Predictive value of dobutamine stress echocardiography for coronary artery disease detection in liver transplant candidates

Patients with obstructive coronary artery disease (CAD) undergoing orthotopic liver transplantation (OLT) are at increased risk of poor outcomes. The accuracy of dobutamine stress echocardiography (DSE) to detect obstructive CAD is not well established in this population. We retrospectively identified patients with end-stage liver disease who underwent both DSE and coronary angiography as part of risk stratification prior to OLT. One hundred and five patients had both DSE and angiography, of whom 14 had known CAD and 27 failed to reach target heart rate during DSE. Among the remaining 64 patients (45 men; average age 61 +/- 8 years) DSE had a low sensitivity (13%), high specificity (85%), low positive predictive value (PPV) (22%) and intermediate negative predictive value (NPV) (75%) for obstructive CAD. DSE as a screening test for obstructive CAD in OLT candidates has a poor sensitivity. The frequent chronotropic incompetence and low sensitivity in patients who achieve target heart rate, even in those with multiple cardiovascular disease risk factors, suggest that alternative or additional methods of risk stratification are necessary.

Indomethacin prevents the development of experimental ammonia-induced brain edema in rats after portacaval anastomosis

Patients with fulminant hepatic failure (FHF) die with brain edema, exhibiting an increased cerebral blood flow (CBF) at the time of cerebral swelling. Mild hypothermia prevents brain edema in experimental models and in humans with FHF, an effect associated with normalization of CBF. To study the effects of alterations of CBF on the development of brain edema, we administered intravenous (IV) indomethacin to rats receiving an ammonia infusion after portacaval anastomosis. This model predictably develops brain edema and a marked increase in CBF at 3 hours of infusion. Brain water was measured with the gravimetry technique; CBF was monitored with both laser Doppler flowmetry and radioactive microspheres, whereas intracranial pressure (ICP) was monitored with a cisterna magna catheter. Coadministration of indomethacin prevented the increase in CBF seen with ammonia alone (110 +/- 19% vs. -2 +/- 9%) as well as the increase in brain water (80.86 +/- 0.12% vs. 80.18 +/- 0.06%) and the increase in ICP. Plasma ammonia and brain glutamine levels were markedly elevated in the ammonia-infused group and unaffected by indomethacin. However, ammonia uptake by the brain was significantly reduced by indomethacin. Levels of 6-keto-PGF(1alpha), a stable metabolite of prostacyclin, were reduced in the cerebrospinal fluid (CSF) of indomethacin-treated animals. As with mild hypothermia, avoiding cerebral vasodilatation with indomethacin will prevent the development of brain edema in this hyperammonemic model. Cerebral vasoconstriction reduces cerebral ammonia uptake and, if selective to the brain, may be of benefit in FHF.

Monitoring of brain water by chemical shift imaging during ammonia-induced brain swelling in rats after portacaval anastomosis

Brain edema is a leading cause of death in acute liver failure (ALF). In experimental models of ALF, an increase in the content of brain water has been inferred indirectly by measuring intracranial pressure or determined directly via analysis of brain tissue postmortem. In this study, noninvasive proton two-dimensional chemical shift imaging (2-D CSI) was used to follow the time course of the development of brain edema in a well characterized model, namely ammonium acetate infusion into rats 48 to 72 h after portacaval anastomosis (PCA). Clear differences between control and experimental rat brains were observed, with an increase of brain water signal only in the parietal cortex of the PCA + ammonia group. Selective swelling of the cerebral cortex points to a cytotoxic mechanism in the evolution of brain edema in this model. CSI signal enhancement was much greater than the gravimetrically determined water content increase. The significantly greater signal change observed with 2-D CSI may reflect enhanced proton density that results from increased water content as well as edema-related alterations in water relaxation times.

Hepatic Encephalopathy

1. Acute Encephalopathy in Cirrhosis A. GENERAL MEASURES. Tracheal intubation in patients with deep encephalopathy should be considered. A nasogastric tube is placed for patients in deep encephalopathy. Avoid sedatives whenever possible. Correction of the precipitating factor is the most important measure. B. SPECIFIC MEASURES i. Nutrition. In case of deep encephalopathy, oral intake is withheld for 24-48 h and i.v. glucose is provided until improvement. Enteral nutrition can be started if the patient appears unable to eat after this period. Protein intake begins at a dose of 0.5 g/kg/day, with progressive increase to 1-1.5 g/kg/day. ii. Lactulose is administered via enema or nasogastric tube in deep encephalopathy. The oral route is optimized by dosing every hour until stool evacuation appears. Lactulose can be replaced by oral neomycin. iii. Flumazenil may be used in selected cases of suspected benzodiazepine use. 2. Chronic Encephalopathy in Cirrhosis i. Avoidance and prevention of precipitating factors, including the institution of prophylactic measures. ii. Nutrition. Improve protein intake by feeding dairy products and vegetable-based diets. Oral branched-chain amino acids can be considered for individuals intolerant of all protein. iii. Lactulose. Dosing aims at two to three soft bowel movements per day. Antibiotics are reserved for patients who respond poorly to disaccharides or who do not exhibit diarrhea or acidification of the stool. Chronic antibiotic use (neomycin, metronidazole) requires careful renal, neurological, and/or otological monitoring. iv. Refer for liver transplantation in appropriate candidates. For problematic encephalopathy (nonresponsive to therapy), consider imaging of splanchnic vessels to identify large spontaneous portal-systemic shunts potentially amenable to radiological occlusion. In addition, consider the combination of lactulose and neomycin, addition of oral zinc, and invasive approaches, such as occlusion of TIPS or surgical shunts, if present. Minimal or Subclinical Encephalopathy Treatment can be instituted in selected cases. The most characteristic neuropsychological deficits in patients with cirrhosis are in motor and attentional skills (60). Although these may impact the ability to perform daily activities, many subjects can compensate for these defects. Recent studies suggest a small but significant impact of these abnormalities on patients' quality of life (61), including difficulties with sleep (62). In patients with significant deficits or complaints, a therapeutic program based on dietary manipulations and/or nonabsorbable disaccharides may be tried. Benzodiazepines should not be used for patients with sleep difficulties.

