Your search keyword '"Yoshifumi Murata"' showing total 20 results

1. Controlled Drug Release from Sodium Alginate Film Dosage Forms

Author

Kyoko Kofuji, Chieko Maida, Yoshifumi Murata, and Sayaka Kimura

Subjects

Chromatography, Chemistry, Drug release, Dosage form, Sodium alginate

Published

2021

2. Drug Release Profiles and Disintegration Properties of Pectin Films

Author

Yoshifumi Murata, Chieko Maida, and Kyoko Kofuji

Subjects

food.ingredient, Pectin, 02 engineering and technology, 030226 pharmacology & pharmacy, lcsh:Technology, complex mixtures, Article, Dosage form, Matrix (chemical analysis), 03 medical and health sciences, 0302 clinical medicine, food, film dosage form, General Materials Science, Solubility, Thin film, lcsh:Microscopy, film disintegration, Dissolution, lcsh:QC120-168.85, pectin, lcsh:QH201-278.5, Chemistry, lcsh:T, digestive, oral, and skin physiology, food and beverages, 021001 nanoscience & nanotechnology, Chemical engineering, lcsh:TA1-2040, drug release rate, Film base, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General), Disintegration Rate, lcsh:TK1-9971

Abstract

We assessed the disintegration profiles of the film dosage forms (FDs) prepared using pectin by measuring the amount of pectin dissolved from the films in a limited amount of aqueous medium. Furthermore, we used miconazole and dexamethasone as standard drugs and investigated the relationship between the disintegration rate of the FDs and the rate of drug release. We used two types of pectin in this study to develop thin films with a thickness of approximately 25&ndash, 35 &mu, m. The FDs gradually disintegrated in the aqueous medium, and the disintegration profile of the FDs differed depending on the types of pectin. In addition, the rate of disintegration of the film matrix affected the dissolution rate of the drug incorporated into the FD. Thus, our results show that FDs prepared using pectin are beneficial because of their high solubility in a limited amount of medium, and the rate of drug release from the FDs can be regulated by selecting a specific type of pectin or by altering the concentration of the film base.

Published

2019

3. Film Dosage Forms Prepared with Alginate for Oral Candidiasis Treatment

Author

Yoshifumi Murata

Subjects

Chemistry, General Earth and Planetary Sciences, Pharmacology, Dosage form, General Environmental Science

Published

2018

4. Development of Film Dosage Forms Containing Miconazole for the Treatment of Oral Candidiasis

Author

Ryosei Kamaguchi, Kyoko Kofuji, Takashi Isobe, Yoshifumi Murata, and Norihisa Nishida

Subjects

chemistry.chemical_classification, Chromatography, Pullulan, Polysaccharide, Dosage form, chemistry.chemical_compound, chemistry, Pulmonary surfactant, medicine, Dissolution testing, Miconazole, Dissolution, medicine.drug, Sodium alginate

Abstract

Film dosage forms (FDs) containing miconazole (MCZ) for the treatment of oral candidiasis were prepared using water-soluble polysaccharides, and the dissolution profiles of MCZ from the FDs were investigated. In addition, the forms were modified by the addition of a surface active agent to accelerate the drug dissolution rate. Circular films incorporating MCZ were obtained using each polysaccharide. Most FDs were easy to handle and resistant to tearing. No diffraction peaks were observed in the X-ray diffractograms of FDs. FDs prepared with sodium alginate or pullulan immediately swelled and disintegrated in aqueous medium, whereas MCZ incorporated in the FD gradually dissolved. A marked acceleration in the MCZ dissolution rate was observed when FD was prepared with polysaccharide containing a surfactant. These results confirmed that modified FDs are useful for treating localized conditions in the oral cavity, such as oral candidiasis, and that FDs can simplify the administration of drugs to patients.

Published

2013

5. Development of Film Dosage Form Containing Allopurinol for Prevention and Treatment of Oral Mucositis

Author

Yoshifumi Murata, Kyoko Kofuji, Ryosei Kamaguchi, and Norihisa Nishida

Subjects

Chemotherapy, Article Subject, business.industry, medicine.medical_treatment, Allopurinol, Pharmacology, Oral cavity, medicine.disease, Dosage form, Mucositis, Medicine, Film Dosage Form, business, Physiological saline, Research Article, medicine.drug, Sodium alginate

Abstract

Film dosage forms (FDs) containing allopurinol (AP) were prepared using a casting method with water-soluble polysaccharides, such as sodium alginate (ALG), and the release profile of AP from FDs was investigated in limited dissolution medium. Some ALGs were able to form FDs incorporating AP, and the thickness was about 50 μm. All FDs were easy to handle, though the rheological properties varied with ALG species. AP was homogenously present throughout the FDs and was released with disintegration in 10 mL of physiological saline. These results confirmed that FDs are useful for preventing or treating localized problems in the oral cavity, such as mucositis. FDs are also useful for administering drugs to cancer patients receiving chemotherapy and/or radiotherapy.

