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European Journal of Pharmaceutics and Biopharmaceutics, ISSN 0939-6411, 08/2017, Volume 117, pp. 29 - 38
Developing a drug carrier system which could perform targeted and controlled release over a period of time is utmost concern in the pharmaceutical industry.... 
Magnetic Fe3O4 | Hydroxyapatite | Curcumin | Sodium alginate | 6-Gingerol | Controlled release | Magnetic Fe | CANCER-CELLS | HYPERTHERMIA | DELIVERY SYSTEMS | MAGNETIC NANOPARTICLES | ANTITUMOR-ACTIVITY | CELLULAR UPTAKE | BIOAVAILABILITY | SOLID LIPID NANOPARTICLES | IN-VITRO | PHARMACOLOGY & PHARMACY | Curcumin - chemistry | Polyethylene Glycols - analysis | Catechols - chemistry | Delayed-Action Preparations - chemistry | Ferric Compounds - chemistry | Polyethylene Glycols - chemistry | Drug Carriers - analysis | Fatty Alcohols - analysis | Fatty Alcohols - chemistry | Drug Carriers - chemistry | Ferric Compounds - analysis | Hexuronic Acids - analysis | Durapatite - analysis | Curcumin - analysis | Glucuronic Acid - chemistry | X-Ray Diffraction - methods | Glucuronic Acid - analysis | Metal Nanoparticles - analysis | Metal Nanoparticles - chemistry | Durapatite - chemistry | Antineoplastic Agents - analysis | Hexuronic Acids - chemistry | Antineoplastic Agents - chemistry | Alginates - analysis | Alginates - chemistry | Drug Liberation | Hydrophobic and Hydrophilic Interactions | Catechols - analysis | Delayed-Action Preparations - analysis | Hydrogen-Ion Concentration | Ferric oxide | Iron compounds | Drugs | Drug delivery systems | Analysis | Precipitation (Meteorology) | Drug therapy | Pharmaceutical industry | Hydrogen-ion concentration | Nanotechnology | Cancer | Vehicles
Journal Article
Biomaterials, ISSN 0142-9612, 2005, Volume 26, Issue 18, pp. 3919 - 3928
A biodegradable scaffold in tissue engineering serves as a temporary skeleton to accommodate and stimulate new tissue growth. Here we report on the development... 
Alginate | Scaffold | Chitosan | Bone regeneration | Tissue engineering | alginate | chitosan | CELLS | tissue engineering | COLLAGEN MICROSPONGES | BIODEGRADABLE POLYMER | MATERIALS SCIENCE, BIOMATERIALS | COMPOSITE SCAFFOLDS | VIVO | ENGINEERING, BIOMEDICAL | REGENERATION | MECHANICAL-PROPERTIES | CARTILAGE | IN-VITRO | scaffold | bone regeneration | BIOMATERIALS | Osteogenesis - physiology | Cell Proliferation | Alginates - adverse effects | Biocompatible Materials - chemistry | Humans | Elasticity | Cell Culture Techniques - methods | Hexuronic Acids - analysis | Glucuronic Acid - adverse effects | Female | Chitosan - adverse effects | Osteoblasts - cytology | Glucuronic Acid - chemistry | Glucuronic Acid - analysis | Cell Line | Biocompatible Materials - analysis | Tissue Engineering - methods | Cell Survival | Osteoblasts - physiology | Osseointegration - physiology | Calcification, Physiologic - physiology | Rats | Materials Testing | Hexuronic Acids - chemistry | Rats, Sprague-Dawley | Alginates - analysis | Foreign-Body Reaction - pathology | Compressive Strength | Bone Substitutes - adverse effects | Chitosan - analysis | Hexuronic Acids - adverse effects | Animals | Chitosan - chemistry | Alginates - chemistry | Biocompatible Materials - adverse effects | Bone Substitutes - chemistry | Foreign-Body Reaction - etiology
Journal Article
Journal Article
International Journal of Pharmaceutics, ISSN 0378-5173, 2011, Volume 411, Issue 1, pp. 69 - 77
Conventional eye drops can result in poor drug bioavailability due to the unique ocular anatomy and physiology. Ion-activated gelling systems are able to... 
