Effects of Bioreactor-Oxygenation During Extracorporeal Granulocytes Treatment in Septic Patients.

A granulocyte bioreactor for the extracorporeal treatment was developed to enhance the immune cell function in patients with severe sepsis. The influence of oxygenation on the used cells was tested in a prospective clinical study. Ten patients with severe sepsis were treated twice with the granulocyte bioreactor. The used cells were screened for functionality; values of blood gases, glucose and lactate were obtained from the recirculating bioreactor circuit. Five patients were treated with an oxygenator setup (Oxy group), five without oxygenator (Non-Oxy group). The overall in-hospital mortality was 50%. Significantly lower values of oxygen saturation, partial oxygen pressure, lactate, oxyburst and phagocytosis were seen in the Non-Oxy group compared with the Oxy group in the bioreactor circuit. Further studies with this approach are encouraged and should focus on the influence of oxygenation on production of reactive oxygen species and cytokines of used cells.

Bioartificial Therapy of Sepsis: Changes of Norepinephrine-Dosage in Patients and Influence on Dynamic and Cell Based Liver Tests during Extracorporeal Treatments.

Purpose. Granulocyte transfusions have been used to treat immune cell dysfunction in sepsis. A granulocyte bioreactor for the extracorporeal treatment of sepsis was tested in a prospective clinical study focusing on the dosage of norepinephrine in patients and influence on dynamic and cell based liver tests during extracorporeal therapies. Methods and Patients. Ten patients with severe sepsis were treated twice within 72 h with the system containing granulocytes from healthy donors. Survival, physiologic parameters, extended hemodynamic measurement, and the indocyanine green plasma disappearance rate (PDR) were monitored. Plasma of patients before and after extracorporeal treatments were tested with a cell based biosensor for analysis of hepatotoxicity. Results. The observed mortality rate was 50% during stay in hospital. During the treatments, the norepinephrine-dosage could be significantly reduced while mean arterial pressure was stable. In the cell based analysis of hepatotoxicity, the viability and function of sensor-cells increased significantly during extracorporeal treatment in all patients and the PDR-values increased significantly between day 1 and day 7 only in survivors. Conclusion. The extracorporeal treatment with donor granulocytes showed promising effects on dosage of norepinephrine in patients, liver cell function, and viability in a cell based biosensor. Further studies with this approach are encouraged.

No sustained impact of intermittent extracorporeal liver support on thrombocyte time course in a randomized controlled albumin dialysis trial.

Reduction of platelets is a common finding in patients with liver disease and can be aggravated by extracorporeal therapies, e.g. artificial liver support. The impact of extracorporeal albumin dialysis on the time count and time course of platelets in liver failure patients was evaluated in a randomized controlled clinical trial. Mean thrombocyte reduction during a single extracorporeal liver support therapy was -15.1% [95%CI: -17.7; -12.5]. No differences were found between treatments of patients with a more reduced platelet count (<100 GPT/L: -15.6% [-19.5; -11.7%]; n = 43) compared to patients with normal or slightly decreased thrombocytes (-14.6% [-18.3%; -11.0%]; n = 43; P = 0.719). The variation of platelet count within 24 h after onset of extracorporeal therapy treatment was less, albeit significant (-3.5% [-6.3%; -0.7%], P < 0.016). Absolute thrombocyte variability was comparable between both groups (with extracorporeal therapy -5.6 GPT/L [-9.7; -1.4], without extracorporeal therapy -1.3 GPT/L [-7.3; 4.7]; P = 0.243), whereas relative decrease of thrombocytes within a 24-h period of extracorporeal therapy was greater than the changes in patients without extracorporeal therapy (-3.5% [-6.3%; -0.7%] vs. 2.0% [-2.0%; 5.9%]; P = 0.026]. Within a period of two weeks after enrollment, no significant differences of platelet count were observed either between the two groups or in the time course (P(group) = 0.337, P(time) = 0.277). Reduction of platelets during intermittent extracorporeal liver support was less pronounced within a 24-h period as before and after a single treatment and was comparable to variations in the control group without extracorporeal therapy.

Role of different replacement fluids during extracorporeal treatment in a pig model of sepsis.