Pathophysiology of brain edema in fulminant hepatic failure, revisited

We have proposed a combined osmolar-hemodynamic disturbance to explain the presence of brain edema in fulminant hepatic failure, a major cause of death in this disorder. The concept of an osmotic disturbance in the brain, emphasizing the presence of astrocyte swelling and low-grade cerebral edema, has been expanded to the entire spectrum of liver disease. The mechanism of cerebral hyperemia in patients with FHF and brain swelling has been studied in experimental models linking hyperammonemia and glutamine generation in astrocytes to the development of this hemodynamic alteration. Measures to control cerebral hyperemia, such as mild hypothermia, are effective in preventing the development of brain edema in experimental models as well as intracranial hypertension in human disease.

Body mass index as a predictor of hepatic steatosis in living liver donors

Evaluation of the living donor for liver transplantation is a complex process involving such invasive studies as liver biopsy and angiography. It is important to establish the likelihood and extent of hepatic steatosis in living donors by clinical, imaging, and biochemical parameters to avoid performing a liver biopsy, if possible. In this study, the predictive value of body mass index (BMI), liver chemistry tests, and imaging studies was compared with liver histological examination in 33 potential living donors. Patients were grouped and compared based on their BMI (<25, 25 to 28, >28). No patient with a BMI less than 25 had hepatic steatosis. Of patients with a BMI of 25 to 28, steatosis was found on biopsy in 3 of 9 patients. Thirteen of 17 patients (76%) with a BMI greater than 28 had hepatic steatosis on liver biopsy. There was a significant correlation between BMI and overall grade of steatosis (R = 0.49). All subjects with steatosis detected on magnetic resonance imaging (MRI) or computed tomography (CT) had steatosis on biopsy, and all but 2 such patients had greater than 10% steatosis on biopsy. Conversely, 30% of patients in the MRI group and 24% of patients in the CT group failed to show hepatic steatosis when it was present on biopsy. Thus, it appears that liver biopsy could be avoided in subjects with a normal BMI and absence of risk factors. Individuals with a high BMI should undergo liver biopsy because biochemical and imaging data are currently inadequate to determine the extent of steatosis. Future studies should aim at improving the sensitivity of imaging techniques in the diagnosis of steatosis.

Cerebral hyperemia and nitric oxide synthase in rats with ammonia-induced brain edema

BACKGROUND/AIM

Brain edema is a common fatal complication in acute liver failure. It is related to an acute change in brain osmolarity secondary to the glial accumulation of glutamine. Since high cerebral blood flow (CBF) precedes cerebral herniation in fulminant hepatic failure we first determined if an increase in brain water and glutamine are prerequisite to a rise in CBF in a model of ammonia-induced brain edema. Secondly, we determined if such a cerebral hyperperfusion is mediated by nitric oxide synthase (NOS).

METHODS

Male rats received an end-to-side portacaval anastomosis (PCA). At 24 h, they were anesthetized with ketamine and infused with ammonium acetate (55 microM/kg per min). Studies were performed at 60, 90, 120, 150 and 180 min after starting the ammonia infusion and once the intracranial pressure had risen three-fold (mean 210'). Brain water (BW) was measured using the gravimetry method and CBF with the radioactive microsphere technique. Glutamine (GLN) in the CSF was sampled via a cisterna magna catheter. The neuronal NOS was specifically inhibited by 1-2-trifluoromethylphenyl imidazole (TRIM, 50 mg/kg intraperitoneally) and in separate studies nonspecifically by N-omega-nitro-L-arginine (L-NNA, 2 microg/kg per min intravenously)

RESULTS

At 90', brain water was significantly increased (P < 0.015) as compared to the 60' group while CBF was significantly different at 150'. A significant correlation was observed between values of CBF and brain water (r = 0.88, n = 36, P < 0.001). Administration of either TRIM or L-NNA did not prevent the development of cerebral hyperperfu. sion and edema.

