原发性高血压患者心率变异性及血压变异性与血管损害的相关性研究

目的:探讨原发性高血压患者心率变异性(HRV)及血压变异性(BPV)与血管损害的相关性。方法:选取2014年12月到2017年12月期间在我院接受治疗的原发性高血压患者94例,根据脉搏波传导速度(PWV)的不同分为对照组(60例)和血管受损组(34例)。比较两组患者的HRV、BPV指标,并分析PWV与HRV、BPV指标的相关性。结果:血管受损组的5 min心搏R-R间期平均值的标准差(SDANN)低于对照组,低频(LF)、高频(HF)、低高频之比(LF/HF)高于对照组,差异均有统计学意义(P0.05);血管受损组的24h平均收缩压(24h SBP)、24h平均脉压(24h PP)、白天平均收缩压(dSBP)、白天平均脉压(dPP)、夜间平均收缩压(nSBP)、夜间平均脉压(nPP)高于对照组,差异均有统计学意义(P0.05);PWV与LF、HF、LF/HF、24h SBP、24h PP、dSBP、dPP、nSBP、nPP均呈正相关(P0.05)。结论:原发性高血压患者部分HRV、BPV指标与PWV呈明显的相关性,说明HRV和BPV与患者的血管损害密切相关。     

四周尾部悬吊致大鼠立位耐力不良

目的:观察中期(4周)尾部悬吊大鼠在立位应激下的心血管反应。方法:采用本实验室改进的尾部悬吊方法,利用头高位倾斜和下体负压模拟立位应激,通过股动脉插管和心电图记录检测大鼠血压和心率改变。结果:与对照组相比,4周尾部悬吊(SUS)大鼠体重下降及后肢承重骨骼肌萎缩;其静息血压和心率与对照组(CON)相比无明显差别(P0.05);在两组大鼠中,头高位倾斜和下体负压均可导致血压降低和心率加快,但SUS大鼠平均动脉压下降幅度与CON大鼠相比显著增大(P0.05),而两组的心率增快幅度并无明显差别(P0.05)。结论:4周尾部悬吊大鼠在立位应激下维持血压稳定的能力减弱,可用于中期失重/模拟失重后立位耐力不良机理的研究。     

90d模拟失重大鼠动脉压力反射反应性的改变

本工作研究了90d模拟失重大鼠动脉压力反射反应性的改变。即以血管活性药物变动平均动脉压(MAP),并同时记录反射性心率(HR)变化,采用非线性曲线拟合方法,定量评价清醒大鼠的动脉压力反射反应性的特征参数的改变。同时还利用受体阻断实验,观察迷走和交感神经成分在压力反射活动中的贡献。结果表明:模拟失重大鼠MAP-HR反应曲线向右上方移位,心率低限坪值升高,血压调节范围变窄,静态工作点升高。当心得安阻断β受体后,悬吊组大鼠压力感受性心率反射的平均增益及心率反应范围均高于对照组,提示模拟失重大鼠反射活动中迷走作用增强。     

动脉压力感受性反射受损后血浆和心脏、肾脏组织AngⅡ含量的变化

既往的研究表明,动脉压力感受性反射（ABR）功能下降在高血压靶器官损伤中起独立作用。为进一步研究ABR功能下降致器官损伤的可能机制,实验采用去窦弓神经（SAD）大鼠作为ABR受损的动物模型,分别测定清醒、自由活动状态下SAD及对照的假手术组大鼠24h动脉血压、心率、血压波动性（BPV）及心率波动性（HRV）。并采用放免法测定血浆、心脏和肾脏组织的血管紧张素Ⅱ（AngⅡ）含量。结果发现,SAD术后1周大鼠的24h平均收缩压（SBP）、舒张压（DBP）均显著高于对照组及术后18周的慢性期SAD大鼠。SAD术后18周,24h平均SBP、DBP及HR与假手术对照组均无显著差异;24h收缩压波动性（SBPV）和舒张压波动性（DBPV）均显著高于对照组大鼠。SAD大鼠术后1周的血浆、心脏和肾脏组织的AngⅡ含量及术后18周的血浆AngⅡ水平与对照组之间相比无显著差异。而在术后慢性期（18周）,SAD大鼠的心肌及肾组织AngⅡ含量显著高于假手术对照组大鼠。在术后18周时,接受慢性应激刺激的SAD大鼠,其血浆、心肌及肾组织中AngⅡ水平显著高于同处应激状态下的假手术对照组大鼠及未接受应激刺激的SAD大鼠。这些结果表明,SAD术后急性期血压增高,但在慢性期平均血压并无增高,仅BPV增高;慢性期心、肾组织内AngⅡ的分泌增加。在慢性期接受应激可致AngⅡ过度分泌,上述结果提示,BPV增高和心、肾组织AngⅡ含量升高与SAD大鼠发生心脏、肾脏等器官损害有关。     

