Fífa Konráðsdóttir scite author profile

ABSTRACT.Purpose: This study aimed to: (1) determine the relative efficiencies of topical and systemic absorption of drugs delivered by eyedrops to the anterior and posterior segments of the eye; (2) establish whether dexamethasone-cyclodextrin eyedrops deliver significant levels of drug to the retina and vitreous in the rabbit eye, and (3) compare systemic absorption following topical application to the eye versus intranasal or intravenous delivery. Methods: In order to distinguish between topical and systemic absorption in the eye, we applied 0.5% dexamethasone-cyclodextrin eyedrops to one (study) eye of rabbits and not to the contralateral (control) eye. Drug levels were measured in each eye. The study eye showed the result of the combination of topical and systemic absorption, whereas the control eye showed the result of systemic absorption only. Systemic absorption was also examined after intranasal and intravenous administration of the same dose of dexamethasone. Results: In the aqueous humour dexamethasone levels were 170 ± 76 ng ⁄ g (mean ± standard deviation) in the study eye and 6 ± 2 ng ⁄ g in the control eye. Similar ratios were seen in the iris and ciliary body. In the retina the dexamethasone level was 33 ± 7 ng ⁄ g in the study eye and 14 ± 3 ng ⁄ g in the control eye. Similar ratios were seen in the vitreous humour. Systemic absorption was similar from ocular, intranasal and intravenous administration. Conclusions: Absorption after topical application dominates in the anterior segment. Topical absorption also plays a significant role in delivering dexamethasone to the posterior segment of the rabbit eye. In medication administered to the retina, 40% of the drug reaches the retina via the systemic route and 60% via topical penetration. Dexamethasone-cyclodextrin eyedrops deliver a significant amount of drug to the rabbit retina.

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Healing Rate and Autoimmune Safety of Full-Thickness Wounds Treated With Fish Skin Acellular Dermal Matrix Versus Porcine Small-Intestine Submucosa

Baldursson

Kjartansson

Konráðsdóttir

et al. 2015

The International Journal of Lower Extremity Wounds

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A novel product, the fish skin acellular dermal matrix (ADM) has recently been introduced into the family of biological materials for the treatment of wounds. Hitherto, these products have been produced from the organs of livestock. A noninferiority test was used to compare the effect of fish skin ADM against porcine small-intestine submucosa extracellular matrix in the healing of 162 full-thickness 4-mm wounds on the forearm of 81 volunteers. The fish skin product was noninferior at the primary end point, healing at 28 days. Furthermore, the wounds treated with fish skin acellular matrix healed significantly faster. These results might give the fish skin ADM an advantage because of its environmental neutrality when compared with livestock-derived products. The study results on these acute full-thickness wounds might apply for diabetic foot ulcers and other chronic full-thickness wounds, and the shorter healing time for the fish skin-treated group could influence treatment decisions. To test the autoimmune reactivity of the fish skin, the participants were tested with the following ELISA (enzyme-linked immunosorbent assay) tests: RF, ANA, ENA, anti ds-DNA, ANCA, anti-CCP, and anticollagen I and II. These showed no reactivity. The results demonstrate the claims of safety and efficacy of fish skin ADM for wound care.

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Development and evaluation of an artificial membrane for determination of drug availability

Loftsson

Konráðsdóttir

Másson

2006

International Journal of Pharmaceutics

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