Angiographic circulation time and cerebral blood flow during balloon test occlusion of the internal carotid artery

Angiography-based balloon test occlusion (BTO) has been empirically used to predict tolerance to permanent carotid artery occlusion. We tested the hypothesis that the laterality of the hemispheric circulation time (HCT) of the contrast medium at cerebral angiography would reflect bilateral asymmetry of the cerebral blood flow (CBF) during BTO. Thirty-one consecutive patients who underwent BTO of the internal carotid artery were retrospectively analyzed. HCT was defined as the interval between the time-to-peak in the middle cerebral artery and the cortical veins calculated using time-density curve. The difference in HCT between the occluded and nonoccluded side was calculated at the carotid or dominant vertebral angiograms obtained during BTO. We estimated the correlation between the difference in HCT and bilateral asymmetry of the CBF, which was quantitatively determined by single-photon emission computed tomography. The HCT was 5.3±1.5 seconds and regional CBF was 41.3±11.3 mL/100 g per minute in the occluded side, compared with 3.6±0.9 seconds and 48.4±14.9 mL/100 g per minute in the nonoccluded side, respectively. The difference in HCT was strongly correlated with the asymmetry ratio of the CBF (r²=0.89, P<0.0001). Angiographically based measurement of the cerebral circulation time can provide valuable information concerning cerebral hemodynamics.     

Effects of microbial invasion on cerebral hemodynamics and oxygenation monitored by near infrared spectroscopy in experimental Escherichia coli meningitis in the newborn piglet

Abstract

This study was carried out to elucidate the pathophysiologic mechanism of cerebral hyperemia observed during the early phase of bacterial meningitis. We tested the hypothesis that microbial invasion through the blood-brain barrier is responsible for cerebral vasodilation and hyperemia in meningitis. Escherichia coli was given either intravenously (i.v.) or intracisternally (i.e.) to closely mimic the primary or secondary bacterial invasion occurring in meningitis and newborn piglets were grouped according to their invasion results (+ or -); 7 2 in the i. v. (+) group, 14 in the i. v.{-) group, 73 in the i. c.( + ) group, 7 5 in the i. c. (-) group. The results were compared with eight animals in the control group. Near infrared spectroscopy (NIRS) was employed to monitor changes in total hemoglobin (HbT), oxygenated hemoglobin (HbO), deoxygenated hemoglobin (Hb), deduced hemoglobin (HbD), and oxidized cytochrome aa3 (Cyt aa3). HbT, as an index of cerebral blood volume, increased progressively in both i.v. (+) and i.v. (-) groups and became significantly different from control and baseline values at 2 h. Hb significantly increased only in i.v. ( + ) group. HbD, as an index of cerebral blood flow, decreased significantly in i.v. ( + ), i.v.(-) and i.e. (-) groups and this change was mitigated in i.e. ( + ) group. HbO was reduced in i.e. (-) group and this decrease was attenuated in i.e. ( + ) group. Increased Cyt aa3 was observed in all experimental groups after bacterial inoculation. Changes in ICP, blood pressure, cerebral perfusion pressure, blood or CSF glucose or lactate, CSF TNF-a level, or CSF leukocytes number were not associated with changes in NIRS findings. These findings suggest that primary or secondary bacterial invasion across the blood-brain barrier is primarily responsible for cerebral vasodilation and hyperemia observed during the early phase of bacterial meningitis. [Neurol Res 1999; 21: 391-398]     

Effect of age and vascular anatomy on blood flow in major cerebral vessels

Measurement of volume flow rates in major cerebral vessels can be used to evaluate the hemodynamic effects of cerebrovascular disease. However, both age and vascular anatomy can affect flow rates independent of disease. We prospectively evaluated 325 healthy adult volunteers using phase contrast quantitative magnetic resonance angiography to characterize these effects on cerebral vessel flow rates and establish clinically useful normative reference values. Flows were measured in the major intracranial and extracranial vessels. The cohort ranged from 18 to 84 years old, with 157 (48%) females. All individual vessel flows and total cerebral blood flow (TCBF) declined with age, at 2.6 mL/minute per year for TCBF. Basilar artery (BA) flow was significantly decreased in individuals with one or both fetal posterior cerebral arteries (PCAs). Internal carotid artery flows were significantly higher with a fetal PCA and decreased with a hypoplastic anterior cerebral artery. Indexing vessel flows to TCBF neutralized the age effect, but anatomic variations continued to impact indexed flow in the BA and internal carotid artery. Variability in normative flow ranges were reduced in distal vessels and by examining regional flows. Cerebral vessel flows are affected by age and cerebrovascular anatomy, which has important implications for interpretation of flows in the disease state.     

