References
- OledzkaESobczakMPolymers in the pharmaceutical applications-Natural and bioactive initiators and catalysts in the synthesis of biodegradable and bioresorbable polyesters and polycarbonatesAgboECInnovations in Biotechnology: InTech2012 Available from: http://www.intechopen.com/books/innovations-in-biotechnology/polymers-in-the-pharmaceutical-applicationsnatural-and-bioactive-initiators-and-catalysts-in-the-syAccessed May 16, 2018
- KamalyNYameenBWuJFarokhzadOCDegradable controlled-release polymers and polymeric nanoparticles: mechanisms of controlling drug releaseChem Rev201611642602266326854975
- KamalyNXiaoZValenciaPMRadovic-MorenoAFFarokhzadOCTargeted polymeric therapeutic nanoparticles: design, development and clinical translationChem Soc Rev20124172971301022388185
- FarokhzadOCJonSKhademhosseiniANanoparticle-aptamer bioconjugates: a new approach for targeting prostate cancer cellsCancer Res200464217668767215520166
- GuFZhangLTeplyBAPrecise engineering of targeted nanoparticles by using self-assembled biointegrated block copolymersProc Natl Acad Sci U S A200810572586259118272481
- BremHGabikianPBiodegradable polymer implants to treat brain tumorsJ Control Release2001741–3636711489483
- TaTPorterTMThermosensitive liposomes for localized delivery and triggered release of chemotherapyJ Control Release20131691–211212523583706
- LiYXiaoKZhuWDengWLamKSStimuli-responsive cross-linked micelles for on-demand drug delivery against cancersAdv Drug Deliv Rev201466587324060922
- FredenbergSWahlgrenMReslowMAxelssonAThe mechanisms of drug release in poly(lactic-co-glycolic acid)-based drug delivery systems – a reviewInt J Pharm20114151–2345221640806
- BatEZhangZFeijenJGrijpmaDWPootAABiodegradable elastomers for biomedical applications and regenerative medicineRegen Med20149338539824935047
- NicolasJMuraSBrambillaDMackiewiczNCouvreurPDesign, functionalization strategies and biomedical applications of targeted biodegradable/biocompatible polymer-based nanocarriers for drug deliveryChem Soc Rev20134231147123523238558
- MatricardiPdi MeoCCovielloTHenninkWEAlhaiqueFInterpenetrating polymer networks polysaccharide hydrogels for drug delivery and tissue engineeringAdv Drug Deliv Rev20136591172118723603210
- WenYOhJKRecent strategies to develop polysaccharide-based nanomaterials for biomedical applicationsMacromol Rapid Commun201435211819183225283788
- GoodarziNVarshochianRKamaliniaGAtyabiFDinarvandRA review of polysaccharide cytotoxic drug conjugates for cancer therapyCarbohydr Polym20139221280129323399156
- GangulyKChaturvediKMoreUANadagoudaMNAminabhaviTMPolysaccharide-based micro/nanohydrogels for delivering macromolecular therapeuticsJ Control Release201419316217324845128
- CumpsteyIChemical modification of polysaccharidesISRN Org Chem20132013127
- LiSXiongQLaiXMolecular modification of polysaccharides and resulting bioactivitiesCompr Rev Food Sci Food Saf2016152237250
- BowlesDMicro-and Macro-Algae: Utility for Industrial Applications Outputs from the EPOBIO ProjectUniversity of York: CNAP2007 Available from: http://www.etipbioenergy.eu/images/epobio_aquatic_report.pdfAccessed June 6, 2018
- LaurienzoPMarine polysaccharides in pharmaceutical applications: an overviewMar Drugs2010892435246520948899
- GeorgeMAbrahamTEPolyionic hydrocolloids for the intestinal delivery of protein drugs: alginate and chitosan – a reviewJ Control Release2006114111416828914
- SilvaCMRibeiroAJFigueiredoMFerreiraDVeigaFMicroencapsulation of hemoglobin in chitosan-coated alginate microspheres prepared by emulsification/internal gelationAAPS J200574E903E913
- PawarSNEdgarKJAlginate derivatization: a review of chemistry, properties and applicationsBiomaterials201233113279330522281421
- IrfanMRabelSBukhtarQOrally disintegrating films: a modern expansion in drug delivery systemSaudi Pharm J201624553754627752225