In an extracorporeal combination therapy, the impact of different replacement fluids on survival was tested in a bacterial sepsis model in pigs. In an animal study 19 pigs, weighing 7.5-11.1 kg, were included. All groups received an intravenous lethal dose of live Staphylococcus aureus over 1 h. The animals were treated by an extracorporeal circuit consisting of online centrifugation and subsequent plasma filtration for 4 h. The extracorporeal circuit was pre-filled with 400 mL replacement fluid. In the P0 group 100% hydroxyethyl starch 130/0.4 was used as replacement fluid; in the P30 group 30% pig plasma and 70% hydroxyethyl starch; and in the P100 group 100% pig plasma. The observation time was 7 days. All animals of the group P100 survived, while all animals of group P0 and five out of seven animals of the P30 group died during the observation time. Extracorporeal therapy consisting of online centrifugation and plasma filtration with 100% pig plasma as replacement fluid significantly improved survival in a pig model of sepsis. Further studies with this approach are encouraged.

Plasma separation by centrifugation and subsequent plasma filtration: impact on survival in a pig model of sepsis.

The impact on survival of a combination of plasma separation by centrifugation and subsequent plasma filtration was tested in a bacterial sepsis model in pigs. In this animal study 19 pigs were included. Groups II and III received an intravenous lethal dose of live Staphylococcus aureus over 1 h; group I received saline (non-septic control--NC). Groups I and II were treated by an extracorporeal circuit consisting of online centrifugation and subsequent plasma filtration (group II: treated group--TG) for 4 h; group III had no specific treatment (septic control, SC). The observation time was 7 days. All animals of group I (NC) and group II (TG) survived, while all animals of group III (SC) died during the observation time. Extracorporeal therapy with online centrifugation and plasma filtration significantly improved survival in a pig model of sepsis. Further studies with this approach are encouraged.

Extracorporeal liver support-albumin dialysis with the Molecular Adsorbent Recirculating System (MARS).

Extracorporeal liver support has been a much studied topic throughout the last 50 years. Albumin dialysis as a therapeutic option for patients with acute liver failure or acute decompensation of chronic liver disease was introduced in the mid-nineties. The Molecular Adsorbent Recirculating System (MARS) is based on the concept of albumin dialysis and allows for the removal of protein-bound as well as water-soluble toxins. Besides its role as a sufficient volume expander human serum albumin is an important scavenger for molecules with pathophysiological relevance in liver failure. Albumin dialysis enables the selective regeneration of patient's albumin resulting in an increase of albumin binding capacity. Clinically, an improvement of central and local hemodynamics as well as liver-, brain-, and kidney-functions were observed. Thus, the treatment can contribute to liver regeneration and stabilization of vital organ functions and thus help to bridge patients to liver transplantation or to recovery of native liver function. Proper patient selection is critical for clinical success. Aggressive treatment of infections and sepsis seems to be a decisive pre-requisite for its safe and efficient use. Cautious anticoagulation with heparin is the common standard. Citrate use is recommended for patients prone to bleeding. Today, albumin dialysis MARS is among the best studied liver support methods. It appears as a valuable therapeutic tool for the treatment of various complications of of liver failure, especially hemodynamic instability and hepatic encephalopathy. Further studies will need to help defining the optimal patient selection and technical process parameters such as session length and frequency of treatment.

Extracorporeal cell therapy of septic shock patients with donor granulocytes: a pilot study.

