小鼠气管内给药仪器
产品名称: 小鼠气管内给药仪器
英文名称: (Liquid Aerosol Devices, MicroSprayer® Aerosolizers
产品编号: 大鼠气溶胶肺部给药套装/ 大小鼠
产品价格: 0
产品产地: USA
品牌商标: 玉研科学仪器有限公司
更新时间: 2023-08-17T15:24:17
使用范围: null
上海玉研科学仪器有限公司
- 联系人 : 方经理
- 地址 : 上海市闵行区兴梅路485号中环科技园301室
- 邮编 : 200237
- 所在区域 : 上海
- 电话 : 185****9044 点击查看
- 传真 : 点击查看
- 邮箱 : sales@yuyanbio.com
大小鼠气管内定量给药装置可输送定量的气溶胶到大鼠、小鼠气管内和肺内,为定量化给药提供了更好的方案,给药快捷、操作方便。
气管内定量给药装置主要包括气溶胶雾化喷射头和高压注射器。
有两种型号可供选择:大鼠型气管内定量给药套装,小鼠型气管内定量给药套装
主要优点:
² 定量 QUANTIFIABLE:将定量的气溶胶给到动物肺部
² 定时 TIMED:可以在一个或多个时间点进行给药
² 有效 EFFECTIVE:气溶胶的吸收效果好,给药快速,效率高,操作方便
² 方便 CONVENIENCE:维护简单,操作方便
型号:YAN30012 液体气溶胶肺部给药
型号:YAN30010 干粉气溶胶肺部给药
n 大小鼠肺部、气管给给药产品的主要特点
·快速、精确的直接肺部给药——气溶胶无浪费
·纯机械动力,无外部空气进入
·不需加热、推进剂、超声波或压缩空气等,对药物物影响
·手持式设计的独特专利,使用非常方便
·喷射头顶端圆滑的设计,保证安全、温和的插入气管内
·可高温高压消毒灭菌,可重复使用
·比其它雾化器和吸入设备提供更高浓度发药物体积或剂量
·比传统滴注法给药提供更均匀的药物分布
n 大小鼠肺部、气管给给药产品的使用方法
另外,可选配大小鼠气管插管喉镜、大小鼠气管插管工具包套装、大小鼠气管插管等工具,能更便捷的完成手术。
大鼠、小鼠喉镜
大小鼠气管插管工具包套装
气管插管平台(多种款式和型号可选)
CG-02M型,适合做小鼠,外尺寸:20*15*20cm
CG-02R型,适合做大鼠,外尺寸:22*21*28cm
适用于大、小鼠的气管插管手术操作
CG-04M型,小鼠型
配合铁架台使用,多角度可调;
型号:CG-06M
多角度可调;
大小鼠通用,尺寸约:20*15*15cm
小动物肺部定量给药套装的相关文献:
Wang J, Hong-Yan L, Hu-Shan W, et al. MicroRNA-485 modulates the TGF-β/Smads signaling pathway in chronic asthmatic mice by targeting Smurf2[J]. Cellular Physiology and Biochemistry, 2018, 51(2): 692-710.
Wu L, Rodríguez-Rodríguez C, Cun D, et al. Quantitative comparison of three widely-used pulmonary administration methods in vivo with radiolabeled inhalable nanoparticles[J]. European Journal of Pharmaceutics and Biopharmaceutics, 2020, 152: 108-115.
Wang P, Zhang L, Liao Y, et al. Effect of intratracheal instillation of ZnO nanoparticles on acute lung inflammation induced by lipopolysaccharides in mice[J]. Toxicological Sciences, 2020, 173(2): 373-386.
Peng J, Cai Z, Wang Q, et al. Carboxymethyl Chitosan Modified Oxymatrine Liposomes for the Alleviation of Emphysema in Mice via Pulmonary Administration[J]. Molecules, 2022, 27(11): 3610.
Tian X, Bera H, Guo X, et al. Pulmonary delivery of reactive oxygen species/glutathione-responsive paclitaxel dimeric nanoparticles improved therapeutic indices against metastatic lung cancer[J]. ACS Applied Materials & Interfaces, 2021, 13(48): 56858-56872.
Gu P, Wang D, Zhang J, et al. Protective function of interleukin‐22 in pulmonary fibrosis[J]. Clinical and Translational Medicine, 2021, 11(8): e509.
Weng C, Li G, Zhang D, et al. Nanoscale porphyrin metal-organic frameworks deliver siRNA for alleviating early pulmonary fibrosis in acute lung injury[J]. Frontiers in Bioengineering and Biotechnology, 2022, 10.
Wang J, Hong-Yan L, Hu-Shan W, et al. MicroRNA-485 modulates the TGF-β/Smads signaling pathway in chronic asthmatic mice by targeting Smurf2[J]. Cellular Physiology and Biochemistry, 2018, 51(2): 692-710.
Wu L, Rodríguez-Rodríguez C, Cun D, et al. Quantitative comparison of three widely-used pulmonary administration methods in vivo with radiolabeled inhalable nanoparticles[J]. European Journal of Pharmaceutics and Biopharmaceutics, 2020, 152: 108-115.
Wang P, Zhang L, Liao Y, et al. Effect of intratracheal instillation of ZnO nanoparticles on acute lung inflammation induced by lipopolysaccharides in mice[J]. Toxicological Sciences, 2020, 173(2): 373-386.
Peng J, Cai Z, Wang Q, et al. Carboxymethyl Chitosan Modified Oxymatrine Liposomes for the Alleviation of Emphysema in Mice via Pulmonary Administration[J]. Molecules, 2022, 27(11): 3610.
Tian X, Bera H, Guo X, et al. Pulmonary delivery of reactive oxygen species/glutathione-responsive paclitaxel dimeric nanoparticles improved therapeutic indices against metastatic lung cancer[J]. ACS Applied Materials & Interfaces, 2021, 13(48): 56858-56872.
Gu P, Wang D, Zhang J, et al. Protective function of interleukin‐22 in pulmonary fibrosis[J]. Clinical and Translational Medicine, 2021, 11(8): e509.
Weng C, Li G, Zhang D, et al. Nanoscale porphyrin metal-organic frameworks deliver siRNA for alleviating early pulmonary fibrosis in acute lung injury[J]. Frontiers in Bioengineering and Biotechnology, 2022, 10.