Carbon Black Tinted Contact Lenses for Reduction of Photophobia in Cystinosis Patients.

PURPOSE: To examine if current development on using contact lenses for drug delivery of cysteamine to treat ocular symptoms of cystinosis can be tinted to mitigate photophobia common in patients by reducing transmittance Methods: Commercial contact lenses were placed in a carbon black solution to examine loading after lens synthesis. Silicone hydrogel contact lenses were also synthesized with carbon black added prior to UV curing. Transmittance was measured using UV-vis spectrophotometry over the range of 190-1190 nm and compared to unmodified contact lenses. Lens parameters of refractive index, ion permeability, and Young's modulus were measured using a refractometer, release of sodium chloride, and the cantilever method. Cysteamine release was measured by loading lenses into 5% cysteamine solution and then monitoring the release of the drug using UV-vis spectrophotometry. Vitamin E diffusion barriers were also added to lenses via ethanol solution, and the release of cysteamine from these modified lenses was also examined. RESULTS: No leeching of carbon black was detected during experiments. Loading of pre-made contact lenses led to uneven distribution of carbon black throughout lens. Adding 0.3% carbon black to lens monomer solution prior to UV-curing led to even distribution and a transmittance reduction of approximately 50%. Ion permeability was reduced from 6.19 ± 0.90 x 10-3 to 1.28 ± 0.06 x 10-3 mm2 min-1, and Young's modulus was decreased from 1.58 ± 0.08 to 1.29 ± 0.06 MPa. Cysteamine releases from carbon black lenses with and without vitamin E were comparable to controls, although the loading solution of vitamin E/ethanol had to be tripled to achieve a similar mass loading to control. CONCLUSIONS: Carbon black increases the softness of contact lenses, but a loading of 0.3% maintains lens parameters required for wear. The release of cysteamine is also possible with carbon black lenses, albeit requiring a higher loading concentration of vitamin E to achieve similar release times.

Spectroscopy of Oxygen-Sensitive Material for Measuring Contact Lens Oxygen Transmissibility.

PURPOSE: Oxygen permeability or transmissibility is a crucial parameter for contact lenses to ensure that extended wear will not induce corneal hypoxia. This work tests a new method of using the oxidation of cysteamine, an oxygen-sensitive chemical, to quantify the oxygen transmissibility of current commercial contact lenses and contact lenses loaded with vitamin E. METHODS: 3D printing was used to modify eye drop bottles and quartz cuvettes to create systems that allowed insertion of a contact lens in between the cysteamine solution and air. Both systems were exposed to atmospheric conditions where the only path of entry for oxygen was through the contact lens. The entering oxygen reacted with cysteamine, and the rate of cysteamine oxidation was measured using UV-vis spectrophotometry. The rate was then stoichiometrically related to oxygen transmissibility. RESULTS: The eye drop method predicted transmissibility values within 9% of established, commercial values. The cuvette method predicted values within 10% of established values for silicone hydrogel lenses without any correction factor and within 11% for poly-hydroxyethyl-methacrylate lenses after correcting for oxygen entering the system. Incorporation of 20% (w/w) vitamin E into Acuvue® Oasys® lenses did not have a significant impact on the oxygen transmissibility. CONCLUSIONS: Both methods presented in this work can reliably measure oxygen transmissibility of contacts lenses or other materials. Further improvements in manufacturing could lead to improved accuracy and reliability, allowing wider use of this method for quantifying the oxygen transport in contact lenses.

Potential role of stromal collagen in cystine crystallization in cystinosis patients.

Cystinosis is a genetic disease that leads to the accumulation of intracellular cystine crystals in all organs including cornea due to the loss of cystine efflux transporters in the lysosome of the cells. While the mechanism for formation of intracellular cystine is well understood for most organs, it does not explain many observations for crystal accumulation in the cornea of cystinosis patients. First, the crystals in cornea are extracellular and needle-like with several hundred microns length which is in sharp contrast with the rectangular or hexagonal crystals found throughout other organs. Second, these crystals are arranged parallel to the stromal collagen, which is a unique to the cornea. Third, crystal growth in the cornea reaches a saturation point after where no further crystallization occurs. We propose a hypothesis supported by in vitro and ex vivo data to explain these observations. We hypothesize that the stroma crystals form extracellularly due to the ionic interactions between the cystine diffusing into the eye and collagen fibrils present in the stroma. We examine cystine crystal growth both with in vitro polymer solutions and ex vivo in rabbit cadaver eyes to show that negatively charged polymers lead to the formation of more cystine precipitation in aqueous solution and that needle-like cystine crystal formation can be observed only in presence of certain polyelectrolytes including collagen. This proposed mechanism explains many of the yet unanswered questions but it needs further support from in vivo studies. The improved understanding could lead to improved treatment of corneal cystinosis.