Principles of cerebral oxygenation and blood flow in the neurological critical care unit

Cerebrovascular disease and trauma are leading causes of death in the United States. In addition to the initial insult to the brain, disturbances of cerebral oxygenation and metabolism underlie many of the secondary pathophysiological processes that increase both morbidity and mortality. Therefore, researchers and clinicians have sought to obtain a more thorough understanding of the physiological and biochemical principles of cerebral oxygenation and metabolism. New technologies capable of offering continuous and quantitative assessment of cerebral oxygenation may improve clinical outcomes. In this article, we review the physiological principles of cerebral metabolism, cerebral blood flow and their metabolic coupling, and cerebral oxygenation, with particular emphasis on variables that could be monitored and managed in an intensive care unit setting. BWH Neurosurgery Group in alphabetical order are Ian F. Dunn, Dilantha B. Ellegala, Jonathan F. Fox, and Dong H. Kim.     

Simultaneous measurements of cerebral oxygenation changes during brain activation by near-infrared spectroscopy and functional magnetic resonance imaging in healthy young and elderly subjects

Near infrared spectroscopy (NIRS) and functional magnetic resonance imaging (fMRI) both allow non-invasive monitoring of cerebral cortical oxygenation responses to various stimuli. To compare these methods in elderly subjects and to determine the effect of age on cortical oxygenation responses, we determined motor-task-related changes in deoxyhemoglobin concentration ([HHb]) over the left motor cortex in six healthy young subjects (age 35 +/- 9 years, mean +/- SD) and five healthy elderly subjects (age 73 +/- 3 years) by NIRS and blood-oxygen-level-dependent (BOLD) fMRI simultaneously. The motor-task consisted of seven cycles of 20-sec periods of contralateral finger-tapping at a rate as fast as possible alternated with 40-sec periods of rest. Time-locked averages over the seven cycles were used for further analysis. Task-related decreases in [HHb] over the motor cortex were measured by NIRS, with maximum changes of -0.83 +/- 0.38 mumol/L (P < 0.01) for the young and -0.32 +/- 0.17 mumol/L (P < 0.05) for the elderly subjects. The BOLD-fMRI signal increased over the cortex volume under investigation with NIRS, with maximum changes of 2.11 +/- 0.72% (P < 0.01) for the young and 1.75 +/- 0.71% (P < 0.01) for the elderly subjects. NIRS and BOLD-fMRI measurements showed good correlation in the young (r = -0.70, r(2) = 0.48, P < 0.001) and elderly subjects (r = -0.82, r(2) = 0.67, P < 0.001). Additionally, NIRS measurements demonstrated age-dependent decreases in task-related cerebral oxygenation responses (P < 0.05), whereas fMRI measurements demonstrated smaller areas of cortical activation in the elderly subjects (P < 0.05). These findings demonstrate that NIRS and fMRI similarly assess cortical oxygenation changes in young subjects and also in elderly subjects. In addition, cortical oxygenation responses to brain activation alter with aging.     

Increase of frontal cerebral blood volume during transcranial magnetic stimulation in depression is related to treatment effectiveness: A pilot study with near‐infrared spectroscopy

Aim

Alterations of cerebral blood flow have been reported in studies of depression treated by transcranial magnetic stimulation (TMS). However, the relation between these changes in activity during stimulation and the effectiveness of TMS is not known. The aim of this study was to determine whether changes in frontal cerebral blood volume measured as frontal hemoglobin concentration (fHbC) during TMS are correlated with clinical outcomes of treatment.

Methods

Fifteen drug‐resistant patients with depression underwent a standard treatment regimen of TMS to the left dorsolateral prefrontal cortex. We recorded fHbC during stimulation at the start and end of the TMS treatment series using near‐infrared spectroscopy. Symptom severity was determined using the Montgomery–Åsberg Depression Rating Scale.

Results

At the start of the TMS series, fHbC increased during stimulation in a majority of patients with no relation to symptom severity. However, at the end of the series, fHbC increase during stimulation was negatively correlated with the Montgomery–Åsberg Depression Rating Scale score and positively with the score reduction. Patients showing a decreasing response of fHbC during TMS at the end of the series experienced less clinical improvement.

Conclusion

These results suggest that the maintenance of frontal activation during stimulation in the course of TMS series is related to the effectiveness in the treatment of depression. Measurement of fHbC during stimulation is informative in the clinical use of TMS.

