William L. Young

Risk of spontaneous haemorrhage after diagnosis of cerebral arteriovenous malformation

BACKGROUND A small proportion of strokes are caused by cerebral arteriovenous malformations (AVM). Treatment to prevent intracranial haemorrhage itself carries risks, and untreated AVM may in many cases have a good prognosis. We investigated the risk of subsequent symptomatic bleeding in the clinical course of AVM in patients with and without an initial haemorrhage. METHODS 281 unselected, consecutive, prospectively enrolled patients with cerebral AVM were grouped according to their initial clinical presentation--142 presented with and 139 without haemorrhage. The frequency of AVM haemorrhages during the subsequent clinical course (before the start of endovascular, surgical, or radiation treatment) in the two groups was compared by means of Kaplan-Meier life-tables, log-rank test, and multivariate proportional-hazards regression models. Haemorrhage was defined as a clinically symptomatic event with signs of acute bleeding on computed tomography or magnetic resonance brain imaging. FINDINGS During mean follow-up of 8.5 months for the haemorrhage group and 11.9 months for the non-haemorrhage group, haemorrhages occurred in 18 (13%) of the former patients and in three (2%) of the latter (p=0.0002). The annual risk of haemorrhage was 17.8% and 2.2%, respectively. In the multivariate regression model, the adjusted hazard ratio for haemorrhage at initial presentation was 13.9 (95% CI 2.6-73.8; p=0.002). Deep venous drainage (hazard ratio 4.1 [1.2-14.9], p=0.029) and male sex (9.2 [2.1-41.3], p=0.004) were also significantly associated with subsequent haemorrhage, but no significant association was found for age or AVM size. The annual rate of spontaneous haemorrhage was 32.6% for men and 10.4% for women in the haemorrhage group compared with 3.3% for men and 1.3% for women in the non-haemorrhage group. Among patients with haemorrhage at initial presentation, the risk of haemorrhage fell from 32.9% in year 1 to 11.3% in subsequent years (34.2% to 31.0% in men; 31.1% to 5.5% in women). INTERPRETATION In AVM, patients initially presenting with haemorrhage have a higher risk of subsequent bleeding than those presenting with other symptoms. The risk is higher in men than in women.

The influence of hemodynamic and anatomic factors on hemorrhage from cerebral arteriovenous malformations.

The physiological and anatomical aberrations that result in hemorrhage from cerebral arteriovenous malformations (AVMs) remain unclear. In an attempt to clarify which conditions may predispose to hemorrhage, we examined clinical and physiological indices on presentation groups of either hemorrhage or nonhemorrhage in a large cohort of patients (n = 449). Variables examined included AVM size, type of venous drainage, transcranial Doppler (TCD) velocities, feeding mean arterial pressure (FMAP), and draining vein pressure. TCD and pressure data were obtained before any treatment. Age (mean +/- standard deviation) at the time of presentation was 33 +/- 13 years and did not differ between groups. Patients with small (< or = 2.5 cm) AVMs presented more frequently with hemorrhage (90%) than did patients with medium (> 2.5 and < or = 5.0 cm; 52%) or large (> 5.0 cm; 50%) AVMs (P = 0.0001). The 48 of 94 AVMs (51%) with deep venous drainage were more likely to have hemorrhage (P = 0.0219) than were those with superficial drainage (24 of 73 [33%]). Deep drainage was a predictor of hemorrhage even in the subgroup of medium and large supratentorial AVMs (P = 0.005). There was no difference in draining vein pressure (n = 18) between groups (21 +/- 10 and 19 +/- 11 mm Hg, respectively; P = 0.7812). FMAP (n = 52) was higher in the hemorrhage than in the nonhemorrhage group (44 +/- 13 versus 34 +/- 10 mm Hg; P = 0.0007) but was only weakly related to the size of the lesion (largest dimension) (y = -0.74x + 40; r = 0.09).(ABSTRACT TRUNCATED AT 250 WORDS)

Interhemispheric transfer of language in patients with left frontal cerebral arteriovenous malformation.

Cerebral arteriovenous malformations (AVMs) are frequently evaluated before therapeutic embolization by superselective injection of anesthetics into individual arterial branches so as to determine whether permanent occlusion would affect eloquent function. In Experiment 1, we used this adaptation of the Wada procedure to study three right-handed adult patients with left frontal cerebral AVMs by injecting vessels in Wernickes and Brocas areas, respectively, and assessing language functions. The results showed that superselective testing in the inferior division of the left MCA in all three patients produced a dense Wernickes aphasia. Injections into the left frontal regions, however, resulted in right paresis in all patients, but no language deficits including no loss of fluency. In Experiment 2, Patient 2 underwent fMRI activation for spontaneous word-list generation using multi-slice echo planar BOLD techniques at 1.5 Tesla. A voxel-by-voxel comparison of rest vs activation for each task was performed with a Z-score threshold of 2.5 SD for activated voxels. There was activation in the right hemisphere in the insula, frontal operculum pars opercularis, and inferior frontal gyrus, an area homologous to Brocas area in the left hemisphere. There was also activation in the left hemisphere in the Rolandic region, but language function was unaffected during Wada testing in this area. These data suggested that features of expressive language were no longer controlled by the left frontal lobe where the AVM was located, and provided new evidence for interhemispheric re-organization under conditions of chronic neurovascular disease.

