Usefulness of plasma exchange plus continuous hemodiafiltration to reduce adverse effects associated with plasma exchange in patients with acute liver failure

Efficacy and safety of plasma hemodiafiltration (PHDF) in pediatric patients with multiple organ dysfunction syndrome with shock and DIC: a preliminary study

Background

Multiple organ dysfunction syndrome is the leading cause of death in pediatric intensive care units and can be very critical when combined with shock and disseminated intravascular coagulation (DIC). Currently, there is no effective treatment. We developed a new hemodiafiltration (HDF) method called plasma HDF (PHDF) that uses fresh frozen plasma as replacement fluid and investigated the safety and efficacy of this treatment.

Methods

We enrolled critically ill children with (1) a Pediatric Logistic Organ Dysfunction 2 (PELOD-2) score ≥ 14, (2) a Japanese Ministry of Health and Welfare (JMHW) DIC score ≥ 7, (3) a vasoactive inotropic score (VIS) ≥ 10, and (4) a serum total protein concentration ≤ 5.0 g/dL. PHDF was performed for 5 h and then switched to continuous HDF. The primary endpoint was the 28-day mortality rate. Secondary endpoints included assessment of vital signs, blood test data, and fluid balance from PHDF start to day 7.

Results

Nine patients (four males and five females) between 3 days and 40 months of age, weighing 2.1–13 kg, met the inclusion criteria. Although the median PMR was 0.94 (0.71–0.96), the 28-day mortality rate was 22.2% (2/9). One hour after the start of PHDF, there was an increase in mean arterial pressure and central venous pressure and a decrease in heart rate; by day 7, there was a significant decrease in the PELOD-2 score, the JMHW DIC score, and the VIS. Hypoproteinemia also improved the day after PHDF. Water balance was able to remain negative after day 2.

Conclusions

PHDF was found to be effective in the treatment of DIC and circulatory failure by supplementing coagulation and antithrombotic factors as well as by raising colloid osmotic pressure to increase circulating blood volume. PHDF has been shown to be a safe and useful treatment for critically ill children and has the potential to improve 28-day survival.

Successful management of germanium poisoning-induced multiple organ dysfunctions by combined blood purification therapy

Background: Blood purification therapy has not been applied in the detoxification of germanium compounds. This report described a case of germanium poisoning with renal failure, liver dysfunction, and acute pancreatitis which was successfully treated by continuous venovenous hemodiafiltration (CVVHDF) combined with plasmapheresis.Case report: A 58-year-old male was admitted to a local hospital due to polydipsia, polyuria, and weight loss for 2 months. The patient was definitely diagnosed with germanium poisoning and was treated with blood purification therapy, CVVHDF combined with plasmapheresis. The blood and urinary germanium concentrations decreased rapidly during the first week after the combined blood purification therapy. The blood germanium concentration gradually reduced to within the normal range within the next three weeks and fluctuated at a normal level. However, the urinary germanium concentration exceeded the normal level after three months, indicating an accumulation of germanium in the organs and tissues. The patient's clinical symptoms ameliorated and the functions of kidney, liver and pancreatitis gradually recovered.Conclusion: Combined CVVHDF with plasmapheresis is an effective treatment for germanium poisoning and the associated multiple organ dysfunctions.

A prognostic model for hepatitis B acute-on-chronic liver failure patients treated using a plasma exchange-centered liver support system

Aim

To determine the prognostic risk factors of patients with hepatitis B virus related acute‐on‐chronic liver failure (HBV‐ACLF) treated with plasma exchange (PE)‐based artificial liver support system (ALSS), and create a prognostic predictive model.

Methods

A total of 304 HBV‐ACLF patients who received PE‐based ALSS were retrospectively analyzed. Potential prognostic factors on admission associated with survival were investigated. Of note, 101 additional patients were analyzed to validate the performance of the prognostic models.

Results

According to 28‐day survival, a total of 207 patients who survived and 97 non‐survivors were identified in the derivation group. Overall, 268 (88.2%) ACLF cases were caused by reactivation of HBV. Cox proportional hazards regression model revealed that age, total bilirubin, ln (alpha‐fetoprotein [AFP]), encephalopathy (HE) score, sodium level, and international normalized ratio (INR) were independent risk factors of short‐term prognosis. We built a model named ALSS‐prognosis model (APM) to predict the 28‐day survival of HBV‐ACLF patients with ALSS; the model APM showed potentially better predictive performance for both the derivation and validation groups than MELD, MELD‐Na, and CLIF‐C ACLF score.

Conclusions

Low AFP was found to be an independent risk factor for high mortality in HBV‐ACLF patients treated with PE‐based ALSS. We generated a new model containing AFP, namely APM, which showed potentially better prediction performance than MELD, MELD‐Na, and CLIF‐C ACLF score for short‐term outcomes, and could aid physicians in making optimal therapeutic decisions.

Guidelines on the Use of Therapeutic Apheresis in Clinical Practice - Evidence-Based Approach from the Writing Committee of the American Society for Apheresis: The Eighth Special Issue

The American Society for Apheresis (ASFA) Journal of Clinical Apheresis (JCA) Special Issue Writing Committee is charged with reviewing, updating and categorizing indications for the evidence-based use of therapeutic apheresis (TA) in human disease. Since the 2007 JCA Special Issue (Fourth Edition), the committee has incorporated systematic review and evidence-based approaches in the grading and categorization of apheresis indications. This Eighth Edition of the JCA Special Issue continues to maintain this methodology and rigor in order to make recommendations on the use of apheresis in a wide variety of diseases/conditions. The JCA Eighth Edition, like its predecessor, continues to apply the category and grading system definitions in fact sheets. The general layout and concept of a fact sheet that was introduced in the Fourth Edition, has largely been maintained in this edition. Each fact sheet succinctly summarizes the evidence for the use of TA in a specific disease entity or medical condition. The Eighth Edition comprises 84 fact sheets for relevant diseases and medical conditions, with 157 graded and categorized indications and/or TA modalities. The Eighth Edition of the JCA Special Issue seeks to continue to serve as a key resource that guides the utilization of TA in the treatment of human disease.

