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小动物脉搏血氧呼吸测量仪-尊龙凯时网娱乐官网
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大小鼠生命体征监护仪是以无创的方式测量实验动物(幼鼠,小鼠,大鼠,豚鼠,兔子等小型动物)的血氧饱和度,脉搏频率,呼吸频率,脉搏幅度,呼吸幅度,体温等多种参数。
所有测量都是通过一个无创的感应器完成,准确、方便、高效。
型号:mouseox 正在对麻醉状态下的小鼠进行测试
有多种探头可供选择:
· 根据实验需求:可选择大鼠型探头、小鼠型探头;
· 根据动物状态:可选择清醒活动状态连续测量和麻醉(或手术)状态测量探头;
· 根据动物数量:有多通道适配器可供选择,同时检测多只动物的生命体征;
· 根据使用环境:可选择核磁环境适用的无磁探头;
主要功能:
· 小动物手术术中监测(保证适当的麻醉深度,防止手术中缺氧)
· 一个无创传感器获得多个生命信号 (动脉血氧饱和度,心率,呼吸频率,脉搏幅度,呼吸幅度)
· 心肺功能参数记录
· 输出模拟数据
经过验证的准确度:
使用有创血气采样测量结果与无创 mouseox 测量结果的比较, 对比表明, 两者具有很好的线性关系。
脉搏、血氧、呼吸等心肺监测参数:
· 脉波频率在90到900bpm范围内监测 (每分钟心跳, beat per minutes, bpm)
· 血氧饱和度监测范围:0% 到100% 动脉血氧饱和度;
· 血氧饱和度监测误差:<1.5% 横跨整个监测范围;
· 血氧饱和度监测反应时间:实时报告动脉血氧饱和度, 在每次心跳以后0.72秒屏幕刷新;
· 呼吸频率监测范围:每分钟 25到450 次;
· 监测反应时间:呼吸率每1.7秒向用户报告, 移动报告的值是10次呼吸的的平均数;
· 无创伤监测脉搏充盈度以估量血流量的变化;
· 脉搏监测范围:内径0到800微米的徽小血管;
· 监测误差:< 2.4%横跨整个监测范围;
· 监测反应时间:脉搏充盈度实时向用户报告, 在每次心跳以后,0.72秒屏幕刷新,刷新屏幕显示被测量的所有脉搏充盈度;
· 无创伤监测动物呼吸幅度的变化;
· 呼吸幅度监测范围:每分钟25到450次;
· 呼吸幅度监测反应时间:呼吸率每1.7秒向用户报告, 移动报告的值是10次呼吸的的平均数;
血氧呼吸数据采集器:
8通道数据采集器
· 可对1-8只老鼠进行脉搏、血氧、呼吸的数据测量
模拟信号输出模块:
搭配模拟信号输出模块实时输出模拟心博:
多钟测试探头可选:
根据需要,可选择老鼠清醒状态下使用的颈部探头,麻醉状态下使用的足部探头和大腿探头
小鼠腿部血氧探头
小鼠颈部血氧探头
大鼠足部血氧探头
新生鼠血氧探头
磁共振适用模块及探头
设备正在对清醒活动状态的大鼠进行长时间、持续的数据采集
测量软件:
实时显示监测数据,具有诊断模式,具备报价功能,数据可储存为text货windaq格式
玉研仪器是starr公司的授权中国代理,starr公司的mouseox是应用于小鼠和大鼠的多功能监护仪,可以测量脉搏血氧,呼吸,心率,脉搏幅度,呼吸幅度,体温等参数。详情请来电咨询!
部分引用文献:
1. albéri, l., lintas, a., kretz, r., schwaller, b., & villa, a. e. (2013). the calcium-binding protein parvalbumin modulates the firing 1 properties of the reticular thalamic nucleus bursting neurons. journal of neurophysiology, 109(11), 2827-2841.
2. sonati, t., reimann, r. r., falsig, j., baral, p. k., o’connor, t., hornemann, s., aguzzi, a. (2013). the toxicity of antiprion antibodies is mediated by the flexible tail of the prion protein. nature, 501(7465), 102-106.
3. ali, i., o’brien, p., kumar, g., zheng, t., jones, n. c., pinault, d., o’brien, t. j. (2013). enduring effects of early life stress on firing patterns of hippocampal and thalamocortical neurons in rats: implications for limbic epilepsy. plos one, 8(6), e66962.
4. bell, l. a., bell, k. a., & mcquiston, a. r. (2013). synaptic muscarinic response types in hippocampal ca1 interneurons depend on different levels of presynaptic activity and different muscarinic receptor subtypes. neuropharmacology.
5. bolzoni, f., bączyk, m., & jankowska, e. (2013). subcortical effects of transcranial direct current stimulation (tdcs) in the rat. the journal of physiology.