Isolated Cerebral Hypothermia by Single Carotid Artery Perfusion of Extracorporeally Cooled Blood in Baboons

OBJECTIVE Hypothermia has been demonstrated to protect the brain from ischemic or traumatic injury. Previous efforts to induce cerebral hypothermia have relied on techniques requiring total body cooling that have resulted in serious cardiovascular derangements. A technique to selectively cool the brain, without systemic hypothermia, may have applications for the treatment of neurological disease. METHODS After induction of general anesthesia in 12 baboons, the right common carotid artery and ipsilateral femoral artery were each occlusively cannulated and joined to a centrifugal pump. In a closed-circuit system, blood was continually withdrawn from the femoral artery, cooled by water bath, and infused through the common carotid artery with its external branches occluded. Pump flow was varied so that right carotid pressure approximated systemic blood pressure. In six animals, perfusate was cooled to decrease right cerebral temperature to < 19 degrees C for 30 minutes. In six animals, right cerebral temperature was decreased to < 25 degrees C for 3 hours. In those six animals, 133Xe was injected into the right carotid artery before, during, and after hypothermia. Peak radioactivity and washout curves were recorded from bilateral cranial detectors. Systemic warming was accomplished by convective air and warm water blankets. Esophageal, rectal, and bilateral cerebral temperatures were continuously recorded. RESULTS In animals cooled to < 19 degrees C, right cerebral temperature decreased from 34 degrees C to 18.5 +/- 1.1 degrees C (mean +/- standard deviation), P < 0.01, in 26 +/- 13 minutes. Simultaneously, left cerebral temperature decreased to 20.7 +/- 1.6 degrees C. During 30 minutes of stable cerebral hypothermia, esophageal temperature decreased from 35.1 +/- 2.3 degrees C to 34.2 +/- 2.2 degrees C, P < 0.05. In animals cooled to < 25 degrees C, right cerebral temperature decreased from 34 degrees C to 24.5 +/- 0.6 degrees C in 12.0 +/- 6.0 minutes, P < 0.01. Simultaneously, left cerebral temperature decreased to 26.3 +/- 4.8 degrees C. After 3 hours of stable cerebral hypothermia, esophageal temperature was 34.4 +/- 0.5 degrees C, P < 0.05. Right hemispheric cerebral blood flow decreased during hypothermia (26 +/- 16 ml/min/100 g) compared to values before and after hypothermia (63 +/- 29 and 51 +/- 34 ml/min/100 g, respectively; P < 0.05). Furthermore, hypothermic perfusion resulted in a proportionally increased radioactivity peak detected in the left cerebral hemisphere after right carotid artery injection of 133Xe (0.8 +/- 0.2:1, left:right) compared to normothermia before and after hypothermia (0.3 +/- 2 and 0.3 +/- 1, respectively; P < 0.05). Normal heart rhythm, systemic arterial blood pressure, and arterial blood gas values were preserved during hypothermia in all animals. CONCLUSION Bilateral cerebral deep or moderate hypothermia can be induced by selective perfusion of a single internal carotid artery, with minimal systemic cooling and without cardiovascular instability. This global brain hypothermia results from profoundly altered collateral cerebral circulation during artificial hypothermic perfusion. This technique may have clinical applications for neurosurgery, stroke, or traumatic brain injury.

Cerebral Hyperemia after Arteriovenous Malformation Resection Is Related to “Breakthrough” Complications but Not to Feeding Artery Pressure