Pharmacokinetics of ceftriaxone in patients undergoing continuous renal replacement therapy

BACKGROUND

The duration of time for which the serum levels exceed the minimum inhibitory concentration (MIC) is an important pharmacokinetics (PK)/pharmacodynamics (PD) parameter correlating with efficacy for the antibiotic, ceftriaxone (CTRX). However, no reports exist regarding the PK or PD in patients undergoing continuous renal replacement therapy (CRRT). The purpose of this study was to examine the PK and safety of CTRX in patients undergoing CRRT in order to establish safer and more effective regimens.

METHODS

CTRX (1 g once a day) was intravenously administered four or more times to nine patients undergoing CRRT. Blood was collected after administration to measure CTRX concentrations in serum and the filtration fraction of CRRT by high-performance liquid chromatography. In addition to calculating PK parameters from serum CTRX, we (a) estimated by simulation CTRX concentrations when the dose interval was extended to once every 2 or 3 days, (b) calculated CTRX clearance via CRRT from CTRX concentrations in the filtration fraction, and (c) assessed the safety of CTRX use.

RESULTS

Total body clearance and the half-life of CTRX were 7.46 mL/min (mean) and 26.5 h, respectively, in patients undergoing CRRT. CTRX was found in the filtration fraction, and the estimated clearance by CRRT was about 70% of total body clearance. Simulations revealed that even when the dose interval is increased to 2 or 3 days, CTRX would retain its efficacy.

CONCLUSIONS

Our findings suggest that, depending on the condition of patients undergoing CRRT, CTRX could be used safely against pathogens with a CTRX MIC ≤2 µg/mL, even when extending the dose interval.

Guidelines on the Use of Therapeutic Apheresis in Clinical Practice-Evidence-Based Approach from the Writing Committee of the American Society for Apheresis: The Seventh Special Issue

The American Society for Apheresis (ASFA) Journal of Clinical Apheresis (JCA) Special Issue Writing Committee is charged with reviewing, updating, and categorizing indications for the evidence-based use of therapeutic apheresis in human disease. Since the 2007 JCA Special Issue (Fourth Edition), the Committee has incorporated systematic review and evidence-based approaches in the grading and categorization of apheresis indications. This Seventh Edition of the JCA Special Issue continues to maintain this methodology and rigor to make recommendations on the use of apheresis in a wide variety of diseases/conditions. The JCA Seventh Edition, like its predecessor, has consistently applied the category and grading system definitions in the fact sheets. The general layout and concept of a fact sheet that was used since the fourth edition has largely been maintained in this edition. Each fact sheet succinctly summarizes the evidence for the use of therapeutic apheresis in a specific disease entity. The Seventh Edition discusses 87 fact sheets (14 new fact sheets since the Sixth Edition) for therapeutic apheresis diseases and medical conditions, with 179 indications, which are separately graded and categorized within the listed fact sheets. Several diseases that are Category IV which have been described in detail in previous editions and do not have significant new evidence since the last publication are summarized in a separate table. The Seventh Edition of the JCA Special Issue serves as a key resource that guides the utilization of therapeutic apheresis in the treatment of human disease. J. Clin. Apheresis 31:149-162, 2016. © 2016 Wiley Periodicals, Inc.

A case of fatal heart and liver failure accompanied by thyroid storm treated with prompt plasma exchange

A 36-year-old man with a history of Graves' disease was admitted complaining of dyspnea. He was diagnosed with acute heart failure and severe liver dysfunction accompanied by thyroid storm. Left ventricular ejection fraction was 19%, and liver enzyme levels were markedly elevated followed with coagulation disorders. In addition to the conventional therapy, we performed plasma exchange emergently. Thyroid hormone levels promptly normalized, then his clinical condition improved. Finally, his cardiac and liver function almost normalized from a fatal condition without serious complications. Hyperthyroidism can cause myocardial and liver injury, hence thyroid hormone removal in acute phase is important. Prompt plasma exchange is effective in the acute phase for heart and liver failure accompanied by thyroid storm. <Learning objective: Thyroid storm is a life-threatening condition. Prompt reduction of serum free thyroid hormone is important in fatal conditions. Because plasma exchange (PE) can decrease serum thyroid hormone and improve critical condition, PE should be conducted emergently. In the present case, we promptly performed PE for the patient with potentially fatal heart and liver failure. We could treat him without any complication. We wish to emphasize the importance of prompt PE in acute phase of thyroid storm.>.

Clinical observation on the treatment of acute liver failure by combined non-biological artificial liver