6. bolzoni, f., bączyk, m., & jankowska, e. (2013). subcortical effects of transcranial direct current stimulation (tdcs) in the rat. the journal of physiology.
7. babaei, p., tehrani, b. s., & alizadeh, a. (2013). effect of bdnf and adipose derived stem cells transplantation on cognitive deficit in alzheimer model of rats. journal of behavioral and brain science, 3, 156-161.
8. gilmartin, m. r., miyawaki, h., helmstetter, f. j., & diba, k. (2013). prefrontal activity links nonoverlapping events in memory. the journal of neuroscience, 33(26), 10910-10914.
9. feng, l., sametsky, e. a., gusev, a. g., & uteshev, v. v. (2012). responsiveness to nicotine of neurons of the caudal nucleus of the solitary tract correlates with the neuronal projection target. journal of neurophysiology, 108(7), 1884-1894.
10. clarner, t., diederichs, f., berger, k., denecke, b., gan, l., van der valk, p., kipp, m. (2012). myelin debris regulates inflammatory responses in an experimental demyelination animal model and multiple sclerosis lesions. glia, 60(10), 1468-1480.
11. girardet, c., bonnet, m. s., jdir, r., sadoud, m., thirion, s., tardivel, c., troadec, j. d. (2011). central inflammation and sickness-like behavior induced by the food contaminant deoxynivalenol: a pge2-independent mechanism.toxicological sciences, 124(1), 179-191.
12. hruška-plocháň, m., juhas, s., juhasova, j., galik, j., miyanohara, a., marsala, m., motlik, j. (2010). a27 expression of the human mutant huntingtin in minipig striatum induced formation of em48 inclusions in the neuronal nuclei, cytoplasm and processes. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a9.
13. brooks, s., jones, l., & dunnett, s. b. (2010). a29 frontostriatal pathology in the (c57bl/6j) yac128 mouse uncovered by the operant delayed alternation task. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a10.
14. yu, l., metzger, s., clemens, l. e., ehrismann, j., ott, t., gu, x., nguyen, h. p. (2010). a28 accumulation and aggregation of human mutant huntingtin and neuron atrophy in bac-hd transgenic rat. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a9.
15. baxa, m., juhas, s., pavlok, a., vodicka, p., juhasova, j., hruška-plocháň, m., motlik, j. (2010). a26 transgenic miniature pig as an animal model for huntington’s disease. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a8-a9.
分享到微信
×浏览器自带分享功能也很好用哦~
公众号关注尊龙凯时网娱乐官网大小鼠生命体征监护仪是以无创的方式测量实验动物(幼鼠,小鼠,大鼠,豚鼠,兔子等小型动物)的血氧饱和度,脉搏频率,呼吸频率,脉搏幅度,呼吸幅度,体温等多种参数。
所有测量都是通过一个无创的感应器完成,准确、方便、高效。
型号:mouseox 正在对麻醉状态下的小鼠进行测试
有多种探头可供选择:
· 根据实验需求:可选择大鼠型探头、小鼠型探头;
· 根据动物状态:可选择清醒活动状态连续测量和麻醉(或手术)状态测量探头;
· 根据动物数量:有多通道适配器可供选择,同时检测多只动物的生命体征;
· 根据使用环境:可选择核磁环境适用的无磁探头;
主要功能:
· 小动物手术术中监测(保证适当的麻醉深度,防止手术中缺氧)
· 一个无创传感器获得多个生命信号 (动脉血氧饱和度,心率,呼吸频率,脉搏幅度,呼吸幅度)
· 心肺功能参数记录
· 输出模拟数据
经过验证的准确度:
使用有创血气采样测量结果与无创 mouseox 测量结果的比较, 对比表明, 两者具有很好的线性关系。
脉搏、血氧、呼吸等心肺监测参数:
· 脉波频率在90到900bpm范围内监测 (每分钟心跳, beat per minutes, bpm)
· 血氧饱和度监测范围:0% 到100% 动脉血氧饱和度;
· 血氧饱和度监测误差:<1.5% 横跨整个监测范围;
· 血氧饱和度监测反应时间:实时报告动脉血氧饱和度, 在每次心跳以后0.72秒屏幕刷新;
· 呼吸频率监测范围:每分钟 25到450 次;
· 监测反应时间:呼吸率每1.7秒向用户报告, 移动报告的值是10次呼吸的的平均数;
· 无创伤监测脉搏充盈度以估量血流量的变化;
· 脉搏监测范围:内径0到800微米的徽小血管;
· 监测误差:< 2.4%横跨整个监测范围;
· 监测反应时间:脉搏充盈度实时向用户报告, 在每次心跳以后,0.72秒屏幕刷新,刷新屏幕显示被测量的所有脉搏充盈度;
· 无创伤监测动物呼吸幅度的变化;
· 呼吸幅度监测范围:每分钟25到450次;
· 呼吸幅度监测反应时间:呼吸率每1.7秒向用户报告, 移动报告的值是10次呼吸的的平均数;
血氧呼吸数据采集器:
8通道数据采集器
· 可对1-8只老鼠进行脉搏、血氧、呼吸的数据测量
模拟信号输出模块:
搭配模拟信号输出模块实时输出模拟心博:
多钟测试探头可选:
根据需要,可选择老鼠清醒状态下使用的颈部探头,麻醉状态下使用的足部探头和大腿探头
小鼠腿部血氧探头
小鼠颈部血氧探头
大鼠足部血氧探头
新生鼠血氧探头
磁共振适用模块及探头
设备正在对清醒活动状态的大鼠进行长时间、持续的数据采集
测量软件:
实时显示监测数据,具有诊断模式,具备报价功能,数据可储存为text货windaq格式
玉研仪器是starr公司的授权中国代理,starr公司的mouseox是应用于小鼠和大鼠的多功能监护仪,可以测量脉搏血氧,呼吸,心率,脉搏幅度,呼吸幅度,体温等参数。详情请来电咨询!
