Stereolithography (SLA) 3D Printing of Ascorbic Acid Loaded Hydrogels: A Controlled Release Study.
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Liwei Lin | Ilbey Karakurt | Liwei Lin | A. Aydoğdu | Ilbey Karakurt | Ayça Aydoğdu | Sevil Çıkrıkcı | Jesse Orozco | S. Çıkrıkcı | Jesse Orozco
[1] Rhiannon Batchelor,et al. (−)-Riboflavin (vitamin B2) and flavin mononucleotide as visible light photo initiators in the thiol–ene polymerisation of PEG-based hydrogels , 2017 .
[2] Christopher N. Bowman,et al. Impact of Oxygen on Photopolymerization Kinetics and Polymer Structure , 2006 .
[3] Siowling Soh,et al. Printing Tablets with Fully Customizable Release Profiles for Personalized Medicine , 2015, Advanced materials.
[4] A. Saleh,et al. Applications of nanoparticle systems in drug delivery technology , 2017, Saudi pharmaceutical journal : SPJ : the official publication of the Saudi Pharmaceutical Society.
[5] M. Sheraz,et al. Photostability and Interaction of Ascorbic Acid in Cream Formulations , 2011, AAPS PharmSciTech.
[6] A. Basit,et al. Effect of geometry on drug release from 3D printed tablets. , 2015, International journal of pharmaceutics.
[7] W. Zeng,et al. Development and application of a novel UV method for the analysis of ascorbic acid. , 2005, Journal of pharmaceutical and biomedical analysis.
[8] J. Fisher,et al. Photocrosslinking characteristics and mechanical properties of diethyl fumarate/poly(propylene fumarate) biomaterials. , 2002, Biomaterials.
[9] H. Seitz,et al. Drug Delivery From Poly(ethylene glycol) Diacrylate Scaffolds Produced by DLC Based Micro‐Stereolithography , 2014 .
[10] M. Dumont,et al. Evaluation of the stability of pea and canola protein-based hydrogels in simulated gastrointestinal fluids , 2015 .
[11] C. Bowman,et al. Mechanism and Implementation of Oxygen Inhibition Suppression in Photopolymerizations by Competitive Photoactivation of a Singlet Oxygen Sensitizer , 2010 .
[12] Amir Hosein Sakhaei,et al. Highly stretchable hydrogels for UV curing based high-resolution multimaterial 3D printing. , 2018, Journal of materials chemistry. B.
[13] Beom-Jin Lee,et al. Mechanisms of drug release from advanced drug formulations such as polymeric-based drug-delivery systems and lipid nanoparticles , 2017, Journal of Pharmaceutical Investigation.
[14] Pamela Robles Martinez,et al. Influence of Geometry on the Drug Release Profiles of Stereolithographic (SLA) 3D-Printed Tablets , 2018, AAPS PharmSciTech.
[15] M. Cima,et al. Oral dosage forms fabricated by three dimensional printing. , 2000, Journal of controlled release : official journal of the Controlled Release Society.
[16] Loo-Teck Ng,et al. Hydrogels synthesised through photoinitiator-free photopolymerisation technique for delivering drugs including a tumour-tracing porphyrin , 2006 .
[17] Z. Xiaoming,et al. Ascorbic Acid: Microencapsulation Techniques and Trends—A Review , 2012 .
[18] A. Hoffman,et al. Expandable gastroretentive dosage forms. , 2003, Journal of controlled release : official journal of the Controlled Release Society.
[19] Luke M. Geever,et al. Mechanical properties and thermal behaviour of PEGDMA hydrogels for potential bone regeneration application. , 2011, Journal of the mechanical behavior of biomedical materials.
[20] Abdul W. Basit,et al. Stereolithographic (SLA) 3D printing of oral modified-release dosage forms. , 2016, International journal of pharmaceutics.