心率变异性评估运输应激对Beagle犬自主神经功能的影响

目的 基于心率变异性(heart rate variability,HRV)分析评估运输应激对Beagle犬自主神经功能的影响,并界定其恢复期.方法 16只Beagle犬随机分成两组(每组8只),即对照组和运输应激组,利用大动物无创生理信号遥测技术,分别监测清醒自由活动状态下对照组和运输应激组应激4 h后、恢复1、2、...     

电刺激迷走神经对蟾蜍心率和心率变异的影响

目的:观察不同频率迷走神经刺激对蟾蜍离体心脏的心率及心率变异的影响。方法:将蟾蜍心脏和右侧迷走交感干离体后,以不同频率电刺激神经,记录心电图曲线并作心率变异性(HRV)分析。结果:交感神经阻断后,电刺激迷走交感干,心率(HR)显著下降(P0.01),全部正常心动周期的标准差(SDNN)和相邻正常心动周期差值的均方根(RMSSD)显著升高(P0.01),不同频率刺激组之间没有明显差异;与对照组相比,各指标变化较大;给药组0.2Hz时高频(HF)显著升高(P0.01),低频/高频比值(LF/HF)明显降低(P0.05),0.8Hz时HF和LF/HF接近刺激前水平。结论:一定范围内增加刺激频率,迷走神经降低心率的作用增强;没有交感神经调节条件下的迷走神经对心率和心率变异的调节可能存在不同的机制。     

用心率变异功率谱研究出生后心率变慢的机理

目的 :探讨神经机制及心源性因素在出生后心率变慢中的作用。方法 :运用心率变异性的频域和时域分析方法 ,主要为功率谱分析方法 ,以不同年龄组的人和家兔为实验对象 ,对出生后心脏的自主神经调控进行初步探讨 ;并通过观察不同年龄组离体灌流兔心 (无神经体液因素影响 )自律性的变化 ,探讨心脏本身因素是否参与出生后心率变慢的调控。结果 :人和家兔迷走交感对心率的调控作用比在各年龄组之间有显著差异 ,且随年龄增长逐渐升高 ;家兔离体心脏的自主心率在各年龄组之间有显著差异 ,且随年龄增长逐渐降低。结论 :出生后心率减慢与神经机制有关 ,也有心脏本身因素的参与     

四周尾部悬吊大鼠颈总动脉MMP9和TIMP1的表达及活性改变

目的:探讨四周尾部悬吊模拟失重大鼠颈总动脉基质金属蛋白酶(matrix metalloprotein9,MMP9)和金属蛋白酶组织抑制剂1(tissue inhibitor of metalloproteinase1,TIMP1)的基因、蛋白表达及酶活性变化。方法:采用4周(week,wk)尾部悬吊大鼠模拟失重影响,通过透射电镜检测颈总动脉壁基质含量,实时定量聚合酶链式反应检测MMP9和TIMP1的mRNA表达,Western blot和免疫组织化学染色检测其蛋白表达和分布,明胶酶谱法测定MMP9活性水平。结果:与对照组相比,悬吊组大鼠细胞外基质面积较对照组显著增加(P0.05),胶原蛋白含量显著增加(P0.05);悬吊组大鼠颈总动脉MMP9的m RNA表达量无明显改变,而其蛋白表达量和酶活性均显著降低(P0.05);TIMP1 mRNA和蛋白表达量则显著升高(P0.05)。结论:模拟失重使大鼠颈总动脉MMP9水平降低,TIMP1水平升高,可能与其管壁基质增生和胶原蛋白含量增加有关。     

