Organ culture model of intervertebral discs could preserve organ integrity and cell viability at least 4 weeks under iso-osmotic or hyperosmotic loading.
在等渗或高渗负荷下,椎间盘的器官培养模型可以保持器官完整性和细胞活力至少4周。
High salinity causes ion imbalance and hyperosmotic stress in plants.
高盐会破坏植物的离子平衡并引起高渗胁迫。
There were local hyperfibrinolysis, not hyperosmotic pressure in the hematomas.
血肿局部纤溶功能亢进而并不存在高渗。
Methods Intraperitoneal injection (IP) of hyperosmotic saline was used as peripheral hyperosmotic stimulation.
方法以腹腔注射高渗盐水作为外周高渗刺激。
Purpose To investigate the effects of hyperosmotic stress on rabbit ocular surface epithelium and MUC5AC expression.
目的:研究高渗透压对兔眼表上皮和黏蛋白MUC5AC表达的影响。
In hyperosmotic stress, the HOG-MAPK pathway regulates the signal transduction and expression of numerous genes for cell survival.
该途径在高渗应激环境下控制信号转导和基因表达,是细胞生存所必需的。
Objective To find safe and effective treatment for large-area burn patients with hyperosmotic dehydration bedridden in suspension bed.
目的为大面积烧伤病人卧悬浮床并发高渗性脱水的治疗寻找安全、有效方法。
Objective to observe the side effects of inhalation of hyperosmotic saline on sputum induction in asthmatic patients and to evaluate its safety.
目的观察哮喘患者吸入高渗盐水诱导痰的不良反应,评价其安全性。
Conclusion Fluid supply by stomach tube infusion is safe and effective for burn patients with hyperosmotic dehydration bedridden in suspension bed.
结论胃管滴注补水治疗烧伤卧悬浮床并发高渗性脱水方法安全、效果显著。
Objective To explore the diagnosis, treatment and prognosis of patients with brain injury accompanied by nonketotic hyperglycemic hyperosmotic coma.
目的探讨颅脑损伤并发非酮性高血糖高渗性昏迷病人的诊断、治疗及预后。
Conclusion:Organ culture model of intervertebral discs could preserve organ integrity and cell viability at least 4 weeks under iso-osmotic or hyperosmotic loading.
目的:建立一种可用于体外研究椎间盘退变的椎间盘器官培养模型,探讨渗透压负荷对模型椎间盘细胞活力和代谢的影响。
The results showed that duodenal afferent messages were involved in the inhibitory effects of GAO and GMBF response to intragastric peptone during duodenal infusion of hyperosmotic solution.
提示十二指肠传入信息参与了高渗盐溶液对胃内蛋白胨引起胃酸分泌和GMBF增加的抑制效应。
CONCLUSION Preparation of carrier erythrocyte carrier encapsulating drugs was based on a principle that erythrocytes were dehydrated in hyperosmotic solutions and expanded in hypotonic solutions.
结论利用红细胞在高渗液中脱水在低渗药液中膨胀的原理,制备红细胞药物载体。
CONCLUSION Preparation of carrier erythrocyte carrier encapsulating drugs was based on a principle that erythrocytes were dehydrated in hyperosmotic solutions and expanded in hypotonic solutions.
结论利用红细胞在高渗液中脱水在低渗药液中膨胀的原理,制备红细胞药物载体。
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