非糖尿病性肥胖中的躯体神经改变:一项横断面研究。
Somatic neural alterations in non-diabetic obesity: a cross-sectional study.
作者信息
Yadav Ram Lochan, Sharma Deepak, Yadav Prakash Kumar, Shah Dev Kumar, Agrawal Kopila, Khadka Rita, Islam Md Nazrul
机构信息
Department of Physiology, Chitwan Medical College, Bharatpur, Nepal.
Department of Physiology, BP Koirala Institute of Health Sciences, Dharan, Nepal.
出版信息
BMC Obes. 2016 Nov 22;3:50. doi: 10.1186/s40608-016-0131-3. eCollection 2016.
BACKGROUND
Reports on alterations in somatic neural functions due to non-diabetic obesity, a major risk factor for diabetes, are few and still a matter of debate. Nevertheless, to our knowledge, reports lack any comments on the type of somatic nerve fibers affected in non-diabetic obesity. Therefore, this study aimed to find out the alteration in somatic neural functions in non-diabetic obese persons if any.
METHODS
The study was conducted on 30 adult non-diabetic obese persons (mean age 32.07 ± 7.25 years) with BMI > 30 Kg/m (mean BMI 30.02 ± 2.89 Kg/m) and 29 age- and sex-matched normal weight controls (mean age 30.48 ± 8.01 years) with BMI: 18-24Kg/m (mean BMI 21.87 ± 2.40 Kg/m). Nerve conduction study (NCS) variables of median, tibial and sural nerves were assessed in each subject using standard protocol. The data were compared by Mann Whitney 'U' test.
RESULTS
In comparison to normal weight persons, obese had lower compound muscle action potential (CMAP) amplitudes of right median [9.09(7.62-10.20) Vs 10.75(8.71-12.2) mV, = 0.025] and bilateral tibial nerves [Right: 8.5(7.04-11.18) Vs 12.1(10.55-15) mV, < 0.001 and left 9.08(6.58-11.65) Vs 13.05(10.2-15.6) mV, = 0.002]. Furthermore, obese persons had prolonged CMAP durations of right and left median [10.5(9.62-12) Vs 10(8.4-10.3) ms, = 0.02 and 10.85(10-11.88) Vs 10(9-10.57) ms, = 0.019] and right tibial [10(9-11) 8.5(7.92-10) ms, = 0.032] nerves. Sensory NCS (sural nerve) also showed diminished sensory nerve action potential (SNAP) amplitude [16(12.08-18.21) vs 22.8(18.3-31.08) μV, < 0.001] and prolonged duration. However, onset latencies and conduction velocities for all nerves were comparable between the groups.
CONCLUSION
This study documents subclinical peripheral nerve damage in non-diabetic obese with abnormal NCS parameters; shorter amplitudes and prolonged CMAP and SNAP durations. The reduced amplitudes of mixed and sensory nerves might be due to decreased axonal number stimulation or actual decrease in number of axonal fibers, or defect at NMJ in non-diabetic obese. Prolonged durations but normal onset latencies and conduction velocities strongly suggest involvement of slow conducting fibers.
背景
非糖尿病性肥胖是糖尿病的主要危险因素,关于其导致躯体神经功能改变的报道较少,且仍存在争议。然而,据我们所知,尚无报道对非糖尿病性肥胖中受影响的躯体神经纤维类型进行评论。因此,本研究旨在探究非糖尿病肥胖者的躯体神经功能是否存在改变。
方法
本研究对30名成年非糖尿病肥胖者(平均年龄32.07±7.25岁)进行,其BMI>30 Kg/m(平均BMI 30.02±2.89 Kg/m),并选取29名年龄和性别匹配的正常体重对照者(平均年龄30.48±8.01岁),其BMI为18 - 24 Kg/m(平均BMI 21.87±2.40 Kg/m)。使用标准方案评估每位受试者正中神经、胫神经和腓肠神经的神经传导研究(NCS)变量。数据采用曼-惠特尼U检验进行比较。
结果
与正常体重者相比,肥胖者右侧正中神经复合肌肉动作电位(CMAP)波幅较低[9.09(7.62 - 10.20) Vs 10.75(8.71 - 12.2) mV,P = 0.025],双侧胫神经CMAP波幅也较低[右侧:8.5(7.04 - 11.18) Vs 12.1(10.55 - 15) mV,P < 0.001;左侧9.08(6.58 - 11.65) Vs 13.05(10.2 - 15.6) mV,P = 0.002]。此外,肥胖者右侧和左侧正中神经以及右侧胫神经的CMAP时限延长[右侧正中神经:10.5(9.62 - 12) Vs 10(8.4 - 10.3) ms,P = 0.02;左侧正中神经:10.85(10 - 11.88) Vs 10(9 - 10.57) ms,P = 0.019;右侧胫神经:10(9 - 11) Vs 8.5(7.92 - 10) ms,P = 0.032]。感觉NCS(腓肠神经)也显示感觉神经动作电位(SNAP)波幅降低[16(12.08 - 18.21) vs 22.8(18.3 - 31.08) μV,P < 0.001]及时限延长。然而,两组间所有神经的起始潜伏期和传导速度相当。
结论
本研究记录了非糖尿病肥胖者存在亚临床周围神经损伤,其NCS参数异常;波幅缩短,CMAP和SNAP时限延长。混合神经和感觉神经波幅降低可能是由于轴突数量刺激减少、轴突纤维数量实际减少或非糖尿病肥胖者神经肌肉接头处存在缺陷。时限延长但起始潜伏期和传导速度正常强烈提示慢传导纤维受累。
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