Chessa Massimo, Butera Gianfranco, Lanza Gaetano Antonio, Bossone Eduardo, Delogu Angelica, De Rosa Gabriella, Marietti Giovanni, Rosti Luca, Carminati Mario
Department of Pediatric Cardiology - IPSD -, San Donato Milanese, Milan, Italy.
Herz. 2002 Dec;27(8):785-90. doi: 10.1007/s00059-002-2340-4.
Diabetic autonomic neuropathy (DAN) is a major complication of diabetes. DAN has been shown to be closely related to glycemic control. To contribute significantly to the morbidity and mortality of the disease, and to be indicative of an increased risk of cardiovascular events. Tests assessing the function of the autonomic nervous system, such as the response of heart rate and blood pressure to maneuvers stimulating the autonomic nervous system, including deep breathing. Valsalva maneuver and standing, allowed to detect signs of DAN in adolescents; however, the sensitivity of such tests in revealing an early impairment of the autonomic nervous system proved low. Several studies found heart rate variability (HRV) to be useful in assessing the dysfunction of the autonomic nervous system in diabetic children and adolescents, but only few HRV parameters were evaluated in most of them.
To study cardiac autonomic nervous system in diabetic children, and to investigate whether the duration of diabetes and the degree of metabolic control are determinants for the development of DAN in children.
We analyzed HRV in 50 asymptomatic patients with insulin-dependent diabetes mellitus (IDDM) and 30 healthy children matched for age and sex.
Patients with a history of diabetes > 8 years showed significant alterations of the autonomic nervous system (significant reduction of r-MSSD, pNN50, HF and increase in LF/HF). Conversely, only a reduction in pNN50 was found in patients with a disease duration < 8 years. Furthermore, we also observed significant HRV abnormalities in patients with an impaired metabolic control of diabetes. Compared to controls, patients with glycosylated hemoglobin blood levels (HbA(1C)) > 8% showed a significant reduction of r-MSSD, pHH50 and total power spectrum, whereas no HRV abnormalities were detected in patients with an HbA(1C) < 8%.
HRV analysis can detect early subclinical alterations of the autonomic nervous system in asymptomatic patients with IDDM, which seem to consist mainly in a parasympathetic impairment. Autonomic dysfunction is associated both with the duration and an inadequate metabolic control of the disease.
糖尿病自主神经病变(DAN)是糖尿病的主要并发症。已证明DAN与血糖控制密切相关。它对该疾病的发病率和死亡率有重大影响,并表明心血管事件风险增加。评估自主神经系统功能的测试,如心率和血压对刺激自主神经系统的动作(包括深呼吸、瓦尔萨尔瓦动作和站立)的反应,可用于检测青少年DAN的体征;然而,这些测试在揭示自主神经系统早期损害方面的敏感性较低。多项研究发现心率变异性(HRV)有助于评估糖尿病儿童和青少年的自主神经系统功能障碍,但大多数研究仅评估了少数HRV参数。
研究糖尿病儿童的心脏自主神经系统,并调查糖尿病病程和代谢控制程度是否是儿童DAN发生的决定因素。
我们分析了50例无症状胰岛素依赖型糖尿病(IDDM)患者和30例年龄及性别匹配的健康儿童的HRV。
糖尿病病史超过8年的患者显示自主神经系统有显著改变(r-MSSD、pNN50、HF显著降低,LF/HF升高)。相反,病程小于8年的患者仅发现pNN50降低。此外,我们还观察到糖尿病代谢控制受损的患者存在显著的HRV异常。与对照组相比,糖化血红蛋白水平(HbA1C)>8%的患者r-MSSD、pHH50和总功率谱显著降低,而HbA1C<8%的患者未检测到HRV异常。
HRV分析可检测无症状IDDM患者自主神经系统的早期亚临床改变,这些改变似乎主要表现为副交感神经损害。自主神经功能障碍与疾病病程和代谢控制不佳均有关。