INTRODUCTION: Neutrophil granulocytes are the first defense line in bacterial infections. However, granulocytes are also responsible for severe local tissue impairment. In order to use donor granulocytes, but at the same time to avoid local side effects, we developed an extracorporeal immune support system. This first-in-man study investigated whether an extracorporeal plasma treatment with a granulocyte bioreactor is tolerable in patients with septic shock. A further intention was to find suitable efficacy end-points for subsequent controlled trials. METHODS: The trial was conducted as a prospective uncontrolled clinical phase I/II study with 28-day follow-up at three university hospital intensive care units. Ten consecutive patients (five men, five women, mean age 60.3 ± 13.9 standard deviation (SD) years) with septic shock with mean ICU entrance scores of Acute Physiology and Chronic Health Evaluation (APACHE) II of 29.9 ± 7.2 and of Simplified Acute Physiology Score (SAPS) II of 66.2 ± 19.5 were treated twice within 72 hours for a mean of 342 ± 64 minutes/treatment with an extracorporeal bioreactor containing 1.41 ± 0.43 × 10E10 granulocytes from healthy donors. On average, 9.8 ± 2.3 liters separated plasma were treated by the therapeutic donor cells. Patients were followed up for 28 days. RESULTS: Tolerance and technical safety during treatment, single organ functions pre/post treatment, and hospital survival were monitored. The extracorporeal treatments were well tolerated. During the treatments, the bacterial endotoxin concentration showed significant reduction. Furthermore, noradrenaline dosage could be significantly reduced while mean arterial pressure was stable. Also, C-reactive protein, procalcitonin, and human leukocyte antigen DR (HLA-DR) showed significant improvement. Four patients died in the hospital on days 6, 9, 18 and 40. Six patients could be discharged. CONCLUSIONS: The extracorporeal treatment with donor granulocytes appeared to be well tolerated and showed promising efficacy results, encouraging further studies. TRIAL REGISTRATION: ClinicalTrials.gov Identifier: NCT00818597.

Use of preconditioned human phagocytes for extracorporeal adsorption of viruses.

Conventional treatment of severe viral disease is limited by the narrow choice as well as the often-significant side effects or lack of clear efficacy of antiviral chemotherapy. At the same time, however, it is known that a reduction in viral load leads to significant clinical improvement in a number of important viral diseases. In this paper we discuss the possibility of using preconditioned human phagocytes in an extracorporeal biohybrid system for adsorption of viral pathogens. We present data from in vitro experiments testing adsorption of an enterovirus and of hepatitis B virus (HBV) by a preconditioned human promyelocytic cell line. While no clearance of HBV could be detected, the results revealed a near elimination of enterovirus with the cell line displaying robust viability. Enterovirus titers of 1000 (reciprocal) were reduced to a mean titer of 10(0.6) CCID(50) with no virus detectable after adsorption in two out of five samples. Titers of 10000 (reciprocal) were in turn reduced to a mean of 10(1.4) CCID(50). The kinetics of the process was remarkable with this near elimination of the pathogen occurring within only 15min. Extracorporeal viral adsorption by a cellular biohybrid system appears feasible. Pairing target pathogens with suitable cell lines may offer a versatile antiviral technology.

Neutrophil-derived circulating free DNA (cf-DNA/NETs), a potential prognostic marker for mortality in patients with severe burn injury.

The predictive value of circulating free DNA/neutrophil extracellular traps (cf-DNA/NETs) has recently been shown in patients with major trauma for sepsis, multiple organ failure, and mortality. Here we report on the predictive potential of cf-DNA/NETs for mortality in patients with severe burn injury. In a prospective study 32 patients with severe burn injury were included. Blood samples were sequentially obtained on day 1, 3, 5, and 7 after admission. cf-DNA/NETs was directly quantified from plasma by means of rapid fluorescence assay. Time kinetics of cf-DNA/NETs were correlated with clinical data, C-reactive protein (CRP), procalcitonin (PCT), and interleukin (IL)-6. Furthermore sensitivity, specificity, and positive and negative predictive value, as well as receiver operation characteristic (ROC) curves were calculated. Seven patients died within the first month after burn injury. cf-DNA/NETs values from these patients were significantly increased already on day 1 and 3 after admission compared with patients who survived (p < 0.01). In contrast, PCT levels of nonsurvivors were significantly elevated on day 3 and 5 (p < 0.01), while CRP and IL-6 did not show any significant difference between survivors and nonsurvivors. At a cutoff of 255 ng/ml, cf-DNA/NETs had sensitivity of 0.8 and specificity of 0.74. ROC revealed largest areas under the curve (AUC) for cf-DNA/NETs on day 1 (0.851) and 3 (0.883) after admission. For all values between day 1 and 7, AUC was 0.815. cf-DNA/NETs seems to be a rapid, valuable marker for prediction of mortality in burn patients. A larger confirmation trial ought to be carried out.

