Pages that link to "Q43267442"

The following pages link to Nanoparticulation of poorly water soluble drugs using a wet-mill process and physicochemical properties of the nanopowders (Q43267442):

Displaying 13 items.

• Nanomilling of Drugs for Bioavailability Enhancement: A Holistic Formulation-Process Perspective. (Q26746912) (← links)
• Continuous production of drug nanoparticle suspensions via wet stirred media milling: a fresh look at the Rehbinder effect (Q34232283) (← links)
• Analyses of nanoformulated antiretroviral drug charge, size, shape and content for uptake, drug release and antiviral activities in human monocyte-derived macrophages. (Q34728884) (← links)
• Enhanced bioavailability of danazol nanosuspensions by wet milling and high-pressure homogenization (Q37548416) (← links)
• Physical and chemical stability of drug nanoparticles (Q37840489) (← links)
• Solid dispersions, part I: recent evolutions and future opportunities in manufacturing methods for dissolution rate enhancement of poorly water-soluble drugs (Q37932560) (← links)
• Recent advancements in mechanical reduction methods: particulate systems (Q38132471) (← links)
• Evaluation of nanodispersion of iron oxides using various polymers (Q39141226) (← links)
• NanoClusters surface area allows nanoparticle dissolution with microparticle properties (Q41810733) (← links)
• Dissolution rate enhancement of clarithromycin using ternary ground mixtures: nanocrystal formation (Q41945650) (← links)
• Iodinated NanoClusters as an inhaled computed tomography contrast agent for lung visualization (Q42958480) (← links)
• Nanoparticulation of probucol, a poorly water-soluble drug, using a novel wet-milling process to improvein vitrodissolution andin vivooral absorption (Q57349944) (← links)
• Design of Dry Nanosuspension with Highly Spontaneous Dispersible Characteristics to Develop Solubilized Formulation for Poorly Water-Soluble Drugs (Q84229954) (← links)