Introduction and Objectives: Keratoconus is a progressive bilateral degenerative corneal ectasia that affects young adults, causing great visual disability, with a great impact on life quality and social health, worsening over time (1). There is no available medical or pharmacological treatment to prevent the development or decrease its progression. Lactoferrin was observed to promote in vivo and in vitro corneal epithelial wound healing (2). The aim of this work was based on the design, preparation, and characterization of lactoferrin-loaded CS/SBE-b-CD nanoparticles intended for topical ophthalmic administration as a pharmacological alternative for keratoconus treatment.
Methods: Lactoferrin-loaded SBE-β-CD/CS nanoparticles were prepared by ion gelation. Different proportions were tested in order to select the formulation with better characteristics. Evaluation and characterization were carried out in terms of size, surface potential, morphology, production yield (PY), encapsulation efficacy (EE), and loading capacity (LC). Additional experimental data may be included.
Results and discussion: Lactoferrin-loaded SBE-β-CD/CS nanoparticles were prepared, and physicochemical properties successfully evaluated. Proposed nanocarriers show potential as a pharmacological alternative for keratoconus treatment, with the virtue of easy administration, prolonged drug release time, improved ocular bioavailability and reduced dosing frequency.
Conclusions: It is proposed a chitosan-based formulation as a biodegradable mucoadhesive nanocarrier for the controlled delivery of lactoferrin, supported by a preclinical consistent base as the first pharmacological treatment for keratoconus as an alternative to the current invasive clinical methods.
References
[1] Kymes SM, Walline JJ, Zadnik K, Sterling J, Gordon MO, Collaborative Longitudinal Evaluation of Keratoconus Study Group. Changes in the quality-of-life of people with keratoconus. Am J Ophthalmol. 2008 Apr;145(4):611–7.
[2] Pattamatta U, Willcox M, Stapleton F, Cole N, Garrett Q. Bovine lactoferrin stimulates human corneal epithelial alkali wound healing in vitro. Invest Ophthalmol Vis Sci. 2009 Apr;50(4):1636–43.
