<p>Engineering of Long-Term Stable Transparent Nanoemulsion Using High-Gravity Rotating Packed Bed for Oral Drug Delivery</p>

In this work, dasatinib (DAS) nanoemulsion and nanocrystal are produced by high-gravity technology that approaches to practical mass production. The drug nanoformulations were systematically characterized and evaluated. At a low high-gravity level (β) = 47, nanoemulsion droplets were 16.15 ± 0.42 nm with a PDI of 0.122 ± 0.021. The nanoemulsion’s size and active pharmaceutical ingredient (API) content remained stable at long-term (4 months) freeze–thaw and dilution experiments. At a high β = 188, the as-prepared nanocrystal was lamellar with a short diameter of about 200 nm and a long diameter of about 750 nm. In vitro performances demonstrated the nanoemulsion displayed higher cytotoxicity on MDA-MB-231 tumor cells, Caco-2 cell permeability and drug release than that of the nanocrystal, indicating that nanoemulsion should be an ideal alternative for dasatinib oral administration.

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Transdermal patches: Design and current approaches to painless drug delivery

Acta Pharmaceutica ◽

10.2478/acph-2019-0016 ◽

2019 ◽

Vol 69 (2) ◽

pp. 197-215 ◽

Cited By ~ 7

Author(s):

Othman A. Al Hanbali ◽

Haji Muhammad Shoaib Khan ◽

Muhammad Sarfraz ◽

Mosab Arafat ◽

Shakeel Ijaz ◽

...

Keyword(s):

Drug Delivery ◽

Oral Drug Delivery ◽

Hepatic Metabolism ◽

Enzymatic Digestion ◽

Assessment Tools ◽

Oral Drug ◽

Formulation Development ◽

Transdermal Patches ◽

Cardiac Disorders

Abstract Use of transdermal patches can evade many issues associated with oral drug delivery, such as first-pass hepatic metabolism, enzymatic digestion attack, drug hydrolysis and degradation in acidic media, drug fluctuations, and gastrointestinal irritation. This article reviews various transdermal patches available in the market, types, structural components, polymer role, and the required assessment tools. Although transdermal patches have medical applications for smoking cessation, pain relief, osteoporosis, contraception, motion sickness, angina pectoris, and cardiac disorders, advances in formulation development are ongoing to make transdermal patches capable of delivering more challenging drugs. Transdermal patches can be tailored and developed according to the physicochemical properties of active and inactive components, and applicability for long-term use. Therefore, a number of chemical approaches and physical techniques for transdermal patch development are under investigation.

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An intra-oral drug delivery system design for painless, long-term and continuous drug release

Sensors and Actuators B Chemical ◽

10.1016/j.snb.2015.12.081 ◽

2016 ◽

Vol 227 ◽

pp. 573-582 ◽

Cited By ~ 4

Author(s):

Yu-Jung Li ◽

Chih-Cheng Lu ◽

Wan-Lo Tsai ◽

Ming-Hung Tai

Keyword(s):

Drug Delivery ◽

Drug Release ◽

System Design ◽

Drug Delivery System ◽

Delivery System ◽

Oral Drug Delivery ◽

Oral Drug ◽

Oral Drug Delivery System

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Enzyme-digestible swelling hydrogels as platforms for long-term oral drug delivery: synthesis and characterization

Biomaterials ◽

10.1016/0142-9612(88)90009-9 ◽

1988 ◽

Vol 9 (5) ◽

pp. 435-441 ◽

Cited By ~ 60

Author(s):

K. Park

Keyword(s):

Drug Delivery ◽

Oral Drug Delivery ◽

Oral Drug ◽

Synthesis And Characterization

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Applications of Ion Exchange Resin in Oral Drug Delivery Systems

International Journal of Drug Delivery Technology ◽

10.25258/ijddt.v7i03.9556 ◽

2017 ◽

Vol 7 (03) ◽

Author(s):

Kathpalia Harsha ◽

Das Sukanya

Keyword(s):

Drug Delivery ◽

Ion Exchange ◽

Drug Delivery Systems ◽

Oral Drug Delivery ◽

Physical Stability ◽

Delivery Systems ◽

Oral Drug ◽

Ion Exchange Resins ◽

Exchange Resins ◽

Oral Drug Delivery Systems

Ion Exchange Resins (IER) are insoluble polymers having styrene divinylbenzene copolymer backbone that contain acidic or basic functional groups and have the ability to exchange counter ions with the surrounding aqueous solutions. From the past many years they have been widely used for purification and softening of water and in chromatographic columns, however recently their use in pharmaceutical industry has gained considerable importance. Due to the physical stability and inert nature of the resins, they can be used as a versatile vehicle to design several modified release dosage forms The ionizable drug is complexed with the resin owing to the property of ion exchange. This resin complex dissociatesin vivo to release the drug. Based on the dissociation strength of the drug from the drug resin complex, various release patterns can be achieved. Many formulation glitches can be circumvented using ion exchange resins such as bitter taste and deliquescence. These resins also aid in enhancing disintegrationand stability of formulation. This review focuses on different types of ion exchange resins, their preparation methods, chemistry, properties, incompatibilities and their application in various oral drug delivery systems as well as highlighting their use as therapeutic agents.

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