Significance of Particle size analysis
Particle size analysis is a measurement technique that determines the size distribution of particles within a formulation. This analysis is key for assessing drug release rates, bioavailability, and overall interaction with biological membranes. Whether it involves microspheres, nanoparticles, or other formulations, understanding particle dimensions is critical for predicting drug absorption and effectiveness. Various methods, including techniques like Dynamic Light Scattering, are employed to evaluate particle size, ensuring optimized performance in drug delivery systems and enhancing therapeutic outcomes.
Synonyms: Particle size measurement, Particle characterization, Size distribution analysis, Particle distribution, Sediment analysis, Sieve analysis.
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
The concept of Particle size analysis in scientific sources
Particle size analysis is essential for evaluating Khageshwara Rasa and Bhasma particles, assessing their size to determine therapeutic effectiveness and quality, particularly through measuring their volumetric mean diameter in final product evaluations.
From: World Journal of Pharmaceutical Research
(1) A method used to determine the size distribution of particles within a sample, which influences texture and effectiveness.[1] (2) The procedure used to determine the sizes of particles in a formulation, which can affect drug release and absorption.[2] (3) A method to determine the average dimensions of particles in a formulation, which can affect their behavior and interaction with biological membranes.[3] (4) A method to determine the size and distribution of particles, often using instruments like Mastersizer to evaluate microsphere sizes.[4] (5) Techniques used to measure the size of particles within a sample.[5]
From: International Ayurvedic Medical Journal
(1) A method to determine the size distribution of particles in a sample, influencing the drug's therapeutic effectiveness.[6] (2) The assessment of the size of particles in Rajata Bhasma, which affects its dissolution, absorption, and overall therapeutic efficacy.[7] (3) A method to obtain quantitative data on the mean size, size distribution, and shape of the compounds used in pharmaceuticals.[8] (4) A technique that measures the size distribution of particles in a sample, which can indicate the effectiveness of the preparation method used.[9] (5) A method used to determine the size distribution of particles in Baladi Manduram, indicating its properties for absorption.[10]
From: AYU (Journal of Research in Ayurveda)
(1) A method to determine the size distribution of particles in a sample, as performed on Yashada Bhasma in this study.[11] (2) A method used to determine the distribution of particle sizes in the Keshanjana and Keshamasi preparations.[12] (3) An evaluation method that measures the volumetric mean diameter of Bhasma particles, crucial for understanding the quality of the final product.[13]
From: Ancient Science of Life
(1) A method used to determine the size distribution of particles within a sample, which can affect the bioavailability and efficacy of the prepared Bhasmas.[14]
From: Journal of Ayurveda and Holistic Medicine
(1) A measurement of the size of particles in Khageshwara Rasa to assess its properties and effectiveness in therapeutic applications.[15]
From: Journal of Ayurveda and Integrative Medicine
(1) A method to assess the size ranges of Rasasindura and Kajjali using dynamic light scattering (DLS) and transmission electron microscopy (TEM).[16]
From: Ayushdhara journal
(1) A measure of the size distribution of particles in a material, significant for assessing the absorption and effectiveness of the drug.[17]