The clinical efficacy and safety of different combinations of non-bio artificial liver in the treatment of acute liver failure was examined. A total of 61 cases were selected under blood purification treatment from the patients with severe acute liver failure admitted to the severe disease department of the hospital from December, 2010 to December, 2015. Three types of artificial liver combinations were observed, i.e., plasma exchange plus hemoperfusion plus continuous venovenous hemodiafiltration (PE+HP+CVVHDF), PE+CVVHDF and HP+CVVHDF. The heart rate (HR), mean arterial pressure (MAP), respiratory index (PaO₂/FiO₂), liver and kidney function indicator, as well as platelet and coagulation function were compared. A comparison before and after the treatment using the three methods, showed improvement in the HRs, MAPs, PaO₂/FiO₂, total bilirubins (TBIL) and alanine aminotransferases (ALT) (P<0.05), of which TBIL and ALT were decreased more significantly (P<0.01) in the PE+CVVHDF and PE+HP+CVVHDF groups. Only changes in the PE+HP+CVVHDF and PE+CVVHDF groups were statistically significant after prothrombin time and albumin treatment (P<0.05). The difference between the decrease in TBIL in the PE+HP+CVVHDF group and that in the HP+CVVHDF group was statistically significant (P<0.05). Treatment of the 61 patients using the artificial liver support system yielded a survival rate of 62.3% (38/61), and a viral survival rate of 35.0% (7/20); with the non-viral survival rate being 75.6% (31/41). In conclusion, following the treatment of three types of artificial livers, the function was improved to varying degrees, with the PE+HP+CVVHDF and the PE+CVVHDF method being better. By contrast, after the treatment of non-viral liver failure, the survival rate was significantly higher than the patients with viral liver failure.

PK/PD analysis of biapenem in patients undergoing continuous hemodiafiltration

BACKGROUND

Continuous hemodiafiltration (CHDF) is used as renal replacement therapy for critically ill patients with renal failure, and to treat hypercytokinemia. Since CHDF also clears therapeutic agents, drug pharmacokinetics (PK) should be dependent upon CHDF conditions. Although the antibiotic biapenem (BIPM) is used in patients undergoing CHDF, the optimal therapeutic regimen in such patients has not been fully clarified. In this study, we investigated the PK of BIPM in patients with various levels of renal function undergoing CHDF with polysulfone (PS) membrane, and used PK models to identify the optimal administration regimen.

METHODS

BIPM (300 mg) was administered by infusion in patients undergoing CHDF (n = 7). Blood and filtrate-dialysate were collected for compartment and non-compartment analysis.

RESULTS

The sieving coefficient of PS membrane was 1.00 ± 0.06 (mean ± S.D., n = 7), and CHDF clearance of BIPM was found to be the sum of the dialysate flow rate (QD) and filtrate flow rate (QF). Non-CHDF clearance showed inter-individual variability (4.82 ± 2.48 L/h), depending on residual renal function and non-renal clearance. Based on the average PK parameters obtained with a compartmental model, maximal kill end point (over 40 % T > MIC4 μg/mL) was achieved with regimens of 300 mg every 6 h, 300 mg every 8 h, and 600 mg every 12 h. Monte Carlo simulation indicated that 300 mg infusion for 1 h every 6 h was optimal, and the probability of target attainment at MIC2 μg/mL was 90.2 %.

CONCLUSIONS

Our results establish the optimal regimen of BIPM in patients with various levels of renal function undergoing CHDF with a PS membrane.

Continuous Veno-Venous Hemodiafiltration and Plasma Exchange in Infantile Acute Liver Failure

OBJECTIVES

The purpose of the current study was to assess our multidisciplinary approach consisting of early application of neurology-oriented intensive care, aggressive artificial liver support and liver transplantation at the appropriate time for infants with acute liver failure.

DESIGN

Retrospective cohort study.

SETTING

A tertiary pediatric medical center in Japan.

PATIENTS

Seventeen infants younger than 12 months with acute liver failure who subsequently underwent liver transplantation between February 2006 and June 2011.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

The patients varied from 1 to 11 months, with a median of 6 months. The median body weight was 8.0 kg (range, 2.7-10 kg). With respect to the encephalopathy grading before liver transplantation, four cases were categorized as grade II, seven cases were categorized as grade III, and five cases were categorized as grade IV. Continuous veno-venous hemodiafiltration and plasma exchange were applied to all the infants until liver transplantation. Bilirubin, ammonia, prothrombin time/international normalized ratio and creatinine decreased significantly after continuous veno-venous hemodiafiltration + plasma exchange (p < 0.001). The median value of catecholamine index changed from 10 to 0 (range, 0-20.6). Notably, among the 16 infants who underwent electroencephalography assessment, five did not show slow waves throughout their stay, and one who did so before treatment ceased to show any after treatment. The all patients underwent living-donor liver transplantation and were subsequently discharged from the PICU. The overall survival rate was 88% (15/17) with a median follow-up period of 28 months (range, 2-64 mo). Regarding the neurological outcomes of the survivors, 73% (11/15) had no neurological morbidities and 20% (3/15) had mild disabilities.

CONCLUSIONS

Our multidisciplinary approach for infants with acute liver failure achieved favorable outcomes. Further investigations are needed to examine the efficacy of the artificial liver support.

Therapeutic plasma exchange does not reduce vasopressor requirement in severe acute liver failure: a retrospective case series

BACKGROUND

In acute liver failure (ALF) therapeutic plasma exchange (TPE) improves laboratory measures of liver function. In patients with ALF requiring minimal vasoactive support TPE has also been shown to provide haemodynamic benefits including an increase in systemic blood pressure. However the haemodynamic effects of TPE in patients with severe ALF requiring moderate or high dose vasopressor therapy has not been reported. We retrospectively examined the haemodynamic effects of TPE in a cohort of patients with severe ALF requiring vasopressor therapy.

METHODS

Physiological, laboratory and treatment data were collected on all patients with ALF who received TPE between January 2000 and December 2012. All patients were managed in the intensive care unit of a tertiary referral centre for ALF and liver transplantation. The primary outcome measures were changes in mean arterial pressure (MAP), vasopressor score and the ratio of vasopressor score to MAP (vasopressor dependency index (VDI)) from baseline prior to TPE through to 12 hours after completion of TPE. Secondary outcome measures were changes in other routinely collected physiological variables and laboratory results. Results are presented as median (interquartile range (IQR)). Outcome measures were evaluated using a mixed effect model.

