Vijaykumar Kadambari, Leung Hui Min, Barrios Amilcar, Wade Justin, Hathorne Heather Y, Nichols David P, Tearney Guillermo J, Rowe Steven M, Solomon George M
Department of Medicine, University of Alabama at Birmingham, AL, United States.
Gregory Fleming James CF Research Center, Birmingham, AL, United States.
Heliyon. 2024 Apr 16;10(8):e29188. doi: 10.1016/j.heliyon.2024.e29188. eCollection 2024 Apr 30.
Use of elexacaftor/tezacaftor/ivacaftor (ETI) for treatment of cystic fibrosis (CF) has resulted in unprecedented clinical improvements necessitating development of outcome measures for monitoring disease course. Intranasal micro-optical coherence tomography (μOCT) has previously helped detect and characterize mucociliary abnormalities in patients with CF. This study was done to determine if μOCT can define the effects of ETI on nasal mucociliary clearance and monitor changes conferred to understand mechanistic effects of CFTR modulators beyond CFTR activation.
26 subjects, with at least 1 F508del mutation were recruited and followed at baseline (visit 1), +1 month (visit 2) and +6 months (visit 4) following initiation of ETI therapy. Clinical outcomes were computed at visits 1, 2 and 4. Intranasal μOCT imaging and functional metrics analysis including mucociliary transport rate (MCT) estimation were done at visits 1 and 2.
Percent predicted forced expiratory volume in 1 s (ppFEV) showed a significant increase of +10.9 % at visit 2, which sustained at visit 4 (+10.6 %). Sweat chloride levels significantly decreased by -36.6 mmol/L and -41.3 mmol/L at visits 2 and 4, respectively. μOCT analysis revealed significant improvement in MCT rate (2.8 ± 1.5, visit 1 vs 4.0 ± 1.5 mm/min, visit 2; P = 0.048).
Treatment with ETI resulted in significant and sustained clinical improvements over 6 months. Functional improvements in MCT rate were evident within a month after initiation of ETI therapy indicating that μOCT imaging is sensitive to the treatment effect of HEMT and suggests improved mucociliary transport as a probable mechanism of action underlying the clinical benefits.
使用依列卡福/替扎卡福/艾伐卡福(ETI)治疗囊性纤维化(CF)已带来前所未有的临床改善,因此需要开发用于监测疾病进程的结局指标。鼻内微光学相干断层扫描(μOCT)此前已有助于检测和表征CF患者的黏液纤毛异常。本研究旨在确定μOCT是否能够明确ETI对鼻黏液纤毛清除的影响,并监测所带来的变化,以了解CFTR调节剂除CFTR激活之外的机制性作用。
招募了26名至少有1个F508del突变的受试者,并在ETI治疗开始后的基线期(第1次访视)、+1个月(第2次访视)和+6个月(第4次访视)进行随访。在第1、2和4次访视时计算临床结局。在第1和第2次访视时进行鼻内μOCT成像以及包括黏液纤毛运输速率(MCT)估计在内的功能指标分析。
第2次访视时,预测1秒用力呼气容积百分比(ppFEV)显著增加了10.9%,并在第4次访视时保持(+10.6%)。第2次和第4次访视时,汗液氯化物水平分别显著降低了36.6 mmol/L和41.3 mmol/L。μOCT分析显示MCT速率有显著改善(第1次访视时为2.8±1.5,第2次访视时为4.0±1.5 mm/min;P = 0.048)。
ETI治疗在6个月内带来了显著且持续的临床改善。ETI治疗开始后1个月内,MCT速率即有明显的功能改善,这表明μOCT成像对ETI的治疗效果敏感,并提示黏液纤毛运输改善可能是临床获益的潜在作用机制。