Microfluidic device for controlled ocular drug delivery

2023 IEEE 7th Portuguese Meeting on Bioengineering (ENBENG) Pub Date : 2023-06-22 DOI:10.1109/ENBENG58165.2023.10175343

Carlos Carreira, E. Delgado, V. Silvério

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Abstract

Proper drug concentration in the treatment of ocular disease is challenging. To alleviate this, we developed a 10 × 5 mm2 device for controlled delivery of drugs to the eye consisting of a 320 µm) hyaluronic acid (HA) laden hydrogel covered on one side by monolayer of graphene. The hydrogel composition contains HA due to its lubricating and wound healing properties, biocompatibility and safety. The HA was tested at 0.5, 1, and 2 percent w/v. Graphene was added to allow slow release of the active component and to act as an impermeable layer. As part of a proof-of-concept study, inserts were tested in vivo on a healthy dog after the owner provided written informed consent. They were inserted in the cul-de-sac of one eye with the graphene layer facing the outer eyelid and the hydrogel remaining in contact with the conjunctiva and lower cornea. The results show only a slight increase in clinical signs of conjunctivitis in the last two trials, while the patient did not experience any visible discomfort. In the first two trials, the insert remained in the cul-de-sac for almost 6 hours before being expelled, with the last trial lasting longer than 1 hour. The inserts were found to be well tolerated, but in terms of biofunctionality, further studies are needed to increase the residence time and to further optimise the shape and positioning of the device. The clinical use of the device is anticipated to have a positive impact on the lives of patients afflicted by dry eye disease.

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用于眼部药物控制的微流控装置

适当的药物浓度在眼部疾病的治疗中具有挑战性。为了缓解这一问题，我们开发了一种10 × 5 mm2的设备，用于控制将药物输送到眼睛，该设备由320 μ m的透明质酸(HA)负载水凝胶组成，其一侧覆盖单层石墨烯。由于其润滑和伤口愈合性能，生物相容性和安全性，水凝胶组合物含有透明质酸。在0.5%、1%和2% w/v下测试HA。加入石墨烯是为了让活性成分缓慢释放，并作为一层不透水层。作为概念验证研究的一部分，在主人提供书面知情同意后，植入物在一只健康的狗身上进行了体内测试。将它们插入一只眼睛的死角，石墨烯层面向外眼睑，水凝胶与结膜和下角膜保持接触。结果显示，在最后两项试验中，结膜炎的临床症状仅略有增加，而患者并未感到任何明显的不适。在前两次试验中，插入物在被驱逐前在死胡同中停留了近6个小时，最后一次试验持续了1个多小时。植入物耐受性良好，但就生物功能而言，需要进一步研究以增加停留时间并进一步优化设备的形状和定位。该设备的临床应用预计将对干眼病患者的生活产生积极影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE 7th Portuguese Meeting on Bioengineering (ENBENG)

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