在美国及其周围，时间结构、生物钟之间存在多重共振。太阳风大约1.3年的周期性是否被植入人类心血管生物钟中？

Multiple resonances among time structures, chronomes, around and in US. Is an about 1.3-year periodicity in solar wind built into the human cardiovascular chronome?

作者信息

Cornélissen G, Masalov A, Halberg F, Richardson J D, Katinas G S, Sothern R B, Watanabe Y, Syutkina E V, Wendt H W, Bakken E E, Romanov Y

机构信息

Halberg Chronobiology Center, University of Minnesota, Minneapolis, MN, USA.

出版信息

Fiziol Cheloveka. 2004 Mar-Apr;30(2):86-92.

PMID:15150979

Abstract

AIMS

Velocity changes in the solar wind, recorded by satellite (IMP8 and Wind) are characterized by a solar cycle dependent approximately 1.3-year component. The presence of any approximately 1.3-year component in human blood pressure (BP) and heart rate (HR) and in mortality from myocardial infarction (MI) is tested and its relative prominence compared to the 1.0-year variation.

MATERIALS AND METHODS

Around the clock manual or automatic BP and HR measurements from four subjects recorded over 5 to 35 years and a 29-year record of mortality from MI in Minnesota were analyzed by linear-nonlinear rhythmometry. Point and 95% confidence interval (CI) estimates were obtained for the approximately 1.3-year period and amplitude. The latter is compared with the 1.0-year amplitude for BP and HR records concurrent to the solar data provided by one of us (JDR).

RESULTS

An approximately 1.3-year component is resolved nonlinearly for MI, with a period of 1.23 (95% CI: 1.21; 1.26) year. This component was invariably validated with statistical significance for BP and HR by linear rhythmometry. Nonlinearly, the 95% CI for the 1.3-year amplitude did not overlap zero in 11 of the 12 BP and HR series. Given the usually strong synchronizing role of light and temperature, it is surprising that 5 of the 12 cardiovascular series had a numerically larger amplitude of the 1.3-year versus the precise 1.0-year component. The beating of the approximately 1.3-year and 1.0-year components was shown by gliding spectra on actual and simulated data.

DISCUSSION AND CONCLUSION

The shortest 5-year record (1998-2003) revealed an approximately 1.3-year component closer to the solar wind speed period characterizing the entire available record (1994-2003) than that for the concurrent 5-year span. Physiological variables may resonate with non-photic environmental cycles that may have entered the genetic code during evolution.

摘要

目的

卫星（IMP8和WIND）记录的太阳风速度变化具有一个大约1.3年的、依赖于太阳周期的分量。对人体血压（BP）、心率（HR）以及心肌梗死（MI）死亡率中是否存在任何大约1.3年的分量进行检测，并将其相对突出程度与1.0年的变化进行比较。

材料与方法

通过线性-非线性节律测定法分析了4名受试者在5至35年期间进行的全天候手动或自动BP和HR测量数据，以及明尼苏达州29年的MI死亡率记录。获得了大约1.3年周期和振幅的点估计值及95%置信区间（CI）。将后者与我们其中一人（JDR）提供的与太阳数据同步的BP和HR记录的1.0年振幅进行比较。

结果

MI的大约1.3年分量通过非线性方法得以分辨，周期为1.23（95%CI：1.21；1.26）年。该分量通过线性节律测定法在BP和HR方面均得到了具有统计学意义的验证。非线性分析显示，在12个BP和HR序列中有11个序列的1.3年振幅的95%CI不与零重叠。鉴于光和温度通常具有很强的同步作用，令人惊讶的是，在12个心血管序列中有5个序列的1.3年分量的数值振幅大于精确的1.0年分量。实际数据和模拟数据的滑动谱显示了大约1.3年和1.0年分量的波动情况。