Controlled Release of Glucose from Orally Delivered Temperature- and pH-Responsive Polysaccharide Microparticle Dispersions
Dual-responsive polysaccharide microgel dispersions were synthesized by the self-assembly of a temperature-responsive water-soluble cellulose ether, hydroxypropyl cellulose (HPC), and a pH-responsive polymer, sodium alginate (NaAlg). Spontaneous temperature-induced aggregation of aqueous HPC at a te...
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| Published in | Industrial & engineering chemistry research Vol. 58; no. 46; pp. 21056 - 21069 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
20.11.2019
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0888-5885 1520-5045 1520-5045 |
| DOI | 10.1021/acs.iecr.9b02402 |
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| Abstract | Dual-responsive polysaccharide microgel dispersions were synthesized by the self-assembly of a temperature-responsive water-soluble cellulose ether, hydroxypropyl cellulose (HPC), and a pH-responsive polymer, sodium alginate (NaAlg). Spontaneous temperature-induced aggregation of aqueous HPC at a temperature above the lower critical solution temperature (LCST) of the polymer, in the presence of a surfactant (soy lecithin), resulted in microparticles that could be covalently cross-linked with trisodium trimetaphosphate (TSTMP). The microgel particles were saturated with a model carbohydrate, d-glucose (dextrose), and covered by a layer of alginic acid nanoparticles to obtain a controlled-release platform for sustained oral delivery of nutrients to athletes for improving their endurance capacity and exercise performance. Diffusion-cell studies of the in vitro release kinetics showed that the microgel dispersion released the absorbed glucose at a slower rate at pH 2, corresponding to the pH of gastric fluid, than at pH 7, corresponding to the pH of intestinal fluid. Furthermore, the rate of release of glucose from the microparticles was faster at a temperature above the LCST of the polymer particles. The LCSTs of the aqueous microgel dispersions were determined using rheology and calorimetric measurements and found to be strongly affected by the presence of kosmotropic solutes. Measurements of in vivo release kinetics in human subjects demonstrated that the temperature- and pH-responsive microgel dispersions were able to sustain higher concentrations of glucose in the blood plasma for a longer time, compared with conventional sugar solutions used as controls. |
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| AbstractList | Dual-responsive polysaccharide microgel dispersions were synthesized by the self-assembly of a temperature-responsive water-soluble cellulose ether, hydroxypropyl cellulose (HPC), and a pH-responsive polymer, sodium alginate (NaAlg). Spontaneous temperature-induced aggregation of aqueous HPC at a temperature above the lower critical solution temperature (LCST) of the polymer, in the presence of a surfactant (soy lecithin), resulted in microparticles that could be covalently cross-linked with trisodium trimetaphosphate (TSTMP). The microgel particles were saturated with a model carbohydrate, d-glucose (dextrose), and covered by a layer of alginic acid nanoparticles to obtain a controlled-release platform for sustained oral delivery of nutrients to athletes for improving their endurance capacity and exercise performance. Diffusion-cell studies of the in vitro release kinetics showed that the microgel dispersion released the absorbed glucose at a slower rate at pH 2, corresponding to the pH of gastric fluid, than at pH 7, corresponding to the pH of intestinal fluid. Furthermore, the rate of release of glucose from the microparticles was faster at a temperature above the LCST of the polymer particles. The LCSTs of the aqueous microgel dispersions were determined using rheology and calorimetric measurements and found to be strongly affected by the presence of kosmotropic solutes. Measurements of in vivo release kinetics in human subjects demonstrated that the temperature- and pH-responsive microgel dispersions were able to sustain higher concentrations of glucose in the blood plasma for a longer time, compared with conventional sugar solutions used as controls. |
| Author | Krishnan, Sitaraman Vendra, Venkat K Le, Ngoc-Tram Myrick, James M Sexton, Frederick A |
| AuthorAffiliation | New World Pharmaceuticals Department of Chemical and Biomolecular Engineering |
| AuthorAffiliation_xml | – name: Department of Chemical and Biomolecular Engineering – name: New World Pharmaceuticals |
| Author_xml | – sequence: 1 givenname: James M surname: Myrick fullname: Myrick, James M organization: Department of Chemical and Biomolecular Engineering – sequence: 2 givenname: Venkat K surname: Vendra fullname: Vendra, Venkat K organization: Department of Chemical and Biomolecular Engineering – sequence: 3 givenname: Ngoc-Tram surname: Le fullname: Le, Ngoc-Tram organization: Department of Chemical and Biomolecular Engineering – sequence: 4 givenname: Frederick A surname: Sexton fullname: Sexton, Frederick A organization: New World Pharmaceuticals – sequence: 5 givenname: Sitaraman orcidid: 0000-0002-1228-8393 surname: Krishnan fullname: Krishnan, Sitaraman email: skrishna@clarkson.edu organization: Department of Chemical and Biomolecular Engineering |
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| SubjectTerms | athletes athletic performance blood glucose blood plasma calorimetry cellulose chemical bonding crosslinking dispersions gastric juice glucose humans intestines lecithins microgels microparticles nanoparticles nutrients polymers rheology sodium alginate solutes surfactants temperature water solubility |
| Title | Controlled Release of Glucose from Orally Delivered Temperature- and pH-Responsive Polysaccharide Microparticle Dispersions |
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