该产品被引用文献
气溶胶发生器部分参考文献:
1.Sidler-Moix A L, Di Paolo E R, Dolci U, et al. Physicochemical aspects and efficiency of albuterol nebulization: comparison of three aerosol types in an in vitro pediatric model[J]. Respiratory care, 2015, 60(1): 38-46.
2.Hassan A, Rabea H, Hussein R R S, et al. In-vitro characterization of the aerosolized dose during non-invasive automatic continuous positive airway pressure ventilation[J]. Pulmonary Therapy, 2016, 2: 115-126.
3.ElHansy M H E, Boules M E, El Essawy A F M, et al. Inhaled salbutamol dose delivered by jet nebulizer, vibrating mesh nebulizer and metered dose inhaler with spacer during invasive mechanical ventilation[J]. Pulmonary pharmacology & therapeutics, 2017, 45: 159-163.
4.Fang T P, Lin H L, Wan G H, et al. In vitro evaluation of aerosolized delivery of various medications during mechanical ventilation[J]. 2017.
5.Abdelrahim M E A, Saeed H, Harb H S, et al. The Aerosol Generators Available for Critically Ill Patient[J]. Essentials of Aerosol Therapy in Critically ill Patients, 2021: 115-135.
6.ElHansy M H E, Boules M E, El Essawy A F M, et al. Inhaled salbutamol dose delivered by jet nebulizer, vibrating mesh nebulizer and metered dose inhaler with spacer during invasive mechanical ventilation[J]. Pulmonary pharmacology & therapeutics, 2017, 45: 159-163.
7.Gowda A A, Cuccia A D, Smaldone G C. Reliability of vibrating mesh technology[J]. Respiratory Care, 2017, 62(1): 65-69.
8.Gerde P, Nowenwik M, Sjöberg C O, et al. Adapting the aerogen mesh nebulizer for dried aerosol exposures using the preciseinhale platform[J]. Journal of aerosol medicine and pulmonary drug delivery, 2020, 33(2): 116-126.
9.Michotte J B, Staderini E, Le Pennec D, et al. In vitro comparison of a vibrating mesh nebulizer operating in inspiratory synchronized and continuous nebulization modes during noninvasive ventilation[J]. Journal of aerosol medicine and pulmonary drug delivery, 2016, 29(4): 328-336.
10.Cahill R A, Dalli J, Khan M, et al. Solving the problems of gas leakage at laparoscopy[J]. British Journal of Surgery, 2020, 107(11): 1401-1405.
11.Sarhan R M, Elberry A A, Abdelwahab N S, et al. Effect of a nebulizer holding chamber on aerosol delivery[J]. Respiratory care, 2018, 63(9): 1125-1131.
玉研仪器公司的气溶胶暴露系统部分应用文献:
[1]张媛媛, 张浩, 耿希文,等. 沉香片剂小鼠口鼻吸入给药抗焦虑和催眠功效实验研究[J]. 山东中医药大学学报, 2021, 45(1):7.
[1] 戴赫. 口鼻吸入暴露系统的应用研究[D].上海交通大学,2018.DOI:10.27307/d.cnki.gsjtu.2018.004971.
[2] 郝新彦,张元慧,高虹.动物气溶胶暴露装置的特点及其应用[J].中国医学装备,2018,15(01):127-130.
[3] 郝新彦. 动物鼻式气溶胶暴露装置在病原感染动物模型中的应用及评价[D].北京协和医学院,2019.DOI:10.27648/d.cnki.gzxhu.2019.000548.
[4]王颖. 妊娠期和哺乳期双酚A暴露对新生大鼠海马功能的影响[D].中国医科大学,2021.DOI:10.27652/d.cnki.gzyku.2021.000130.
[5]姬晓彤. PM_(2.5)吸入暴露诱导肺损伤及其分子机制[D].山西大学,2019.
[6]库婷婷. PM_(2.5)暴露诱导神经毒性及其相关分子机制研究[D].山西大学,2017.
[7]马永昌. 活性氧清除性纳米粒治疗中性粒细胞哮喘的作用与机制研究[D].中国人民解放军陆军军医大学,2021.DOI:10.27001/d.cnki.gtjyu.2021.000097.