Published

2012

6. Development of Oral Dissolving Gelatin Beads Containing Allopurinol for the Prevention and Treatment of Mucositis

Author

Kyoko Kofuji, Ryosei Kamaguchi, Takashi Isobe, Yoshifumi Murata, and Masafumi Mizutani

Subjects

Saliva, food.ingredient, Chromatography, Chemistry, Allopurinol, Capsule, medicine.disease, Gelatin, Dosage form, Microbiology, food, Oral administration, medicine, Mucositis, Dissolution, medicine.drug

Abstract

Oral dissolving gelatin beads (GBs) containing allopurinol (AP) were prepared by the seamless capsule method and their rheological properties were examined. The release profiles of both gelatin and AP from GBs were also investigated in limited dissolution medium. GBs containing AP provided an easy-to-handle dosage form, but the physical strength of the beads immediately decreased upon contact with physiological saline at 37℃. Gelatin was released from the outer layer of GBs in physiological saline, with almost all the gelatin dissolved after 5 min, together with approximately 30% of the AP contained in the inner layer of the GB. The oral administration of GBs likely results in immediate softening of the GB upon contact with saliva. The released AP acts directly at inflammation sites, in a manner similar following oral rinsing with an AP suspension. Therefore, GBs are a useful dosage form for preventing or treating localized problems in the oral cavity, such as mucositis.

Published

2012

7. Preparation and Characteristics of Film Dosage Form Natural Polysaccharides

Author

Norihisa Nishida, Yoshifumi Murata, Ryosei Kamaguchi, and Kyoko Kofuji

Subjects

Ferulic acid, chemistry.chemical_classification, chemistry.chemical_compound, Chromatography, chemistry, Ph control, Catechin, Film Dosage Form, Polysaccharide, Oral cavity, Casting, Dosage form

Abstract

We investigated preparation of film dosage form (FD) from natural polysaccharides using the casting method without organic solvents, heating or pH control. Ferulic acid (FA) and catechin were employed as model compounds incorporated in the FD, and the release profile of each compound from the form was investigated in the limited medium. Film formation was affected by the addition of the model compound to the polysaccharide solution. Rigid FD was obtained with 2% low-molecular-weight alginate (L-ALG; thickness, 65 µm), and it hardened after the addition of 0.5% polygalacturonic acid, although the thickness of the film did not change. The FDs immediately released the model compound, and the forms dissolved in phosphate-buffered saline. FD modification did not affect the FA release rate except in the early stage. FD would be a useful dosage form, especially for preventing or treating localized problems in the oral cavity.

Published

2011

8. Control of Drug Dissolution Rate from Film Dosage Forms Containing Valsartan

Author

Chieko Maida, Kyoko Kofuji, and Yoshifumi Murata

Subjects

chemistry.chemical_classification, Article Subject, 02 engineering and technology, 021001 nanoscience & nanotechnology, Polysaccharide, 030226 pharmacology & pharmacy, Dosage form, Chitosan, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, chemistry, Film base, Dissolution testing, Solubility, 0210 nano-technology, Dissolution, Research Article, Nuclear chemistry, Alginic acid

Abstract

Film dosage forms (FDs) containing valsartan (VST), a popular antihypertensive drug, were prepared using a casting method with sodium alginate and other polysaccharides as the film base. Drug dissolution profiles of the FDs were investigated in limited medium. The FDs were 170–200 μm thick and were easy to handle. All FDs immediately swelled and disintegrated in the medium. About 23% of the VST incorporated into the FD prepared with 1.5% sodium alginate dissolved at 5 min. The initial dissolution rate of VST increased upon the addition of chitosan to the film base; this effect was not observed in the case of chitin. On the other hand, the rate apparently decreased upon modification with alginic acid. In addition, the solubility of VST in the dissolution medium was changed by the addition of chitosan or alginic acid. FDs prepared with polysaccharides are useful for simplifying the administration of drugs to patients, and the drug dissolution rate from FDs can be controlled by modification.

