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1.
J Pharm Biomed Anal ; 74: 223-6, 2013 Feb 23.
Article in English | MEDLINE | ID: mdl-23245254

ABSTRACT

Due to the absence of a significant chromophore, Simethicone raw material and finished product analysis is achieved using a FTIR-based method that quantifies the polydimethylsiloxane (PDMS) component of the active ingredient. The method can be found in the USP monographs for several dosage forms of Simethicone-containing pharmaceutical products. For soft gelatin capsules, the PDMS assay values determined using the procedure described in the USP method were variable (%RSDs from 2 to 9%) and often lower than expected based on raw material values. After investigation, it was determined that the extraction procedure used for sample preparation was causing loss of material to the container walls due to the hydrophobic nature of PDMS. Evaluation revealed that a simple dissolution of the gelatin capsule fill in toluene provided improved assay results (%RSDs≤0.5%) as well as a simplified and rapid sample preparation.


Subject(s)
Gelatin/analysis , Gelatin/chemical synthesis , Simethicone/analysis , Simethicone/chemical synthesis , Capsules , Pharmacopoeias as Topic/standards , Reproducibility of Results , Spectroscopy, Fourier Transform Infrared/methods , Spectroscopy, Fourier Transform Infrared/standards
2.
J Agric Food Chem ; 57(6): 2503-7, 2009 Mar 25.
Article in English | MEDLINE | ID: mdl-19292470

ABSTRACT

Indian cress (Tropaeolum majus L.) absolute was studied by GC-olfactometry (VIDEO-Sniff method) in order to identify odor-active aroma compounds. Because of its fruity-sulfury odor note, a compound that has never been identified in plant extracts before stood out: O,S-diethyl thiocarbonate, present at 0.1% (percentage of the total GC/FID area) in the extract. GCxGC-TOFMS allowed for a clean mass spectrum to be obtained, and isolation by preparative GC followed by NMR studies allowed its identification. Here, we report on the first detection of O,S-diethyl thiocarbonate in Indian cress absolute by GC-olfactometry/VIDEO-Sniff and on its isolation and identification. The synthesis and odor evaluation of its homologues are presented.


Subject(s)
Chromatography, Gas/methods , Magnesium Hydroxide/analysis , Odorants/analysis , Simethicone/analysis , Tropaeolum/chemistry , Drug Combinations , Gas Chromatography-Mass Spectrometry , Humans , Magnesium Hydroxide/chemical synthesis , Magnetic Resonance Spectroscopy , Simethicone/chemical synthesis , Smell
3.
Biomaterials ; 9(4): 349-55, 1988 Jul.
Article in English | MEDLINE | ID: mdl-2463853

ABSTRACT

A-B-A type block copolymers of poly(gamma-benzyl L-glutamate) (PBLG, A segment) and polydimethylsiloxane (PDMS, B segment) and PDMS (trunk)-PBLG (branch) graft copolymers were synthesized, and the permeation of oxygen in water and the permeation of oxygen and carbon dioxide in the dry state were investigated. The gas permeation coefficient (P) increased with increasing content of PDMS. However, PCO2/PO2 values of copolymer films were in the range 6-9, i.e. larger than 5.4 for PDMS film. The oxygen permeation in water suffered from the interfacial resistance, which was reduced by the hydrolysis of film surface. The Arrhenius plot of the gas permeation coefficient in the dry state of the block copolymer B showed a turning point at about 40 degrees C. This temperature is close to beta-peak temperature (39 degrees C) and may be ascribed to the molecular motion of the PBLG segment. Transmission electron microscopy showed that one of the block copolymer films (PDMS 46 mol%) appears to have PDMS segments dispersed in the PBLG matrix (island-in-sea structure) and one of the graft copolymer films (PDMS 58 mol%) appears to take a lamellar structure. The gas permeation across the graft copolymer film appears to occur through the continuous PDMS phase, leading to a near-negligible activation energy in this process.


Subject(s)
Biocompatible Materials , Peptides/analogs & derivatives , Polyglutamic Acid/analogs & derivatives , Silicones , Simethicone , Dimethylpolysiloxanes , Microscopy, Electron , Permeability , Polyglutamic Acid/chemical synthesis , Silicones/analogs & derivatives , Silicones/chemical synthesis , Simethicone/analogs & derivatives , Simethicone/chemical synthesis , Thermodynamics
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