RESULTS

Thirty nine TPE were performed in 17 patients with ALF (13 paracetamol poisoning). All TPE were performed with a centrifugal apheresis system (duration 130 minutes (IQR 115 - 147.5), plasma volume removed 5.1% body weight (IQR 4.6 - 5.5). Baseline values for primary outcome measures were: MAP 82 mmHg (IQR 72 - 92.5), vasopressor score 8.35 (IQR 3.62 - 24.6) and VDI 0.10 (IQR 0.05 - 0.31). MAP was significantly higher immediately after TPE compared to baseline (p = 0.039), however when corrected for change in vasopressor requirement there was no significant change in VDI with TPE (p = 0.953). Twelve hours after TPE the MAP, vasopressor score and VDI were not significantly different from baseline (p = 0.563, p = 0.317 and p = 0.214 respectively).

CONCLUSION

In this cohort of patients with severe ALF centrifugal TPE did not significantly affect vasopressor requirements.

Evaluation of plasma exchange and continuous veno-venous hemofiltration for the treatment of severe avian influenza A (H7N9): a cohort study

Avian influenza A (H7N9) is a severe disease with high mortality. Hypercytokinemia is thought to play an important role in the pathogenesis. This study was to investigate the efficiency of plasma exchange (PE) + continuous veno-venous hemofiltration (CVVH) on the removal of inflammatory mediators and their benefits in the management of fluid overload and metabolic disturbance. In total, 40 H7N9-infected patients were admitted to our hospital. Sixteen critically ill H7N9-infected patients received combination of PE and CVVH. Data from these 16 patients were collected and analyzed. The effects of PE + CVVH on plasma cytokine/chemokine levels and clinical outcomes were examined. H7N9-infected patients had increased plasma levels compared to healthy controls. After 3 h of PE + CVVH treatment, the cytokine/chemokine levels descended remarkably to lower levels and were maintained thereafter. PE + CVVH also benefited the management of fluid, cardiovascular dysfunction and metabolic disturbance. Of the 16 critically ill patients who received PE + CVVH, 10 patients survived. PE + CVVH decreased the plasma cytokine/chemokine levels significantly. PE + CVVH were also beneficial to the management of severe avian influenza A (H7N9).

Fulminant viral hepatitis

Acute liver failure (ALF) is a condition wherein the previously healthy liver rapidly deteriorates, resulting in jaundice, encephalopathy, and coagulopathy. There are approximately 2000 cases per year of ALF in the United States. Viral causes (fulminant viral hepatitis [FVH]) are the predominant cause of ALF in developing countries. Given the ease of spread of viral hepatitis and the high morbidity and mortality associated with ALF, a systematic approach to the diagnosis and treatment of FVH is required. In this review, the authors describe the viral causes of ALF and review the intensive care unit management of patients with FVH.

Liver support systems--a review

Liver failure is associated with a high morbidity and mortality rate and is the seventh leading cause of death worldwide. Orthotopic liver transplantation remains the definitive treatment; however, because of the limited number of available organs many patients expire while on the transplant list. Currently, there are no established means for providing liver support as a means of bridging patients to transplantation or allowing for recovery from liver injury. Analogous to the clinical situation of renal failure, there is great interest in developing liver support systems that replace the metabolic and waste removal functions of the liver. These support systems are of two general types: artificial and bioartificial livers. In this review, based on a presentation from the 57th American Society of Artificial Internal Organs Annual Meeting (Washington, D.C., June 2011), we review the current status of liver support systems.

Effect of hemopurification rate on doripenem pharmacokinetics in critically ill patients receiving high-flow continuous hemodiafiltration

  Hemopurification is an effective therapy for acute kidney injury, defined as creatinine clearance less than 30 ml/min, which occurs frequently in the intensive care unit. These critically ill patients often have severe infectious complications and are thus often treated with antibiotics. However, the effect of hemopurification on the pharmacokinetics of antibiotics is not well understood. In this study, we investigated the pharmacokinetics of doripenem (DRPM) in critically ill patients with accompanying renal dysfunction undergoing continuous hemodiafiltration by high-volume filtration/high-flow dialysis (high-flow CHDF) and compared it to the pharmacokinetics of DRPM during conventional CHDF. We studied 8 patients (2 in the high-flow group and 6 in the conventional group) in whom DRPM was administered while performing CHDF for acute kidney injury. DRPM (250 mg) was intravenously infused over 1 h. For the conventional group, CHDF was performed at a blood flow rate (Q(B)) of 100 ml/min, dialysate flow rate (Q(D)) of 500 ml/h, and filtration flow rate (Q(F)) of 300 ml/h. For the high-flow group, CHDF was performed at a blood flow rate (Q(B)) of 100 ml/min, dialysate flow rate (Q(D)) of 1500 ml/h, and filtration flow rate (Q(F)) of 900 ml/h. For both groups, a polysulfonehemofilter with a membrane area of 1.0 m(2) was used. Mean half-life, total body clearance, and clearance via hemodiafiltration of DRPM were 2.9 h, 118 ml/min, and 41.9 ml/min, respectively, in the high-flow group, and 7.9 h, 58 ml/min, and 13.5 ml/min in the conventional group. Clearance via hemodiafiltration increased approximately 3-fold by tripling the hemopurification rate. Therefore, CHDF parameters greatly affected DRPM pharmacokinetics in patients receiving CHDF. These results suggest that clearance via hemodiafiltration increases proportionally to the hemopurification rate. Thus, it is reasonable to conclude that DRPM dose must be increased to 1.0-1.5 g/day when performing high-flow CHDF.

