Clinical Neurophysiology, Hospital Universitario La Princesa, 28006 Madrid, Spain.
Fundación de Investigación Biomédica, Hospital Universitario La Princesa, 28006 Madrid, Spain.
Front Biosci (Landmark Ed). 2022 May 12;27(5):155. doi: 10.31083/j.fbl2705155.
We obtained microelectrode recordings from four patients with intractable aggressivity who underwent surgery at posteromedial hypothalamus under general anaesthesia. We described two general types of extracellular action potentials (EAPs): typical/canonical and atypical.
We analysed 337 units and 67 traces, which were characterized by the mean action potential (mAP). For the first phase, depolarization and repolarization, we computed amplitudes (VFP, VDep and VRep) and durations (dFP, dDep and dRep), maximum and minimum values of the first derivative (dVmax, dVmin), and amplitude and duration ratios.
Most of the canonical mAPs were positive (81.1%). EAPs with atypical mean action potentials (amAPs) were recorded in 42/337 cases. Only 35.6% of mAPs showed 2 phases. We identified the following types: N1P1N2 (38.3%), P1N1 (35.9%), amAP (12.5%), P1P2N1 (12.2%), N1P1 (4.7%), P1N1P2 (4.1%) and N1N2P1 (3.2%). We can define the properties of canonical forms as those units with (i) at least two opposite phases; (ii) VDep∈[1.2,2.7]×|VRep| and strongly related by this function VRep=-0.56(±0.01)VDep-1.83(±0.79); (iii) a very strong relationship between dVmax and dVmin, given by the equation dVmin=-0.91(±0.03)dVmax-0.37(±0.12), both of which were included in the depolarization phase; (iv) related with VDep by the equation dVmax=0.08(±0.001)VDep-0.28(±0.14); and (v) dDep~0.38dRep. However, the first phase does not pertain to the same dynamic process responsible for depolarization and repolarization.
Atypical units are described here for the first time and are true EAPs that differ strikingly from canonical forms. To date, they have been observed only in the hypothalamus, but future research is needed to assess their existence in other brain structures.
我们对 4 名在全身麻醉下接受后内侧下丘脑手术的难治性攻击性患者进行了微电极记录。我们描述了两种一般类型的细胞外动作电位(EAP):典型/典型和非典型。
我们分析了 337 个单位和 67 个迹线,其特征是平均动作电位(mAP)。对于第一相去极化和复极化,我们计算了幅度(VFP、VDep 和 VRep)和持续时间(dFP、dDep 和 dRep)、第一导数的最大和最小(dVmax、dVmin)值以及幅度和持续时间比。
大多数典型 mAP 为阳性(81.1%)。在 337 例中记录到具有非典型平均动作电位(amAP)的 EAP。仅 35.6%的 mAP 显示 2 个相。我们确定了以下类型:N1P1N2(38.3%)、P1N1(35.9%)、amAP(12.5%)、P1P2N1(12.2%)、N1P1(4.7%)、P1N1P2(4.1%)和 N1N2P1(3.2%)。我们可以将典型形式的特性定义为具有以下特性的单元:(i)至少有两个相反的阶段;(ii)VDep∈[1.2,2.7]×|VRep|,并通过该函数 VRep=-0.56(±0.01)VDep-1.83(±0.79) 强烈相关;(iii)dVmax 和 dVmin 之间存在很强的关系,由方程 dVmin=-0.91(±0.03)dVmax-0.37(±0.12) 给出,两者都包含在去极化相中;(iv)与 VDep 的关系由方程 dVmax=0.08(±0.001)VDep-0.28(±0.14) 给出;(v)dDep~0.38dRep。然而,第一阶段并不属于导致去极化和复极化的相同动态过程。
这里首次描述了非典型单元,它们是与典型形式明显不同的真正 EAP。迄今为止,它们仅在下丘脑观察到,但需要进一步研究来评估它们在其他脑结构中的存在。
