目的总结分析低血糖症的病因。
Objective: Tosummarizeand analyse the etiology of hypoglycemia.
结果低血糖症病因多种。
方法对24例低血糖症病人的临床资料进行分析。
Methods: 24 cases of hypoglycemia were retrospectively analyzed.
方法对35例老年dm患者的低血糖症进行回顾性分析。
Methods Clinical data of 35 DM patients complicated with hypoglycemia syndrome in the aged were retrospectively analyzed.
当身体开始体验低血糖症发布肾上腺素,也被称为肾上腺素。
When the body begins to experience hypoglycemia it releases epinephrine, also known as adrenaline.
严重持续低血糖症,如不及时纠正会造成全身组织器官损伤。
The severe low blood sugar can injure all tissues and organs if not timely corrected.
近年来,婴幼儿持续高胰岛素血症性低血糖症的分子发病机制研究有了显著的进展。
The knowledge of molecular defects leading to persistent hyperinsulinemic hypoglycemia in infants has been rapidly growing in recent years.
未来的设备将包括能够通过识别心脏病或低血糖症特征从而达到监测病人目的并能够释放适量的救人性命的药剂的芯片。
Future applications will include chips that monitor patients at home for signs of a heart attack or hypoglycaemia and can release the appropriate life-saving drugs.
研究中的患者都有上述情况,但在细胞移植后,甚至即便在这些细胞只有部分发挥作用时,他们都免受了低血糖症的困扰。
Patients sin the study had the condition, but the transplants diminished their hypoglycemic attacks, even when the cells were only partly effective.
治疗低血糖症时,不但要纠正低血糖状态,还应兼顾保护脑、心、肾等器官的功能,对已明确的各器官已有损伤的应采取相应的治疗措施。
When treating it, we shall not only correct low blood sugar state, but also protect the function of brain, heart and kidney, etc, take corresponding measures to the defined injured organs as well.
治疗低血糖症时,不但要纠正低血糖状态,还应兼顾保护脑、心、肾等器官的功能,对已明确的各器官已有损伤的应采取相应的治疗措施。
When treating it, we shall not only correct low blood sugar state, but also protect the function of brain, heart and kidney, etc, take corresponding measures to the defined injured organs as well.
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