAN, S., KIZILBEY, K., AKDESTE, Z. (2013), Polymerıc Nanopartıcles, Journal of Engineering and Natural Sciences Mühendislik ve Fen Bilimleri Dergisi Sigma, 31, 109-122.DINC, M., ASLAN, D., ICYER, N.C. , CAM, M. (2012), Gıda Teknolojileri Elektronik Dergisi, Mühendislik Fakültesi, Erciyes Üniversitesi, Kayseri , 7(2), 1-11.EENINK, M.J.D., FEIJEN, J., OLIJSLAGERl, J., ALBERS, J.H.M., RIEKE, J.C., GREIDANUS, P.J. ( 1987), Biodegradable hollow fibres for the controlled release of hormones., J Control Release , 6(1), 225-47.FATIMA, S.S., BEGUM, S., FATIMA, T. ( 2007), Madiha Jabeen, 1B-Pharmacy, Deccan School of Pharmacy, Hyderabad. Telangana. India, 2Assistant Professor, Department of pharmaceutics, Deccan school of Pharmacy, Hyderabad. Telangana, India.GHARSALLAOUİ, A., ROUDAUT, G., CHAMBİN, O., VOİLLEY, A., SAUREL, R. (2007), Applications of spray-drying in microencapsulation of food ingredients: An overview. Food Research International, 40(9), 1107-1121.HAUNG, J., KAO , H., WV XY. ( 2000), The pH-dependent biphasic release of azitromydine from a layered composition of PVP disks and P (MMA/MAA) spheres. Journal of Controlled Release, 67(1), 45-54.KAS, S.H. (2002)., İlaç taşıyıcı partikülersistemler, Kontrollü salım sistemleri içinde, İstanbul; Kontrollü Salım Sistemleri Derneği Yayınları, 1,65-99.KOLATE, A., BARADİA, D., PATİL, S., VHORA, L., KORE, G., MISRA, A. ( 2014), PEG-A versatile conjugating ligand for drugs and drug delivery system, Journal of Controlled Release, 67-81.MAKESHWAR, K. B., WASANKAR, S.R. ( 2013), Niosome: a Novel Drug Delivery System. Asian. J.Pharm. Res., 16-20.MORAIS, J.M., PAPADIMITRAKOPOULOS, F., Burgess, D.J. (2010), Biomaterials/tissueNEDOVIC, V., KALUSEVIC, A., MANOJLOVIC, V., LEVIC, S., BUGARSKI, B., et al . (2011), An overview of encapsulation technologies for food applications. Procedia Food Science,( 1), 1806-1815.ONER, L., GURSOY, R.N., GURSOY, A. ( 2014), Nanokristaller. zırh içinde, nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 125-137.ONYUKSEL, H., COMOGLU, T. (2014), Nanotaşıyıcılarda hedeflendirme, nanofarmasötikler ve uygulamaları, Kontrollü Salım Sistemleri Derneği, 211-225, İstanbul.RAFE, R., AHMED, Z. (2017), Liposomal drug delivery systems, Have Opened a New Window in Pharmaceutical Sciences, Department of Pharmacy, Southeast University, Dhaka, 11(4), 250.REMINGTON, J.P., WILLIAMS, L., WILKINS, 2005. Diffusion controlled systems, University of the Sciences in Philadelphia, Remington: The science and practice of pharmacy, USA, 947-8.SANLIDERE- ALOGLU, H., ONER, Z. (2010), Peyniraltı Suyu Proteinlerinin Mikroenkapsülasyon Teknolojisinde Kaplama Materyali Olarak Kullanım Olanakları, Süleyman Demirel Üniversitesi, Mühendislik-Mimarlık Fakültesi, Gıda Mühendisliği Bölümü, Isparta, Akademik Gıda 8(3), 38-42. SAYINER, Ö., COMOGLU, T. (2016), Nanotaşıyıcı sistemlerde hedeflendirme, Ankara Üniversitesi, Eczacılık Fakültesi Dergisi, Farmasötik Teknoloji AD., 40(3), 62-79.SENGEL-TURK C.T., HASCICEK C. ( 2009), Polimerik nanopartiküller ilaç taşıyıcı sistemlerde yüzey modifikasyonu, Ankara Eczacılık Fakültesi Dergisi, 137-154.SEZGIN, Z., YUKSEL, N., BAYKARA, T.,( 2003), İlaç taşıyıcı sistemler olarak polimerik misellerin hazırlanması ve karakteriza¬syonu, Ankara Ecz. Fak. Derg., 32(2) 125-142.SILINDIR, M., ERDOGAN, S., OZER A.Y. (2013), Nanosized multi¬functional liposomes for tumor diagnosis and molecular imaging by SPECT/CT. J Liposome Res , 23, 20-27.SINGH, R., LILLARD, J.W. (2009), Nanoparticle-based targeted drug delivery, Experimental and Molecular Pathology, 86, 215-223.SUMEDH, N.M., Dr. SHIVSHANKAR, D., MHASKE and MAHESH, B. N. (2017), Assessment of controlled release formulatıon for dıfferent drug ın spansules , WORLD JOURNAL OF PHARMACY AND PHARMACEUTICAL SCIENCES, 6(11), 908-916.TIRNAKSIZ, F., GURSOY, A. (2014), Nanoemülsiyonlar zırh. içinde, nanofarmasötikler ve uygulamaları, İstanbul:Kontrollü Salım Sistemleri Derneği, 101-110.TUYLEK, Z. (2017), İlaç taşıyıcı sistemler ve nanoteknolojik etkileşim, elektronik ve otomasyon bölümü, biyomedikal cihaz teknolojisi, Bozok Tıp Dergisi , 89-98.VASIR, J.K.; LABHASETWAR V. (2005), Targeted drug delivery in cancer therapy, Technology in Cancer Research and Treatment, 4(4), 363-374.YANG, F., Fu, D.L., LONG, J., Ni, Q.X . (2008), Magnetic lymphatic targeting drug delivery system using carbon Nanotubes, Medical Hypotheses,765-767.YANG, J., Xiao, J.-X., DING, L.-Z. ( 2009), An investigation into the application of konjac glucomannan as a flavor encapsulant. European Food Research and Technology, 229(3), 467-474. YAPAR, E.A. ( 2012), İmplante edilebilen polimerik ilaç salım sistemlerine genel bakış, Turkiye Klinikleri J Pharm Sci ; 1(2), 73-82.ZAKI, M., A.J., SATISH, K.P., DHEERAJ, T.B., DINESH, K.J. (2012), Implantable drug delivery system, International Journal of PharmTech Research,vol.4,280-292.

Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems

Year 2019, Volume: 5 Issue: 1, 43 - 49, 27.06.2019

Abstract

Controlled-drug
release systems simplify dosing regimen and minimize drug side effects. These
systems increase patient compliance as well as treatment efficacy and safety.
Spansules, contain drug capsules surrounded by slowly soluble substances, have
been emerged as the first controlled release product. Unlike desired
pathological region, influence on all parts of the body of drug active
substances is one of the biggest problems in treatments. This problem has been
tried to be minimizing through target-specific drug carrier systems. These
systems are head role players in targeted treatment, they can release the
desired amount of active substance to the desired area, and thus provide
important therapeutic benefits for patients. In addition, due to their high
economic value, the production of these systems attracts pharmaceutical
manufacturers and many countries.

References

  • BASAR, H.M. (2006), Yüksek LisansTezi, Organik kokulu doğal adsorbanlarla kontrollü ilaç salımı. İstanbul Teknik Üniversitesi/ Fen Bilimleri Enstitüsü , İstanbulBAYINDIR, Z., YUKSEL, N. (2007), Pegilasyon, PEG konjugantlarının hazırlanması ve uygulamaları, Ankara Ecz. Fak. Derg., 36 (4), 249 – 266.BULDUR, P.M. ( 2012), Yüksek LisansTezi, Encapsulatıon of Food Flavors Vıa Coacervatıon Method. Molecular Biology–Genetics & Biotechnology Programme, ISTANBUL TECHNICAL UNIVERSITY, İstanbul.CANEFE, K., DUMAN, G. (1994), İlaçların seçici taşınması ve hedeflendirilmesi, Ankara Ecz. Fak. Derg., 23: 1-2.CHIEN Y.W., LIN S. (2006), Drug delivery: controlled release. Encyclopedia of Pharmaceutical Technology, 1(1), 1082-103.ÇELEBI, N., GURSOY, A. (2014), Nanojeller zırh içinde, nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 89-100.DANCWERTS, M., FASSIHI A. (1991), Implantable controlledrelease drug delivery systems: A review, Drug Dev lnd Pharm, 17(11), 1465-502.DEGIM, L.T., GURSOY, A. (2014), Fulleren, karbon nanotüp, nanolif, zırh nanokafesler içinde, Nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 139-150.DERMAN, S., KIZILBEY, K., AKDESTE, Z. (2013), Polymerıc Nanopartıcles, Journal of Engineering and Natural Sciences Mühendislik ve Fen Bilimleri Dergisi Sigma, 31, 109-122.DINC, M., ASLAN, D., ICYER, N.C. , CAM, M. (2012), Gıda Teknolojileri Elektronik Dergisi, Mühendislik Fakültesi, Erciyes Üniversitesi, Kayseri , 7(2), 1-11.EENINK, M.J.D., FEIJEN, J., OLIJSLAGERl, J., ALBERS, J.H.M., RIEKE, J.C., GREIDANUS, P.J. ( 1987), Biodegradable hollow fibres for the controlled release of hormones., J Control Release , 6(1), 225-47.FATIMA, S.S., BEGUM, S., FATIMA, T. ( 2007), Madiha Jabeen, 1B-Pharmacy, Deccan School of Pharmacy, Hyderabad. Telangana. India, 2Assistant Professor, Department of pharmaceutics, Deccan school of Pharmacy, Hyderabad. Telangana, India.GHARSALLAOUİ, A., ROUDAUT, G., CHAMBİN, O., VOİLLEY, A., SAUREL, R. (2007), Applications of spray-drying in microencapsulation of food ingredients: An overview. Food Research International, 40(9), 1107-1121.HAUNG, J., KAO , H., WV XY. ( 2000), The pH-dependent biphasic release of azitromydine from a layered composition of PVP disks and P (MMA/MAA) spheres. Journal of Controlled Release, 67(1), 45-54.KAS, S.H. (2002)., İlaç taşıyıcı partikülersistemler, Kontrollü salım sistemleri içinde, İstanbul; Kontrollü Salım Sistemleri Derneği Yayınları, 1,65-99.KOLATE, A., BARADİA, D., PATİL, S., VHORA, L., KORE, G., MISRA, A. ( 2014), PEG-A versatile conjugating ligand for drugs