Critical care management of patients before liver transplantation

The critical care management of patients before liver transplantation is aimed at optimizing hepatic and extrahepatic organ function before the transplant operation, with a goal to favorably influence perioperative and postoperative graft and patient outcomes. Critical illness in liver disease can present in the context of acute liver failure or acute on chronic liver failure. The differing pathophysiologic processes underlying these 2 types of liver failure necessitate specific approaches to their intensive care management. In their extreme presentations, both types of liver failure present as multiorgan system failure; and therefore, the critical care management of these entities requires a systematic multiorgan system approach to address hepatic and extrahepatic organ dysfunction. This review provides a multiorgan system-based description of critical care management of acute liver failure and acute on chronic liver failure before liver transplantation.

Etiology and outcome of acute liver failure: retrospective analysis of 50 patients treated at a single center

BACKGROUND AND AIM

Acute liver failure (ALF) remains a devastating disease carrying considerable mortality. Since deceased donor liver transplantation is rarely performed in Japan, the artificial liver support system (ALS) and living donor liver transplantation (LDLT) are the main modalities used for treatment of ALF. The aim of this study was to analyze the outcome of ALF patients and to evaluate therapies for ALF according to etiology.

METHODS

Fifty consecutive patients with ALF were treated between January 1990 and December 2006. Prior to 1997, patients received ALS only. After 1997, ALS and/or LDLT were applied. LDLT was performed in 10 patients.

RESULTS

Four of 15 (27%) pre-1997 ALF patients survived, and 16 of 35 (46%) post-1997 ALF patients survived, including eight who underwent LDLT. The causes of ALF were acute hepatitis B virus (HBV) infection in 18%, severe acute exacerbation (SAE) of chronic HBV infection in 18%, autoimmune hepatitis (AIH) in 8%, and cryptogenic hepatitis in 44%. In total, 67% of the patients with ALF caused by acute HBV infection and AIH were cured without LDLT; only 11% of patients with ALF caused by SAE of HBV and 24% of cryptogenic hepatitis were successfully treated without LDLT. Notably, 80% of patients with cryptogenic hepatitis who underwent LDLT survived.

CONCLUSION

Since 1997, the survival rate of ALF patients has increased, mainly due to the introduction of LDLT. Liver transplantation should be performed especially in patients with ALF caused by SAE of HBV and cryptogenic hepatitis.

A case report of acute renal failure and fulminant hepatitis associated with edaravone administration in a cerebral infarction patient

A 60-year-old male with cerebral infarction was admitted to our hospital and treated with edaravone. On day 12 of hospitalization, he suddenly lost consciousness and went into shock. Based on the laboratory findings, acute renal failure (ARF), fulminant hepatitis, and disseminated intravascular coagulation (DIC) were diagnosed. We immediately initiated continuous hemodiafiltration for three days and performed three sessions of plasma exchange. Following this, a gradual improvement was observed in the patient's general condition and laboratory values. On day 17 of hospitalization, intermittent hemodialysis (HD) was initiated. On day 20 of hospitalization, his renal function started to improve with an increase in urine volume. HD was successfully discontinued on the same day. Although the drug lymphocyte stimulation test for edaravone was negative, edaravone-induced fulminant hepatitis was suggested based on liver biopsy findings. We present a case of ARF, fulminant hepatitis, and DIC due to edaravone administration that was successfully treated with blood purification techniques. Since the use of edaravone treatment is expected to increase in the future, it is essential that clinicians consider the potential adverse effects of this treatment. It is suggested that blood purification is effective in inducing remission in patients with complications due to edaravone treatment.

Effect of supportive extracorporeal treatment in liver transplantation recipients and advanced liver failure patients

Recently, continuous venovenous hemodiafiltration (CVVHDF) and plasmapheresis (PF) were suggested as supportive therapy options in combination with standard treatment in advanced liver failure. The aim of this study was to analyze the effects of supportive extracorporeal treatment (SET) in a group of patients with advanced hepatic failure. A total of 25 patients (7 women, 18 men; mean age, 39.3+/-15.4 years; 13 were transplant recipients [6 women, 7 men; mean age, 37.7+/-16.9 years]) were included. All patients were in hepatic coma and receiving standard coma and liver failure management when they received SET. Number of SET sessions; levels of serum blood urea nitrogen, creatinine, albumin, calcium, phosphorus, ammonia, alanine and aspartate aminotransferase, and total/conjugated bilirubin; and prothrombin times (PTT) before and after SET were recorded retrospectively. 7.7+/-7.9 SET sessions were performed. Thirteen liver transplant recipients required SET for an average of 9.7+/-8.3 days after transplantation. Serum ammonia and bilirubin levels were lower after termination of supportive therapy when compared with initial levels (p<0.0001 and p<0.005 respectively). During follow-up, hepatic encephalopathy and liver failure resolved in 11 patients, while 14 patients (7 transplant recipients) died. There was no significant difference between patients in either group except that PTT was shorter in patients who survived (p<0.01). Further analyses revealed that in surviving patients, ammonia clearance was higher (p<0.01). In patients with advanced liver failure, or liver transplants, CVVHDF and/or PF could be supportive options combined with standard treatment.

Blood purification for hypercytokinemia

Blood purification has been steadily improved in the field of critical care, supported by advances in related biomedical technologies as well as efforts to develop better operating procedures. As it has become clear that hypercytokinemia plays a key role in the pathophysiology of critical pathological conditions, use of various blood purification techniques to control hypercytokinemia has been investigated. Answers to questions concerning the optimal cytokine-removing device (dialyzer/hemofilter/adsorber) as well as operating procedures and conditions of such devices in particular clinical conditions have been obtained in the course of such investigations. The recent success in real-time monitoring of cytokine levels in clinical practice to assess the extent of cytokine network activation may improve the precision and efficacy of blood purification in the treatment of hypercytokinemia. In addition, the recently documented effects of genetic factors on hypercytokinemia suggest that the introduction of tailor-made medicine considering the differences in genetic background among individual patients may improve the efficacy of blood purification as a countermeasure to hypercytokinemia.