模拟失重对大鼠腹主动脉L-Arg-NO-cGMP通路的影响

目的:观察尾部悬吊模拟失重对大鼠腹主动脉舒张反应性与一氧化氮合酶表达的影响。方法:体重300~330 g的20只雄性SD大鼠按体重配对随机分为对照组与模拟失重组,模拟失重大鼠采用尾部悬吊方法模拟失重。4周后,利用离体动脉血管环舒张实验与Western blot蛋白免疫印迹方法观察了腹主动脉舒张反应性和腹主动脉一氧化氮合酶eNOS(endothelial NOS)和iNOS(inducible NOS)的表达。结果:悬吊大鼠腹主动脉环对左旋精氨酸(L-Arg)与乙酰胆碱(Ach)的舒张反应显著低于对照,而对硝普钠(SNP)与环磷酸鸟苷(cGMP)的舒张反应在两组间无显著不同。其敏感性在两组间均无显著差别。腹主动脉的eNOS与iNOS表达在模拟失重组与对照组间亦未发现显著差别。结论:本工作提示尾部悬吊模拟失重下大鼠腹主动脉舒张反应的减弱可能是动脉血管内皮功能改变的结果,尤其是NOS活性的变化可能更为重要。     

不稳定型心绞痛心率变异性特点及美托洛尔对其的影响

目的:了解心率变异性(heart rate variability,HRV)在不稳定型心绞痛(unstable angina pectoris,UAP)发病中的作用及其用于病情严重程度判断的价值;了解美托洛尔对UAP患者HRV的影响。方法:选择年龄、性别相匹配的UAP患者、SAP患者和健康人各60例做动态心电图检查,经Holter软件分析进行HRV时域指标的比较。UAP组动态心电图检查后加用美托洛尔25-50 mg/d(分两次口服),20天后重复动态心电图检查。结果:1UAP组与正常组比较各项指标均降低(P0.01)。2正常人HRV具有昼夜节律变化的特点,UAP组HRV昼夜节律变化性降低。3UAP病人服用美托洛尔后,心肌缺血、心律失常得到改善。结论:1.UAP患者心脏自主神经活性主要是副交感神经活性受损,交感神经活性相对占优势。2.无合并症的UAP病人HRV呈昼夜节律性降低。3.美托洛尔可改善UAP患者HRV。     

Baroreflex sensitivity as an individual characteristic feature

The reproducibility of baroreflex sensitivity (BRS in ms/mmHg; BRSf in mHz/mmHg) determined with respect to the coherence between the variability in systolic blood pressure (SBP) and inter-beat intervals (IBI) or heart rate (HR) was tested. SBP and IBI were recorded beat-to-beat for 5 min (Finapres, breathing at 0.33 Hz) in 116 subjects (aged 19-24 years) sitting at rest three times in periods of one week. BRS and BRSf was determined by a cross-spectral method in a frequency range of 0.067-0.133 Hz. Eight indices were evaluated: BRS(0.1 Hz) /BRSf(0.1 Hz) - the value at a frequency of 0.1 Hz; BRS(COHmax)/BRSf(COHmax) - the value at maximum coherence; BRS(Wcoh)/BRSf - weighted value with respect to coherence values in the whole frequency range; BRS(WPcoh)/BRS(WPcoh) - weighted value with respect to coherence for frequencies with coherence above 0.5. All indices revealed a lower intraindividual than interindividual variability (p<0.001). The individual mean values of BRS or BRSf correlated (p<0.001) with standard deviation of their individual values for all indices. Baroreflex sensitivity is an individual characteristic feature with the highest reproducibility at its low values in spite of its resting variation. Reproducibility is not influenced by modification of the spectral method used.     