CONCLUSION

We observed that cerebral hyperemia follows an initial rise in brain water content, rather than in the cerebrospinal fluid concentration of glutamine. The rise in CBF further correlated with brain water accumulation and was of critical importance for the development of intracranial hypertension. The unique mechanism for the rise in CBF in hyperammonemia was not prevented by NOS inhibition indicating that NO is not the mediator of high CBF and intracranial hypertension.

Diagnosis and treatment of hepatic encephalopathy

Hepatic encephalopathy arises from the combination of hepatocellular dysfunction and portal-systemic shunting. Encephalopathy is more prominent in advanced stages of liver cirrhosis and signals the presence of fulminant hepatic failure in patients with acute liver injury. As important as the extent of shunting is the presence of large spontaneous collaterals. Ammonia continues to be a leading toxin influencing brain function. Endogenous benzodiazepines and cytokines may contribute to one of ammonia's key effects in the brain: astrocyte swelling. The diagnosis of hepatic encephalopathy is a diagnosis of exclusion; the search for a precipitating factor should be started immediately in all cases of encephalopathy. The treatment of hepatic encephalopathy has three aims: decrease the nitrogenous load from the gut, improve the extra-intestinal elimination of ammonia and counteract central abnormalities of neurotransmission. The mainstay of treatment is directed at the colon. Newer approaches targeting the brain, such as flumazenil, have become available.

Intensive care management of patients with acute liver failure with emphasis on systemic hemodynamic instability and cerebral edema: a critical appraisal of pathophysiology

Acute liver failure (ALF) is a devastating disease leading to multiorgan dysfunction. The most dramatic impact of ALF is on the brain, as hepatic encephalopathy and intracranial hypertension (IH) develop. IH is associated with systemic hemodynamic instability, alterations in the regulation of cerebral blood flow and the development of cerebral edema. This review focuses on the pathophysiology of IH with special emphasis on cerebral blood flow and the development of cerebral edema. Based on these considerations, both traditional and new treatments for the management of IH in the future are discussed.

Current status of liver support systems

The search for a support system for liver failure has been intensified. Methods currently being tested include those based on artificial support, on biological approaches (including extracorporeal liver perfusion and transplanted hepatocytes) as well as hybrid devices that combine artificial aspects with biological systems. Each of these three areas is undergoing fast technological and conceptual development. Controlled clinical trials are also under way.

Intrahepatic portal-hepatic venous anastomosis: a portal-systemic shunt with neurological repercussions

Intrahepatic shunts are rarely diagnosed as a cause of neurocognitive abnormality. A complaint of fatigue led to the diagnosis of a right portal vein-hepatic vein aneurysmal communication in a 23-yr-old, otherwise healthy woman. Neuropsychological testing, imaging, and MR spectroscopy revealed changes similar to those described in patients with cirrhosis and subclinical hepatic encephalopathy. T1-weighted MRI showed a hyperintense globus pallidus, a feature seen in subjects with and without portal-encephalopathy. Portal-systemic shunting in the absence of parenchymal liver disease reproduces neurological features described in cirrhosis.

Cerebral blood flow and the development of ammonia-induced brain edema in rats after portacaval anastomosis

Two mechanisms may account for brain edema in fulminant hepatic failure: the osmotic effects of brain glutamine, a product of ammonia detoxification, and a change of cerebral blood flow (CBF). We have shown brain edema, a marked increase in brain glutamine, and a selective rise in CBF in rats after portacaval anastomosis receiving an ammonia infusion. In this study, we inhibited the activity of glutamine synthetase with methionine-sulfoximine (MSO) and examined ammonia levels, brain water and CBF. Four groups received either a continuous ammonium acetate or control infusion; half of the animals had been pretreated with MSO or vehicle. The ammonia group exhibited brain edema (79.97 +/- 0.04 vs. 81.11 +/- 0. 13% water), an increase in cerebrospinal fluid (CSF) glutamine (1.29 +/- 0.21 vs. 2.84 +/- 0.39 mmol/L) and CBF (63 +/- 11 vs. 266 +/- 45 mL/min/100 g brain). When MSO was added to the ammonia infusion, ammonia levels rose further (928 +/- 51 vs. 1,293 +/- 145 mmol/L, P <.05) but CSF glutamine decreased (2.84 +/- 0.39 vs. 1.61 +/- 0.2 mmol/L, P <.01). Brain edema (80.48 +/- 0.11%) and cerebral hyperemia (140 +/- 25 mL/min/100 g brain) were significantly ameliorated in the ammonia plus MSO group. Brain output of circulating nitric oxide (NO(x)) was increased in the ammonia-infused group but normalized in the ammonia plus MSO group. In this model, the rise of CBF reflects intracranial events that occur after glutamine synthesis. Activation of nitric oxide synthase in the brain could account for these findings.

Mild hypothermia modifies ammonia-induced brain edema in rats after portacaval anastomosis

BACKGROUND & AIMS

The pathogenesis of brain edema in fulminant hepatic failure is still unresolved. Mild hypothermia (33 degrees-35 degreesC) can ameliorate brain edema after traumatic brain injury. We evaluated mild hypothermia in a model of ammonia-induced brain edema in which accumulation of brain glutamine has been proposed as a key pathogenic factor.