     

Decreased blood volume with hypoperfusion during recovery from total cerebral ischaemia in dogs

Abstract

Reversible, total cerebral ischaemia of eight minutes duration was produced in a closed-chest dog model. Before, and at intervals after, this insult regional cerebral blood flow was determined by radiolabelled microsphere injection; and cerebral cortical capillary mean transittime was determined by reflection spectrophotometry. From these two measured parameters, cerebral cortical blood volume was calculated. After one hour of reperfusion following eight minutes of total cerebral ischaemia; cerebral blood flow was half of pre-ischaemic blood flow and mean transit time was increased by half. These results indicate that the delayed hypoperfusion following total cerebral ischaemia is accompanied by a decreased cerebral cortical blood volume mediated by vasconstriction.     

Rapid magnetic resonance measurement of global cerebral metabolic rate of oxygen consumption in humans during rest and hypercapnia

The effect of hypercapnia on cerebral metabolic rate of oxygen consumption (CMRO₂) has been a subject of intensive investigation and debate. Most applications of hypercapnia are based on the assumption that a mild increase in partial pressure of carbon dioxide has negligible effect on cerebral metabolism. In this study, we sought to further investigate the vascular and metabolic effects of hypercapnia by simultaneously measuring global venous oxygen saturation (S_vO₂) and total cerebral blood flow (tCBF), with a temporal resolution of 30 seconds using magnetic resonance susceptometry and phase-contrast techniques in 10 healthy awake adults. While significant increases in S_vO₂ and tCBF were observed during hypercapnia (P<0.005), no change in CMRO₂ was noted (P>0.05). Additionally, fractional changes in tCBF and end-tidal carbon dioxide (R²=0.72, P<0.005), as well as baseline S_vO₂ and tCBF (R²=0.72, P<0.005), were found to be correlated. The data also suggested a correlation between cerebral vascular reactivity (CVR) and baseline tCBF (R²=0.44, P=0.052). A CVR value of 6.1%±1.6%/mm Hg was determined using a linear-fit model. Additionally, an average undershoot of 6.7%±4% and 17.1%±7% was observed in S_vO₂ and tCBF upon recovery from hypercapnia in six subjects.     

Cerebral blood flow and cerebral hematocrit in patients with cerebral ischemia measured by single-photon emission computed tomography

Abstract– Single-photon emission computed tomography (SPECT) was used for the measurement of regional cerebral blood flow (CBF), cerebral blood volume (CBV) and cerebral hematocrit (Hct). CBF was measured using N-isopropyl-p-I-123-Iodoamphetamine. CBV was measured by both RBC tracer (Tc-99m RBC) and plasma tracer (Tc-99m human serum albumin) and cerebral hematocrit (Hct) was calculated. In normals, the cerebral-to-large vessel Hct ratio was 75.9%. Isovolemic hemodilution in patients with high Hct tended to increase the cerebral-to-large vessel Hct ratio. Low CBF, high CBV and slow cerebral blood mean transit time (MTT by dynamic CT scanning) was seen during the acute stage of completed infarction and during the symptom-free interval of TIA. Cerebral Hct was increased in the ischemic region of poor prognosis.     

选择性脑超深低温技术对常温脑血流阻断猴的治疗作用

目的研究选择性脑超深低温技术是否对常温下脑血流阻断10min猴仍有治疗作用。方法8只恒河猴双侧颈动脉和颈静脉系统分离、常温下脑血流阻断10min、建立严重脑缺血缺氧模型。4只动物通过一侧颈内动脉灌注4℃林格氏液同侧颈内静脉回流,阻断其他颈部血管,脑温维持在(15.4±2.03)℃、中心体温(32.2±1.23)℃。60-80min后恢复脑血流。另外4只猴采用相同方法脑灌注37℃林格氏液。实验前后观察猴脑神经功能变化、MR扫描和脑电镜检查。结果4只选择性脑超深低温治疗的猴正常存活、无任何神经功能障碍、MR扫描正常、脑组织电镜检查无异常;而4只常温组猴全部死亡。结论早期采用脑选择性深低温技术对十分严重脑缺血缺氧、甚至脑无血无氧有肯定治疗作用,为今后临床使用该技术提供了可靠的实验依据。     

Changes in cerebral blood flow during steady-state cycling exercise: a study using oxygen-15-labeled water with PET