A dampening effect of pulse interval variability on blood pressure variations with respect to primary variability in blood pressure during exercise

The correlation between baroreflex sensitivity (BRS) and the spectrum component at a frequency of 0.1 Hz of pulse intervals (PI) and systolic blood pressure (SBP) was studied. SBP and PI of 51 subjects were recorded beat-to-beat at rest (3 min), during exercise (0.5 W/kg of body weight, 9 min), and at rest (6 min) after exercise. BRS was determined by a spectral method (a modified alpha index technique). The subjects were divided into groups according to the spectral amplitude of SBP at a frequency of 0.1 Hz. The following limits of amplitude (in mm Hg) were used: very high > 5.4 (VH); high 5.4 > H > 3 (H); medium 3 > M > 2 (M), low < 2 (L). We analyzed the relationships between 0.1 Hz variability in PI and BRS at rest, during the exercise and during recovery in subgroups VH, H, M, L. The 0.1 Hz variability of PI increased significantly with increasing BRS in each of the groups with identical 0.1 Hz variability in SBP. This relationship was shifted to the lower values of PI variability at the same BRS with a decrease in SBP variability. The primary SBP variability increased during exercise. The interrelationship between the variability of SBP, PI and BRS was identical at rest and during exercise. A causal interrelationship between the 0.1 Hz variability of SBP and PI, and BRS was shown. During exercise, the increasing primary variability in SBP due to sympathetic activation was present, but it did not change the relationship between variability in pulse intervals and BRS.     

Blood pressure regulation in neurally intact human vs. acutely injured paraplegic and tetraplegic patients during passive tilt

We investigated autonomic control of cardiovascular function in able-bodied (AB), paraplegic (PARA), and tetraplegic (TETRA) subjects in response to head-up tilt following spinal cord injury. We evaluated spectral power of blood pressure (BP), baroreflex sensitivity (BRS), baroreflex effectiveness index (BEI), occurrence of systolic blood pressure (SBP) ramps, baroreflex sequences, and cross-correlation of SBP with heart rate (HR) in low (0.04-0.15 Hz)- and high (0.15-0.4 Hz)-frequency regions. During tilt, AB and PARA effectively regulated BP and HR, but TETRA did not. The numbers of SBP ramps and percentages of heartbeats involved in SBP ramps and baroreflex sequences increased in AB, were unchanged in PARA, and declined in TETRA. BRS was lowest in PARA and declined with tilt in all groups. BEI was greatest in AB and declined with tilt in all groups. Low-frequency power of BP and the peak of the SBP/HR cross-correlation magnitude were greatest in AB, increased during tilt in AB, remained unchanged in PARA, and declined in TETRA. The peak cross-correlation magnitude in HF decreased with tilt in all groups. Our data indicate that spinal cord injury results in decreased stimulation of arterial baroreceptors and less engagement of feedback control as demonstrated by lower 1) spectral power of BP, 2) number (and percentages) of SBP ramps and barosequences, 3) cross-correlation magnitude of SBP/HR, 4) BEI, and 5) changes in delay between SBP/HR. Diminished vasomotion and impaired baroreflex regulation may be major contributors to decreased orthostatic tolerance following injury.     

Age dependency of cardiovascular autonomic responses to head-up tilt in healthy subjects.

In elderly subjects, heart rate responses to postural change are attenuated, whereas their vascular responses are augmented. Altered strategy in maintaining blood pressure homeostasis during upright position may result from various cardiovascular changes, including age-related cardiovascular autonomic dysfunction. This exploratory study was conducted to evaluate impact of age on cardiovascular autonomic responses to head-up tilt (HUT) in healthy subjects covering a wide age range. The study population consisted of 63 healthy, normal-weight, nonsmoking subjects aged 23-77 yr. Five-minute electrocardiogram and finger blood pressure recordings were performed in the supine position and in the upright position 5 min after 70 degrees HUT. Stroke volume was assessed from noninvasive blood pressure signals by the arterial pulse contour method. Heart rate variability (HRV) and systolic blood pressure variability (SBPV) were analyzed by using spectral analysis, and baroreflex sensitivity (BRS) was assessed by using sequence and cross-spectral methods. Cardiovascular autonomic activation during HUT consisted of decreases in HRV and BRS and an increase in SBPV. These changes became attenuated with aging. Age correlated significantly with amplitude of HUT-stimulated response of the high-frequency component (r = -0.61, P < 0.001) and the ratio of low-frequency to high-frequency power of HRV (r = -0.31, P < 0.05) and indexes of BRS (local BRS: r = -0.62, P < 0.001; cross-spectral baroreflex sensitivity in the low-frequency range: r = -0.38, P < 0.01). Blood pressure in the upright position was maintained well irrespective of age. However, the HUT-induced increase in heart rate was more pronounced in the younger subjects, whereas the increase in peripheral resistance was predominantly observed in the older subjects. Thus it is likely that whereas the dynamic capacity of cardiac autonomic regulation decreases, vascular responses related to vasoactive mechanisms and vascular sympathetic regulation become augmented with increasing age.     