METHODS

After portacaval anastomosis, anesthetized rats were infused with ammonium acetate at 33 degrees, 35 degrees, and 37 degreesC or vehicle at 37 degreesC. Water and glutamine levels in the brain, cardiac output, and regional and cerebral hemodynamics were measured when intracranial pressure increased 3-4-fold (ammonia infusion at 37 degrees) and matched times (other groups).

RESULTS

Mild hypothermia reduced ammonia-induced brain swelling and increased intracranial pressure. Brain glutamine level was not decreased by hypothermia. Brain edema was accompanied by a specific increase in cerebral blood flow and oxygen consumption, which were normal in both hypothermic groups. When the ammonia infusion was continued in hypothermic rats, plasma ammonia levels continued to increase and brain swelling eventually developed.

CONCLUSIONS

Mild hypothermia delays ammonia-induced brain edema. In this model, an increase in cerebral perfusion is required for brain edema to become manifest. Mild hypothermia could be tested for treatment of intracranial hypertension in fulminant hepatic failure.

Chronic hyponatremia exacerbates ammonia-induced brain edema in rats after portacaval anastomosis

BACKGROUND/AIM

Abnormalities in brain organic osmolytes are associated with hepatic encephalopathy and with chronic hyponatremia. In spite of the high frequency of hyponatremia in acute and chronic hepatic failure, its role in the development of neurological complications in liver disease is poorly understood. We aimed to study the effect of prior hyponatremia on the development of ammonia-induced brain edema in rats after portacaval anastomosis. In this model, brain swelling is mediated in part through an increase in brain glutamine, an organic osmolyte.

METHODS

Hyponatremia was induced in rats with 1-desamino-8-D-arginine vasopressin (DDAVP) administered through an osmotic minipump for 1 week. This was followed by performance of a portacaval anastomosis and ammonia infusion. At the end of the infusion, brain water (density gradient) and key brain organic osmolytes (HPLC) were measured.

RESULTS

Rats with hyponatremia showed a decrease in all three brain organic osmolytes measured: glutamine, myo-inositol and taurine. Hyperammonemia resulted in the expected rise in glutamine, with a reduction of myo-inositol and taurine. In the combined group (hyponatremia plus hyperammonemia), the rise in brain glutamine induced by ammonia infusion was attenuated (10.6+/-0.9 mM/kg vs. 15.5+/-0.8 mM/kg hyperammonemia alone; p<0.05). In spite of this limited rise in brain glutamine, ammonia infusion to hyponatremic rats exacerbated brain swelling (82.3+/-0.3% vs. 80.6+/-0.1%; p<0.05).

CONCLUSIONS

Hyponatremia worsens brain swelling in a model of ammonia-induced brain edema. The decrease in the concentration of brain organic osmolytes induced by hyponatremia does not protect the brain from the development of ammonia-induced brain edema.

High prevalence of sleep disturbance in cirrhosis

Sleep disturbance is a classic sign of hepatic encephalopathy. However, there are limited data regarding its prevalence in cirrhotic patients without overt hepatic encephalopathy. We assessed the characteristics of sleep in cirrhosis using a sleep questionnaire (n = 44) and actigraphy (n = 20). The results were compared with those of subjects with chronic renal failure and those of healthy controls. Presence of subclinical hepatic encephalopathy, chronotypology profile, and individual's affective state were also analyzed. The questionnaire indicated an elevated number of cirrhotic patients (47.7%) and patients with chronic renal failure (38.6%) who complained of unsatisfactory sleep compared with healthy controls (4.5%, P < .01). Actigraphy corroborated the deterioration of sleep parameters in cirrhotic patients with unsatisfactory sleep. The sleep disturbance in cirrhosis was not associated with clinical parameters nor with cognitive impairment. Cirrhotic subjects and patients with chronic renal failure with unsatisfactory sleep showed higher scores for depression and anxiety, raising the possibility that the effects of chronic disease may underlie the pathogenesis of sleep disturbance. However, in contrast to chronic renal failure, unsatisfactory sleep in cirrhosis was associated with delayed bedtime, delayed wake-up time, and evening chronotypology. In conclusion, a sleep disturbance is frequent in cirrhotic patients without hepatic encephalopathy and may be related to abnormalities of the circadian timekeeping system.

Stenosis of a portacaval anastomosis affects circadian locomotor activity in the rat: a multivariable analysis

The study of hepatic encephalopathy is limited by the lack of standardized experimental models to assess behavior. We have shown that rats continuously monitored while running on a wheel show abnormalities of the circadian rhythm of locomotor activity after portacaval anastomosis (PCA), such that entrainment of running activity to the light-dark cycle is severely impaired. To identify factors that affect postoperative circadian behavior, we have performed a multivariable analysis of 69 sham-operated controls and 107 rats after PCA. Our results indicate that shunt stenosis, as determined by the pressure gradient from the splenic pulp to the inferior vena cava, ameliorated the postoperative deterioration of the circadian rhythm. In addition, postoperative behavior was affected by preoperative performance, diet, and gender. Postoperative body weight gain, spleen weight, and liver atrophy did not impact this model. Because shunt stenosis is known to ameliorate hepatic encephalopathy in humans, our findings support the validity of this behavioral end point as a correlate of hepatic encephalopathy. Measurement of the pressure gradient across the anastomosis and achievement of sufficient preoperative entrainment appear critical for the standardization of the model.