[21] A. Basit,et al. 3D printing of modified-release aminosalicylate (4-ASA and 5-ASA) tablets. , 2015, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.
[22] Y. E. Shapiro,et al. Structure and dynamics of hydrogels and organogels: An NMR spectroscopy approach , 2011 .
[23] Chuanhui Xu,et al. Novel Composite Microparticles of Alginate Coated with Chitosan for Controlled Release and Protection of Ascorbic Acid , 2017 .
[24] Chih-Chang Chu,et al. Visible light induced dextran-methacrylate hydrogel formation using (−)-riboflavin vitamin B2 as a photoinitiator and L-arginine as a co-initiator , 2009 .
[25] C. Chu,et al. Fabrication of a biodegradable polysaccharide hydrogel with riboflavin, vitamin B2, as a photo-initiator and L-arginine as coinitiator upon UV irradiation. , 2009, Journal of biomedical materials research. Part B, Applied biomaterials.
[26] A. Basit,et al. Fused-filament 3D printing (3DP) for fabrication of tablets. , 2014, International journal of pharmaceutics.
[27] S. Mitchell,et al. Investigation of the Effect of Tablet Surface Area/Volume on Drug Release from Hydroxypropylmethylcellulose Controlled-Release Matrix Tablets , 2002, Drug development and industrial pharmacy.
[28] Abdul W. Basit,et al. Stereolithography (SLA) 3D printing of an antihypertensive polyprintlet: Case study of an unexpected photopolymer-drug reaction , 2020 .
[29] Ian Ashcroft,et al. 3D inkjet printing of tablets exploiting bespoke complex geometries for controlled and tuneable drug release , 2017, Journal of controlled release : official journal of the Controlled Release Society.
[30] Christian Decker,et al. Overcoming oxygen inhibition in UV-curing of acrylate coatings by carbon dioxide inerting: Part II , 2003 .
[31] Ryan B. Wicker,et al. Stereolithography of Three-Dimensional Bioactive Poly(Ethylene Glycol) Constructs with Encapsulated Cells , 2006, Annals of Biomedical Engineering.
[32] M. Subirade,et al. Alginate-whey protein granular microspheres as oral delivery vehicles for bioactive compounds. , 2006, Biomaterials.
[33] Simon Gaisford,et al. 3D Printing of a Multi-Layered Polypill Containing Six Drugs Using a Novel Stereolithographic Method , 2019, Pharmaceutics.
[34] G. Saini,et al. Structure, spectra and antioxidant action of ascorbic acid studied by density functional theory, Raman spectroscopic and nuclear magnetic resonance techniques. , 2016, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[35] Jingxuan Ke,et al. The study of diffusion kinetics of cinnamaldehyde from corn starch-based film into food simulant and physical properties of antibacterial polymer film. , 2019, International journal of biological macromolecules.
[36] Z. Teng,et al. Carboxymethyl chitosan-soy protein complex nanoparticles for the encapsulation and controlled release of vitamin D₃. , 2013, Food chemistry.
[37] Ricky D. Wildman,et al. Extrusion 3D Printing of Paracetamol Tablets from a Single Formulation with Tunable Release Profiles Through Control of Tablet Geometry , 2018, AAPS PharmSciTech.
[38] M. Khan,et al. A new chapter in pharmaceutical manufacturing: 3D‐printed drug products☆, ☆☆ , 2017, Advanced drug delivery reviews.
[39] F. Vogenberg,et al. Personalized medicine: part 1: evolution and development into theranostics. , 2010, P & T : a peer-reviewed journal for formulary management.
[40] Pamela Robles Martinez,et al. Fabrication of drug-loaded hydrogels with stereolithographic 3D printing. , 2017, International journal of pharmaceutics.
[41] Patrice Morlière,et al. Riboflavin Photodegradation and Photosensitizing Effects are Highly Dependent on Oxygen and Ascorbate Concentrations¶ , 2000, Photochemistry and photobiology.