用于椎管内给药的利奈唑胺制剂 PP353 的临床前开发和特性分析。

IF 3.4 3区 医学 Q1 ORTHOPEDICS
JOR Spine Pub Date : 2024-11-14 DOI:10.1002/jsp2.70010
Graham Hagger, Sarah Guest, Stephen Birchall, Alys Bradley, Charlie Brindley, David Corbett, Paul J. Cummings, Cristina Freire, James Harris, Andrew Wise, Melanie Wood, Lloyd G. Czaplewski
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引用次数: 0

摘要

导言:椎间盘的细菌感染可导致椎体终板水肿,即莫迪克病变,并伴有慢性腰背痛。口服抗菌药有一定疗效,但需要长期用药,在患者疗效、副作用或抗生素管理方面可能并不理想。目前还没有抗生素制剂获准用于椎间盘内给药。在此,我们介绍了用于椎管内给药的利奈唑胺制剂(50 毫克/毫升微粉化粉末悬浮液)的开发和临床前特性分析:方法:采用微粉化、粒度分析、弗朗茨细胞扩散试验、体内外生物测定和胶凝温度估算来优化制剂的成分和特性。用绵羊评估了制剂的药代动力学特性,并建立了椎间盘内感染模型来证明其疗效。在一项良好实验室规范(GLP)局部耐受性研究中证明了该制剂对人体的适用性:结果:微粉化利奈唑胺被配制成粉末悬浮液,并使用含有聚氧乙烯-407和碘海醇的载体,形成了一种温度依赖性放射性不透明凝胶,适合在图像引导下经皮椎间盘内给药。在绵羊椎间盘内金黄色葡萄球菌感染模型中的疗效得到了证实。该制剂的绵羊椎间盘组织暴露水平高,Cmax 为 6500 μg/g,全身暴露水平有限,每 0.1 mL 剂量(5 mg 利奈唑胺)的血浆 Cmax 为 0.04 μg/mL。血浆利奈唑胺药代动力学解旋与利奈唑胺在椎间盘中的残留时间相关。对利奈唑胺制剂进行的GLP局部耐受性研究发现,利奈唑胺的性质较轻,与椎间盘内给药程序有关:结论:利奈唑胺可配制成图像引导下的经皮椎间盘内给药。结论:利奈唑胺制剂可用于图像引导下的经皮椎间盘内给药,该制剂目前正处于1b期临床试验阶段,以评估其对CLBP和疑似细菌感染患者的安全性、药代动力学和疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Preclinical development and characterisation of PP353, a formulation of linezolid for intradiscal administration

Preclinical development and characterisation of PP353, a formulation of linezolid for intradiscal administration

Introduction

Bacterial infection of the intervertebral disc can lead to vertebral endplate edema known as Modic changes, with associated chronic low back pain. Oral antimicrobial therapy has shown efficacy but relies on prolonged dosing and may not be optimal in terms of patient outcome, side effects, or antibiotic stewardship. There is no antibiotic formulation approved for intradiscal administration. Here, we describe the development and preclinical characterization of a formulation of linezolid, a suspension of 50 mg/mL micronized powder, for intradiscal administration.

Methods

Micronization, particle size analysis, Franz cell diffusion assays, ex vivo bioassay, and estimates of gelling temperature were used to optimize the composition and properties of the formulation. Performance of the formulation was assessed using sheep to characterize the pharmacokinetics and a model of intradiscal infection was developed to demonstrate efficacy. Suitability for human administration was demonstrated in a Good Laboratory Practice (GLP) local tolerance study.

Results

Micronized linezolid, formulated as a powder suspension using a vehicle containing poloxamer 407 and iohexol, provided a temperature-dependent radio-opaque gel that was suitable for image-guided percutaneous intradiscal administration. Efficacy in a sheep model of intradiscal Staphylococcus aureus infection was demonstrated. The formulation provides a high level of sheep disc tissue exposure, with Cmax of 6500 μg/g and limited systemic exposure, with a plasma Cmax of 0.04 μg/mL per 0.1 mL dose (5 mg of linezolid). Deconvolution of plasma linezolid pharmacokinetics correlated with linezolid remaining in the disc over time. Observations from a GLP local tolerance study with the linezolid formulation were of a minor nature and related to the intradiscal administration procedure.

Conclusions

Linezolid can be formulated for image-guided percutaneous intradiscal administration. The formulation is now in a Phase 1b clinical trial to evaluate safety, pharmacokinetics, and efficacy in patients with CLBP and suspected bacterial infection.

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JOR Spine
JOR Spine ORTHOPEDICS-
CiteScore
6.40
自引率
18.90%
发文量
42
审稿时长
10 weeks
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