and drug delivery system, Journal of Controlled Release, 67-81.MAKESHWAR, K. B., WASANKAR, S.R. ( 2013), Niosome: a Novel Drug Delivery System. Asian. J.Pharm. Res., 16-20.MORAIS, J.M., PAPADIMITRAKOPOULOS, F., Burgess, D.J. (2010), Biomaterials/tissueNEDOVIC, V., KALUSEVIC, A., MANOJLOVIC, V., LEVIC, S., BUGARSKI, B., et al . (2011), An overview of encapsulation technologies for food applications. Procedia Food Science,( 1), 1806-1815.ONER, L., GURSOY, R.N., GURSOY, A. ( 2014), Nanokristaller. zırh içinde, nanofarmasötikler ve uygulamaları, İstanbul: Kontrollü Salım Sistemleri Derneği, 125-137.ONYUKSEL, H., COMOGLU, T. (2014), Nanotaşıyıcılarda hedeflendirme, nanofarmasötikler ve uygulamaları, Kontrollü Salım Sistemleri Derneği, 211-225, İstanbul.RAFE, R., AHMED, Z. (2017), Liposomal drug delivery systems, Have Opened a New Window in Pharmaceutical Sciences, Department of Pharmacy, Southeast University, Dhaka, 11(4), 250.REMINGTON, J.P., WILLIAMS, L., WILKINS, 2005. Diffusion controlled systems, University of the Sciences in Philadelphia, Remington: The science and practice of pharmacy, USA, 947-8.SANLIDERE- ALOGLU, H., ONER, Z. (2010), Peyniraltı Suyu Proteinlerinin Mikroenkapsülasyon Teknolojisinde Kaplama Materyali Olarak Kullanım Olanakları, Süleyman Demirel Üniversitesi, Mühendislik-Mimarlık Fakültesi, Gıda Mühendisliği Bölümü, Isparta, Akademik Gıda 8(3), 38-42. SAYINER, Ö., COMOGLU, T. (2016), Nanotaşıyıcı sistemlerde hedeflendirme, Ankara Üniversitesi, Eczacılık Fakültesi Dergisi, Farmasötik Teknoloji AD., 40(3), 62-79.SENGEL-TURK C.T., HASCICEK C. ( 2009), Polimerik nanopartiküller ilaç taşıyıcı sistemlerde yüzey modifikasyonu, Ankara Eczacılık Fakültesi Dergisi, 137-154.SEZGIN, Z., YUKSEL, N., BAYKARA, T.,( 2003), İlaç taşıyıcı sistemler olarak polimerik misellerin hazırlanması ve karakteriza¬syonu, Ankara Ecz. Fak. Derg., 32(2) 125-142.SILINDIR, M., ERDOGAN, S., OZER A.Y. (2013), Nanosized multi¬functional liposomes for tumor diagnosis and molecular imaging by SPECT/CT. J Liposome Res , 23, 20-27.SINGH, R., LILLARD, J.W. (2009), Nanoparticle-based targeted drug delivery, Experimental and Molecular Pathology, 86, 215-223.SUMEDH, N.M., Dr. SHIVSHANKAR, D., MHASKE and MAHESH, B. N. (2017), Assessment of controlled release formulatıon for dıfferent drug ın spansules , WORLD JOURNAL OF PHARMACY AND PHARMACEUTICAL SCIENCES, 6(11), 908-916.TIRNAKSIZ, F., GURSOY, A. (2014), Nanoemülsiyonlar zırh. içinde, nanofarmasötikler ve uygulamaları, İstanbul:Kontrollü Salım Sistemleri Derneği, 101-110.TUYLEK, Z. (2017), İlaç taşıyıcı sistemler ve nanoteknolojik etkileşim, elektronik ve otomasyon bölümü, biyomedikal cihaz teknolojisi, Bozok Tıp Dergisi , 89-98.VASIR, J.K.; LABHASETWAR V. (2005), Targeted drug delivery in cancer therapy, Technology in Cancer Research and Treatment, 4(4), 363-374.YANG, F., Fu, D.L., LONG, J., Ni, Q.X . (2008), Magnetic lymphatic targeting drug delivery system using carbon Nanotubes, Medical Hypotheses,765-767.YANG, J., Xiao, J.-X., DING, L.-Z. ( 2009), An investigation into the application of konjac glucomannan as a flavor encapsulant. European Food Research and Technology, 229(3), 467-474. YAPAR, E.A. ( 2012), İmplante edilebilen polimerik ilaç salım sistemlerine genel bakış, Turkiye Klinikleri J Pharm Sci ; 1(2), 73-82.ZAKI, M., A.J., SATISH, K.P., DHEERAJ, T.B., DINESH, K.J. (2012), Implantable drug delivery system, International Journal of PharmTech Research,vol.4,280-292.
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Primary Language English
Journal Section makaleler
Authors

