I-neb 自适应雾化输送系统通过控制吸入提高α1-抗胰蛋白酶的输送。
The I-neb Adaptive Aerosol Delivery System enhances delivery of alpha1-antitrypsin with controlled inhalation.
机构信息
Nemours Children's Clinic Aerosol Research Lab, Orlando, Florida 32801, USA.
出版信息
J Aerosol Med Pulm Drug Deliv. 2010 Apr;23 Suppl 1(Suppl 1):S55-9. doi: 10.1089/jamp.2009.0793.
BACKGROUND
Inhaled alpha1-antitrypsin (AAT) is being developed for treatment of cystic fibrosis to protect the lungs from excessive free elastase. High drug costs mandate a very efficient aerosol system to deliver a high payload to the airways. The I-neb Adaptive Aerosol Delivery (AAD) System is a portable, electronic, vibrating mesh nebulizer that delivers aerosol only during inhalation. It can be operated in conventional tidal breathing mode (TBM) or in target inhalation mode (TIM) that guides the patient to inhale deeply and slowly. The purposes of this in vitro study were to determine aerosol characteristics, device efficiency, and delivery time of AAT using the I-neb AAD System with TBM and TIM.
METHODS
We studied the I-neb AAD System in TBM and TIM (inspiratory time 6 or 9 sec) using a breath simulator. The loaded dose was 0.5 mL AAT (50 mg/mL). Nebulized drug captured on an inspiratory filter was reported as emitted dose. Particle size was measured by laser diffraction. Predicted lung doses were calculated based on the results of a prior scintigraphy study of the I-neb AAD System.
RESULTS
Particle size (VMD) for TBM and TIM was similar (4.4-4.8 microm). The emitted doses were very high and similar between modes (82-90% of loaded dose). Predicted lung dose of AAT (percent of loaded dose) and delivery times were: TBM 56.6% in 7.5 min; TIM-6 59.9% in 4.4 min; and TIM-9 64.5% in 2.5 min.
CONCLUSIONS
The I-neb AAD System enhanced AAT delivery by inhalation-only aerosol generation and a low-residual dose. Predicted lung dose was high for both TBM and TIM, but longer inspiratory times with TIM reduced the administration time to one-third that of tidal breathing. We conclude that slow, deep, controlled inspirations using the I-neb AAD System is an efficient method to deliver AAT.
背景
吸入型α1-抗胰蛋白酶(AAT)正在开发中,用于治疗囊性纤维化,以防止肺部受到过多自由弹性蛋白酶的侵害。高昂的药物成本要求气溶胶系统非常高效,以便将高载药量输送到气道。I-neb 自适应气溶胶输送(AAD)系统是一种便携式、电子、振动网孔雾化器,仅在吸气时输送气溶胶。它可以在传统的潮气呼吸模式(TBM)或目标吸气模式(TIM)下运行,后者指导患者深而慢地吸气。本体外研究的目的是确定使用 I-neb AAD 系统在 TBM 和 TIM 下的气溶胶特性、装置效率和 AAT 的输送时间。
方法
我们使用呼吸模拟器研究了 I-neb AAD 系统在 TBM 和 TIM(吸气时间 6 或 9 秒)下的情况。载药量为 0.5 毫升 AAT(50 毫克/毫升)。通过吸气过滤器捕获的雾化药物被报告为发射剂量。粒径通过激光衍射测量。根据先前对 I-neb AAD 系统进行的闪烁扫描研究的结果,计算出预测的肺剂量。
结果
TBM 和 TIM 的粒径(VMD)相似(4.4-4.8 微米)。发射剂量非常高,两种模式之间相似(载药量的 82-90%)。AAT 的预测肺剂量(载药量的百分比)和输送时间为:TBM 为 56.6%,在 7.5 分钟内;TIM-6 为 59.9%,在 4.4 分钟内;TIM-9 为 64.5%,在 2.5 分钟内。
结论
I-neb AAD 系统通过仅吸入式气溶胶生成和低残留剂量来增强 AAT 的输送。TBM 和 TIM 的预测肺剂量都很高,但 TIM 较长的吸气时间将给药时间缩短至潮气呼吸的三分之一。我们得出结论,使用 I-neb AAD 系统进行缓慢、深、受控的吸气是输送 AAT 的有效方法。
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