Диссертация (1141302), страница 29
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Shao, Ml. Farooqi, S. Diaz [et al] // Pharmaceutical Development andTechology. -2001. – N. 6. –P. 247-254.92. Elzoghby A. O. Gelatin-based nanoparticles as drug and gene deliverysystems: Reviewing three decades of research // Journal of Controlled Release. –2013. – N. 172. – P.
1075–1091.93. Extruded and spheronized beads containing Carbopol® 974P to delivernonelectrolytes and salts of weakly basic drugs / G.S. Bommareddy, S. PakerLeggs, K.K. Saripella [et al] // International Journal of Pharmaceutics. – 2006. –Vol. 321. – N. 1-2. – P. 62-71.94. Fell T.J. Targeting of drugs and delivery systems to specific sites in thegastrointestinal tract // Journal of Anatomy. – 1996. – N. 189.
– P. 517-519.95. Floating tablets for controlled release of ofloxacin via compression coating ofhydroxypropyl cellulose combined with effervescent agent / Qi X, H.Chen, Y. Rui[et al] // International Journal of Pharmacetics. – 2015. - Vol. 1-2. – N.
489. –P. 210-217.96. Formulation and in vitro evaluation of theophylline matrix tablets prepared bydirect compression: effect of polymer blends / I. El-Bagory, N. Barakat, M.A.Ibrahim [et al] // Saudi Pharmaceutical Journal. - 2012. – N. 20. - P. 229 -238.97. Formulation and Evaluation of Floating Tablet of Captopril / Sameer Singh,K. Prajapati, A.K. Pathak [et al] // International Journal of PharmTech Research. 2011.
– N. 1. - P. 333-341.98. Formulating Controlled Release Tablets and Capsules with Carbopol ®Polymers [Электронный ресурс] // Pharmaceutical Bulletin the 31st Edition.[2011].URL:https://www.google.ru/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=0ahUKEwic2__9yIzSAhXEJZoKHY03DpgQFggcMAA&url=https%3A%2F%2Fwww.researchgate.net%2Ffile.PostFileLoader.html%3Fid%3D56e19ddeed99e1d4483201ab48f%26assetKey%3DAS%253A338124577230860%25401457626589966&usg=AFQjCNH899Nh0nbK6z_WHjAdt5RvQk5QDg&cad=rjt(дата обращения:11.12.2016).99.
Foundation review: MRI as a tool for evaluation of oral controlled releasedosage forms / P. P. Dorozynski, P. Kulinowski, A. Mlynarczyk [et al] // DrugDiscovery Today. – 2012. – Vol. 17. – N. 3-4. - P. 110 – 123.100. Frenning G. Modelling drug release from inert matrix systems: From movingboundarytocontinuous-fielddescriptions//InternationalJournalofPharmaceutics. – 2011. – N 1. – P. 88-99.101. .Gad S.
C. Pharmaceutical Manufacturing Handbook: Production andProcesses. – Hoboken, New Jersey: John Wiley & Sons, 2008. – 1384 p.102. Garbacz G., Klein S. Dissolution testing of oral modified-release dosageforms // Journal of Pharmacy and Pharmacology. – 2012. – N. 64. – P. 944-968.103. Garg R., Gupta G.D.
Progress in controlled gastroretentive delivery systems //Tropical Journal of Pharmaceutical Research. – 2008. – N. 7. – P. 1055–1066.104. Grund J. Formulation and evaluation of water-insoluble matrix drug deliverysystems and modelling of drug release. - PhD thesis, Free University of Berlin,2013. – 136 p.105.
Grund J., Körber M., Bodmeier R. The effect of polymer properties on directcompression and drug release from water-insoluble controlled release matrixtablets // International Journal of Pharmaceutics. – 2014. – Vol. 469. – N. 1. –P. 94-101.106. Güres S.; Siepmann F.; Siepmann J.; Kleinebudde P., Drug release fromextruded solid lipid matrices: Theoretical predictions and independent experiments// European Journal of Pharmaceutics and Biopharmaceutics.