Novel approaches for improving stability of cysteamine formulations.

Cystinosis is a genetic disorder that leads to the formation of cystine crystals in many organs in the body including cornea. Ocular manifestation of this disease is treated by eye drops of cysteamine which can easily oxidize into its disulfide cystamine. The rapid oxidation limits the shelf life as well the duration during which the drug can be used after opening the eye drop bottle. We evaluate two approaches of preventing the oxidation of cysteamine with the goal of increasing the time of use after opening the bottle to one month. The first approach integrates antioxidants such as catalase enzyme and vitamins C and E into the aqueous solution. Results show that catalase is the most effective additive as it decreases the oxidation rate by 58%, which on its own is not sufficient to reach targeted one month stability. The second approach focuses on incorporating diffusion barriers to prevent oxygen from reaching the cysteamine solution. This was accomplished by two methods: formulation of a hydrophobic layer which floats on the surface of the aqueous solution and integration of OMAC® oxygen-resistant material into the eye drop bottle. Both methods delay the onset of cysteamine degradation and decrease the rate of degradation. In particular, an eye drop bottle with three layers of OMAC® has less than 10% degradation after one month of opening the bottle and withdrawing a drop each day. By integrating all three methods, we designed a system where >90% of cysteamine remains in the active form for 70 days after opening the bottle. In addition, we examine the use of OMAC® as heat-sealed pouches for storage of cysteamine eye drop bottles during packaging to eliminate the need for the current approach of freezing the formulation during shipping. The results show that such heat-sealed pouches would keep cysteamine stable for over one year at ambient conditions.

Controlled delivery of pirfenidone through vitamin E-loaded contact lens ameliorates corneal inflammation.

Chemical injury by alkali burn is a major cause of corneal blindness in the clinical setting. Current management advocates multiple therapies aimed to prevent inflammation, initiate quick re-epithelialization, arrest the fibrosis, and avoid dry eye and pain by using bandage contact lenses. We hypothesized sustained delivery of the anti-inflammatory, antifibrotic drug pirfenidone through vitamin E-loaded contact lenses as a logical single approach to counter the pathology involved. Vitamin E particles were created in situ in commercial silicon hydrogel contact lenses by soaking the lenses in a vitamin E-ethanol solution. The vitamin E-laden lenses were then placed into pirfenidone-saline solution to load the drug into the lens. The contact lenses were evaluated by both in vitro and in vivo means. For in vitro, lenses were placed into 3 mL of saline solution. The concentration of pirfenidone released was measured by UV-vis spectrophotometry. The contact lenses were implanted in rabbit eyes following the alkali burn; the drug availability in the aqueous humor was evaluated by HPLC at various time points 10 min, 30 min, 2 h, and 3 h; and gene expression of inflammatory cytokines IL-1ß, TNF-α, and TGF-ß1 was evaluated in the cornea at the end of the study period. In another group of rabbits inflicted with alkali injury, the corneas were graded after 7 days of contact lens implantation with and without pirfenidone. A mathematical model was developed for delivery of the drug to the cornea and aqueous humor after a contact lens is inserted in the eye. The model was validated with experimental data and used to determine the bioavailability both for contact lenses and eye drops. In vitro release of unmodified commercial contact lenses saw a release time of approximately 20 min, with a partition coefficient of 2.68 ± 0.06. The release of pirfenidone from 20% vitamin E-loaded lenses saw a release time of approximately 80 min, with a partition coefficient of 4.20 ± 0.04. In vivo, the drug was available in the aqueous humor for up to 3 h. Gene expression of inflammatory cytokine IL-ß1 and profibrotic growth factor TGF-ß1 was significantly suppressed in corneas treated with pirfenidone contact lenses. A week after the alkali burn, the eyes with pirfenidone contact lenses showed significant improvement in corneal haze in comparison to the control eyes. About 50% of the drug loaded in the lens reached the aqueous humor compared to 1.3% with eye drops. Vitamin E-loaded contact lenses serve as a suitable platform for delivery of pirfenidone following alkali burn in rabbit eyes; positive pre-clinical outcome identifies it as promising therapy for addressing corneal inflammation and fibrosis. The bioavailability is about 40-fold higher for contact lenses compared to that for eye drops.

