Topic
Substance Distribution
About: Substance Distribution is a research topic. Over the lifetime, 15 publications have been published within this topic receiving 117 citations.
Papers
TL;DR: Analysis of model substance distribution yielded inhomogeneous distributions indicating that the coating was not evenly distributed on the balloon surface and that a great fraction of the coating liquid did not penetrate the folds of the balloon, which is contradictory to the generally accepted assumption of a drug depot inside the folds.
Abstract: Drug-coated balloons are medical devices designed to locally deliver drug to diseased segments of the vessel wall. For these dosage forms, drug transfer to the vessel wall needs to be examined in detail, since drug released into the blood is cleared from the site. In order to examine drug transfer, a new in vitro setup was developed combining the estimation of drug loss during advancement to the site of application in a model coronary artery pathway with a hydrogel compartment representing, as a very simplified model, the vessel wall. The transfer of fluorescent model substances as well as the drug paclitaxel from coated balloons to the simulated vessel wall was evaluated using this method. The model was suitable to quantify the fractions transferred to the hydrogel and also to qualitatively assess distribution patterns in the hydrogel film. In the case of fluorescein sodium, rhodamin b and paclitaxel, vast amounts of the coated substance were lost during the simulated passage and only very small fractions of about 1% of the total load were transferred to the gel. This must be attributed to good water solubility of the fluorescent substances and the mechanical instability of the paclitaxel coating. Transfer of the hydrophobic model substance triamterene was however nearly unaffected by the preliminary tracking procedure with transferred fractions ranging from 8% to 14%. Analysis of model substance distribution yielded inhomogeneous distributions indicating that the coating was not evenly distributed on the balloon surface and that a great fraction of the coating liquid did not penetrate the folds of the balloon. This finding is contradictory to the generally accepted assumption of a drug depot inside the folds and emphasizes the necessity to thoroughly characterize in vitro performance of drug-coated balloons to support the very promising clinical data.
41 citations
Patent•
14 Aug 2003TL;DR: In this paper, a system for controlling the deposit of liquid, gaseous, and/or particulate solid substances from a staging medium and method of making same is provided, which comprises a distribution medium for receiving substances, and a containment layer adjacent to the substance distribution medium.
Abstract: A system for controlling the deposit of liquid, gaseous, and/or particulate solid substances from a staging medium and method of making same is provided. The system comprises a distribution medium for receiving substances, and a containment layer adjacent to the substance distribution medium. The containment layer substantially prevents substance from entering the deposit area until the distribution medium is substantially filled with substance, thereby helping to prevent uneven deposits of the substance.
30 citations
Patent•
2 Aug 2002
TL;DR: In this article, a substance distribution apparatus has a receiver for receiving a signal containing at least a substance component and a generator for producing a plurality of desired substances, and a processor communicates with the receiver and the substance generator to interpret the desired substance signal and causes the generator to generate and release selected of the desired substances.
Abstract: A substance distribution apparatus has a receiver for receiving a signal containing at least a substance component. The apparatus further has a substance generator for producing a plurality of desired substances. A processor communicates with the receiver and the substance generator to interpret the desired substance signal and causes the substance generator to generate and release selected of the desired substances which correspond to the desired substance signal. The apparatus may further include tactil features such as a water mist generator and temperature regulation.
14 citations
TL;DR: The ability to characterize the behavior of agglomerated drug substance throughout process development was enabled by NIR CI to identify uniformity risks with small sample sizes and short turnaround time and the process was robust against a range of drug substance input properties.
Abstract: Early risk detection and quick diagnosis of manufacturing challenges are necessary to support the accelerated development pace of drug product in the current competitive environment. Analytical tools, such as near-infrared (NIR) chemical imaging (CI), can be employed for alerting drug substance uniformity risks in intermediates and the final product of solid dosage forms. In this particular study, the ability to characterize the behavior of agglomerated drug substance throughout process development was enabled by NIR CI to identify uniformity risks with small sample sizes and short turnaround time. Using NIR chemical imaging, the drug substance distribution and cluster size in all intermediates were visualized throughout the drug product process. NIR CI enabled rapid identification of the key unit operations that produced the greatest reduction in cluster size for enhanced distribution of the drug substance. The comil acted as a high shear mixing step to disperse soft lumps prior to roller compaction. Shear forces or pressure during roller compaction was sufficient to break down and disperse the agglomerates further. Ultimately, the process was robust against a range of drug substance input properties such that the uniformity of the final blend was consistently achieved and the agglomerated drug substance had no risks to the drug product process.
9 citations
Patent•
21 Feb 2007
TL;DR: In this article, a method of utilizing computer to simulate metabolic function information of human body substance by visualization way includes calculating out dynamic time distribution density of object substance in object tissue on human body to obtain time variation curve of substance distribution density variation in object tissues, mapping said curve on real dissection data of human Body to obtain 3D body data arranged as per time sequence.
Abstract: A method of utilizing computer to simulate metabolic function information of human body substance by visualization way includes calculating out dynamic time distribution density of object substance in object tissue on human body to obtain time variation curve of substance distribution density variation in object tissue, mapping said curve on real dissection data of human body to obtain 3D body data arranged as per time sequence, utilizing said 3D body data to realize visualization of human body metabolic function information based on real dissection structure.
6 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2019 | 2 |
| 2017 | 3 |
| 2014 | 1 |
| 2013 | 1 |
| 2012 | 1 |
| 2011 | 1 |