Search results for "Cerebral Autoregulation"

showing 6 items of 16 documents

Significance of resting and stimulated cerebral blood flow for predicting the risk of hemodynamic cerebral ischemia in a model of chronic hemodynamic…

2000

OBJECTIVE: It has been postulated that patients with a compromised cerebrovascular reserve capacity (RC), defined as cerebral blood flow (CBF) response to acetazolamide (ACZ) (by percent), are at higher risk for ischemic stroke. The value of CBF and RC for predicting the risk of hemodynamically induced impairment of cerebral function is examined. METHODS: Both common carotid arteries were occluded in 22 Wistar-Kyoto rats. Thirty-one days later, mean arterial blood pressure was reduced to 40 mm Hg for 30 minutes. Laser Doppler scanning of CBF at resting conditions and after intraperitoneal administration of ACZ (0.1 mg/g body weight) was performed 30 minutes and 28 days after occlusion as we…

Malemedicine.medical_specialtyIschemiaHemodynamicsBlood PressureMotor ActivityCerebral autoregulationRats Inbred WKYBrain IschemiaBrain ischemiaInternal medicineMedicineAnimalsHumansCerebral perfusion pressureMaze LearningStrokebusiness.industryHemodynamicsBrainRetention Psychologymedicine.diseaseRatsAcetazolamideStrokeDisease Models AnimalBlood pressureCerebral blood flowMental Recallcardiovascular systemCardiologySurgeryNeurology (clinical)businessBlood Flow Velocitycirculatory and respiratory physiologyNeurosurgery
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Nonlinear effects of respiration on the crosstalk between cardiovascular and cerebrovascular control systems.

2016

Cardiovascular and cerebrovascular regulatory systems are vital control mechanisms responsible for guaranteeing homeostasis and are affected by respiration. This work proposes the investigation of cardiovascular and cerebrovascular control systems and the nonlinear influences of respiration on both regulations through joint symbolic analysis (JSA), conditioned or unconditioned on respiration. Interactions between cardiovascular and cerebrovascular regulatory systems were evaluated as well by performing correlation analysis between JSA indexes describing the two control systems. Heart period, systolic and mean arterial pressure, mean cerebral blood flow velocity and respiration were acquired…

Mean arterial pressuremedicine.medical_specialtySupine positionGeneral Mathematics0206 medical engineeringGeneral Physics and Astronomy02 engineering and technology030204 cardiovascular system & hematologyBaroreflexCerebral autoregulationCardiovascular System03 medical and health sciencesPhysics and Astronomy (all)0302 clinical medicineEngineering (all)Conditional joint symbolic analysiInternal medicineRespirationmedicineHeart rate variabilityAutonomic nervous system; Baroreflex; Cerebral autoregulation; Conditional joint symbolic analysis; Head-up tilt; Heart rate variability; Mathematics (all); Physics and Astronomy (all); Engineering (all)Autonomic nervous systemMathematics (all)Heart rate variabilitybusiness.industryAutonomic nervous system; Baroreflex; Cerebral autoregulation; Conditional joint symbolic analysis; Head-up tilt; Heart rate variability; Mathematics (all); Engineering (all); Physics and Astronomy (all)Head-up tiltGeneral EngineeringBaroreflex020601 biomedical engineeringCerebral autoregulationAutonomic nervous systemCerebral blood flowConditional joint symbolic analysisSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaCardiologybusinessPhilosophical transactions. Series A, Mathematical, physical, and engineering sciences
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Update on mechanism and therapeutic implications of spinal cord stimulation and cerebral hemodynamics: A narrative review

2017

Spinal cord stimulation (SCS) is well known for its early role in the management of chronic pain, mainly failed back surgery syndrome (FBSS), spasticity, and bowel and bladder dysfunction. In more recent years, SCS has been proposed for patients suffering from refractory angina or peripheral vasculopathies in order to gain symptom relief, thus indicating some hemodynamic effect on the peripheral circulation. Taking into account this scientific observation, since the late1980s, researchers have started to investigate the potential effect of SCS on cerebral blood flow (CBF) regulation and its possible application in certain pathological settings dealing with vascular pattern dysfunction, such…