[Changes in the 24-hour rhythm of plasma melatonin in patients with liver cirrhosis--relation to sleep architecture]

OBJECTIVE

To assess the 24 hr plasma melatonin profile as a marker of the output rhythm from the circadian clock and to study sleep diaries as reflection of subjective sleep quality in patients with liver cirrhosis.

DESIGN

Prospective cohort study.

PATIENTS

A total of 14 subjects, 7 non-alcoholic cirrhotics and 7 age-, sex-, and educationally-matched controls. Exclusion criteria were factors that could affect melatonin levels (intercontinental travel, shift work, therapy with betablockers or corticosteroids).

MEASUREMENTS

Plasma melatonin was measured every 30 min for 24 hr by radioimmuno assay and sleep recordings by polysomnography. Neuropsychological testing included visual reaction time. Trailmaking test A and B and the Digit Symbol Test. Sleep diaries were kept for the week prior to admission.

RESULTS

Time of onset of melatonin rise was displaced from 19:50 +/- 26 min in the controls to 21:30 +/- 13 min (p = 0.013) in patients with liver cirrhosis. The time of peak melatonin levels was consistently and significantly delayed from 00:36 +/- 33 min in controls to 5:36 +/- 29 min (p < 0.001) in patients. Cirrhotic subjects showed markedly elevated melatonin levels during daytime, when melatonin is normally absent. Polysomnographic tracings showed no differences in patients and controls, but sleep diaries indicated more frequent nocturnal awakenings (p = 0.05) and daytime naps.

CONCLUSIONS

A marked alteration of plasma melatonin rhythm is found in cirrhotic patients with subclinical hepatic encephalopathy. This disruption may reflect changes in the output of the circadian pacemaker located in the suprachiasmatic nucleus (SCN) of the hypothalamus. It is possible that some of the metabolic disturbances that lead to hepatic encephalopathy may also alter the function of the biological "clock".

A low-protein diet ameliorates disrupted diurnal locomotor activity in rats after portacaval anastomosis

In previous studies we noted a disruption of the circadian locomotor activity rhythm in rats after portacaval anastomosis (PCA). To examine whether this abnormality is related to factors that aggravate hepatic encephalopathy in humans, we studied the effect of dietary formulation and protein content on body weight, locomotor activity, and entrainment to the light-dark cycle in rats after PCA or sham operation. Postoperative weight loss was prevented by pair-feeding with a purified liquid diet. However, the behavioral abnormalities persisted in PCA rats fed a high-protein diet, with a reduction in total activity and entrainment to the light-dark cycle. These were ameliorated by a low dietary protein content. Since this treatment reduces the load of gut-derived nitrogenous substances that might alter brain metabolism, our data strengthen the hypothesis that the abnormal circadian activity patterns in PCA rats may be part of the spectrum of hepatic encephalopathy.

Glutamine, myo-inositol, and organic brain osmolytes after portocaval anastomosis in the rat: implications for ammonia-induced brain edema

Brain myo-inositol, an organic osmolyte, is decreased in cirrhotic patients with hepatic encephalopathy but appears unchanged in fulminant hepatic failure. An osmoregulatory response to the increase in brain glutamine may explain the decrease in brain myo-inositol; if this is the case, organic osmolytes may account for differences in the development of brain edema seen in acute or chronic liver failure. The response of myo-inositol and nine other organic osmolytes to the increase in brain glutamine at different time intervals after portacaval anastomosis (PCA) in the rat was studied. Organic osmolytes were measured in brain tissue and cerebrospinal fluid. Water in cerebral cortex was measured after ammonia infusion with the gravimetric method. Six weeks after PCA, despite an increase in brain glutamine (PCA, 16.4 +/- 2 mmol.kg wt-1.kg wt-1; sham, 5 +/- 1 mmol.L-1.kg wt-1), the content of total organic osmolytes did not increase (PCA, 44.1 +/- 3; sham, 43 +/- 4) because of a decrease of other osmolytes (myo-inositol, 54%; urea, 39%; taurine, 33%; and glutamate, 8%). Brain myo-inositol was lower at 3 weeks (3.4 +/- 0.5 kg wt-1) than at 1 day after PCA (4.7 +/- 0.5 kg wt-1). An ammonia infusion resulted in brain edema at both time points. In conclusion, the reduction in brain myo-inositol in PCA rats is accompanied by the decrease of other organic osmolytes, supporting the view that changes in myo-inositol reflect an osmoregulatory response. The decrease in brain myo-inositol is more marked as time elapses after PCA. In a model in which short-term and large doses of ammonia were infused, the decrease in brain myo-inositol did not prevent the development of brain swelling. Understanding brain osmoregulatory mechanisms may provide new insights into hepatic encephalopathy and brain edema in fulminant hepatic failure.