Cerebral blood flow (CBF) during dynamic exercise has never been examined quantitatively using positron emission tomography (PET). This study investigated changes in CBF that occur over the course of a moderate, steady-state cycling exercise. Global and regional CBF (gCBF and rCBF, respectively) were measured using oxygen-15-labeled water (H₂¹⁵O) and PET in 10 healthy human subjects at rest (Rest), at the onset of exercise (Ex1) and at a later phase in the exercise (Ex2). At Ex1, gCBF was significantly (P<0.01) higher (27.9%) than at Rest, and rCBF was significantly higher than at Rest in the sensorimotor cortex for the bilateral legs (M1_Leg and S1_Leg), supplementary motor area (SMA), cerebellar vermis, cerebellar hemispheres, and left insular cortex, with relative increases ranging from 37.6% to 70.5%. At Ex2, gCBF did not differ from Rest, and rCBF was significantly higher (25.9% to 39.7%) than at Rest in only the M1_Leg, S1_Leg, and vermis. The areas showing increased rCBF at Ex1 were consistent with the central command network and the anatomic pathway for interoceptive stimuli. Our results suggest that CBF increases at Ex1 in parallel with cardiovascular responses then recovers to the resting level as the steady-state exercise continues.     

Noninvasive optical measures of CBV,StO2, CBF index,and rCMRO2 in human premature neonates' brains in the first six weeks of life

With the causes of perinatal brain injuries still unclear and the probable role of hemodynamic instability in their etiology, bedside monitoring of neonatal cerebral hemodynamics with standard values as a function of age are needed. In this study, we combined quantitative frequency domain near infrared spectroscopy (FD‐NIRS) measures of cerebral tissue oxygenation (StO₂) and cerebral blood volume (CBV) with diffusion correlation spectroscopy (DCS) measures of a cerebral blood flow index (CBF_ix) to test the validity of the CBV‐CBF relationship in premature neonates and to estimate cerebral metabolic rate of oxygen (rCMRO₂) with or without the CBF_ix measurement. We measured 11 premature neonates (28–34 weeks gestational age) without known neurological issues, once a week from one to six weeks of age. In nine patients, cerebral blood velocities from the middle cerebral artery were collected by transcranial Doppler (TCD) and compared with DCS values. Results show a steady decrease in StO₂ during the first six weeks of life while CBV remains stable, and a steady increase in CBF_ix. rCMRO₂ estimated from FD‐NIRS remains constant but shows wide interindividual variability. rCMRO₂ calculated from FD‐NIRS and DCS combined increased by 40% during the first six weeks of life with reduced interindividual variability. TCD and DCS values are positively correlated. In conclusion, FD‐NIRS combined with DCS offers a safe and quantitative bedside method to assess CBV, StO₂, CBF, and rCMRO₂ in the premature brain, facilitating individual follow‐up and comparison among patients. A stable CBV‐CBF relationship may not be valid for premature neonates. Hum Brain Mapp, 2010. © 2009 Wiley‐Liss, Inc.     

Endovascular treatment of an infantile nongalenic cerebral arteriovenous fistula with cyanoacrylate

We report the radiological features, including Doppler sonography and magnetic resonance angiography (MRA) findings, of a nongalenic arteriovenous fistula diagnosed in the neonatal period. Hypertensive hydrocephalus developed in infancy. Emergent percutaneous transarterial embolization with n-butyl-2-cyano-acrylate was successfully performed and lead to clinical improvement. MRA allowed a noninvasive followup.     

Middle cerebral artery velocity during upright posture after marijuana smoking.

Marijuana is known to cause symptoms suggestive of orthostatic hypotension such as dizziness and fainting during upright posture. We examined changes in cerebral blood velocity (CBV) and peripheral circulation during upright posture after smoking marijuana in 10 right-handed male subjects with a previous history of exposure to marijuana. The participants were physically and mentally healthy and drug-free for a minimum of 3 months before the experiment. Middle cerebral artery CBV, blood pressure and pulse rate were recorded during reclining position and standing, before and after smoking a high-potency marijuana cigarette or a placebo cigarette administered during 2 separate visits to the laboratory. The participants were questioned about dizziness during the upright position. Six of 10 subjects reported moderate to severe dizziness during standing after marijuana but not placebo. Subjects who experienced severe dizziness during standing showed marked decreases in blood pressure and CBV. Those who reported moderate dizziness showed reduction in CBV but not blood pressure. Subjects who reported mild dizziness after marijuana and after placebo smoking showed minimal changes in blood pressure and CBV. Cerebral ischemia during upright position after marijuana smoking may be caused by hypotension and impaired cerebral autoregulation.     

