6533b7d8fe1ef96bd126a45a
RESEARCH PRODUCT
Quantification of intracranial contribution to rheoencephalography by a numerical model of the head
Enrique GuijarroJuan A. BarciaJuan J. Pérezsubject
chemical and pharmacologic phenomenaModels BiologicalSensitivity and SpecificityRheoencephalographyimmune system diseaseshemic and lymphatic diseasesPhysiology (medical)HumansComputer SimulationPlethysmography ImpedanceElectrodesPhysicsMeasurement methodbusiness.industryElectric ConductivityBrainElectroencephalographyhemic and immune systemsBlood flowSensory SystemsNeurologyCerebral blood flowCerebrovascular CirculationAnesthesiaRegression AnalysisNeurology (clinical)Nuclear medicinebusinessHeaddescription
Abstract Objectives : Partial contributions of intracranial and extracranial circulation to rheoencephalography (REG) remain uncertain. The main goal of this work is to determine theoretically the capability of REG techniques to reflect intracranial blood flow. Methods : Head and current injection electrodes were computationally modeled to assess REG sensitivity to brain and scalp conductivity changes. Data obtained were related to tissue perfusions to calculate the partial contribution of cerebral blood perfusion to REG I, REG II and monopolar REG and to assess their amplitudes. Results : When REG I and monopolar REG were used, the theoretical maximum of intracranial contribution was reached with large current injection electrodes, being 8% for REG I and 12% for monopolar REG. However, some specific REG II electrode arrangements showed a nil contribution of the extracranial circulation and a minimum influence of the electrode size. Conclusions : These results may explain the disagreement on REG origin and suggest a theoretically optimum electrode arrangement.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2000-07-01 | Clinical Neurophysiology |