Neuropsychological characterization and detection of subclinical hepatic encephalopathy

OBJECTIVE

To elucidate the nature of the neuropsychological deficits associated with subclinical hepatic encephalopathy.

DESIGN

Prospective study comparing the performance of patients with liver disease and carefully matched normal controls on a short but comprehensive neuropsychological test battery.

SETTING

A university medical center.

PARTICIPANTS

Twenty patients with cirrhosis (10 alcoholic and 10 nonalcoholic) and 20 controls carefully matched on the basis of age, sex, education, and alcohol history.

RESULTS

The cirrhotic patients exhibited relatively selective deficits in complex attentional and fine motor skills, with preservation of general intellectual ability, memory, language and visuospatial perception.

CONCLUSIONS

This pattern of neuropsychological deficits suggests a subcortical pathophysiology, possibly reflecting involvement of the basal ganglia. These neuropsychological findings are consistent with recent neuroradiological, electrophysiological, and neurophysiological research implicating basal ganglia involvement in cirrhosis.

Determinants of ammonia clearance by hemodialysis

Ammonia toxicity appears to contribute to the genesis of brain edema, a leading cause of death in fulminant hepatic failure. Because dialysis has been recommended for acute hyperammonemia in other conditions, we have conducted a study to analyze the determinants of ammonia clearance with the use of a single-pass dialyzer. We have used an ionic solution with a constant concentration of ammonia to estimate clearance at different blood flow rates, at dialysate flow rates, and with different dialyzer surfaces. Once hemodialysis had been optimized, we estimated ammonia, glutamine, and urea removal by using a single-compartment model. Our results show that the clearance of ammonia is blood flow dependent and is also influenced by dialysate flow rate and dialyzer surface. At clinically feasible conditions, ammonia can be extracted by more than 80% by setting the dialysate flow at a high rate. In addition to ammonia removal, hemodialysis allows the clearance of urea and glutamine, molecules that can be regarded as ammonia equivalents and that also undergo flow-dependent elimination.

Subclinical encephalopathy

Subclinical hepatic encephalopathy (SHE)--cognitive deficits in the absence of overt encephalopathy--is frequently present in patients with cirrhosis. In the absence of biological correlates, diagnosis of SHE relies on psychometric tests. Attentional and motor abnormalities are the most common neurocognitive deficits. Sleep disturbances--a frequent complaint in cirrhosis--may be part of the spectrum of SHE. The impact of SHE on daily activities is controversial as patients may adapt their lives to cognitive limitations. Demanding activities, such as driving motor vehicles, may be impaired, though a blanket restriction appears premature. The benefit of treating SHE is not established. Antiencephalopathic drugs may be effective and can be considered in certain individuals.

Disruption of circadian locomotor activity in rats after portacaval anastomosis is not gender dependent

A recent study suggested that female rats are less affected by a portacaval anastomosis (PCA) than their male counterparts, as measured by body weight and changes in locomotor activity. In this study, we evaluated the entrainment of locomotor activity to the light/dark (LD) cycle, a consistent abnormality in the portacaval shunted rat. The degree of entrainment was measured in male and female rats before and after PCA or sham operation. All four groups of animals showed strong entrainment to an LD cycle before surgery. After portacaval anastomosis, male and female rats exhibited a highly significant decrease in overall motor activity as compared with the preoperative period and as compared with sham-operated animals of the same gender. The percentage of total activity during daytime was significantly increased after portacaval anastomosis. The reduction in parameters of entrainment indicates a disruption of circadian function in both portacaval-shunted groups. Portal pressure measurements confirmed the patency of the shunts. Cortical brain glutamine levels were similarly increased in male and female shunted rats. The loss of body weight was slightly, but not significantly, more pronounced in male animals after shunt surgery. In conclusion, our results do not support a role for gender in the disruption of circadian function in rats after PCA.

Disruption of the diurnal rhythm of plasma melatonin in cirrhosis

OBJECTIVES

To assess 24-hour plasma melatonin profile as a marker of output rhythm from the circadian clock and to study sleep diaries as reflections of subjective sleep quality in patients with liver cirrhosis.

DESIGN

Prospective cohort study.

SETTING

Clinical research center in a university hospital.

PATIENTS

Seven patients with cirrhosis but not alcoholism and seven age-, sex-, and education-matched controls.

MEASUREMENTS

Neuropsychological testing to confirm subclinical hepatic encephalopathy. Plasma melatonin levels measured every 30 minutes for 24 hours by radioimmunoassay. Sleep diaries kept for 1 week before admission.

RESULTS

Patients with cirrhosis had markedly elevated melatonin levels during daytime hours; in addition, the time of onset of melatonin increase and the time at which melatonin levels peaked were consistently and significantly delayed in these patients. Sleep diaries indicated more nocturnal awakenings and more frequent daytime naps in patients with cirrhosis.