Published

2016

9. Therapeutic efficacy of sustained drug release from chitosan gel on local inflammation

Author

Y. Togan, Koji Watanabe, I. Sugiyama, Kyoko Kofuji, Chun-Jun Qian, Susumu Kawashima, Yoshifumi Murata, M. Nishimura, and H. Akamine

Subjects

Male, Drug, Biocompatibility, medicine.drug_class, Drug Compounding, Injections, Subcutaneous, Prednisolone, media_common.quotation_subject, Anti-Inflammatory Agents, Pharmaceutical Science, Chitin, Mice, Inbred Strains, Pharmacology, Carrageenan, Dosage form, Capillary Permeability, Chitosan, Mice, chemistry.chemical_compound, In vivo, medicine, Animals, Adjuvants, Pharmaceutic, Skin, media_common, Inflammation, Drug Carriers, Chromatography, Aqueous solution, Solubility, chemistry, Delayed-Action Preparations, Corticosteroid, Gels

Abstract

The model anti-inflammatory drug prednisolone (PS) was retained in chitosan (CS) gel beads, which were prepared in a 10% aqueous amino acid solution (pH 9.0). Sustained release of PS from the CS gel beads was observed. Carrageenan solution was injected into air pouches (AP), which were prepared subcutaneously on the dorsal surface of mice, in order to induce local inflammation. CS gel beads retaining PS were then implanted into the AP to investigate the therapeutic efficacy of sustained PS release against local inflammation. In vivo PS release from CS gel beads was governed by both diffusion of the drug and degradation of the gel matrix. Sustained drug release by CS gel beads allowed the supply of the minimum effective dose and facilitated prolonged periods of local drug presence. Inflammation indexes were significantly reduced after implantation of CS gel beads when compared with injection of PS suspension. Thus, extension of the duration of drug activity by CS gel beads resulted in improved therapeutic efficacy. These observations indicate that CS gel beads are a promising biocompatible and biodegradable vehicle for treatment of local inflammation.

Published

2004

10. Biodegradation and Drug Release of Chitosan Gel Beads in Subcutaneous Air Pouches of Mice

Author

Tomohiro Ito, Susumu Kawashima, Kyoko Kofuji, and Yoshifumi Murata

Subjects

gel, air pouch, Pharmaceutical Science, Biocompatible Materials, Chitin, biodegradation, Dosage form, Pellet Dosage Form, Chitosan, chemistry.chemical_compound, Mice, In vivo, Animals, sustained release, Skin, Pharmacology, Drug Carriers, Chromatography, Chemistry, General Medicine, Biodegradation, Biodegradation, Environmental, Drug delivery, Liberation, chitosan, Drug carrier, amino acid

Abstract

Chitosan (CS) gel beads were prepared in 10% amino acid solution (pH 9) and implanted into air pouches (AP) prepared subcutaneously on the dorsal surface of mice. No inflammatory response was observed, and degradation of the beads in the AP increased as their degree of deacetylation decreased. Degradation could be altered by changing the nature of the CS or by increasing the CS concentration. The release of prednisolone (PS) in vivo from CS gel beads was similar to the release in vitro. When a suspension of PS was injected into the AP, the PS had almost completely disappeared 24 h after injection. Retention of PS in the AP was not increased by using a viscous CS solution. Alginate (Alg) gel beads, which were not degraded, released PS slowly into the AP over 3d. The in vitro release profile of PS using 1% CS (deacetylation: 70% (7B) and 80% (8B)) and 1.5% CS (deacetylation: 90% (9B)) gel beads was similar to that with Alg gel beads. However, the in vivo release of PS was affected by the degradability of the gel beads. CS7B and 8B (1%) gel beads had released PS into the AP earlier than 3 d according to their rate of degradation. CS9B (1.5%) gel beads were not degraded after 3 d and went on to release PS into the AP for 3 d similar to the release profile of Alg gel beads. CS9B (2%) gel beads were also not degraded after 3 d and the release of PS from these beads into the AP was sustained; 76% and 27% of administered PS remained in the gel beads after 1 and 3 d, respectively. Therefore, degradation and drug release of CS gel beads can be controlled by changing the structure of the gel matrix, which appears to make these beads a promising biodegradable vehicle for sustained drug delivery.

