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首页 > 产品详情 > 气体控制 > 动物低氧高氧实验

动物实验低压氧舱(加大版)

产品型号:

ProOx-810L

详细介绍:

动物实验低压氧舱用于模拟低压氧高原环境,压力可以根据需要自行设置,最高可模拟海拔高度12000米,适用于更多的鼠笼或中小型动物如犬、猴、兔、鼠等。整个实验装置由动物舱体、真空系统、监测及控制系统构成。设备的自动化程度高,无须专人守候,可长期持续一个月运行。... 查看详情 >
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产品描述

动物实验低压氧舱用于模拟低压氧高原环境,压力可以根据需要自行设置,最高可模拟海拔高度12000米,适用于更多的鼠笼或中小型动物如犬、猴、兔、鼠等。

整个实验装置由动物舱体、真空系统、监测及控制系统构成。设备的自动化程度高,无须专人守候,可长期持续一个月运行。 


产品描述

多功能

  • 实时显示海拔和氧气浓度动态变化曲线

  • 多功能编程控制:可进行阶段式、周期式、循环模式控制

  • 实验过程数据可保存至U盘,可在电脑读取分析

  • 具备自动换气功能,符合动物饲养规范

  • 提供多方位的报警功能,提醒实验人员异常状态

 

确保安全

  • 从设计开始到最终完成测试和检查,所有实验氧舱都遵循严格的生产过程;

  • 具有紧急关闭和自动排气系统,以适应各种情况。

 

动物舱体

  • 主体采用进口亚克力加厚材质,坚固可靠,透明方便观察;

  • 铝合金及不锈钢材料支撑;

  • 具有脚轮脚刹设计,方便移动。

 

气体输送控制系统

  • 高性能低噪音的真空系统,为系统提供稳定的压力;

  • 具有气体缓冲器,减小甚至消除了细股急流气体对小动物的影响;

  • 完善的多级空气过滤器,确保动物舱内气体不会污染实验环境。

 

拓展及特殊定制

  • 动物生理指标监测

  • 可实现的监测指标:心电图、心率、体温、血压、呼吸、血氧饱和度;

  • 呼吸代谢监控功能

  • 采血给药功能

  • 视频监测功能

  • 动物低氧跑台装置

  • 低氧强迫游泳装置

温控功能

恒温功能,温度可控制,室温-40℃;

低温功能,4℃,温度可控制,室温-4℃;

  • 可定制其它功能

 


应用领域

高原医学研究、肺水肿、脑水肿、肺动脉高压等疾病研究

 


型号说明

名称

型号

说明

动物实验低压氧舱

ProOx-810

舱内尺寸(长×直径):700×560mm

动物实验低压氧舱

ProOx-810L

舱内尺寸(长×直径):1200*800mm



客户名单(部分)

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相关文献

[1]Ma Jinqiu,Wang Chenyun,Sun Yunbo,Pang Lulu,Zhu Siqing,Liu Yijing,Zhu Lin,Zhang Shouguo,Wang Lin,Du Lina. Comparative study of oral and intranasal puerarin for prevention of brain injury induced by acute high-altitude hypoxia.[J] International Journal of Pharmaceutics,2020,591.

[2]Guijuan Chen,Kang Cheng,Yun Niu,Li Zhu,Xueting Wang.Epicatechin gallate prevents inflammatory response in hypoxia-activated microglia and cerebral edema by inhibiting NF-κB signaling.[J]Archives of Biochemistry and Biophysics ,Volume 729,109393.

[3]Yapeng,LuPanpanChang,WangwangDing,JiangpeiBian,DanWang,XuetingWang,QianqianLuo,XiaomeiWu,LiZhu.Pharmacological inhibition of mitochondrial division attenuates simulated high-altitude exposure-induced cerebral edema in mice: Involvement of inhibition of the NF-κB signaling pathway in glial cells.[J]European Journal of Pharmacology,Volume 929,2022,175137.

[4]Jun-Yu Wei, Miao-Yue Hu,Xiu-Qi Chen, Feng-Ying Lei, Jin-Shuang Wei, Jie Chen, Xuan-Kai Qin & Yuan-Han Qin .Rosiglitazone attenuates hypoxia-induced renal cell apoptosis by inhibiting NF-κB signaling pathway in a PPARγ-dependent manner,[J]European Journal of Pharmacology,Renal Failure, 44:1,2056-2065.

[5]Yilan Wang, Zherui Shen, Caixia Pei, Sijing Zhao, Nan Jia, Demei Huang, Xiaomin Wang, Yongcan Wu, Shihua Shi, Yacong He, Zhenxing Wang,Eleutheroside B ameliorated high altitude pulmonary edema by attenuating ferroptosis and necroptosis through Nrf2-antioxidant response signaling,[J]Biomedicine & Pharmacotherapy, Volume 156,2022,113982.

[6]Fang Zhao,Yan Meng, Yue Wang, Siqi Fan, Yu Liu,Xiangfeng Zhang,Chenyang Ran, Hongxin Wang and Meili Lu,Protective effect of Astragaloside IV on chronic intermittent hypoxia-induced vascular endothelial dysfunction through the calpain-1/SIRT1/AMPK signaling pathway.[J]Frontiers in Pharmacology,10.3389/fphar.2022.920977.

[7]Jing Zhang,Jian-Zhong Jiang,Jun Xu,Chen-Yu Xu,Shan Mao,Ying Shi,Wei Gu,Chun-Fang Zou,Yue-Ming Zhao,Liang Ye."Identification of Novel Biomarkers for Abdominal Aortic Aneurysm Promoted by Obstructive Sleep Apnea"[J]Annals of Vascular Surgery, Available online 2 February 2023.