To study the pathophysiology of idiopathic postoperative brain swelling or hemorrhage after arteriovenous malformation resection, termed normal perfusion pressure breakthrough (NPPB), we performed cerebral blood flow (CBF) studies during 152 operations in 143 patients, using the xenon-133 intravenous injection method. In the first part of the study, CBF was intraoperatively measured (isoflurane/N2O anesthesia) during relative hypocapnia in 95 patients before and after resection. The NPPB group had a greater increase (P < 0.0001) in mean +/- standard deviation global CBF (28 +/- 6 to 47 +/- 16 ml/100 g/min, n = 5) than did the non-NPPB group (25 +/- 7 to 29 +/- 10 ml/100 g/min, n = 90); both arteriovenous malformation groups showed greater increase (P < 0.05) than did controls undergoing craniotomy for tumor (23 +/- 6 to 23 +/- 6 ml/100 g/min, n = 22). Ipsilateral and contralateral CBF changes were similar. In a second cohort of patients with arteriovenous malformations, CBF was measured at relative normocapnia and it increased (P < 0.002) from pre- to postresection (40 +/- 13 to 49 +/- 15 ml/100 g/min, n = 57). There were no NPPB patients in this latter cohort. The feeding mean arterial pressure was measured intraoperatively before resection or at the last embolization before surgery (n = 64). The feeding mean arterial pressure (44 +/- 16 mm Hg) was 56% of the systemic arterial pressure (78 +/- 12 mm Hg, P < 0.0001) and was not related to changes in CBF from pre- to postresection. There was an association between increases in global CBF from pre- to postresection and NPPB-type complications, but there was no relationship of these CBF changes to preoperative regional arterial hypotension. These data do not support a uniquely hemodynamic mechanism that explains cerebral hyperemia as a consequence of repressurization in hypotensive vascular beds.

A Prospective Evaluation of Clinical Tests for Placement of Laryngeal Mask Airways

Background Reliable tests of correct anatomic placement of the laryngeal mask airway (LMA) may enhance safety during use and minimize the need for fiberoptic instrumentation during airway manipulation through the device. This study assessed the correlation between the outcomes of nine clinical tests to place the LMA and the anatomic position of the device as graded on a standard fiberoptic scale. Methods During 150 anesthetics, the outcome of nine clinical tests of correct placement was individually scored as satisfactory (positive) or unsatisfactory (negative) for clinical use of the LMA. Anatomic placement was assessed (by fiberoptic evaluation) by an anesthesiologist, who was blinded to the placement of the device, as grade 1, vocal cords not seen; grade 2, cords plus the anterior epiglottis seen; grade 3, cords plus the posterior epiglottis seen; and grade 4, only vocal cords seen. The outcomes of clinical tests were correlated with fiberoptic grade. Results Tests that correlated with the fiberoptic grade were the ability to generate an airway pressure of 20 cm water, the ability to ventilate manually, a black line on the LMA in midline, anterior movement of the larynx, outward movement of the LMA on inflation of the cuff, and movements of the reservoir bag with spontaneous breathing. Two tests, ability to generate airway pressure of 20 cm water and ability to ventilate manually, correlated with fiberoptic grades 4 and 3 combined (i.e., the epiglottis was supported by the LMA) and grade 2 (the epiglottis was not supported by the LMA). Tests with poor correlation with fiberoptic grade were the presence of resistance at the end of insertion, inability to advance LMA after inflation of the cuff, and presence of a capnographic trace. Conclusions The outcome of clinical tests correlates with the anatomic placement of LMAs, as judged by fiberoptic examination. Two tests that best correlated with the fiberoptic grade were the ability to generate airway pressure of 20 cm water and the ability to ventilate manually.

Cerebral Blood Flow Reactivity to Changes in Carbon Dioxide Calculated Using End-Tidal versus Arterial Tensions

We retrospectively examined arterial and endtidal estimations of CO2 tension used to calculate cerebrovascular reactivity in 68 anesthetized patients. CBF was measured using the intravenous 133Xe technique at mean ± SD Paco2 values of 28.2 ± 5.2 and 38.8 ± 4.8 mm Hg. The correlation between all Paco2 and end-tidal Pco2 (Petco2) values was y = 0.85x −0.49 (r = 0.93, p = 0.0001). There was a moderate correlation between age and the difference between Paco2 and Petco2 (y = 0.11x + 0.79; r = 0.73, p = 0.0001). Cerebrovascular reactivity to changes in CO2 (ml 100 g−1 min−1 mm Hg−1) was similar (p = 0.358) when calculated by using either Paco2 (1.9 ± 0.8) or Petco2 (1.8 ± 0.8) and highly correlated (y = 0.86x + 0.23; r = 0.91, p = 0.0001). The CBF response to changes in CO2 tension can be reliably estimated from noninvasive measurement of Petco2.

Treatment of inoperable carotid aneurysms with endovascular carotid occlusion after extracranial-intracranial bypass surgery.

