Development of a drug delivering round window niche implant for cochlear pharmacotherapy.

IF 6.5 2区 医学 Q1 PHARMACOLOGY & PHARMACY
Drug Delivery Pub Date : 2024-12-01 Epub Date: 2024-08-21 DOI:10.1080/10717544.2024.2392755
Chunjiang Wei, Ziwen Gao, Martina Knabel, Martin Ulbricht, Stefan Senekowitsch, Peter Erfurt, Norman Maggi, Bastian Zwick, Thomas Eickner, Farnaz Matin-Mann, Anne Seidlitz, Thomas Lenarz, Verena Scheper
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引用次数: 0

Abstract

Background: There exists an unfulfilled requirement for effective cochlear pharmacotherapy. Controlled local drug delivery could lead to effective bioavailability. The round window niche (RWN), a cavity in the middle ear, is connected to the cochlea via a membrane through which drug can diffuse. We are developing individualized drug-eluting RWN implants (RNIs). To test their effectiveness in guinea pigs, a commonly used model in cochlear pharmacology studies, it is first necessary to develop guinea pig RNIs (GP-RNI).

Methods: Since guinea pigs do not have a RWN such as it is present in humans and to reduce the variables in in vivo studies, a one-size-fits-all GP-RNI model was designed using 12 data sets of Dunkin-Hartley guinea pigs. The model was 3D-printed using silicone. The accuracy and precision of printing, distribution of the sample ingredient dexamethasone (DEX), biocompatibility, bio-efficacy, implantability and drug release were tested in vitro. The GP-RNI efficacy was validated in cochlear implant-traumatized guinea pigs in vivo.

Results: The 3D-printed GP-RNI was precise, accurate and fitted in all tested guinea pig RWNs. DEX was homogeneously included in the silicone. The GP-RNI containing 1% DEX was biocompatible, bio-effective and showed a two-phase and sustained DEX release in vitro, while it reduced fibrous tissue growth around the cochlear implant in vivo.

Conclusions: We developed a GP-RNI that can be used for precise inner ear drug delivery in guinea pigs, providing a reliable platform for testing the RNI's safety and efficacy, with potential implications for future clinical translation.

开发用于人工耳蜗药物治疗的给药圆窗壁龛植入体。
背景:有效的耳蜗药物治疗需求尚未得到满足。可控的局部给药可带来有效的生物利用度。圆窗龛(RWN)是中耳的一个空腔,通过一层膜与耳蜗相连,药物可通过该膜扩散。我们正在开发个性化的药物洗脱圆窗龛植入体(RNIs)。豚鼠是耳蜗药理学研究中常用的模型,要在豚鼠身上测试其有效性,首先必须开发出豚鼠 RNI(GP-RNI):方法:由于豚鼠没有人类存在的 RWN,为了减少体内研究中的变数,我们利用 Dunkin-Hartley 豚鼠的 12 组数据设计了一个通用的 GP-RNI 模型。该模型使用硅胶进行三维打印。在体外测试了打印的准确性和精确度、样品成分地塞米松(DEX)的分布、生物相容性、生物有效性、植入性和药物释放。GP-RNI 的功效在体内植入人工耳蜗的豚鼠身上得到了验证:结果:三维打印的 GP-RNI 精确、准确,适合所有测试的豚鼠 RWN。硅胶中均匀地含有 DEX。含有1% DEX的GP-RNI具有生物相容性和生物有效性,在体外显示出两相和持续的DEX释放,在体内则减少了人工耳蜗周围纤维组织的生长:我们开发的 GP-RNI 可用于豚鼠内耳的精确给药,为测试 RNI 的安全性和有效性提供了一个可靠的平台,对未来的临床转化具有潜在的意义。
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来源期刊
Drug Delivery
Drug Delivery 医学-药学
CiteScore
11.80
自引率
5.00%
发文量
250
审稿时长
3.3 months
期刊介绍: Drug Delivery is an open access journal serving the academic and industrial communities with peer reviewed coverage of basic research, development, and application principles of drug delivery and targeting at molecular, cellular, and higher levels. Topics covered include all delivery systems including oral, pulmonary, nasal, parenteral and transdermal, and modes of entry such as controlled release systems; microcapsules, liposomes, vesicles, and macromolecular conjugates; antibody targeting; protein/peptide delivery; DNA, oligonucleotide and siRNA delivery. Papers on drug dosage forms and their optimization will not be considered unless they directly relate to the original drug delivery issues. Published articles present original research and critical reviews.
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