胰岛素会在肌肉组织中累积并进入血液,使其在全身循环。
Insulin accumulates in muscle tissue and enters the bloodstream, allowing it to circulate throughout the body.
胰岛素会在肌肉组织中累积并进入血液,使其在全身循环。
Insulin accumulates in muscle tissue and enters the bloodstream, allowing it to circulate throughout the body.
长期保持高胰岛素水平常常伴随肥胖的产生,最终使得肌肉和其他身体组织抵抗激素信号。
Chronically high levels of insulin often accompany obesity, eventually making muscles and other tissues impervious to the hormone's signals.
脂肪细胞组成了脂肪组织,脂肪组织帮助调控胰岛素水平,并且分解膳食中的脂肪以提供能量。
Fat cells make up adipose tissue, which helps regulate insulin levels and breaks down dietary fat for energy.
研究人员不确定原因,不过他们推测咖啡中的抗氧化物质可以帮助胰岛素传到到身体的各部分组织中。
Researchers aren't sure why, but suspect that the antioxidants in coffee help deliver insulin to the body's tissues.
在胰腺组织中有类特殊的细胞-胰岛β细胞(isletbeta cell)生产胰岛素。
Specialised cells within that tissue, called islet beta cells, make insulin.
在未来,这项移植手术可以治疗那些身体不能产生胰岛素的患者提供无限量供应的组织。
In the future, the transplant operation could provide an unlimited supply of tissue to treat people whose bodies cannot produce insulin.
当达到组织如肌肉组织,它会导致肌肉对胰岛素的作用发生抵抗。
When these reach tissues such as muscle, it causes the muscle to be resistant to the actions of insulin.
然而在这项新的研究中,研究人员能够从男性的睾丸组织提取细胞,分离干细胞,使之成为能够分泌胰岛素的胰岛细胞。
In the new study, however, researchers were able to take cells from men's testicular tissue, isolate stem cells, and turn them into insulin-secreting islet cells.
结论:有机铬能保护糖尿病鼠胰腺组织,增加血清胰岛素,降低血糖。
Conclusion: Organic chromium can protect the pancreas, raise blood insulin and reduce blood sugar in diabetic rat.
结论糖尿病大鼠重要器官组织抗氧化酶水平低下,经胰岛素治疗后,有提高趋势。
Conclusions the low level of antioxidase in important organic tissues of diabetic rat should have tendency to increase by insulin therapy.
胰岛素帮助肌肉,器官,组织利用葡萄糖并转化为能量。
Insulin helps the muscles, organs and tissues take in the glucose and change it into energy.
这是胰岛细胞腺瘤,通过一薄层的胶质囊与胰腺组织分离。
An islet cell adenoma is seen here, separated from the pancreas by a thin collagenous capsule.
结论在胰岛素抵抗和胰岛素敏感组,脂肪组织比肌肉的基因表达存在更多差异。
CONCLUSIONS Adipose tissue gene expression showed more differences between insulin-resistant versus insulin-sensitive groups than the expression of genes in muscle.
大多数人认为该疗法通过使人体组织对胰岛素更加敏感起作用。
Most had assumed the treatment worked by making body tissues more sensitive to insulin.
胰岛的,脑岛的胰岛的,关于胰岛的组织的。
方法测定对照组(C)、胰岛素治疗糖尿病组(ID)、糖尿病组(D)大鼠重要器官组织sod活力、MDA含量。
Methods SOD activity and MDA content in rats 'tissues among control (c) group, diabetic (d) group and insulin therapy (ID) group were determined.
脂肪组织的结疤是因为我们体重的增加,我们发现这是因为瘦素剧增,以及胰腺产生胰岛素的增加。
Scarring of fat tissue is known to increase as we gain weight and we found that this is exacerbated by leptin, as well as an increase in insulin, produced by the pancreas.
因此,脂肪组织被相信在高血压和其他胰岛素抵抗相关的并发症的发生过程中扮演了重要的角色。
Thus, the adipose tissue is believed to play an important role in the development of both hypertension and other complications related to insulin resistance.
目的观察体外培养的胰岛干细胞是否可以被诱导分化为类胰岛样组织。
To observe whether the islet stem cells cultured in vitro can be induced to differentiate into pancreatic islet-like tissues.
肿瘤对周围组织浸润和肿瘤转移是恶性胰岛细胞瘤最可靠的诊断标准。
Tumor infiltration to adjacent tissues and metastasis are credible evidence for the diagnosis of a malignant islet cell tumor.
目的:探讨骨髓间充质干细胞(MSC)体外诱导转化为胰岛样细胞及其对坏死胰腺组织修复的可能性。
Objective To study the induction of islet-like cell from bone marrow mesenchymal stem cells (MSCs) in vitro and its repair effects on injury pancreas tissues.
个体组织中的脂代谢紊乱会导致胰岛素作用和糖代谢系统破坏。
Dysregulation of lipid metabolism in individual tissues leads to systemic disruption of insulin action and glucose metabolism.
目的探讨超生理浓度的血浆葡萄糖对胰岛素分泌功能及外周组织胰岛素敏感性的作用。
Objective To study the effects of supraphysiologic concentration of plasma glucose on pancreatic islets secretion and peripheral tissue sensibility to insulin.
人们相信它通过抑制肝糖分泌,以及提高外周组织对胰岛素的灵敏度,发挥作用。
It is believed to work by inhibiting hepatic glucose production and increasing the sensitivity of peripheral tissue to insulin.
结论:低脂饮食和有氧运动能改善胰岛素抵抗,可能与增加脂肪组织中PK B蛋白表达有关。
Conclusion: Low fat diet and exercise can significantly elevate expression of PKB and ameliorate the state of insulin resistance.
此外,在肝脏,肌肉和脂肪组织显示胰岛素敏感性增强,并减少全身性炎症反应。
Moreover, they displayed enhanced insulin sensitivity in liver, muscle and fat, and decreased systemic inflammation.
在横纹肌和脂肪组织中,胰岛素可促进葡萄糖转运蛋白-4 (GLUT - 4)从细胞质内的GLUT - 4储存囊泡(GSV)向细胞膜上移位。
Insulin stimulates the translocation of glucose transporter 4 (GLUT-4) from intracellular GLUT-4 storage vesicles (GSV) to cell membrane in striated muscles and adipose tissue.
在横纹肌和脂肪组织中,胰岛素可促进葡萄糖转运蛋白-4 (GLUT - 4)从细胞质内的GLUT - 4储存囊泡(GSV)向细胞膜上移位。
Insulin stimulates the translocation of glucose transporter 4 (GLUT-4) from intracellular GLUT-4 storage vesicles (GSV) to cell membrane in striated muscles and adipose tissue.
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