posted on 2016-06-23, 00:00authored byJie Fu, Fengying Sun, Wenhua Liu, Yanfei Liu, Manasee Gedam, Qi Hu, Colleen Fridley, Harry
A. Quigley, Justin Hanes, Ian Pitha
Topical medications that inhibit
the enzyme carbonic anhydrase
(CAI) are widely used to lower intraocular pressure in glaucoma; however,
their clinical efficacy is limited by the requirement for multiple-daily
dosing, as well as side effects such as blurred vision and discomfort
on drop instillation. We developed a biodegradable polymer microparticle
formulation of the CAI dorzolamide that produces sustained lowering
of intraocular pressure after subconjunctival injection. Dorzolamide
was ion paired with sodium dodecyl sulfate (SDS) and sodium oleate
(SO) with 0.8% and 1.5% drug loading in poly(lactic-co-glycolic acid) (PLGA), respectively. Encapsulating dorzolamide into
poly(ethylene glycol)-co-poly(sebacic acid) (PEG3-PSA) microparticles in the presence of triethylamine (TEA)
resulted in 14.9% drug loading and drug release that occurred over
12 days in vitro. Subconjunctival injection of dorzolamide-PEG3-PSA microparticles (DPP) in Dutch belted rabbits reduced
IOP as much as 4.0 ± 1.5 mmHg compared to untreated fellow eyes
for 35 days. IOP reduction after injection of DPP microparticles was
significant when compared to baseline untreated IOPs (P < 0.001); however, injection of blank microparticles (PEG3-PSA) did not affect IOP (P = 0.9). Microparticle
injection was associated with transient clinical vascularity and inflammatory
cell infiltration in conjunctiva on histological examination. Fluorescently
labeled PEG3-PSA microparticles were detected for at least
42 days after injection, indicating that in vivo particle
degradation is several-fold longer than in vitro degradation.
Subconjunctival DPP microparticle delivery is a promising new platform
for sustained intraocular pressure lowering in glaucoma.