Andere Kunden interessierten sich auch für
![Nasal and Pulmonary Drug Delivery System]( "Nasal and Pulmonary Drug Delivery System")
Nasal and Pulmonary Drug Delivery System32,99 €![Nanoparticle For Pulmonary Drug Delivery System]( "Nanoparticle For Pulmonary Drug Delivery System")
Nanoparticle For Pulmonary Drug Delivery System26,99 €![Advances in Pulmonary Physiology and Drug Delivery]( "Advances in Pulmonary Physiology and Drug Delivery")
Advances in Pulmonary Physiology and Drug Delivery150,99 €![Functionally Modified Alginate Particles for Oral Delivery of NSAIDs]( "Functionally Modified Alginate Particles for Oral Delivery of NSAIDs")
Functionally Modified Alginate Particles for Oral Delivery of NSAIDs36,99 €![Formulation Development of Extended Released Rifaximin Micro-particles]( "Formulation Development of Extended Released Rifaximin Micro-particles")
Formulation Development of Extended Released Rifaximin Micro-particles22,99 €![DRUG UTILIZATION EVALUATION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE PATIENTS]( "DRUG UTILIZATION EVALUATION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE PATIENTS")
DRUG UTILIZATION EVALUATION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE PATIENTS26,99 €![Novel drug delivery systems for the delivery of Insulin]( "Novel drug delivery systems for the delivery of Insulin")
Novel drug delivery systems for the delivery of Insulin15,95 €
The study focuses on the formulation of particles for pulmonary drug delivery. The effect of particle shape and morphology on inhalation efficiency has been investigated. Carrier and drug model particles are formulated with a number of different surface morphology. Flowability, aerosolization and deposition behavior of particles with similar size range are investigated through in vitro experimentations. This study successfully optimizes that pollen-shape particle with fibrous surface morphology as optimum particle shape with favorable characterizing properties.