CONCLUSION

Disruption of the diurnal rhythm of melatonin may reflect alterations of circadian function that could contribute to the disturbances of the sleep-wake cycle frequently seen in patients with cirrhosis.

Diagnosis and management of ascites in the age of TIPS

In the mid 1990s, radiologists are asked to provide advice on managing patients with cirrhosis and refractory ascites. Liver disease is the most common cause of ascites. However, appropriate management of these patients is based on the ability to exclude other causes as well as knowledge of the physiological abnormalities that result in ascites. The goal of this review is to summarize advances in these areas as well as to discuss therapeutic options.

Cerebral edema and intracranial pressure monitoring

With the wide acceptance of liver transplantation as a therapeutic alternative in fulminant hepatic failure (FHF), the successful management of patients with this syndrome has acquired a new urgency. Topping the list of medical problems is the development of brain swelling. Two decades after the recognition of its importance, brain edema and intracranial hypertension still constitute a major cause of death in these patients. In a more recent classification of FHF, brain edema was especially prominent in those subjects with "hyperacute failure," in whom a period of 7 days or less elapsed between the development of jaundice and encephalopathy. The goal of this review is to discuss two aspects of this clinical problem. On one hand, elucidation of its pathogenesis should lead to a more rational therapeutic approach; such an information would also be valuable to understand the relationship between hepatic encephalopathy and brain edema, a source of controversy. Studies of pathogenic mechanisms are difficult to perform in humans and animal models of FHF have proven valuable, as brain swelling can be detected with some regularity. On the other hand, an increasing array of techniques is now available in the intensive care setting to monitor patients with FHF. Of these, intracranial pressure monitoring has received the most critical attention. However, concerns with the risks of craniotomy and the need to acquire more dynamic information has led several groups to explore non-invasive methods that evaluate the consequences of intracranial hypertension. Their role, though potentially exciting, is still uncertain.

Brain edema and intracranial hypertension in rats after total hepatectomy

BACKGROUND/AIMS

Glutamine, generated from ammonia in astrocytes, may account for brain edema in acute liver failure. Recent studies showing decreased intracranial pressure after hepatectomy in humans suggest that factors released by the necrotic liver could play a pathogenic role in brain swelling. The aim of this study was to examine whether brain edema and intracranial hypertension develop in hepatectomized rats.

METHODS

Rats underwent a portacaval anastomosis or a sham operation. At 24 hours, animals underwent a second sham operation or a total hepatectomy. Intracranial pressure was continuously monitored, and cortical water and glutamine contents were measured after the rats were killed. In a second experiment, hepatectomized and devascularized (portacaval anastomosis plus hepatic artery ligation) rats were killed every 2 hours and at the time of intracranial hypertension.

RESULTS

Although brain edema developed in both groups with liver failure, devascularization resulted in a higher brain water content in spite of an equivalent increase in glutamine concentration. Intracranial pressure increased to a similar degree in both groups, but all parameters increased earlier in anhepatic rats.

CONCLUSIONS

Hepatectomized rats develop brain edema and intracranial hypertension. The temporal sequence in this model supports the role of glutamine as an organic osmolyte. In addition, other factors (e.g., brain volume) may contribute to intracranial hypertension in hepatectomized rats.

Fitness to drive in patients with cirrhosis and portal-systemic shunting: a pilot study evaluating driving performance

It has been suggested that some patients with cirrhosis are unfit to operate a motor vehicle. However, performance while driving a motor vehicle has not been evaluated in such patients. In this pilot study, we assessed the fitness to drive of stable individuals with cirrhosis and clinical evidence of portal hypertension, portal-systemic shunting and no prior history of hepatic encephalopathy. We examined 15 ambulatory patients with cirrhosis together with 15 age-, educational level- and driving experience-matched healthy controls. Neuropsychological testing was performed with the Reitan trail test, block design and digit symbol tests as well as visual reaction time. A driving test in the laboratory used a film to measure complex visual reaction time (reaction to road symbols) and threat recognition (accident avoidance). Driving on the road was assessed by a licensed Illinois state driving evaluator. Penalty points were given according to 11 standardized driving categories. As a group, patients with cirrhosis had no significant differences in their performance on a simulator or during actual driving conditions when compared to matched controls. Sixty-six percent of the subjects with cirrhosis had two or more abnormal neuropsychological tests, a criterion used to define the presence of subclinical encephalopathy. No deficiencies in simulated or real driving performance was seen when compared to patients with cirrhosis with normal neuropsychological tests. In this study, stable subjects with cirrhosis and evidence of portal hypertension, portal-systemic shunting, abnormal neuropsychological tests and no prior history of overt encephalopathy did not exhibit a major impairment in their fitness to drive.