A novel plasma filtration therapy for hepatic failure: preclinical studies

There is a need to develop artificial means of liver replacement and/or assistance with the aim of either supporting patients with borderline functional liver cell mass until their liver regenerates, or until a donor liver becomes available for transplantation. Selective plasma filtration is a novel approach to blood purification therapy designed to reduce the level of circulating toxins of hepatic and renal failure, mediators of inflammation and inhibitors of hepatic regeneration. The results of preclinical studies indicate that treatment of pigs with experimentally-induced fulminant hepatic failure is safe and effective in extending survival time and arresting brain swelling. In addition, the amount of ammonia, aromatic amino acids, IL6, TNFalpha and C3a removed during the 6-h treatment in the present study was higher by 34% to 175% than the total plasma content of those substances at the start of therapy.

Artificial liver support at present and in the future

Liver failure is a fatal disease. Liver transplantation is the only established treatment for liver failure; however, donor shortages remain problematic. In the United States and Europe, artificial livers as a bridge to liver transplantation are being considered. In Japan, we have taken a different approach to the treatment of end-stage liver diseases because of the characteristics of the health-care insurance system, regulated by the government. Furthermore, cadaveric liver transplantations are unsuited to the social mores of Japanese culture. Practically speaking, we believe that plasma exchange (PE) and continuous hemodiafiltration (CHDF) are the most effective therapies for the treatment of liver failure, although randomized controlled studies are needed to determine their effects. Overall, we believe that the first line of treatment for liver failure should be PE and CHDF, and the second line should be bioartificial liver support. In the near future, we hope that both gene therapy and regenerative medicine will contribute to the development of a functional artificial liver.

A technique for rapid exchange of continuous renal replacement therapy

Re-initiation of continuous renal replacement therapy (CRRT) in neonates and young infants weighing less than 15 kg often necessitates a blood prime of the blood circuit path or a concurrent packed red blood cell (PRBC) transfusion to avoid causing hemodynamic instability due to acute hemodilution. The significant amount of time required for a routine CRRT circuit change can be associated with worsening electrolyte and acid-base abnormalities, fluid retention, greater hemodynamic instability and reducing effective hemofiltration time. In an attempt to limit the time without CRRT and to eliminate the requirement for additional blood exposure, a new technique, rapid exchange of continuous renal replacement therapy (RECRRT), was developed. Rapid exchange of continuous renal replacement therapy is a sequential technique that transfers citrated blood from one CRRT machine to another machine connected in series. The technique effectively negates the requirement for CRRT circuit path blood priming or PRBC transfusion. The amount of time without CRRT is markedly reduced by RECRRT to 2-3 min. The RECRRT technique has been utilized more than 30 times for at least 15 patients without an adverse event. RECRRT may benefit children who weigh less than 15 kg and in those patients who experience hemodynamic or clinical instability while CRRT is discontinued for only a brief period.

Prediction of hepatic encephalopathy development in patients with severe acute hepatitis

To identify factors predicting the development of hepatic encephalopathy, 164 patients with severe acute hepatitis (SAH), defined as acute hepatitis having a prolonged prothrombin time (PT) of < 40% activity but without hepatic encephalopathy, were prospectively observed at 57 major liver centers in Japan. From the data of 65 patients enrolled from 1997 to 1998, a prediction equation was developed by multiple logistic regression analysis and prospectively evaluated using the data of 99 patients since 1999. Of the 164 patients with SAH, 51 (31%) developed hepatic encephalopathy. From the etiologic viewpoint, the percentages of patients developing encephalopathy were highest in non-A-E hepatitis (41.9%). A predictive model, logit(p) = 0.084 x age (year)+ 0.129 x serum total bilirubin (TB, in mg/dL)-0.158 x prothrombin time (%)-2.434, was developed. In conclusion, old age, prolonged PT, elevation of TB, and non-A-E hepatitis are potential risk factors for developing encephalopathy in SAH.

Comparison of Plasma Exchange With Different Membrane Pore Sizes in the Treatment of Severe Viral Hepatitis

Plasma exchange has become an effective mode of blood purification in patients suffering from liver failure. To assist in patient recovery, we compared two plasma separators to identify a plasma separator with suitable pore sizes to remove toxic substances effectively, and retain important plasma components. The study focused on severe viral hepatitis patients. Of 206 rounds of plasma exchange, 137 were completed with the PS-06 plasma separator (membrane pore size=0.2 microm) and 69 with the EC-4A plasma separator (membrane pore size=0.03 microm). The efficacy of different plasma separators was compared using survival rate, changes in liver biochemistry, immunoglobulin, and complement parameters. The survival rate of patients treated with PS-06 was 43.3% (13 of 30 patients). For patients treated with EC-4A, two patients were bridged to liver transplantation successfully, and 57.9% (11 of 19 patients) survived. In both groups, the levels of total bilirubin, prothrombin time, and bile acid declined significantly. Compared to PS-06, EC-4A could retain significantly larger amounts of immunoglobulin and complements. Our study revealed that plasma exchange implementation with membrane pore size 0.03 microm could remove adequate bilirubin and bile acid, a class of toxins bound to plasma protein in severe viral hepatitis patients, and reduce the loss of essential plasma macromolecules.

Reviews: The Current State of Nonuremic Applications for Extracorporeal Blood Purification

Despite the commonly accepted indications for hemodialysis and extracorporeal depuritive techniques, some clinicians have come to rely on blood purification for clinical states where the targeted substance for removal differs from uremic waste products. Over the last decade, a number of studies have emerged to help define the application of extracorporeal blood purification (ECBP) to these "nonuremic" indications. This review describes the application of extracorporeal blood purification in clinical states including sepsis, rhabdomyolysis, congestive heart failure, hepatic failure, tumor lysis syndrome, adult respiratory distress syndrome, intravenous contrast exposure, and lactic acidosis. Additional comments are provided to review existing literature on thermoregulation and osmoregulation, including acute brain injury.