Doppler pulse waveform analysis of carotid and middle cerebral artery flow in a patient with an intra-aortic balloon pump.

A 60-year-old man with intractable congestive heart failure (CHF) had an intra-aortic balloon pump placed to augment coronary artery perfusion. During the evaluation prior to heart transplant, carotid and transcranial Doppler ultrasonography (TCD) was performed. The authors report the findings of Doppler waveform analysis and the presence of balloon pump artifact which caused difficulty in distinguishing between internal and external carotid arteries. Higher blood flow velocity during diastole and diastolic runoff characteristically seen while insonating the internal carotid artery enabled that distinction.     

Cerebral autoregulation in the microvasculature measured with near-infrared spectroscopy

Cerebral autoregulation (CA) is the mechanism that allows the brain to maintain a stable blood flow despite changes in blood pressure. Dynamic CA can be quantified based on continuous measurements of systemic mean arterial pressure (MAP) and global cerebral blood flow. Here, we show that dynamic CA can be quantified also from local measurements that are sensitive to the microvasculature. We used near-infrared spectroscopy (NIRS) to measure temporal changes in oxy- and deoxy-hemoglobin concentrations in the prefrontal cortex of 11 human subjects. A novel hemodynamic model translates those changes into changes of cerebral blood volume and blood flow. The interplay between them is described by transfer function analysis, specifically by a high-pass filter whose cutoff frequency describes the autoregulation efficiency. We have used pneumatic thigh cuffs to induce MAP perturbation by a fast release during rest and during hyperventilation, which is known to enhance autoregulation. Based on our model, we found that the autoregulation cutoff frequency increased during hyperventilation in comparison to normal breathing in 10 out of 11 subjects, indicating a greater autoregulation efficiency. We have shown that autoregulation can reliably be measured noninvasively in the microvasculature, opening up the possibility of localized CA monitoring with NIRS.     

脑超深低温下猴脑血流阻断时间窗的研究

目的 探明选择性脑超深低温技术对常温条件下猴脑血流阻断有效治疗时间窗.方法 10只恒河猴分为3组:常温组(n=3);深低温I组(n=4):脑血流阻断15min开始深低温治疗;深低温Ⅱ组(n=3):脑血流阻断20min开始深低温治疗.双侧颈动脉和颈静脉系统分离、脑血流阻断建立严重脑缺血缺氧模型.深低温组动物通过一侧颈内动脉灌注4~C林格氏液同侧颈内静脉回流,阻断其他颈动脉和颈静脉血管,脑温维持在(15.3±1.04)℃、中心体温(35.1±1.10)℃.维持深低温60min后恢复正常脑血流.常温组动物采用相同方法脑灌注37℃林格氏液.观察猴生存率、脑神经功能状况和病理形态.结果 4只脑血流阻断15min开始深低温治疗的猴死亡3只、1只长期存活;3只脑血流阻断20min开始深低温治疗和3只常温组猴全部死亡.死亡动物脑干出现神经元死亡.结论 常温条件下严重或完全脑缺血缺氧有效低温复苏时间为10min、15min内低温复苏成功率高,15min以上开始深低温复苏效果差.     

Dorsolateral prefrontal lobe activation declines significantly with age Functional NIRS study

Dorsolateral prefrontal cortex (DLPF) activation in response to cognitive paradigms engaging working memory was quantitatively evaluated using functional near infrared spectroscopy (fNIRS) in cognitively normal individuals across the age spectrum (20–90 years; 8 females, 52 males). DLPF activation score (DAS) demonstrated a significant decline (r² = −0561, p < 0.05) as a function of age. The study indicates that blood flow response associated with DLPF activation declines as a function of age in cognitively normal individuals and that fNIRS can be used as a convenient, portable tool for assessing such activation. Received: 11 December 2001, Received in revised form: 29 October 2002, Accepted: 15 November 2002 Correspondence to Ingrid L. Kwee, M. D.     

Sustained cerebral vasoconstriction during bilateral sympathetic stimulation in anesthetized rabbits

Temporal aspects of bilateral sympathetic nerve stimulation on cerebral blood flow (CBF) were examined in anesthetized rabbits (n = 7). CBF ranged from 32 to 50 ml/min per 100 g. Bilateral stimulation reduced blood flow by 17-31% to cerebrum, diencephalon-mesencephalon and cerebellum, and responses were constant between 2 and 6 min of stimulation. Sustained cerebral vasoconstriction is consistent with an important role for sympathetic nerves in the regulation of CBF.