Laser induced injury caused hyperglycemia-like effect inDrosophila larva: a possible insect model for posttraumaticdiabetes

机译：激光诱导的损伤引起高血糖样效应果蝇幼虫：创伤后可能的昆虫模型糖尿病

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摘要

Diabetic patients need particular care in case of infection, digestive disorder or external injury, because external stress often exasperates the glucose metabolism, which is known as “sick day management”. In addition, severe trauma can be a cause of hyperglycemia with insulin resistance. In spite of critical component of the treatment, the precise mechanisms of how trauma develops posttraumatic diabetes remain unknown. Here, we ablated body wall muscles in Drosophila larvae by laser beam and found that the level of trehalose, the principal sugar circulating in the hemolymph or in the tissues of most insects, was increased. The model may provide a helpful tool to understand the relationship between trauma and sugar metabolism.

机译：糖尿病患者在感染，消化系统疾病或外部伤害的情况下需要特别护理，因为外部压力通常会激怒葡萄糖代谢，这被称为“病假管理”。另外，严重的创伤可能是胰岛素抵抗引起的高血糖症的原因。尽管治疗的关键组成部分，创伤如何发展为创伤后糖尿病的确切机制仍然未知。在这里，我们通过激光消融了果蝇幼虫的体壁肌肉，发现海藻糖（在血淋巴或大多数昆虫的组织中循环的主要糖）的水平增加了。该模型可以为理解创伤与糖代谢之间的关系提供有用的工具。

著录项

期刊名称 The Journal of Veterinary Medical Science
作者
Fumio OKABE; Yoko NAKAGIRI; Takahisa YAMADA; Hiroyuki KOSE;
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作者单位

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年(卷),期 2015(77),5
年度 2015
页码 601–604
总页数 4
原文格式 PDF
正文语种
中图分类动物医学（兽医学）;
关键词
animal model Drosophila metabolism posttraumatic diabetes;

机译：动物模型;果蝇;代谢;创伤后糖尿病;

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专利

1. Laser induced injury caused hyperglycemia-like effect in Drosophila larva: a possible insect model for posttraumatic diabetes [J] . Okabe Fumio, Nakagiri Yoko, Yamada Takahisa, The Journal of Veterinary Medical Science . 2015,第5期

机译：激光诱导的伤害在果蝇幼虫中引起类似高血糖的效应：可能是创伤后糖尿病的昆虫模型
2. Laser induced injury caused hyperglycemia-like effect in Drosophila larva: a possible insect model for posttraumatic diabetes [J] . Fumio OKABE, Hiroyuki KOSE, Takahisa YAMADA, The Journal of Veterinary Medical Science . 2015,第5期

机译：激光诱导的伤害在果蝇幼虫中引起高血糖样效应：可能是创伤后糖尿病的昆虫模型
3. Laser induced injury caused hyperglycemia-like effect in Drosophila larva: a possible insect model for posttraumatic diabetes [J] . Fumio OKABE, Hiroyuki KOSE, Takahisa YAMADA, The Journal of Veterinary Medical Science . 2015,第5期

机译：激光诱导的伤害在果蝇幼虫中引起高血糖样效应：可能是创伤后糖尿病的昆虫模型
4. Traumatic brain injury caused by laser-induced shock wave in rats: A novel laboratory model for studying blast-induced traumatic brain injury [C] . Ben Hatano, Yoshihisa Matsumoto, Naoki Otani, Optical interactions with tissue and cells XXII . 2011

机译：大鼠激光诱发的冲击波引起的颅脑外伤：研究爆炸诱发的脑外伤的新型实验室模型
5. Use of Tat-HSP70 fusion protein to attenuate sepsis-induced lung injury in rodents with acute respiratory distress syndrome caused by cecal ligation and double puncture (2CLP) [D] . Lyons, Mary Melanie 2013

机译：使用TAT-HSP70融合蛋白在术中患有急性呼吸窘迫综合征的啮齿动物患者患者患者患者引起的盲肠结扎和双刺穿（2CLP）
6. 0919. Effect of catecholamine immediately after blast lung injury caused by laser-induced shock wave in a mouse model [O] . H Miyawaki, D Saitoh, K Hagisawa, 2014

机译：0919.儿茶酚胺在激光诱导的冲击波引起的爆炸性肺损伤后立即对小鼠模型产生的影响
7. Laser induced injury caused hyperglycemia-like effect in Drosophila larva: a possible insect model for posttraumatic diabetes [O] . Fumio Okabe, Yoko Nakagiri, Takahisa Yamada, 2014

机译：激光诱导的损伤在果蝇幼虫中引起高血糖样作用：一种可能的创伤后糖尿病昆虫模型

Laser induced injury caused hyperglycemia-like effect inDrosophila larva: a possible insect model for posttraumaticdiabetes

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