Your search keyword '"Suzuki, Masashige"' showing total 8 results

1. Encapsulation of HRP-Immobilized Silica Particles into Hollow-Type Spherical Bacterial Cellulose Gel: A Novel Approach for Enzyme Reactions within Cellulose Gel Capsules.

Author

Hoshi, Toru, Suzuki, Masashige, and Aoyagi, Takao

Subjects

CELLULOSE, ENZYME inactivation, HORSERADISH peroxidase, SILICA, ALGINATES, CELLULOSE synthase, ENZYMES, SOOT

Abstract

We revealed that the encapsulation of enzyme-immobilized silica particles in hollow-type spherical bacterial cellulose (HSBC) gels enables the use of the inside of HSBC gels as a reaction field. The encapsulation of horseradish peroxidase (HRP)-immobilized silica particles (Si-HRPs, particle size: 40–50 μm) within HSBC gels was performed by using a BC gelatinous membrane produced at the interface between Komagataeibacter xylinus suspension attached onto an alginate gel containing Si-HRPs and silicone oil. After the biosynthesis of the BC gelatinous membrane, formed from cellulose nanofiber networks, the alginate gel was removed via immersion in a phosphate-buffered solution. Si-HRP encapsulated HSBC gels were reproducibly produced using our method with a yield of over 90%. The pore size of the network structure of the BC gelatinous membrane was less than 1 μm, which is significantly smaller than the encapsulated Si-HRPs. Consequently, the encapsulated Si-HRPs could neither pass through the BC gelatinous membrane nor leak from the interior cavity of the HSBC gel. The activity of the encapsulated HRPs was detected using the 3,3′,5,5′-tetramethylbenzidine (TMB)-H2O2 system, demonstrating that this method can encapsulate the enzyme without inactivation. Since HSBC gels are composed of a network structure of biocompatible cellulose nanofibers, immune cells cannot enter the hollow interior, thus, the enzyme-immobilized particles encapsulated inside the HSBC gel are protected from immune-cell attacks. The encapsulation technique demonstrated in this study is expected to facilitate the delivery of enzymes and catalysts that are not originally present in the in vivo environment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Adsorption Capacity of Activated Carbon-Encapsulated Hollow-Type Spherical Bacterial Cellulose Gels for Uremic Toxins in a Simulated Human Gastrointestinal Environment.

Author

Hirai, Aya, Suzuki, Masashige, Sato, Kaito, Hoshi, Toru, and Aoyagi, Takao

Subjects

ACTIVATED carbon, CELLULOSE, TREATMENT of chronic kidney failure, PARTICLE size determination, PH standards

Abstract

To reduce the risk of the adsorption of granular activated carbon in the gastrointestinal tract, we successfully produced a hollow-type spherical bacterial cellulose (HSBC) gel containing activated carbon with a particle size of 6 μm. In this study, the aim of which was to develop an effective formulation, we evaluated the stability of activated-carbon-encapsulating HSBC gels under various pH conditions. Activated-carbon-encapsulating HSBC gels (ACEGs) retained the activated carbon without leaking when subjected to agitation in acidic or basic environments. The saturated adsorption amount, calculated using the Langmuir adsorption isotherm, was affected by the target adsorbate and pH conditions. These results indicate that ACEGs can adsorb uremic toxins and their precursors similarly to conventional uremic toxin adsorbents while preventing direct contact between the encapsulated activated carbon and the gastrointestinal tract. Compared to powdered activated carbon, the ACEG is less likely to be adsorbed in the gastrointestinal tract. Therefore, the proposed ACEG is a promising new formulation that will contribute to the treatment of renal failure and improve patients' compliance with medication. [ABSTRACT FROM AUTHOR]

Published

2024

3. Carbon dioxide adsorption properties of K-Al-Fe–based oxides prepared from a porous polymer monolith template

Author

Ikeue, Keita, Suzuki, Masashige, Yoshimoto, Daisuke, Usukawa, Ryutaro, Sakai, Munetoshi, Vagvala, Tarun Chand, and Kalousek, Vit

Published

2019

4. Encapsulation of Activated Carbon into a Hollow-Type Spherical Bacterial Cellulose Gel and Its Indole-Adsorption Ability Aimed at Kidney Failure Treatment

Author

Hoshi, Toru, primary, Endo, Masahito, additional, Hirai, Aya, additional, Suzuki, Masashige, additional, and Aoyagi, Takao, additional

Published

2020

5. Photocatalytic Activity for Hydrogen Evolution of Heteroatom-Doped SrTiO3 Prepared Using a Graphitic-Carbon Nitride Nanosheet

Author

Ikeue, Keita, primary, Yamamoto, Yuta, additional, and Suzuki, Masashige, additional

Published

2020

6. Encapsulation of Micro- and Milli-Sized Particles with a Hollow-Type Spherical Bacterial Cellulose Gel via Particle-Preloaded Droplet Cultivation

Author

Hoshi, Toru, primary, Suzuki, Masashige, additional, Ishikawa, Mayu, additional, Endo, Masahito, additional, and Aoyagi, Takao, additional

Published

2019

7. Effects of red pepper on appetite and energy intake

Author

Drapeau, Vicky, Yoshioka, Mayumi, Doucet, Éric., Tremblay, Angelo, St-Pierre, Sylvie, Suzuki, Masashige, Dionne, Isabelle, Drapeau, Vicky, Yoshioka, Mayumi, Doucet, Éric., Tremblay, Angelo, St-Pierre, Sylvie, Suzuki, Masashige, and Dionne, Isabelle

Abstract

Two studies were conducted to investigate the effects of red pepper (capsaicin) on feeding behaviour and energy intake. In the first study, the effects of dietary red pepper added to high-fat (HF) and high-carbohydrate (HC) meals on subsequent energy and macronutrient intakes were examined in thirteen Japanese female subjects. After the ingestion of a standardized dinner on the previous evening, the subjects ate an experimental breakfast (1883 kJ) of one of the following four types: (1) HF; (2) HF and red pepper (10 g); (3) HC; (4) HC and red pepper. Ad libitum energy and macronutrient intakes were measured at lunch-time. The HC breakfast significantly reduced the desire to eat and hunger after breakfast. The addition of red pepper to the HC breakfast also significantly decreased the desire to eat and hunger before lunch. Differences in diet composition at breakfast time did not affect energy and macronutrient intakes at lunch-time. However, the addition of red pepper to the breakfast significantly decreased protein and fat intakes at lunch-time. In Study 2, the effects of a red-pepper appetizer on subsequent energy and macronutrient intakes were examined in ten Caucasian male subjects. After ingesting a standardized breakfast, the subjects took an experimental appetizer (644 kJ) at lunch-time of one of the following two types: (1) mixed diet and appetizer; (2) mixed diet and red-pepper (6 g) appetizer. The addition of red pepper to the appetizer significantly reduced the cumulative ad libitum energy and carbohydrate intakes during the rest of the lunch and in the snack served several hours later. Moreover, the power spectral analysis of heart rate revealed that this effect of red pepper was associated with an increase in the ratio sympathetic: parasympathetic nervous system activity. These results indicate that the ingestion of red pepper decreases appetite and subsequent protein and fat intakes in Japanese females and energy intake in Caucasian males. Moreover, th

Published

2017

8. K–Al-based mixed oxides as high-capacity carbon dioxide adsorbents

Author

Ikeue, Keita, primary, Suzuki, Masashige, additional, Sakai, Munetoshi, additional, Chand Vagvala, Tarun, additional, and Kalousek, Vit, additional

Published

2017