Heart Rate Variability and Blood Pressure during Dynamic and Static Exercise at Similar Heart Rate Levels

Aim was to elucidate autonomic responses to dynamic and static (isometric) exercise of the lower limbs eliciting the same moderate heart rate (HR) response. Method: 23 males performed two kinds of voluntary exercise in a supine position at similar heart rates: static exercise (SE) of the lower limbs (static leg press) and dynamic exercise (DE) of the lower limbs (cycling). Subjective effort, systolic (SBP) and diastolic blood pressure (DBP), mean arterial pressure (MAP), rate pressure product (RPP) and the time between consecutive heart beats (RR-intervals) were measured. Time-domain (SDNN, RMSSD), frequency-domain (power in the low and high frequency band (LFP, HFP)) and geometric measures (SD1, SD2) as well as non-linear measures of regularity (approximate entropy (ApEn), sample entropy (SampEn) and correlation dimension D2) were calculated. Results: Although HR was similar during both exercise conditions (88±10 bpm), subjective effort, SBP, DBP, MAP and RPP were significantly enhanced during SE. HRV indicators representing overall variability (SDNN, SD 2) and vagal modulated variability (RMSSD, HFP, SD 1) were increased. LFP, thought to be modulated by both autonomic branches, tended to be higher during SE. ApEn and SampEn were decreased whereas D₂ was enhanced during SE. It can be concluded that autonomic control processes during SE and DE were qualitatively different despite similar heart rate levels. The differences were reflected by blood pressure and HRV indices. HRV-measures indicated a stronger vagal cardiac activity during SE, while blood pressure response indicated a stronger sympathetic efferent activity to the vessels. The elevated vagal cardiac activity during SE might be a response mechanism, compensating a possible co-activation of sympathetic cardiac efferents, as HR and LF/HF was similar and LFP tended to be higher. However, this conclusion must be drawn cautiously as there is no HRV-marker reflecting “pure” sympathetic cardiac activity.     

Welfare implication of measuring heart rate and heart rate variability in dairy cattle: literature review and conclusions for future research

Heart rate (HR) measurements have been used to determine stress in livestock species since the beginning of the 1970s. However, according to the latest studies in veterinary and behaviour–physiological sciences, heart rate variability (HRV) proved to be more precise for studying the activity of the autonomic nervous system. In dairy cattle, HR and HRV indices have been used to detect stress caused by routine management practices, pain or milking. This review provides the significance of HR and HRV measurements in dairy cattle by summarising current knowledge and research results in this area. First, the biological background and the interrelation of the autonomic regulation of cardiovascular function, stress, HR and HRV are discussed. Equipment and methodological approaches developed to measure interbeat intervals and estimate HRV in dairy cattle are described. The methods of HRV analysis in time, frequency and non-linear domains are also explained in detail emphasising their physiological background. Finally, the most important scientific results and potential possibilities for future research are presented.     

Variations in blood pressure and heart rate in conscious rats with cervical lymphatic blockade

