Division of Infectious Diseases and Tropical Medicine, LMU University Hospital Munich, Munich, Germany.
German Center for Infection Research (DZIF), Munich partner site, Munich, Germany.
Trials. 2023 Jun 6;24(1):382. doi: 10.1186/s13063-023-07354-5.
Linezolid is an effective, but toxic anti-tuberculosis drug that is currently recommended for the treatment of drug-resistant tuberculosis. Improved oxazolidinones should have a better safety profile, while preserving efficacy. Delpazolid is a novel oxazolidinone developed by LegoChem Biosciences Inc. that has been evaluated up to phase 2a clinical trials. Since oxazolidinone toxicity can occur late in treatment, LegoChem Biosciences Inc. and the PanACEA Consortium designed DECODE to be an innovative dose-ranging study with long-term follow-up for determining the exposure-response and exposure-toxicity relationship of delpazolid to support dose selection for later studies. Delpazolid is administered in combination with bedaquiline, delamanid and moxifloxacin.
Seventy-five participants with drug-sensitive, pulmonary tuberculosis will receive bedaquiline, delamanid and moxifloxacin, and will be randomized to delpazolid dosages of 0 mg, 400 mg, 800 mg, 1200 mg once daily, or 800 mg twice daily, for 16 weeks. The primary efficacy endpoint will be the rate of decline of bacterial load on treatment, measured by MGIT liquid culture time to detection from weekly sputum cultures. The primary safety endpoint will be the proportion of oxazolidinone class toxicities; neuropathy, myelosuppression, or tyramine pressor response. Participants who convert to negative liquid media culture by week 8 will stop treatment after the end of their 16-week course and will be observed for relapse until week 52. Participants who do not convert to negative culture will receive continuation phase treatment with rifampicin and isoniazid to complete a six-month treatment course.
DECODE is an innovative dose-finding trial, designed to support exposure-response modelling for safe and effective dose selection. The trial design allows assessment of occurrence of late toxicities as observed with linezolid, which is necessary in clinical evaluation of novel oxazolidinones. The primary efficacy endpoint is the change in bacterial load, an endpoint conventionally used in shorter dose-finding trials. Long-term follow-up after shortened treatment is possible through a safety rule excluding slow-and non-responders from potentially poorly performing dosages.
DECODE was registered in ClinicalTrials.gov before recruitment start on 22 October 2021 (NCT04550832).
利奈唑胺是一种有效的,但毒性的抗结核药物,目前被推荐用于治疗耐药结核病。改良的恶唑烷酮类药物应该具有更好的安全性,同时保持疗效。地拉罗司是由 LegoChem Biosciences Inc. 开发的一种新型恶唑烷酮类药物,已进行到 2a 期临床试验。由于恶唑烷酮类药物的毒性可能在治疗后期出现,因此 LegoChem Biosciences Inc. 和 PanACEA 联盟设计了 DECODE,作为一项具有创新性的剂量范围研究,并进行长期随访,以确定地拉罗司的暴露-反应和暴露-毒性关系,为以后的研究选择剂量。地拉罗司与贝达喹啉、德拉马尼和莫西沙星联合使用。
75 名患有敏感型肺结核的参与者将接受贝达喹啉、德拉马尼和莫西沙星治疗,并随机分为地拉罗司剂量为 0mg、400mg、800mg、1200mg 每日 1 次或 800mg 每日 2 次,治疗 16 周。主要疗效终点是通过每周痰培养的 MGIT 液体培养时间检测到的治疗期间细菌负荷的下降率。主要安全性终点是恶唑烷酮类毒性的比例;神经病、骨髓抑制或酪胺升压反应。第 8 周转为阴性液体培养的参与者将在完成 16 周疗程后停止治疗,并观察至第 52 周以观察复发。未转为阴性培养的参与者将接受利福平加异烟肼的延续期治疗,以完成 6 个月的治疗疗程。
DECODE 是一项创新性的剂量发现试验,旨在支持安全有效剂量选择的暴露-反应建模。该试验设计允许评估与利奈唑胺一样观察到的迟发性毒性的发生,这在新型恶唑烷酮类药物的临床评估中是必要的。主要疗效终点是细菌负荷的变化,这是较短剂量发现试验中常用的终点。通过排除可能表现不佳的剂量的缓慢和无反应者的安全规则,可以在缩短治疗后进行长期随访。
DECODE 在招募开始前(2021 年 10 月 22 日)于 ClinicalTrials.gov 登记(NCT04550832)。