Cost-effectiveness of the artificial liver support system MARS in patients with acute-on-chronic liver failure.

BACKGROUND: For patients with an acute exacerbation of chronic liver failure (ACLF), the molecular adsorbent recirculating system (MARS) can result in a prolongation of life, but data on costs and cost-effectiveness are lacking. METHODS: A health economic evaluation of a prospective controlled cohort trial in patients with ACLF not eligible for liver transplantation with 3 years follow-up and consecutive modelling of long-term costs, outcomes and cost-effectiveness was conducted. Costs were calculated from the perspective of the German health-care system. RESULTS: One hundred and forty-nine patients with ACLF were included of which 67 (44.9%) were treated with MARS and 82 (55.1%) assigned to the control group. Mean survival was 692 days in MARS-treated patients (33% survival after 3 years) and 453 days in control patients (15% after 3 years, logrank P = 0.022). MARS patients gained 0.66 [95% confidence interval (CI): -0.12 to 1.46] life years (LYs), determined by the bootstrap method. The mean cost difference was 19.835 euro (95% CI: 13.308-25.429) with 35639 euro for MARS-treated patients and 15804 euro for controls. Incremental costs per LY gained were 29.985 euro (95% CI: 9.441-321.761) and 43.040 euro (95% CI: 13.551-461.856) per quality-adjusted LY gained. CONCLUSION: There is an acceptable cost-effectiveness of MARS, compared with other medical technologies presently reimbursed. Randomized controlled trials with sufficient sample size are necessary before a final recommendation for MARS can be given.

Safety evaluation for a cell-based immune support system in an ex vivo rat model of gram-negative sepsis.

Granulocyte dysfunction is a central component of immunodeficiency in septic patients. Granulocyte transfusions appear to be pathophysiologically useful; however, they cause unwanted side-effects in the lungs and other organs. This study evaluates the safety of an extracorporeal immune support system with granulocytic cells in a rat model of Gram-negative sepsis. Three groups of male CD rats received either saline (control group, I), a dose of Escherichia coli O7:K1 lethal to 90% of the animals (LD90) (septic group, II), or an LD90 dose of E. coli that was incubated with the human promyelocytic leukemia cell line (HL-60) (differentiated into the granulocytic direction) for 20 min prior to infusion (second septic group, III). The animals were observed for seven days. Pre-treatment with HL-60 cells resulted in no adverse effects in the group III animals. Significantly lower bacterial counts and endotoxin levels in the plasma were detected after 24 h as compared to group II (P < 0.05). Group III animals had better weight gain and more stable hemodynamics than group II animals (P < 0.01). Seven day survival was 0/8 in group II, 6/8 in group III, and 8/9 in group I (log-rank test: II-III: P < 0.001). The data suggest that extracorporeal use of granulocytes allows the therapeutic use of these cells while avoiding unwanted effects resulting from direct contact to internal organs.

Albumin dialysis MARS: knowledge from 10 years of clinical investigation.

A decade ago, albumin dialysis was introduced as a new extracorporeal detoxification method for patients with liver failure. Today, the molecular adsorbent recirculating system is the most frequently used type of albumin dialysis and most studied liver-support technique. Numerous preclinical and clinical studies demonstrated the importance of albumin as a scavenger for molecules with pathophysiological relevance in liver failure. Albumin dialysis enables the selective regeneration of albumin. The resulting increase of albumin binding capacity is paralleled by improvement of central and local hemodynamics and liver, brain, and kidney functions. The treatment can contribute to liver regeneration and prolongation of patient survival in the context of acute liver failure, decompensated chronic liver disease, and bridging of patients to liver transplantation. Proper patient selection is critical for clinical success. Aggressive treatment of infections and sepsis seems to be a decisive prerequisite for its safe and efficient use. Cautious anticoagulation with heparin is the common standard. Citrate use is recommended for patients prone to bleeding. Taken together, albumin dialysis represents a valuable therapeutic tool for the treatment of various types of liver failure. Ongoing and future studies will help define the optimal patient selection and technical process parameters such as session length and frequency of treatment.