Effectiveness of combining plasma exchange and continuous hemodiafiltration in patients with postoperative liver failure

Nine patients with postoperative liver failure were treated with plasma exchange (PE) or PE and continuous hemodiafiltration (CHDF), and various biochemical parameters were determined before and after treatment. Although citrate levels increased significantly after treatment compared with pretreatment levels in both the PE group and the PE + CHDF group (P < 0.0001 and P < 0.0001, respectively), the percentage of the increase in citrate levels was significantly higher in the PE group than in the PE + CHDF group (P = 0.0051). Total bilirubin (T-Bil) levels were significantly lower after treatment in both the PE and PE + CHDF groups (P < 0.0001 and P = 0.0001, respectively). There were no significant differences in T-Bil levels between the two groups (P = 0.5181). There were no significant differences in interleukin (IL)-6 levels before and after treatment in both the PE and PE + CHDF groups (P = 0.1281 and P = 0.2273, respectively). IL-18 levels were significantly lower after treatment in both the PE and PE + CHDF groups (P < 0.0001 and P = 0.0002, respectively), but there were no significant differences in the removal rate of IL-18 in both the PE and PE + CHDF groups (P = 0.8749). These results indicate that combining PE and CHDF in a series-parallel circuit is an effective modality for suppressing the elevation of blood citrate levels. This finding may have important implications for the development of an effective treatment for patients with postoperative liver failure.

Intracranial Pressure Monitoring in Patients with Fulminant Hepatic Failure Treated with Plasma Exchange and Continuous Hemodiafiltration

BACKGROUND/AIMS

To study the influence of our artificial liver support (ALS) on intracranial pressure (ICP) and to evaluate the significance of ICP monitoring in fulminant hepatic failure (FHF) patients treated with ALS.

METHODS

ICP was measured in 13 consecutive FHF patients treated with ALS. Maximum value in ICP every day was employed as ICPmax of the day. We analyzed the correlation: (a) between ICPmax and consciousness level; (b) between ICP and colloid osmotic pressure (COP), and (c) between ICP and PaCO2.

RESULTS

ICP in 11 patients of 13 was controlled < 20 mm Hg through our ALS. A significant positive correlation between ICPmax and consciousness level was found (p < 0.01). Although there was a significantly negative correlation between ICP and COP (p < 0.001), there was no correlation between ICP and PaCO2.

CONCLUSIONS

We conclude that our ALS does not have any adverse effects on ICP and that ICP monitoring is one of the inevitable monitorings in the management of FHF.

Study of plasma exchange for liver failure: beneficial and harmful effects

Plasma exchange (PE) is often performed in combination with hemodialysis (HD) or hemodiafiltration. However, most methods were developed for the treatment of renal failure, so various problems may arise during treatment of liver failure (LF). In this study, we investigated the impact of PE alone and in combination with HD, and we assessed the complications of using PE + HD for the treatment of LF. After the exchange of 1 L of fresh frozen plasma (FFP), we measured serum electrolytes, HCO(3) (-), citrate, and acetate at 3 points in the circuit: A) the plasma separator inflow; B) after mixing of FFP/the dialyzer inflow; and C) the dialyzer outflow. Serum levels of human hepatocyte growth factor (HGF), acetate, and citrate were also measured before and after PE + HD. The levels of K(+), Ca(++), HCO(3) (-), and acetate were significantly decreased, and citrate was increased, between A and B. K(+) and citrate were decreased, while Ca(++), HCO(3) (-), and acetate showed an increase between B and C. Comparison of A with C revealed insufficient correction of the Ca(++) and citrate levels by HD. After PE + HD, serum levels of acetate and citrate were increased, while HGF was decreased. We concluded that i) when PE is performed, HD is also necessary for correction, but achieves insufficient correction of Ca(++) and citrate, ii) PE is non-selective and not only removes toxins but also beneficial substances such as HGF, iii) accumulation of acetate occurred, even with bicarbonate dialysate, since it also contains acetate for acidification.

Effect of artificial liver support system on patients with severe viral hepatitis: A study of four hundred cases

AIM: To assess the effect of artificial liver support system (ALSS) on patients with severe viral hepatitis, who were divided into treatment group and control group.

METHODS: Four hundred in-hospital patients enrolled during 1995-2003 who received ALSS therapy were studied as the treatment group. Four hundred in-hospital patients enrolled during 1986-1994 who received other medical therapies served as the control group. The methods of ALSS used included plasma exchange, hemoperfusion, hemofiltration, continuous hemodiafiltration (CHDF). The effect of ALSS treatment was studied in patients at different stages of the disease.

RESULTS: The cure rate of acute and subacute severe hepatitis in the treatment group was 78.9% (30/38), and was 11.9% (5/42) in the control group. The improved rate of chronic severe hepatitis in the treatment group was 43.4% (157/362), and was 15.4% (55/358) in the control group. We found that patients treated with ALSS in the early or middle stage of the disease had much higher survival rates than patients in the end stage of the disease.

CONCLUSION: ALSS is an effective and safe therapy for severe viral hepatitis.