In vitro drug release and in vivo safety of vitamin E and cysteamine loaded contact lenses.

Cystinosis is an orphan disease caused by a genetic mutation that leads to deposition of cystine crystals in many organs including cornea. Ophthalmic manifestation of the disease can be treated with hourly instillation of cysteamine eye drops. The hourly eye drop instillation is tedious to the patients leading to poor compliance and additionally, significant degradation of the drug occurs within one week of opening the bottle, which further complicates this delivery approach. This paper focuses on designing a contact lens to treat the disease with improved efficacy compared to eye drops, and also exploring safety of the drug eluding contact lens in an animal model. Our goal is to design a lens that is safe and that can deliver a daily therapeutic dose of cysteamine to the cornea while retaining drug stability. We show that cysteamine diffuses out rapidly from all lenses due to its small size. Vitamin E incorporation increases the release duration of both ACUVUE®OASYS® and ACUVUE® TruEyeTM but the effect is more pronounced in TruEyeTM likely due to the low solubility of vitamin E in the lens matrix and higher aspect ratio of the barriers. The barriers are not effective in hydrogel lenses, which along with the high aspect ratio in silicone hydrogels suggests that barriers could be forming at the interface of the silicone and hydrogel phases. The presence of vitamin E has an additional beneficial effect of reduction in the oxidation rates, likely due to a transport barrier between the oxygen diffusing through the silicone channels and drug located in the hydrogel phase. Based on this study, both Acuvue®OASYS® and ACUVUE® TruEyeTM can be loaded with vitamin E to design a cysteamine eluting contact lenses for effective therapy of cystinosis. The lenses must be worn for about 4-5 hr. each day, which is less than the typical duration of daily-wear. The vitamin E and cysteamine loaded lenses did not exhibit any toxicity in a rabbit model over a period of 7-days.

Emergency Physician-Performed Bedside Ultrasound in the Evaluation of Acute Appendicitis in a Pediatric Population.

Background/Objective Many pediatric emergency departments in the United States have adopted a staged ultrasound and CT pathway for the diagnosis of acute appendicitis. However, most algorithms only include radiology-performed ultrasound (RUS) and not emergency physician- performed bedside ultrasound (BUS). Our objective was to determine if emergency physician-performed BUS provides sufficient diagnostic accuracy for acute appendicitis in a pediatric population, thereby limiting additional cost and/or delays in disposition. Methods This is a single-center prospective study of pediatric patients with concern for and requiring further work-up for acute appendicitis. Each patient had a focused bedside ultrasound (BUS) performed by an emergency physician with training in BUS. Diagnostic accuracy was compared with surgical pathology standard, as well as radiology- performed ultrasound (RUS), computed tomography (CT), and clinical follow-up. Results Among46 enrolledpatients, 12were diagnosed with acute appendicitis (26%). There were no negative laparotomies in those who had surgery. There was one case of missed appendicitis at 4-week follow-up. BUS had a sensitivity of 100% (95% Cl: 72% to 100%) and. a specificity of 81% (61% to 93%) when the app6ndix'was visualized (37). This resulted in positive likelihood ratio of5.2 and a negative likelihood ratio ofo. In the cases where the appendix was not visualized on BUS (9), 1 patient was diagnosed with appendicitis, and the other 8 patients were negative for appendicitis. In RUS both the sensitivity and specificity was 100% when the appendix was visualized. The sensitivity and specificity of CT in our studywas 90% and 100% respectively. Conclusions Emergency physicians can perform bedside ultrasound with high accuracy for acute appendicitis in a pediatric population. When the appendix is not visualized by ultrasound, a staged ultrasound and CT pathway should be considered.