– 2012. - N. 80. – P.122–129.107. Hamdani J., Moës A. J., Amighi K.Physical and thermal characterisation ofPrecirol® and Compritol® as lipophilic glycerides used for the preparation of202controlled-release matrix pellets // International Journal of Pharmaceutics. - 2003.– N. 260. - P. 47-57.108. Hamidi M., Azadi A., Raflei P. Hydrogel nanoparticles in drug delivery //Advanced Drug Delivery Reviews. – 2008. – N. 60.
– P. 1638–1649.109. Haresh T Mulani, Bhumin Patel, Nehal J Shah. Formulation and Evaluation ofKollidon®SR for рH-Independent Extended Release Matrix Systems forPropranolol Hydrochloride // Journal of Applied Pharmacetical Science. – 2011. Vol. 3. – N. 5. – P. 1233-1244.110. Hernandez Belem L., Hernández-León A., Villafuerte-Robles L.
Effect ofstearic acid on the properties of metronidazole/methocel K4M floating matrices //Brazilian Journal of Pharmaceutical Science. – 2009. - Vol. 45. - N. 3. - P. 497505.111. Hiremath P.S., Saha R.N. Controlled Release Hydrophilic Matrix TabletFormulations of Isoniazid: Design and In Vitro Studies // AAPS PharmSciTech. –2008. – Vol. 4. – N.
9. – P. 1171-1178.112. Hong Wen, Kinam Park. Oral controlled release formulation design and drugdelivery: theory to practice. Hoboken, New Jersey: John Wiliey & Sons Inc. –2010. – 363 p.113. HPMC-Matrices for Controlled Drug Delivery: A New Model CombiningDiffusion, Swelling and Dissolution Mechanisms and Predicting the ReleaseKinetics / J.Siepmann, H.
Kranz, R. Bodmeier [et al] // Pharmaceutical Research. –1999. – Vol. 16. – N. 11. – P. 1748-1756.114. In vitro controlled release of sodium ferulate from Compritol 888 ATO-basedmatrix tablets / Feng-Qian Li, Jin-Hong Hu, Jia-Xin Deng[et al] // InternationalJournal of Pharmaceutics. - 2006. – N. 324. - P. 152–157.115. Investigation of the swelling behavior of Dome Matrix drug delivery modulesby high-resolution X-ray computed tomography // E. Losi, N.A. Peppas, R.A.Ketcham [et al] // Journal of Drug Delivery Science and Technology. - 2013.
–Vol. 2. – N.23. P. 165-170.203116. Investigation of solubility and dissolution of a free base and two different saltforms as a function of pH / S. Li, S. Wong, S. Sethia [et al] // PharmaceuticalResearch. – 2005. – Vol. 4. – N. 22. – P. 628-635.117. Iovanov R.I., Tomuţa I., LeucuţA S. E. Influence of some formulation factorson the release of felodipine from extended release hydrophilic matrix tablets //FARMACIA. – 2009. - Vol.
57. – N. 5. – P. 582-589.118. Jaimini Manish, Kothari Abhay. Sustained release matrix type drug deliverysystem: a review // Journal of Drug Delivery & Therapeutics. - 2012. – N. 2. P. 142-148.119. Jain K.K. Drug Delivery Systems. Totowa, New Jersey: Humana Press, 2008.– 251 p.120. Khan K.A., Musikabhumma P. Effect of slugging pressure on the propertiesof granules and tablets prepared from potassium phenethicillin // Jornal ofPharmacy and Pharmacology. – 1981.
– Vol. 10. – N. 33. – P. 627-631.121. Kramer S.F., Flynn G.L. Solubility of organic hydrochlorides // Journal ofPharmaceutical Sciences. – 1972. - Vol. 12. – N. 61. – P. 1896-1904.122. Kranz H., Wagner T. Effects of formulation and process variables on therelease of a weakly basic drug from single unit extended release formulations //European Journal of Pharmaceutics and Biopharmaceutics. – 2006. – N. 62. –P. 70-76.123. Krögel I, Bodmeier R. Development of a multifunctional matrix drug deliverysystem surrounded by an impermeable cylinder // Journal of Controlled Release. –1999. Vol. 61.