Published

2001

11. Use of floating alginate gel beads for stomach-specific drug delivery

Author

Susumu Kawashima, N Sasaki, E Miyamoto, and Yoshifumi Murata

Subjects

Male, Alginates, Guinea Pigs, Pharmaceutical Science, Chitin, Dosage form, Chitosan, chemistry.chemical_compound, Drug Delivery Systems, Anti-Infective Agents, Glucuronic Acid, Metronidazole, Gastric mucosa, medicine, Animals, Active ingredient, Chromatography, Hexuronic Acids, General Medicine, Glucuronic acid, medicine.anatomical_structure, Solubility, Biochemistry, chemistry, Gastric Mucosa, Drug delivery, Liberation, Drug carrier, Gels, Biotechnology

Abstract

Two types of alginate gel beads capable of floating in the gastric cavity were prepared. The first, alginate gel bead containing vegetable oil (ALGO), is a hydrogel bead and its buoyancy is attributable to vegetable oil held in the alginate gel matrix. The model drug, metronidazole (MZ), contained in ALGO was released gradually into artificial gastric juice, the release rate being inversely related to the percentage of oil. The second, alginate gel bead containing chitosan (ALCS), is a dried gel bead with dispersed chitosan in the matrix. The drug-release profile was not affected by the kind of chitosan contained in ALCS. When ALCS containing MZ was administered orally to guinea pigs, it floated on the gastric juice and released the drug into the stomach. Furthermore, the concentration of MZ at the gastric mucosa after administration of ALCS was higher than that in the solution, though the MZ serum concentration was the same regardless of which type of gel was administered. These release properties of alginate gels are applicable not only for sustained release of drugs but also for targeting the gastric mucosa.

Published

2000

12. Preparation of alginate gel beads containing chitosan nicotinic acid salt and the functions

Author

E Miyamoto, Yoshifumi Murata, S Toniwa, and Susumu Kawashima

Subjects

Alginates, medicine.drug_class, Pharmaceutical Science, Chitin, Niacin, Dosage form, Bile Acids and Salts, Chitosan, chemistry.chemical_compound, Hyperlipidemia, medicine, Dissolution, Hypolipidemic Agents, chemistry.chemical_classification, Chromatography, Bile acid, General Medicine, Taurocholic acid, medicine.disease, Microspheres, Solubility, chemistry, Acid salt, Calcium, Drug carrier, Biotechnology

Abstract

Calcium-induced alginate gel beads containing chitosan salt (Alg-CS) was prepared using nicotinic acid (NA), a drug for hyperlipidemia, and investigated its two functions in gastrointestinal tract, (a) NA release from Alg-CS, (b) uptake of bile acids into Alg-CS. The amount of NA incorporated in Alg-CS increased according to increment of CS content. NA was rapidly released from Alg-CS in diluted HCl solution (pH 1.2) or physiological saline without disintegration of the beads. When Alg-CS was placed in bile acid solution it took bile acid into itself. About 80% of taurocholic acid dissolved in the medium was taken into Alg-CS. According to increment of bile acid concentration, the uptake amount increased and an approximately linear relationship existed among them.

Published

1999

13. Preparation of alginate gel beads containing chitosan salt and their function

Author

E. Miyamoto, Susumu Kawashima, S. Toniwa, and Yoshifumi Murata

Subjects

chemistry.chemical_classification, Chromatography, Calcium alginate, Bile acid, Ion exchange, medicine.drug_class, Gel matrix, Pharmaceutical Science, Salt (chemistry), Bead, Dosage form, Chitosan, chemistry.chemical_compound, chemistry, visual_art, visual_art.visual_art_medium, medicine

Abstract

Alginate gel bead containing chitosan salt was prepared and the function was investigated. When the bead was placed in bile acid solution it rapidly took bile acid into itself. The uptake amount of taurocholate was about 25 μmol per 0.2 g dried gel beads. This phenomenon was observed on the case of the beads incorporating colestyramine instead of chitosan. Therefore, it seems that the ion-exchange reaction accompanying the insoluble complex-formation between chitosan salt and bile acid occurs in calcium alginate gel matrix.

Published

1999

14. Additive effect of chondroitin sulfate and chitosan on drug release from calcium-induced alginate gel beads

Author

Susumu Kawashima, Etsuko Miyamoto, and Yoshifumi Murata

Subjects

Chitosan, Active ingredient, chemistry.chemical_compound, Chromatography, chemistry, Pharmaceutical Science, chemistry.chemical_element, Liberation, Diclofenac Sodium, Chondroitin sulfate, Calcium, Controlled release, Dosage form

Abstract

Control of drug release from alginate gel beads by application of a complex formed between chondroitin sulfate and chitosan was investigated. The complex suppressed the disintegration of the gel beads, and the release pattern of diclofenac incorporated within them was obviously changed. Although prolongation of the preparation time gradually decreased the apparent release rate, the pattern of release was not markedly affected. Release of the drug from the gel beads was also influenced by the types of chitosan employed or the properties of the drug itself.

