biochemistry; bioelectric potentials; biomedical optical imaging; blood vessels; electroencephalography; haemodynamics; infrared imaging; molecular biophysics; neurophysiology; oxygen; patient monitoring; patient rehabilitation; patient treatment; proteins; sugar; NIRS-EEG joint-imaging; NIRS-EEG-tDCS study; Osub2/sub; anterior temporal artery tap technique; cerebral blood flow; continuous neural activity monitoring; external carotid artery stenosis patient classification; frequency 0.5 Hz to 11.25 Hz; glucose; internal carotid artery stenosis patient classification; mean cerebral haemoglobin oxygen saturation; near-infrared spectroscopy; neurovascular coupling; noninvasive neural activity monitoring; optode separations; patient prognosis; patient rehabilitation; systemic hemodynamic fluctuation measurement; systemic interference identification; transcranial direct current stimulation; Blood flow; Carotid arteries; Couplings; Electroencephalography; Interference; Pollution measurement;
机译:RLS自适应滤波可减少NIRS脑活动测量中的生理干扰:蒙特卡洛研究
机译:fNIRS测量中任务诱发的系统干扰的分析:fMRI的见解
机译:FNIRS测量中任务诱发的系统干扰分析:FMRI见解
机译:前颞动脉抽头以识别使用短分离网德测量的系统干扰:NIRS / EEG-TDCS研究
机译:同时进行fMRI-NIRS测量以研究生理性低频振荡(LFO)。
机译:宽带NIRS测量脑细胞色素C氧化酶与全身变化之间的相互关系表明新生儿脑病的损伤严重程度
机译:脑细胞色素c-氧化酶的宽带NIRS测量与全身变化之间的相互关系表明新生儿脑病的损伤严重程度