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Preface to the Series | ||
Preface | ||
List of Contributors | ||
1 | Microencapsulation of Benzalkonium Chloride | 1 |
2 | Microcapsules with Walls Made of Cross-linked Starch Derivatives | 7 |
3 | Sustained Release of Sodium Diclofenac from Nylon-encapsulated Ion-Exchange Resins | 17 |
4 | Erythromycin Release from PHB/PHV Films | 33 |
5 | Regulation of Polyester Microcapsule Morphology | 45 |
6 | The Effect of Surfactants on the Properties of Microcapsules | 55 |
7 | Modification of Surface Carboxyl Groups of Microcapsules Using Water-Soluble Carbodiimide | 65 |
8 | Controlled Release of Water-Soluble Drugs from Hollow Spheres: Experiments and Model Analysis | 81 |
9 | Studies on an Injection of Microencapsulated Levo-norgestrel | 103 |
10 | Surface Polymerisation as an Encapsulation Technique | 123 |
11 | Interaction of Peptide Hormones with Lipid Membrane Systems | 139 |
12 | Stability Studies on 5 Fluorouracil Liposomes | 151 |
13 | Effect of Lipid Constitution on the Drug Diffusion Rate of Zn(II)-Phthalocyanine Liposomes | 161 |
14 | Pharmaco-disposition of the Antileishmanial Drug, Sodium Stibogluconate after Administration in the Free and Liposomal Forms | 169 |
15 | Microencapsulation with Biodegradable Materials | 177 |
16 | Phenobarbitone Containing Poly (DL-Lactic Acid) Microcapsules; Effect on Polymer Molecular Weight and Preparative Conditions on the Release Kinetics | 189 |
17 | Physical and Chemical Stability of Aqueous Colloidal Dispersions of Poly (DL-Lactide) and Poly ([epsilon]-caprolactone) | 197 |
18 | Effect of Microencapsulated Enzymes | 215 |
19 | Insulin-Nanocapsules: Variations in the Biological Response Depending on the Administration Site along the Digestive Tract | 233 |
20 | Novel Immunoassays for Clinically Important Hormones Based on Microencapsulated Antibodies | 243 |
21 | A New Technique for Encapsulation of Liver Microsomes | 257 |
22 | Cyclophosphamide Loaded Albumin Microspheres III. Intra-articular Delivery and Retention in Knee Joints of Rabbits | 263 |
23 | Release of L-Dopa from HSA Microspheres into the Rat Brain: In Vitro and In Vivo Characterization by Microdialysis | 269 |
24 | The Effect of Microencapsulation in Colloidal Drug Targeting Systems on the Pharmacokinetics and Metabolism of Antipyrine | 277 |
25 | Microencapsulation of Mitomycin C Using Ethyl Cellulose and Its Evaluation in Patients with Liver Metastases | 293 |
Index | 305 |
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Add Microencapsulation of Drugs, The technology of controlled release is a rapidly developing area which encompasses a diverse range of disciplines. Microencapsulation traps the active agent and separates it from the immediate environment. This technique protects labile entities such as , Microencapsulation of Drugs to the inventory that you are selling on WonderClubX
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Add Microencapsulation of Drugs, The technology of controlled release is a rapidly developing area which encompasses a diverse range of disciplines. Microencapsulation traps the active agent and separates it from the immediate environment. This technique protects labile entities such as , Microencapsulation of Drugs to your collection on WonderClub |