In vitro release | Anionic polysaccharides | Contact angle | Ocular drug delivery | Gelling behaviour | In situ gelling systems | XANTHAN GUM | GELS | DOSAGE FORM | OPHTHALMIC DELIVERY | RHEOLOGICAL CHARACTERIZATION | IOTA-CARRAGEENAN | PEFLOXACIN MESYLATE | PHARMACOLOGY & PHARMACY | SUSTAINED-RELEASE | EYE DROPS | DEACETYLATED GELLAN GUM | Viscosity | Administration, Ophthalmic | Gels - analysis | Humans | Carrageenan - chemistry | Ophthalmic Solutions - chemistry | Biological Availability | Excipients - analysis | Eye | Hexuronic Acids - analysis | Excipients - chemistry | Chemical Phenomena | Polysaccharides - chemistry | Gels - chemistry | Glucuronic Acid - chemistry | Glucuronic Acid - analysis | Polysaccharides, Bacterial - chemistry | Ophthalmic Solutions - administration & dosage | Rheology | Tears - chemistry | Cornea - chemistry | Solubility | Hexuronic Acids - chemistry | Polysaccharides - analysis | Alginates - analysis | Chitosan - analysis | Chitosan - chemistry | Alginates - chemistry | Polymers - chemistry | Drug Delivery Systems - methods | Carrageenan - analysis | Polysaccharides, Bacterial - analysis | Drugs | Methylcellulose | Drug delivery systems | Polysaccharides | Surface active agents | Pilocarpine | Universities and colleges | Comparative analysis | Calcium chloride | Vehicles | chitosan | Cornea | carrageenans | Alginic acid | Xanthan gum | Drug delivery | Bioavailability | Drainage | Cations | gellan gum | Mechanical stimuli | Tears | Irritation
Journal Article
Journal Article
The Plant Cell, ISSN 1040-4651, 11/2012, Volume 24, Issue 11, pp. 4511 - 4524
Root hairs provide a model system to study plant cell growth, yet little is known about the polysaccharide compositions of their walls or the role of these... 
Cell growth | Polysaccharides | Cell walls | RESEARCH ARTICLES | Hair cells | Genes | Plant roots | Root hairs | Plants | Oligosaccharides | Plant cells | PLANT-CELL MORPHOGENESIS | WALL | PROTEIN | GALACTOSYLTRANSFERASE | BIOCHEMISTRY & MOLECULAR BIOLOGY | PLANT SCIENCES | CELL BIOLOGY | THALIANA | BIOSYNTHESIS | ELONGATION | GENES | CELLULOSE | EXPRESSION | Xylans - metabolism | Arabidopsis - growth & development | Plant Roots - genetics | Plant Stems - genetics | Arabidopsis Proteins - metabolism | Glucuronosyltransferase - genetics | Hexuronic Acids - analysis | Gene Expression Regulation, Plant | Glucans - metabolism | Plant Stems - chemistry | Plant Roots - growth & development | Plant Stems - growth & development | Plant Leaves - chemistry | Arabidopsis Proteins - genetics | Gene Expression | Arabidopsis - chemistry | Plant Roots - metabolism | Cell Wall - chemistry | Organ Specificity | Arabidopsis - metabolism | Arabidopsis - genetics | Phenotype | Xylans - chemistry | Glucuronosyltransferase - metabolism | Plant Leaves - genetics | Plant Leaves - metabolism | Plant Stems - metabolism | Plant Leaves - growth & development | Cell Wall - metabolism | Plant Roots - chemistry | Glucans - chemistry | Mutation | Hexuronic Acids - metabolism | Arabidopsis thaliana | Growth | Glucans | Physiological aspects | Roots (Botany) | Research | Growth (Plants)
Journal Article
Food Analytical Methods, ISSN 1936-9751, 4/2012, Volume 5, Issue 2, pp. 195 - 215
Journal Article