Published

1996

15. Preparation of chitosan-reinforced alginate gel beads — effects of chitosan on gel matrix erosion

Author

Yoshifumi Murata, T. Maeda, Susumu Kawashima, and E. Miyamoto

Subjects

Active ingredient, chemistry.chemical_classification, Coacervate, Chromatography, Pharmaceutical Science, chemistry.chemical_element, Calcium, equipment and supplies, Polysaccharide, Dosage form, Chitosan, chemistry.chemical_compound, chemistry, Liberation, Incubation

Abstract

Chitosan-reinforced alginate gel beads were prepared and the release patterns of coloring matter (Brilliant Blue G, BB) held within them were investigated. The release rates of BB from the gel beads were much slower after an initial lag time when they were incubated with chitosan compared with the original intact gels prepared without chitosan. These differences were observed irrespective of the β- d -mannuronic acid/α- l -guluronic acid (M/G) ratio of the alginate used and an additive effect on the release rate was observed when two species of alginates were combined. The initial release rates were reduced gradually in proportion to the increases in the chitosan concentration and/or incubation times used when preparing the gel beads. Furthermore, erosion of the gel beads was suppressed by chitosan treatment. The release of phenytoin from alginate gel beads showed the same characteristics as that of BB.

Published

1993

16. Influence of erosion of calcium-induced alginate gel matrix on the release of Brilliant Blue

Author

Etsuko Miyamoto, Yoshifumi Murata, K. Nakada, Seung-Hoon Seo, and Susumu Kawashima

Subjects

Aqueous medium, Gel matrix, Pharmaceutical Science, chemistry.chemical_element, Calcium, Dosage form, chemistry.chemical_compound, Monomer, chemistry, Pharmaceutical technology, Polymer chemistry, medicine, Liberation, Swelling, medicine.symptom, Nuclear chemistry

Abstract

The relationship between the release of a dye (Brilliant Blue; BB) incorporated in calcium-induced alginate gels and the erosion of the gel itself was investigated. The release rate of BB from gel formed from low-molecular-weight alginate was faster than that from high-molecular-weight alginate, and the erosion of the gel was also faster in the former case. As the alginate concentration in the gel was increased, the release of both BB and alginate from the gel was controlled. No remarkable differences in the release of BB were found among two kinds of gel formed from alginates with different monomeric composition. Furthermore, some gels formed from high-molecular-weight alginate also decayed in aqueous media containing sufficient levels of univalent cations. It was confirmed that the erosion of gels accelerates the rate of BB release from them.

Published

1993

17. [Property of metronidazole film prepared with natural polysaccharides]

Author

Kyoko Kofuji, Yoshifumi Murata, Takashi Isobe, Chieko Maida, and Etsuko Miyamoto

Subjects

Pharmacology, chemistry.chemical_classification, Dosage Forms, Alginates, Hexuronic Acids, Pharmaceutical Science, Pullulan, Glucuronic acid, Polysaccharide, Casting, Dosage form, chemistry.chemical_compound, chemistry, Glucuronic Acid, Solubility, Polysaccharides, Metronidazole, Anti-Infective Agents, Local, Dissolution testing, Dissolution, Glucans, Nuclear chemistry

Abstract

Film dosage forms containing metronidazole (MZ) were prepared from natural polysaccharides, such as pullulan (PUL) or sodium alginate (ALG), without heating or controlling the pH. The release profiles of MZ from the films were investigated. In the absence of a drug, the casting method resulted in the polysaccharide forming a circular film, and the presence of MZ affected film formation. The thickness of the film was controllable by adjusting the concentration of ALG, and regular unevenness was observed on the surface of film. The film prepared with PUL or ALG readily swelled in dissolution medium, and released MZ with disintegration. The films prepared from the polysaccharides could be promising candidates as dosage forms containing MZ, and would be expected to show drug dissolution in the surface of skin.