The possible effects of cervical lymphatic blockade (CLB) on a series of parameters in conscious freely moving rats were analysed. Blood pressure (BP) and heart rate (HR) for conscious male Sprague-Dawley rats at 1, 3, 7, 11, 15 and 21 days after a CLB or a sham operation were monitored continuously for 24 hours with a computerized recording system. Since BP and HR were subjected to spontaneous variations, blood pressure variability (BPV) and heart rate variability (HRV) were expressed as the standard deviation of beat-to-beat BP and HR values. The baroreflex sensitivities (BRS) were determined by measuring the heart period (HP = 60,000/HR) prolongation in response to the elevation in BP induced by an intravenous administration of phenylephrine at 1, 7, 15 and 21 days after the CLB or sham operation. Compared with those in sham-operated rats, the values of systolic blood pressure (SBP), diastolic blood pressure (DBP), mean arterial blood pressure (MAP), HR and BRS in CLB rats were significantly lower, whereas the values of BPV and HRV were markedly raised in CLB rats at different time points. Furthermore, the impaired ultrastructure in the dorsomedial nucleus of the solitary tract (dmNTS) including degeneration, apoptosis and necrosis in neurons and gliacytes, were apparent from the 1st to 15th day but the changes were most significant at 7th day after CLB operation. Structural changes appeared to be closely related to functional changes of the dmNTS at each time point. Thus, in CLB conscious rats, a significant decline in blood pressure accompanied by dysfunction in its regulation might be due to the impaired structure in the dmNTS.     

WORKING THE NIGHT SHIFT CAUSES INCREASED VASCULAR STRESS AND DELAYED RECOVERY IN YOUNG WOMEN

Shiftwork has been associated with elevated blood pressure (BP) and decreased heart-rate variability (HRV), factors that may increase the long-term risk of cardiovascular-related mortality and morbidity. This study explored the effect of shiftwork on dynamic changes in autonomic control of HRV (cardiac stress), systolic BP and diastolic BP, i.e., SBP and DBP (vascular stress), and recovery in the same subjects working different shifts. By studying the same subjects, the authors could reduce the effect of possible contribution of between-subject variation from genetic predisposition and environmental factors. The authors recruited 16 young female nurses working rotating shifts—day (08:00–16:00 h), evening (16:00–00:00 h), and night (00:00–08:00 h)—and 6 others working the regular day shift. Each nurse received simultaneous and repeated 48-h ambulatory electrocardiography and BP monitoring during their work day and the following off-duty day. Using a linear mixed-effect model to adjust for day shift, the results of the repeated-measurements and self-comparisons found significant shift differences in vascular stress. While working the night shift, the nurses showed significant increases in vascular stress, with increased SBP of 9.7 mm Hg. The changes of SBP and DBP seemed to peak during waking time at the same time on the day off as they did on the working day. Whereas HRV profiles usually returned to baseline level after each shift, the SBP and DBP of night-shift workers did not completely return to baseline levels the following off-duty day (p?<?.001). The authors concluded that although the nurses may recover from cardiac stress the first day off following a night shift, they do not completely recover from increases in vascular stress on that day. (Author correspondence: jdwang@ntu.edu.tw)     

Geomagnetic field effect on cardiovascular regulation

The goal of the present research was try to explain the physiological mechanism for the influence of the geomagnetic field (GMF) disturbance, reflected by the indices of the geomagnetic activity (K, K(p), A(k), and A(p) indices), on cardiovascular regulation. One hundred forty three experimental runs (one daily) comprising 50 min hemodynamic monitoring sequences were carried out in rabbits sedated by pentobarbital infusion (5 mg/kg/h). We examined the arterial baroreflex effects on the short term blood pressure and heart rate (HR) variabilities reflected by the standard deviation (SD) of the average values of the mean femoral arterial blood pressure (MAP) and the HR. Baroreflex sensitivity (BRS) was estimated from blood pressure/HR response to intravenous (i.v.) bolus injections of vasoconstrictor (phenylephrine) and vasodilator (nitroprusside) drugs. We found a significant negative correlation of increasing GMF disturbance (K(p)) with BRS (P = 0.008), HR SD (P =0.022), and MAP SD (P = 0.002) signifying the involvement of the arterial baroreflex mechanism. The abrupt change in geomagnetic disturbance from low (K = 0) to high (K = 4-5) values was associated with a significant increase in MAP (83 +/- 5 vs. 99 +/- 5 mm Hg, P = 0.045) and myocardial oxygen consumption, measured by MAP and HR product (24100 +/- 1800 vs. 31000 +/- 2500 mm Hg. bpm, P = 0.034), comprising an additional cardiovascular risk. Most likely, GMF affects brainstem and higher neural cardiovascular regulatory centers modulating blood pressure and HR variabilities associated with the arterial baroreflex.