Add to ORKGtextBioavailability enhancement of poorly water soluble active pharmaceutical ingredients (API) is key for improving existing therapies and allowing for formulation of certain new chemical entities. The rate limiting step for absorption of these APIs is dependent on the dissolution rate and the APIs apparent solubility. Particle engineering processes such as evaporative precipitation into aqueous solution (EPAS) and spray freezing into liquid (SFL) were developed to enhance API dissolution and bioavailbality through the production of amorphous and nanoparticulate API. The morphology, primary API domain size and miscibility of particles produced by EPAS and SFL were investigated by several complementary and novel techniques. It was found th...
textWith the advance of combinational chemistry and high throughput screening, an increasing number ...
textPoorly water-soluble and insoluble chemical agents are routinely investigated in the pharmaceuti...
Over the past two decades nanosizing technology has become one of the most successful formulation ap...
textBioavailability enhancement of poorly water soluble active pharmaceutical ingredients (API) is k...
It is estimated that about 40% of compounds being developed by the pharmaceutical industry are poor...
textLow water solubility of drug compounds limits their dissolution in the aqueous body fluids. When...
textFor 40% of currently discovered drugs which are poorly water soluble, engineering amorphous nano...
textA growing number of therapeutic compounds currently being developed by pharmaceutical companies ...
textPoorly water soluble drugs have been manipulated to make them more soluble, increasing the bioav...
textHigh throughput screening techniques that are routinely used in modern drug discovery processes...
Anti-solvent precipitation produced sub-100 nm [Greek small letter beta]-carotene (BCN) particles de...
While the number and diversity of lead compounds has increased with the development of science techn...
The use of reduction and nucleation technologies in nano size active pharmaceutical ingredient (API)...
PubMed ID: 22816125The pharmacological activity of a drug molecule depends on its ability to dissolv...
The poor water solubility of many drugs is a challenge in pharmaceutical research. Because of their ...
textWith the advance of combinational chemistry and high throughput screening, an increasing number ...
textPoorly water-soluble and insoluble chemical agents are routinely investigated in the pharmaceuti...
Over the past two decades nanosizing technology has become one of the most successful formulation ap...
textBioavailability enhancement of poorly water soluble active pharmaceutical ingredients (API) is k...
It is estimated that about 40% of compounds being developed by the pharmaceutical industry are poor...
textLow water solubility of drug compounds limits their dissolution in the aqueous body fluids. When...
textFor 40% of currently discovered drugs which are poorly water soluble, engineering amorphous nano...
textA growing number of therapeutic compounds currently being developed by pharmaceutical companies ...
textPoorly water soluble drugs have been manipulated to make them more soluble, increasing the bioav...
textHigh throughput screening techniques that are routinely used in modern drug discovery processes...
Anti-solvent precipitation produced sub-100 nm [Greek small letter beta]-carotene (BCN) particles de...
While the number and diversity of lead compounds has increased with the development of science techn...
The use of reduction and nucleation technologies in nano size active pharmaceutical ingredient (API)...
PubMed ID: 22816125The pharmacological activity of a drug molecule depends on its ability to dissolv...
The poor water solubility of many drugs is a challenge in pharmaceutical research. Because of their ...
textWith the advance of combinational chemistry and high throughput screening, an increasing number ...
textPoorly water-soluble and insoluble chemical agents are routinely investigated in the pharmaceuti...
Over the past two decades nanosizing technology has become one of the most successful formulation ap...