Continuous Hemodiafiltration in Pediatric Critical Care Patients

Continuous hemodiafiltration (CHDF) is an essential procedure in critical care. However, application of this therapy to pediatric patients is associated with several problems derived from their smaller body size and weight compared with adults. We have successfully conducted CHDF in pediatric patients including newborns by taking such problems into consideration and carefully coping with them. The present study consisted of 60 pediatric patients treated with CHDF. Clinical efficacy and safety of CHDF in pediatric patients were assessed in these patients by reviewing patient clinical records. The 60 patients treated with CHDF included 27 males and 33 females. Their body weight ranged from 700 g to 53.0 kg. The mean CHDF duration was 6.80 +/- 6.94 days. Blood access was provided in a veno-venous mode in 42 patients, and an arterio-venous mode in 18 patients. Of the 60 pediatric patients receiving CHDF, 31 patients survived without serious complications, achieving a survival rate of 51.7%. Successful CHDF in pediatric patients was achieved by careful and exact execution of the following countermeasures to overcome problems specific to application of this therapy to pediatric patients: minimization of the priming volume; use of colloid solutions or whole blood as priming solution; maintaining secure blood access; selection of an appropriate anticoagulant; temperature control of both the patient's body and components of the hemofiltration circuit. In pediatric critical care, CHDF is safely applicable to the critically ill and expected to produce a wide spectrum of clinical efficacy just as in adults.

Combined twice-daily plasma exchange and continuous veno-venous hemodiafiltration for bridging severe acute liver failure

Aiming to remove the toxins produced during the course of severe hepatic failure, we combined hemodiafiltration and plasma exchange (patient plasma replaced by fresh frozen plasma in a twice-daily regimen) for treatment of five patients: two affected by primary nonfunction of a liver graft and three by fulminant hepatic failure. The simultaneous use of the two extracorporeal techniques allowed a rapid reduction in the administration of vasoactive drugs and a rapid, significant decrease in the indices of liver necrosis. Native liver functional recovery occurred in one case, and the wait for a second graft was made possible in the other four. Although it has been reported that the detoxifying efficacy of plasma exchange is optimal when the replaced volume of plasma is high, such a technique requires both long treatment times and high blood flows in the extracorporeal circuit, making it often hemodynamically intolerable. Our approach leads to replacement of smaller volumes, allowing lower blood flows that are better tolerated despite the often unstable hemodynamics of these patients. Liver transplantation and retransplantation remains the definite therapy for severe liver failure or primary nonfunction. However, the organ waiting time is unpredictable and often does not coincide with the patients' clinical needs. Thus alternative strategies must be developed until a suitable donor is found or there is spontaneous recovery. From this point of view, in our albeit limited experience, twice-daily plasma exchange combined with hemodiafiltration has proved to be an effective therapeutic approach.

Critical issues in nephrology

Renal and electrolyte problems are common in patients in the ICU. Several advances that occurred in the recent past have been incorporated in the diagnosis and management of these disorders and were reviewed in this article. Unfortunately, many important questions remain unanswered, especially in the area of ARF, where new therapies are anxiously awaited to make the transition from bench to bedside. Better studies are sorely needed to define the best approach to dialysis in patients who have ARF.

A case of acute hepatic insufficiency treated with novel plasmapheresis plasma diafiltration for bridge use until liver transplantation

A patient with acute hepatic insufficiency induced by a drug presented to our institution, and we performed a novel plasmapheresis that we call plasma dia-filtration (PDF). The patient was a 36 year old woman. She underwent 11 sessions of PDF for a duration of about 9 h for each procedure using the Evacure EC-2A filter together with 20 units of fresh frozen plasma and dialysate simultaneously. Serum levels of total bilirubin and prothrombin time were significantly improved after she underwent each procedure. However, after the third procedure the levels returned to the same level as on the previous day. Encephalopathy improved after the first procedure, and this improvement was maintained until the ninth procedure. The patient prepared to undergo liver transplantation after the tenth procedure because of the development of hepatic coma, but she died of respiratory insufficiency before undergoing the procedure. Accordingly in this case, PDF worked to maintain liver function in acute liver failure and may act as bridge therapy until the patient can undergo liver transplantation.

Brain edema in liver failure: basic physiologic principles and management

In patients with severe liver failure, brain edema is a frequent and serious complication that may result in high intracranial pressure and brain damage. This short article focuses on basic physiologic principles that determine water flux across the blood-brain barrier. Using the Starling equation, it is evident that both the osmotic and hydrostatic pressure gradients are imbalanced across the blood-brain barrier in patients with acute liver failure. This combination will tend to favor cerebral capillary water influx to the brain. In contrast, the disequilibration of the Starling forces seems to be less pronounced in patients with cirrhosis because the regulation of cerebral blood flow is preserved and the arterial ammonia concentration is lower compared with that of patients with acute liver failure. Treatments that are known to reverse high intracranial pressure tend to decrease the osmotic pressure gradients across the blood-brain barrier. Recent studies indicate that interventions that restrict cerebral blood flow, such as hyperventilation, hypothermia, and indomethacin, are also efficient in preventing edema and high intracranial pressure, probably by decreasing the transcapillary hydrostatic pressure gradient. In our opinion, it is important to recall that rational fluid therapy, adequate ventilation, and temperature control are of direct importance to controlling cerebral capillary water flux in patients with acute liver failure. These simple interventions should be secured before more advanced experimental technologies are instituted to treat these patients.

Plasmapheresis and renal replacement therapy in children

The use of extracorporeal techniques for the treatment of pediatric diseases has expanded dramatically in the past decade. During this time, experience with both plasmapheresis and renal replacement therapy has become commonplace in ICUs and nephrology programs throughout the world. The indications for these therapies range through treatment of vasculitis, drug removal, support from inborn error metabolism, multiorgan system failure, primary renal disease, and sepsis. Because these therapies are somewhat intermingled based on the commonality of the need for vascular access, extracorporeal blood volumes, and bedside nursing support, and furthermore because the indications for these may overlap, these therapies are often used in tandem or parallel to support the child with illness.