Beyza Nur Çam This is me

Mucip Genişel

Publication Date June 27, 2019
Published in Issue Year 2019 Volume: 5 Issue: 1

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APA Çam, B. N., & Genişel, M. (2019). Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems. Eastern Anatolian Journal of Science, 5(1), 43-49.
AMA Çam BN, Genişel M. Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems. Eastern Anatolian Journal of Science. June 2019;5(1):43-49.
Chicago Çam, Beyza Nur, and Mucip Genişel. “Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems”. Eastern Anatolian Journal of Science 5, no. 1 (June 2019): 43-49.
EndNote Çam BN, Genişel M (June 1, 2019) Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems. Eastern Anatolian Journal of Science 5 1 43–49.
IEEE B. N. Çam and M. Genişel, “Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems”, Eastern Anatolian Journal of Science, vol. 5, no. 1, pp. 43–49, 2019.
ISNAD Çam, Beyza Nur - Genişel, Mucip. “Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems”. Eastern Anatolian Journal of Science 5/1 (June 2019), 43-49.
JAMA Çam BN, Genişel M. Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems. Eastern Anatolian Journal of Science. 2019;5:43–49.
MLA Çam, Beyza Nur and Mucip Genişel. “Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems”. Eastern Anatolian Journal of Science, vol. 5, no. 1, 2019, pp. 43-49.
Vancouver Çam BN, Genişel M. Overview of Targeted Treatment Through Nano-Drug Delivery Systems and Controlled-Drug Release Systems. Eastern Anatolian Journal of Science. 2019;5(1):43-9.