Extracorporeal cell therapy with granulocytes in a pig model of Gram-positive sepsis.

OBJECTIVES: Granulocyte transfusions have been used to treat immune cell dysfunction in sepsis. As granulocyte transfusions can trigger tissue injury via local effects of neutrophils, we hypothesized that extracorporeal treatment of plasma using granulocytes would prove beneficial while having less side effects. DESIGN: Prospective controlled three-armed animal study. SETTING: Research laboratory. SUBJECTS: Twenty-one female immature pigs (7.5-12 kg, 7-9 weeks old). INTERVENTIONS: Three groups of spontaneously breathing, sedated pigs (n = 7 each) received an intravenous lethal dose of live Staphylococcus aureus over 1 hour. Although group I had no specific treatment (control), group II and III were subsequently treated for 4 hours with an extracorporeal device containing either no cells (sham control, group II) or human cell line-derived granulocytic cells (group III). Survival time and physiologic, biochemical, and hematologic parameters were monitored for 7 days. MEASUREMENTS AND MAIN RESULTS: All animals of group I died during the observation time (mean survival time: 70 hours). In group II, two of seven and in group III, six of seven animals survived the observation time (mean survival: 75 and 168 hours, respectively). Survival differences were significant between group I and III (p < 0.001) and between group II and III (p < 0.05) but not between group I and II (p = 0.43). Furthermore, group differences in bacterial blood concentrations, differential blood count, blood gases, lactate, and interleukins were observed. The extracorporeal cell treatment was well tolerated by the animals. CONCLUSIONS: Extracorporeal therapy with granulocytic cells significantly improved survival in a pig model of sepsis. Further studies with this approach are encouraged.

Improvement of impaired albumin binding capacity in acute-on-chronic liver failure by albumin dialysis.

Extracorporeal albumin dialysis (ECAD) enables the elimination of albumin bound substances and is used as artificial liver support system. Albumin binding function for the benzodiazepine binding site specific marker Dansylsarcosine was estimated in plasma samples of 22 patients with cirrhosis and hyperbilirubinaemia (ECAD: n = 12; control: n = 10) during a period of 30 days in a randomized controlled clinical ECAD trial. Albumin Binding Capacity (ABiC) at baseline was reduced to 31.8% (median; range 24%-74%) and correlated to the severity of liver disease. Within two weeks a significant improvement of ABiC and a reduction of the albumin bound markers bilirubin and bile acids were observed in the ECAD group. During single treatments a significant decrease of albumin bound substances (bilirubin and bile acids) as well as an increase in ABiC was observed. In the control group, baseline ABiC was significantly lower in patients who died during study period (34.2% vs. 41.7%; P < 0.028), whereas no significant differences were observed for CHILD, coagulation factors, albumin, bile acids nor bilirubin. At baseline 13 patients had a severely impaired ABiC (<40%), improvement of ABiC was more frequent in the ECAD group (5/6) than in the SMT group (2/7). Reduced albumin binding function is present in decompensated liver failure and is related to severity and 30 day survival. ABiC can be improved by ECAD. The beneficial effect of this treatment may be related to the improvement of albumin binding function more than to the elimination of specific substances. Characterization of albumin function by the ABiC test may help to evaluate different liver support systems and other therapeutic measures.

Albumin dialysis: an update.

PURPOSE OF REVIEW: To review the current literature about albumin dialysis-based liver support. RECENT FINDINGS: The literature suggests that the molecular adsorbent recirculating system of albumin dialysis is a useful tool to treat acute liver failure, decompensated chronic liver disease, and to provide a bridge for patients to liver transplantation. The reported clinical benefits include an improvement in central and local haemodynamics as well as organ functions (liver, brain, kidney). The treatment can contribute to liver regeneration and prolongation of patient survival. Proper patient selection is critical for clinical success. SUMMARY: Albumin regeneration has developed into a central component of modern liver support technologies. Albumin dialysis using the molecular adsorbent recirculating system is the most frequently used and best studied liver support technique at present time. Ongoing and future clinical studies will help define the place of albumin dialysis in liver failure therapy.