Ammonia-induced brain edema and intracranial hypertension in rats after portacaval anastomosis

Brain edema, leading to intracranial hypertension and brain herniation, is a major cause of death in fulminant liver failure. Astrocyte swelling is a prominent neuropathological feature in experimental fulminant liver failure. It has been postulated that the osmotic effects of glutamine, generated in astrocytes from ammonia and glutamate in a reaction catalyzed by glutamine synthetase, could mediate brain swelling. Normal rats and rats that received a portacaval anastomosis were infused with ammonium acetate or a sodium acetate control; brain water in cerebral cortex was measured with the gravimetry method, intracranial pressure by means of a cisterna magna catheter and cortical amino acids using high-performance liquid chromatography. Although brain edema was detected in both groups receiving ammonia, it was of a greater magnitude in portacaval anastomosis rats (80.94% + 0.17% vs. 80.24% + 0.09%, p < 0.01), resulting in the development of intracranial hypertension. When portacaval anastomosis rats were infused with ammonium acetate and pretreated with 150 mg/kg methionine-sulfoximine, an inhibitor of glutamine synthetase activity, brain edema was ameliorated and intracranial pressure did not rise. A dose-dependent reduction in brain glutamine levels was seen with increasing doses of methionine-sulfoximine; however, brain edema did not decrease beyond the 150 mg/kg dose, suggesting that the increase in brain water was not solely a result of glutamine accumulation. We conclude that brain edema of a magnitude that results in intracranial hypertension is more likely to develop in rats after portacaval anastomosis receiving a continuous ammonia infusion. The osmotic effects of glutamine appear to mediate, but only in part, the increase in brain water seen in this preparation.(ABSTRACT TRUNCATED AT 250 WORDS)

Reduction of cerebral perfusion precedes rise of intracranial pressure in rats with ischemic fulminant liver failure

In fulminant liver failure, brain edema may progress to intracranial hypertension. However, the rise in intracranial pressure is a late event in this sequence. We investigated the relationship between cerebral perfusion and development of intracranial hypertension in a well-characterized model of fulminant liver failure, the rat subjected to hepatic devascularization (n = 11). In addition, we examined the effects of hyperglycemia on the development of brain edema because high blood glucose level can exacerbate other forms of brain edema, as seen in stroke. Intracranial pressure was continuously monitored with a cisterna magna catheter; relative changes in blood flow were continuously assessed with a Doppler flow probe on the internal carotid artery. Cerebral perfusion decreased by 62%, with the greatest reduction before the onset of increased intracranial pressure. Intracranial pressure did not change until 2 hr before death, at which time it increased exponentially. Brain water in fulminant liver failure rats was significantly increased compared with that in controls. Hyperglycemia (200 to 220 mg/dl) had no effect on time elapsed until loss of corneal reflex, percentage of brain water, maximal intracranial pressure or pattern of change in cerebral perfusion compared with euglycemia (80 to 100 mg/dl). Sham-operated animals showed no changes in measured parameters. We conclude that a linear reduction in cerebral perfusion precedes the rise of intracranial pressure in this model, a decrease that may reflect changes in brain metabolic activity at the time that brain edema develops. Carotid blood flow monitoring may be a useful noninvasive tool for the detection of cerebral events in fulminant liver failure.

Complications of intracranial pressure monitoring in fulminant hepatic failure

In patients with fulminant hepatic failure, brain oedema and the resulting intracranial hypertension often lead to death; intracranial pressure (ICP) monitoring may therefore be valuable. However, there is uncertainty about the hazards of implanting ICP monitoring devices. We carried out a survey of complications associated with ICP monitoring among centres performing liver transplantation in the USA (n = 262 patients). Epidural transducers were the most commonly used devices and had the lowest complication rate (3.8%); subdural bolts and parenchymal monitors (fibreoptic pressure transducers in direct contact with brain parenchyma and intraventricular catheters) were associated with complication rates of 20% and 22%, respectively. Fatal haemorrhage occurred in 1% of patients undergoing epidural ICP monitoring, whereas subdural and intraparenchymal devices had fatal haemorrhage rates of 5% and 4%. Thus, in the setting of fulminant hepatic failure, epidural transducers may be the safest choice for ICP monitoring, even though they are known to be less precise than the other devices.

Cerebral blood flow and the hyperdynamic circulation of rats after portacaval anastomosis

Both increased and decreased values of cerebral blood flow have been reported in liver disease. Furthermore, the relation between the cerebral circulation and the generalized hemodynamic disturbance seen in chronic liver disease with portal-systemic shunting has not been fully characterized. We studied this problem in a well defined model of the hyperdynamic circulation, the rat after portacaval anastomosis (PCA). Using the radioactive microsphere technique, cardiac output and regional blood flows were measured; regional vascular resistances were then calculated. While the fraction of cardiac output perfusing the splanchnic bed was significantly increased, the corresponding brain fraction was reduced. Blood flow to the cerebral hemispheres and midbrain was significantly decreased. Arterial vasodilatation was demonstrated by the fall in arterial pressure, systemic vascular resistance as well as splanchnic and renal resistances; cerebrovascular resistance, however, was unchanged. No relation between values of arterial pressure and cerebral blood flow was seen, making a failure of cerebrovascular autoregulation unlikely. The decrease in hemispheric and midbrain perfusion without changes in vascular resistance suggests that a drop in blood flow is appropriately coupled to a reduction in brain metabolism. The cerebral circulation does not participate in the hyperdynamic state that is seen in this model.