- GavhaneYNYadavAVLoss of orally administered drugs in GI tractSaudi Pharm J201220433134423960808
- BatchelorHKMarriottJFFormulations for children: problems and solutionsBr J Clin Pharmacol201579340541825855822
- AliMVijendarCKumarSFormulation and evaluation of fast dissolving oral films of diazepamJ Pharmacovigilance421010.4172/2329-6887.1000210
- BalaRKhannaSPawarPDesign optimization and in vitro-in vivo evaluation of orally dissolving strips of clobazamJ Drug Deliv20142014115
- LandováHVetchýDGajdziokJEvaluation of the influence of formulation and process variables on mechanical properties of oral mucoadhesive films using multivariate data analysisBiomed Res Int2014201419
- LiuMCaoWSunYHeZPreparation, characterization and in vivo evaluation of formulation of repaglinide with hydroxypropyl-β-cyclodextrinInt J Pharm20144771–215916625455768
- KhamesAAbdelazeemAHHabashMTahaMOPreparation and in vitro characterization of glibenclamide-loaded alginate hexyl-amide beads: a novel drug delivery system to improve the dissolution ratePharm Dev Technol201419788189024047142
- PatelAMucoadhesive buccal films based on chitosan and carboxymethylated FERONIA Limonia fruit pulp mucilage Interpolymer complex for delivery of opioid analgesicsAsian J Pharm2016102137143
- PatelDPatelCShahPFormulation and evaluation of bioadhesive buccal drug delivery of repaglinide tabletsAsian J Pharm201263171179
- PimparadeMBVoAMauryaASDevelopment and evaluation of an oral fast disintegrating anti-allergic film using hot-melt extrusion technologyEur J Pharm Biopharm2017119819028596037
- KhamesAInvestigation of the effect of solubility increase at the main absorption site on bioavailability of BCS class II drug (risperidone) using liquisolid techniqueDrug Deliv201724132833828165818
- SekharMCEffect of simvastatin on the pharmacodynamic activity of repaglinide in Rats/RabbitsInt J Diabet Res2012145257
- SalmanZDMaraieNKAlabbassiMGGhareebMMIn Vitro/In Vivo Evaluation and Bioavailability Study of Amitriptyline Hydrochloride from the Optimized Oral Fast Dissolving FilmsUK J Pharm Biosci2014263242
- MeganHNowlandRLGuidelines on anesthesia and analgesia in rabbits: Michigan medicine confluence2017 Available from: https://wiki.med.umich.edu/display/ULAMGSOP/Guidelines+on+Anesthesia+and+Analgesia+in+RabbitsAccessed June 6, 2018
- ZhangJGaoFGuanXDetermination of repaglinide in human plasma by high-performance liquid chromatography–tandem mass spectrometryActa Pharmaceutica Sinica B2011114045
- MontgomeryDCDesign and Analysis of Experiments9th edHoboken (NJ)John Wiley & Sons, Inc2017 Available from: https://www.wiley.com/en-us/Design+and+Analysis+of+Experiments%2C+9th+Edition-p-9781119113478 [online]Accessed September 12, 2018
- KaurPGargTRathGMurthyRSRGoyalAKDevelopment, optimization and evaluation of surfactant-based pulmonary nanolipid carrier system of paclitaxel for the management of drug resistance lung cancer using Box-Behnken designDrug Deliv20162361912192525544602
- HaoJFangXZhouYDevelopment and optimization of solid lipid nanoparticle formulation for ophthalmic delivery of chloramphenicol using a Box-Behnken designInt J Nanomedicine2011668369321556343
- ChenXYanHSunWSynthesis of amphiphilic alginate derivatives and electrospinning blend nanofibers: a novel hydrophobic drug carrierPolymer Bulletin2015721230973117
- LiewKBTanYTFPehK-KEffect of polymer, plasticizer and filler on orally disintegrating filmDrug Dev Ind Pharm201440111011923311593
- ShamsTSayeedMSBKadirMFThermal, infrared characterization and in vitro evaluation of repaglinide solid dispersionDer Pharmacia Lettre201136142150
- OdouPBarthélémyCChatelierDPharmacokinetics of midazolam: comparison of sublingual and intravenous routes in rabbitEur J Drug Metab Pharmacokinet19992411710412885