部分引用文献:
1. albéri, l., lintas, a., kretz, r., schwaller, b., & villa, a. e. (2013). the calcium-binding protein parvalbumin modulates the firing 1 properties of the reticular thalamic nucleus bursting neurons. journal of neurophysiology, 109(11), 2827-2841.
2. sonati, t., reimann, r. r., falsig, j., baral, p. k., o’connor, t., hornemann, s., aguzzi, a. (2013). the toxicity of antiprion antibodies is mediated by the flexible tail of the prion protein. nature, 501(7465), 102-106.
3. ali, i., o’brien, p., kumar, g., zheng, t., jones, n. c., pinault, d., o’brien, t. j. (2013). enduring effects of early life stress on firing patterns of hippocampal and thalamocortical neurons in rats: implications for limbic epilepsy. plos one, 8(6), e66962.
4. bell, l. a., bell, k. a., & mcquiston, a. r. (2013). synaptic muscarinic response types in hippocampal ca1 interneurons depend on different levels of presynaptic activity and different muscarinic receptor subtypes. neuropharmacology.
5. bolzoni, f., bączyk, m., & jankowska, e. (2013). subcortical effects of transcranial direct current stimulation (tdcs) in the rat. the journal of physiology.
6. bolzoni, f., bączyk, m., & jankowska, e. (2013). subcortical effects of transcranial direct current stimulation (tdcs) in the rat. the journal of physiology.
7. babaei, p., tehrani, b. s., & alizadeh, a. (2013). effect of bdnf and adipose derived stem cells transplantation on cognitive deficit in alzheimer model of rats. journal of behavioral and brain science, 3, 156-161.
8. gilmartin, m. r., miyawaki, h., helmstetter, f. j., & diba, k. (2013). prefrontal activity links nonoverlapping events in memory. the journal of neuroscience, 33(26), 10910-10914.
9. feng, l., sametsky, e. a., gusev, a. g., & uteshev, v. v. (2012). responsiveness to nicotine of neurons of the caudal nucleus of the solitary tract correlates with the neuronal projection target. journal of neurophysiology, 108(7), 1884-1894.
10. clarner, t., diederichs, f., berger, k., denecke, b., gan, l., van der valk, p., kipp, m. (2012). myelin debris regulates inflammatory responses in an experimental demyelination animal model and multiple sclerosis lesions. glia, 60(10), 1468-1480.
11. girardet, c., bonnet, m. s., jdir, r., sadoud, m., thirion, s., tardivel, c., troadec, j. d. (2011). central inflammation and sickness-like behavior induced by the food contaminant deoxynivalenol: a pge2-independent mechanism.toxicological sciences, 124(1), 179-191.
12. hruška-plocháň, m., juhas, s., juhasova, j., galik, j., miyanohara, a., marsala, m., motlik, j. (2010). a27 expression of the human mutant huntingtin in minipig striatum induced formation of em48 inclusions in the neuronal nuclei, cytoplasm and processes. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a9.
13. brooks, s., jones, l., & dunnett, s. b. (2010). a29 frontostriatal pathology in the (c57bl/6j) yac128 mouse uncovered by the operant delayed alternation task. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a10.
14. yu, l., metzger, s., clemens, l. e., ehrismann, j., ott, t., gu, x., nguyen, h. p. (2010). a28 accumulation and aggregation of human mutant huntingtin and neuron atrophy in bac-hd transgenic rat. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a9-a9.
15. baxa, m., juhas, s., pavlok, a., vodicka, p., juhasova, j., hruška-plocháň, m., motlik, j. (2010). a26 transgenic miniature pig as an animal model for huntington’s disease. journal of neurology, neurosurgery & psychiatry, 81(suppl 1), a8-a9.
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