Subarachnoid hemorrhage030204 cardiovascular system & hematologyCerebral autoregulationBrain IschemiaBrain ischemia03 medical and health sciences0302 clinical medicineAnimalsHomeostasisHumansVasospasm IntracranialMedicineSpasticitySympathectomyBrain injuryStrokeBrain Neoplasmsbusiness.industrySettore MED/27 - NeurochirurgiaBrain injury; Cerebral autoregulation; Cerebral blood flow; Functional sympathectomy; Spinal cord stimulation; Stroke; Vasospasm; Surgery; Neurology (clinical)HemodynamicsChronic painVasospasmFunctional sympathectomySubarachnoid HemorrhageCerebral blood flowmedicine.diseaseVasospasmCerebral autoregulationStrokenervous systemCerebral blood flowSpinal cord stimulationBrain InjuriesCerebrovascular CirculationAnesthesiaSurgeryNeurology (clinical)medicine.symptombusiness030217 neurology & neurosurgery
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Use of middle cerebral velocity and blood pressure for the analysis of cerebral autoregulation at various frequencies: The coherence index

1998

A common component in many protocols for the evaluation of cerebral autoregulation is the comparison of transcranial Doppler ultrasound (TCD) velocities with blood pressure recordings, in which correlations between these two signals correspond to impaired autoregulation. With long data sets and complicated paradigms, however, visual inspection alone cannot adequately distinguish random coincidence from consistent correlation in a statistically valid fashion. We suggest and illustrate the use of the coherence index for this purpose. To illustrate this technique, long-term recordings of TCD velocity and blood pressure were obtained from 6 normal subjects and using 23 data segments from 8 pati…

Subarachnoid hemorrhageUltrasonography Doppler TranscranialHemodynamicsBlood PressureCerebral autoregulationCorrelationNuclear magnetic resonanceReference ValuesmedicineTidal VolumeHomeostasisHumansAutoregulationTranscranial doppler cerebral autoregulationMathematicsFourier AnalysisSettore MED/27 - NeurochirurgiaGeneral MedicineCoherence (statistics)Cerebral ArteriesSubarachnoid Hemorrhagemedicine.diseaseTranscranial DopplerPlethysmographyBlood pressureNeurologyAnesthesiaNeurology (clinical)Blood Flow VelocitySoftware
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Cerebral Autoregulation in Non-Brain Injured Patients: A Systematic Review.

2021

Introduction: Cerebral autoregulation (CA) plays a fundamental role in the maintenance of adequate cerebral blood flow (CBF). CA monitoring, through direct and indirect techniques, may guide an appropriate therapeutic approach aimed at improving CBF and reducing neurological complications; so far, the role of CA has been investigated mainly in brain-injured patients. The aim of this study is to investigate the role of CA in non-brain injured patients.Methods: A systematic consultation of literature was carried out. Search terms included: “CA and sepsis,” “CA and surgery,” and “CA and non-brain injury.”Results: Our research individualized 294 studies and after screening, 22 studies were anal…

medicine.medical_specialtycerebral autoregulationperioperative carenon-brain injuryneurologic outcomeCerebral autoregulationSepsissepsisTherapeutic approachPediatric surgerymedicinepediatric surgeryRC346-429Septic shockbusiness.industrymedicine.diseaseCardiac surgeryNeurologyCerebral blood flowAnesthesiaDeliriumSystematic ReviewNeurology. Diseases of the nervous systemNeurology (clinical)medicine.symptombusiness
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Cerebral Blood Flow Regulation Under the Conditions of Arterial Hypoxia

1978

Pronounced arterial hypoxia induces a decrease of cerebrovascular resistance and an increase of total and regional cerebral blood flow. Under the conditions of normal arterial blood pressure and normal acid base status, the changes of both parameters commence when the oxygen tension in the arterial blood decreases below approximately 50 mm Hg. At the same time, the oxygen tension in the cerebral venous blood reaches values below approximately 28 mm Hg. Different authors [23, 28, 30, 31, 33] reported that cerebral blood flow responses to PaO2 decrease are threshold at these oxygen tensions. The threshold oxygen tension of cerebral venous blood was accorded a special significance because Noel…

medicine.medical_specialtychemistry.chemical_elementVenous bloodHypoxia (medical)OxygenCerebral autoregulationOxygen tensionBlood pressureCerebral blood flowchemistryInternal medicineCardiologymedicineArterial bloodmedicine.symptom
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