Nigel Davies scite author profile

1. Despite the accessibility of the front of the eye, efficient delivery of drug to treat various ocular disorders is a challenge to the formulation scientist. The majority of ophthalmic medications are formulated as eye drops. Due to anatomical constraints, the volume that can be administered is limited to approximately 30 microL. This, together with the efficient clearance system that exists in the front of the eye, makes it difficult to maintain an effective pre-ocular drug concentration for a desired length of time. Various formulation strategies have been used to increase pre-ocular retention of eye drops. The most successful of these has been the inclusion of viscosity enhancing polymers, particularly those able to interact with the mucous layer on the eye surface or those that can undergo a transition from a solution to a gel under the conditions of the pre-ocular area. 2. When the target site is intra-ocular, drug must be absorbed from the pre-ocular region into the eye. The main route for absorption is across the cornea. However, absorption of drug across the cornea is inefficient due to its impermeable nature and small surface area. Thus, the intra-ocular bioavailability of topically administered medications is typically less than 10%. 3. Corneal permeability favours moderately lipophilic compounds. These compounds often have a low aqueous solubility. Problems in ocular drug delivery and formulation are compounded for poorly soluble drugs that must be formulated as suspensions. 4. Reformulation of ophthalmic suspensions as solutions has many advantages. This may be achieved by complexation using cyclodextrins. Solubilization using cyclodextrins can overcome many of the formulation problems. However, it is unclear as to their potential for improving ocular bioavailability, which is seemingly drug dependent and may be influenced by both the physicochemical properties of the drug and the complex formed.

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Development of a Novel Method for Formulating Stable siRNA-Loaded Lipid Particles for In vivo Use

Putral

Liang

et al. 2008

Pharm Res

115

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Mechanisms by which cyclodextrins modify drug release from polymeric drug delivery systems

Bibby

Davies

Tucker

2000

International Journal of Pharmaceutics

274

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Liposomal delivery of antigen to human dendritic cells

Copland¹,

Baird²,

Rades³

et al. 2003

Vaccine

167

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Antigen-Specific Suppression of Inflammatory Arthritis Using Liposomes

et al. 2009

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Existing therapies for rheumatoid arthritis and other autoimmune diseases are not Ag specific, which increases the likelihood of systemic toxicity. We show that egg phosphatidylcholine liposomes loaded with Ag (OVA or methylated BSA) and a lipophilic NF-κB inhibitor (curcumin, quercetin, or Bay11-7082) suppress preexisting immune responses in an Ag-specific manner. We injected loaded liposomes into mice primed with Ag or into mice suffering from Ag-induced inflammatory arthritis. The liposomes targeted APCs in situ, suppressing the cells’ responsiveness to NF-κB and inducing Ag-specific FoxP3+ regulatory T cells. This regulatory mechanism suppressed effector T cell responses and the clinical signs of full-blown Ag-induced arthritis. Thus, liposomes encapsulate Ags and NF-κB inhibitors stably and efficiently and could be readily adapted to deliver Ags and inhibitors for Ag-specific suppression of other autoimmune and allergic diseases.

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Nigel Davies

Biopharmaceutical Considerations In Topical Ocular Drug Delivery

Development of a Novel Method for Formulating Stable siRNA-Loaded Lipid Particles for In vivo Use

Mechanisms by which cyclodextrins modify drug release from polymeric drug delivery systems

Liposomal delivery of antigen to human dendritic cells

Antigen-Specific Suppression of Inflammatory Arthritis Using Liposomes

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