OBJECTIVE Hunterian ligation of the internal carotid artery (ICA) is an accepted treatment for inoperable carotid aneurysms. Preliminary extracranial-intracranial (EC-IC) bypass surgery is required in some patients. The reported incidence of thromboembolic and ischemic complications remains significant for these patients, despite a variety of advocated management strategies. We present our treatment paradigm. METHODS Between April 1992 and March 1997, nine patients with inoperable ICA aneurysms were treated using EC-IC bypass surgery and then permanent endovascular ICA occlusion. All of the patients except one had been selected for bypass surgery on the basis of failing results of the ICA test occlusion with hypotensive challenge. ICA occlusion was performed by endovascular means and was delayed after bypass surgery was performed by a mean of 6 days (range, 2-20 d). All patients were managed in the intensive care unit after ICA occlusion. RESULTS Clinical improvement was noted in all patients (mean follow-up, 21 mo; range, 3-42 mo). There were no major complications. Aneurysmal thrombosis was confirmed in all patients. Although ICA occlusion was delayed after bypass surgery, only one bypass was noted to be occluded. The occluded bypass occurred in a patient who subsequently underwent successful ICA occlusion. This patient was thought to have been improperly selected for bypass surgery. CONCLUSION Certain carotid aneurysms can be effectively managed with hunterian ICA ligation. After preliminary identification of patients with borderline cerebrovascular reserve as candidates for EC-IC bypass surgery, close attention to the following points may help enhance clinical outcome: 1) excellence in surgical technique for EC-IC bypass surgery, 2) occlusion of the parent vessel as close to the aneurysm neck as possible by endovascular means, and 3) judicious postoperative combination of anticoagulation, fluid, and pressure management.

Cerebral Blood Flow during Low-flow Hypeithermic Cardiopulmonary Bypass in Baboons

BackgrortndNeurologic injury after cardiopulmonary bypass (CPB) is a frequent and devastating complication of cardiothoracic surgery. Disordered cerebral hemodynamics during CPB has been implicated as an important factor in the etiology of these injuries. Evidence of disordered cerebral hemodynamics includes reports of a progressive time-dependent decrease in cerebral blood flow (CBF) during stable full-flow CPB. Low-flow hypothermic CPB has become a preferred technique for the management of pediatric patients undergoing surgical repair of complex cardiac lesions. Because CBF is already substantially reduced with the onset of low-flow CPB, we determined if a similar progressive decline in CBF occurs during the low-flow state. MethodsAfter induction of general anesthesia in seven baboons, CPB was instituted. a-Stat management of arterial blood gases was used. Animals were cooled at a pump flow rate of 2.51·min−1 m−2 until tympanic membrane temperature decreased to l8°C. CPB flow was then reduced to 0.51 min−1 m−2 and maintained constant for at least 77 min. Thereafter, CPB flow was increased to 2.51· min−1 m−2 and baboons rewarmed to normal temperature. CPB was discontinued after return of cardiac function. CBF was measured before, during and after CPB by washout of intraarterial xenon 133. ResultsLow-flow CPB resulted in a decrease in CBF to about 50% of the prebypass rate and about 30% of the value measured during full-flow CPB. Sequential measurements of CBF at 30-min intervals during low-flow CPB showed no time-dependent change in cerebral perfusion. ConclrtsionsAlthough systemic flow is reduced to 20% of full-flow during low-flow CPB, CBF reduced by half is disproportionately preserved relative to systemic flow. Furthermore, there is no time-dependent change in CBF under these lowflow conditions.

Adenosine-induced cardiac pause for endovascular embolization of cerebral arteriovenous malformations: technical case report.

OBJECTIVE Extremely high flow through arteriovenous malformations (AVMs) may limit the safety and effectiveness of endovascular glue therapy. To achieve a more controlled deposition of glue, we used transient but profound systemic hypotension afforded by an intravenously administered bolus of adenosine to induce rapidly reversible high-degree atrioventricular block. METHODS AND CASE REPORT A patient with a large high-flow occipital AVM fed primarily by the posterior cerebral artery underwent n-butyl cyanoacrylate glue embolization. Nitroprusside-induced systemic hypotension did not adequately reduce flow through the nidus, as determined by contrast injection in the feeding artery. In a dose-escalation fashion, boluses of adenosine were administered to optimize the dose and verify that there was no flow reversal in the AVM and no other unexpected hemodynamic abnormalities by arterial pressure measurements and transcranial Doppler monitoring of the posterior cerebral artery feeding the AVM. Thereafter, 64 mg of adenosine was rapidly injected as a bolus to provide 10 to 15 seconds of systemic hypotension (approximately 20 mm Hg). Although there were conducted beats and some residual forward flow through the AVM during this time, the mean systemic and feeding artery pressures were roughly similar and remained relatively constant. A slow controlled injection of n-butyl cyanoacrylate glue was then performed, with excellent filling of the nidus. CONCLUSION Adenosine-induced cardiac pause may be a viable method of partial flow arrest in the treatment of cerebral AVMs. Safe, deep, and complete embolization with a permanent agent may increase the likelihood of endovascular therapys being curative or may further improve the safety of microsurgical resection.