[8]Zhang, C.,Sun, Y.,Guo,Y.et al."JMJD1C promotes smooth muscle cell proliferation by activating glycolysis in pulmonary arterial hypertension."[J].Cell Death Discov.9,98(2023).

[9]Zhang, L.,Liu,X., Wei, Q. et al."Arginine attenuates chronic mountain sickness in rats via microRNA-144-5p."[J]. Mamm Genome 34, 76–89 (2023).

[10]Yanhong Pei a b,Lifei Huang c,Tong Wang c,Qinhan Yao a,Yanrong Sun a,Yan Zhang a,Xiaomei Yang a,Jiliang Zhai d,Lihua Qin a, Jiajia Xue c,Xing Wang c,Hongquan Zhang a b, Junhao Yan."Bone marrow mesenchymal stem cells loaded into hydrogel/nanofiber composite scaffolds ameliorate ischemic brain injury. materialstoday ADVANCES,Volume 17,March 2023,100349.

[11]Ma Jinqiu,Wang Chenyun,Sun Yunbo,Pang Lulu,Zhu Siqing,Liu Yijing,Zhu Lin,Zhang Shouguo,Wang Lin,Du Lina. "Comparative study of oral and intranasal puerarin for prevention of brain injury induced by acute high-altitude hypoxia".[J] International Journal of Pharmaceutics,2020,591.

[12]Jun-Yu Wei,Miao-Yue Hu,Xiu-Qi Chen, Feng-Ying Lei,Jin-Shuang Wei,Jie Chen, Xuan-Kai Qin & Yuan-Han Qin."Rosiglitazone attenuates hypoxia-induced renal cell apoptosis by inhibiting NF-κB signaling pathway in a PPARγ-dependent manner".[J].European Journal of Pharmacology,Renal Failure, 44:1,2056-2065.

[13]Yilan Wang,Zherui Shen,Caixia Pei,Sijing Zhao,Nan Jia, Demei Huang,Xiaomin Wang,Yongcan Wu, Shihua Shi, Yacong He,Zhenxing Wang,"Eleutheroside B ameliorated high altitude pulmonary edema by attenuating ferroptosis and necroptosis through Nrf2-antioxidant response signaling".[J].Biomedicine & Pharmacotherapy,Volume 156,2022,113982.

[14]Yanfei Zhang, Jinyu Fang, Yingyue Dong, Huiru Ding, Quancheng Cheng, Huaicun Liu, Guoheng Xu, Weiguang Zhang"High-Altitude Hypoxia Exposure Induces Iron Overload and Ferroptosis in Adipose Tissue."[J]. Antioxidants 2022,11, 2367.

[15]Wan-ping Yang, Mei-qi Li, Jie Ding, Jia-yan Li, Gang Wu, Bao Liu, Yu-qi Gao, Guo-hua Wang, Qian-qian Luo. "High-altitude hypoxia exposure inhibits erythrophagocytosis by inducing macrophage ferroptosis in the spleen."[J]. bioRxiv preprint, 2023.03.23.533972.

[16]Xueting Wang, Yuqi Xie, Yun Niu, Baolan Wan, Yapeng Lu, Qianqian Luo, Li Zhu.CX3CL1/CX3CR1 signal mediates M1-type microglia and accelerates high-altitude-induced forgetting[J].2023-05-10 ,DOI:10.3389/fncel.2023.1189348.

[17]Liu,J,Peng, S,Ye,L, Sun, Y, Zhao, Q, Wei, H, Luo, Q, He M, & Wang, G(2023)."Neuroinflammation aggravated by traumatic brain injury at high altitude is reversed by L-serine via NFAT1-mediated microglial polarization."[J]. Frontiers in Cellular Neuroscience, 17, 1152392. doi: 10.3389/fncel.2023.1152392.

[18]Ru Zhang,Ailin Yang,Lin Zhang,Linjie He,Xiaoming Gu,Caiyong Yu,Zhenxing Lu,Chuang Wang, Feng Zhou,Fei Li,Lele Ji,Jinliang Xing,Haitao Guo."MFN2 deficiency promotes cardiac response to hypobaric hypoxia by reprogramming cardiomyocyte metabolism."[J]. WILEY Online Library,2023-07-04 DOI: 10.1111/apha.14018.

[19]Zhang L, Liu X, Wei Q, et al. Arginine attenuates chronic mountain sickness in rats via microRNA-144-5p[J]. Mammalian Genome, 2023, 34(1): 76-89.

[20]Yang A, Guo L, Zhang Y, et al. MFN2-mediated mitochondrial fusion facilitates acute hypobaric hypoxia-induced cardiac dysfunction by increasing glucose catabolism and ROS production[J]. Biochimica et Biophysica Acta (BBA)-General Subjects, 2023: 130413.

[21]Wei J, Hu M, Chen X, et al. Hypobaric Hypoxia Aggravates Renal Injury by Inducing the Formation of Neutrophil Extracellular Traps through the NF-κB Signaling Pathway[J]. Current Medical Science, 2023: 1-9.

[22]Wang X, Xie Y, Niu Y, et al. CX3CL1/CX3CR1 signal mediates M1-type microglia and accelerates high-altitude-induced forgetting[J]. Frontiers in Cellular Neuroscience, 2023, 17: 1189348.

[23]Ma Q, Ma J, Cui J, et al. Oxygen enrichment protects against intestinal damage and gut microbiota disturbance in rats exposed to acute high-altitude hypoxia[J]. Frontiers in Microbiology, 2023, 14.





参考研究

高原疾病介绍

不同的海拔高度大气压和氧分压的变化对比



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