– N. 1-2. P. 43-50.124. Levina M., Rajabi-Siahboomi A. R. The Influence of Excipients on DrugReleasefromHydroxypropylMethylcelluloseMatrices//JournalofPharmaceutical Sciences. 2004. - Vol. 93. - N. 11. - P. 2746 – 2754.125. Maderuelo C., Zarzuelo A., Lanao J. M.
Critical factors in the release of drugsfrom sustained release hydrophilic matrices // Journal of Controlled Release. 2011. – N. 154. P. 2-19.204126. Matrix-loaded biodegradable gelatin nanoparticles as new approach toimprove drug loading and delivery / K. Ofokansi, G.
Winter, G. Fricker [et al] //European Journal of Pharmaceutics and Biopharmaceutics. – 2010. – Vol. 1. –N. 76 – P. 1-9.127. Matrix type drug delivery system: A Review /H. Patel, D. R. Panchal, U.Patel [et al] // Journal of pharmaceutical science and bioscientific research. – 2011.– N. 3. – P. 143-151.128. Mechanism of release from pellets coated with an ethylcellulose-based film /A.G. Ozturk, S.S. Ozturk , B.O.
Palson [et al] // Journal of Controlled Release. –1990. – N. 14. – P. 203-213.129. Microencapsulation: a promising technique for controlled drug delivery /M.N. Singh, K.S. Hemant, M. Ram [et al] // Journal of Research in PharmaceuticalSciences. - 2010. –N. 5. - P. 65-77.130. Mithilesh Kumar Jha. Modified release formulations to achieve the qualitytarget product profile (QTPP) // International Journal of Pharmaceutical Sciencesand Research.
– 2012. – N. 8. – P. 2376-2386.131. Morrison R. T., Boyd R. N. Organic Chemistry. - Boston: Allyn and Bacon,1973. – 1434 p.132. Navin Dixit, Sheo Dutt Maurya, Bhanu P.S.Sagar. Sustained release drugdelivery system // Indian Journal of Research in Pharmacy and Biotechnology. 2013. – N.
1. - Р. 305 – 310.133. Nott K.P. Magnetic resonance imaging of tablet dissolution // EuropeanJournal of Pharmaceutics and Biopharmaceutics.- 2010. – Vol. 74. – P. 78–83.134. Nur A.O., Zhang J.S. Captopril floating and/or bioadhesive tablets: designand release kinetics // Drug Development and Industrial Pharmacy. – 2000. –N. 26. – P.965-969.135. Omidian H., Park K. Swelling agents and devices in oral drug delivery // J.DRUG DEL. SCI. TECH.
- 2008. - N. 18. - P. 83-93.205136. Optimisation of floating matrix tablets and evaluation of their gastricresidence time / S. Baumgartner, J. Kristl, F. Vrecer [et al] // International Journalof Pharmaceutics. - 2000. – N. 195. P. 125–135.137. Oral controlled release drug delivery system: an overview / M.Kushal, M.Monali, M. Durgavati [et al] // International Research Journal of Pharmacy. - 2013.–N. 4. - P. 70-76.ресурс].URL:http://www.skyepharma.com/technologies/oral-drug-delivery-technologies(дата138. OralDrugDeliveryTechnologies[Электронныйобращения: 15.08.2016).139. Oral sustained release drug delivery system: an overview / Chugh Isha, S.Nimrata, A.C.
Rana [et al] // International Journal of Pharmacy. – 2012. - N. 3. P. 57 - 62.140. Oral pulsatile drug delivery systems // A. Maroni, L. Zema, M. Cerea [et al] //Expert Opinion on Drug Delivery. – 2005. – N. 2. – P. 856 – 871.141. ÖzgüneyI.,ShuwisitkulD.,BodmeierR.//Developmentandcharacterization of extended release Kollidon® SR mini-matrices prepared by hotmelt extrusion // European Journal of Pharmaceutics and Biopharmaceutics. 2009. – Vol. 73 – N. 1. – P.
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