Published

2010

18. Preparation of Fast Dissolving Films for Oral Dosage from Natural Polysaccharides

Author

Yoshifumi Murata, Ryosei Kamaguchi, Takashi Isobe, Norihisa Nishida, and Kyoko Kofuji

Subjects

Materials science, dexamethasone, Polysaccharide, lcsh:Technology, Dosage form, Article, chemistry.chemical_compound, fast dissolving film, lactoferinfast dissolving film, General Materials Science, Dissolution testing, natural polysaccharides, pilocarpine, lactoferin, lcsh:Microscopy, Dissolution, lcsh:QC120-168.85, chemistry.chemical_classification, Chromatography, lcsh:QH201-278.5, lcsh:T, Pullulan, Evaporation (deposition), Casting, Solvent, chemistry, lcsh:TA1-2040, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), lcsh:TK1-9971, Nuclear chemistry

Abstract

Fast-dissolving films (FDFs) were prepared from natural polysaccharides, such as pullulan, without heating, controlling the pH, or adding other materials. The release profiles of model drugs from the films were investigated. In the absence of a drug, the casting method and subsequent evaporation of the solvent resulted in the polysaccharide forming a circular film. The presence of drugs (both their type and concentration) affected film formation. The thickness of the film was controllable by adjusting the concentration of the polysaccharide, and regular unevenness was observed on the surface of 2% pullulan film. All films prepared with polysaccharides readily swelled in dissolution medium, released the incorporated compound, and subsequently disintegrated. The release of dexamethasone from the films was complete after 15 min, although this release rate was slightly slower than that of pilocarpine or lidocaine. Therefore, FDFs prepared from polysaccharides could be promising candidates as oral dosage forms containing drugs, and would be expected to show drug dissolution in the oral cavity.

Published

2010

19. Sustained insulin release with biodegradation of chitosan gel beads prepared by copper ions

Author

Susumu Kawashima, Yoshifumi Murata, and Kyoko Kofuji

Subjects

Male, Cations, Divalent, medicine.medical_treatment, Pharmaceutical Science, Peptide, Dosage form, Diabetes Mellitus, Experimental, Chitosan, chemistry.chemical_compound, Mice, Drug Delivery Systems, Drug Stability, In vivo, medicine, Animals, Hypoglycemic Agents, Insulin, Chelation, chemistry.chemical_classification, Chromatography, Biodegradation, In vitro, Microspheres, Biodegradation, Environmental, chemistry, Solubility, Delayed-Action Preparations, Gels, Copper

Abstract

Chitosan (CS) gel beads were prepared with chelated copper (II) ions as a vehicle for the delivery of peptide and protein drugs. Insulin, which is a model of peptide and protein drugs, was scarcely released from the CS gel beads in vitro, presumably due to the nature of interactions occurring between insulin, CS and the copper (II) ions. The efficacy of insulin released from the CS gel beads was confirmed by implantation into diabetic mice. A consistent reduction in blood glucose level was observed in vivo due to insulin release as the CS gel beads were degraded. Control over insulin release was achieved by altering the properties of the CS. Thus, CS gel beads are promising as a biocompatible and biodegradable vehicle by which peptide and protein drugs can be delivered.

Published

2005

20. Drug release properties of a gel bead prepared with pectin and hydrolysate

Author

Susumu Kawashima, Etsuko Miyamoto, Yoshifumi Murata, Michiko Miyashita, and Kyouko Kofuji

Subjects

food.ingredient, Pectin, Pharmaceutical Science, chemistry.chemical_element, Calcium, Polysaccharide, Hydrolysate, Dosage form, Excipients, chemistry.chemical_compound, Calcium Chloride, food, Particle Size, chemistry.chemical_classification, Chromatography, Viscosity, Hydrolysis, Buffer solution, Microspheres, Kinetics, chemistry, Solubility, Delayed-Action Preparations, Chromatography, Gel, Liberation, Degradation (geology), Pectins, Spectrophotometry, Ultraviolet, Gels

Abstract

A calcium-induced pectin gel bead (PB) containing pectin hydrolysate was prepared, and the drug release profiles and degradation properties of the PB were investigated in aqueous media. The stiff PB swelled in physiological saline and its drug release rate decreased with exposure to increasing concentrations of CaCl2 during preparation. And erosion of the PB was not observed in physiological saline. However, the PB did disintegrate in phosphate buffer (pH 6.8) and the rate of disintegration depended on the calcium chloride concentration used to prepare the PB. In addition, the drug release rate of the PB in buffer solution decreased as the rate of gel erosion declined. Consequently, it appears that the PB gel matrix is an effective medium by which to control the release of drug within the gastrointestinal tract.

Published

2003