Anti-high mobility group box-1 (HMGB1) antibody attenuates kidney damage following experimental crush injury and the possible role of the tumor necrosis factor-α and c-Jun N-terminal kinase pathway.

BACKGROUND: Inflammation plays a crucial role in kidney damage after crush syndrome (CS). Several researchers report that high mobility group box-1 protein (HMGB1) may be the vital trigger in kidney damage, and tumor necrosis factor-α (TNF-α) and c-Jun N-terminal kinase (JNK) are involve in this pathophysiological process, but their biological roles are unclear. This study aimed to explore the relationship between HMGB1, JNK, and TNF-α in kidney damage. METHODS: The crush injury model was established using weight compression. The reliability of the crush injury model was determined by hematoxylin-eosin (HE) staining. Western blot was used to detect the expression of HMGB1, JNK, and TNF-α, and TUNEL was used to mark apoptotic cells in the renal cortex. RESULTS: The results showed that the highest expression of HMGB1 in muscle was 12 h after CS. JNK and TNF-α increased and peaked at 1 day after CS in kidneys. Western blot analysis revealed that anti-HMGB1 antibody could downregulate the expression of JNK and TNF-α. Anti-TNF-α could downregulate activation of JNK, and SP600125 could downregulate expression of TNF-α in the kidneys. In addition, anti-HMGB1 antibody, anti-TNF-α antibody, and SP600125 could reduce cellular apoptosis in the renal cortex. CONCLUSIONS: It is possible that JNK and TNF-α commonly contribute to kidney damage by assembling a positive feedback cycle after CS, leading to increased apoptosis in the renal cortex. HMGB1 from the muscle may be the trigger.

Disaster nephrology: crush injury and beyond.

Disasters result in a substantial number of renal challenges, either by the creation of crush injury in victims trapped in collapsed buildings or by the destruction of existing dialysis facilities, leaving chronic dialysis patients without access to their dialysis units, medications, or medical care. Over the past two decades, lessons have been learned from the response to a number of major natural disasters that have impacted significantly on crush-related acute kidney injury and chronic dialysis patients. In this paper we review the pathophysiology and treatment of the crush syndrome, as summarized in recent clinical recommendations for the management of crush syndrome. The importance of early fluid resuscitation in preventing acute kidney injury is stressed, logistic difficulties in disaster conditions are described, and the need for an implementation of a renal disaster relief preparedness program is underlined. The role of the Renal Disaster Relief Task Force in providing emergency disaster relief and the logistical support required is outlined. In addition, the importance of detailed education of chronic dialysis patients and renal unit staff in the advance planning for such disasters and the impact of displacement by disasters of chronic dialysis patients are discussed.

The role of hyperbaric oxygen therapy in crush injuries.

Hyperbaric oxygen therapy has been approved for primary or adjunctive care in 14 indications. A hyperbaric environment exists when a patient's whole body is physically exposed to 100% oxygen and pressure that is greater than one atmosphere absolute. Hyperbaric oxygen therapy works through the ideal gas laws and is effective as an adjunctive therapy in the treatment of crush injuries. Oxygen is considered a drug and can have contraindications and adverse effects. Hyperbaric therapy works through several different mechanisms in the crush injury. Effects of hyperoxygenation, reduction of edema, infection control enhancement, blood vessel and collagen formation, and reduction of free radicals and reperfusion injury help in healing in patient with crush injuries.

Aortic injuries in crush trauma patients: different mechanism, different management.

BACKGROUND: The objective of this study is to report the clinical and radiological characteristics and early and long-term survival of a series of acute traumatic aortic injuries (ATAI) in crush trauma patients, and to compare such data with our last 30 years experience managing ATAI in deceleration non-crush trauma patients. METHODS: From January 1980 to December 2010, 5 consecutive ATAI in crush trauma and 69 in non-crush trauma patients were admitted at our institution. ISS, RTS and TRISS scores were similar in both groups. RESULTS: Overall in-hospital mortality was 24.3%. There was no in-hospital mortality in crush patients and 26.1% in non-crush patients (p=0.32). All aortic-related complications occurred in non-crush patients. Median follow-up was 129 months (range 3-350 months). Non-crush group survival was 76.8% at 1 year, 73.6% at 5 years, and 71.2%% at 10 years. There was no mortality during follow-up in the crush group. Mean (SD) peak creatine phosphokinase was significantly higher in crush group than in non-crush group: 7598 (3690) IU/L vs. 3645 (2506) IU/L; p=0.041. Incidence of acute renal injury was higher in crush trauma patients (100% vs. 36.2%; p=0.018). Low-severity injuries were more common in crush trauma patients (100% in crush patients vs. 43.5% in non-crush patients, p=0.04). CONCLUSIONS: Aortic injuries in crush thoracic trauma patients seem to present in a different clinical scenario from aortic injuries in high-speed thoracic trauma thus requiring distinct considerations. When planning the initial management of aortic injuries in crush trauma, the increased risk of rhabdomiolysis and subsequent acute renal failure, as well as a tendency to develop lower-risk aortic wall injuries, must be considered.

Nitrite reduces ischemia/reperfusion-induced muscle damage and improves survival rates in rat crush injury model.

BACKGROUND: Nitrite is an intrinsic signaling molecule with potential therapeutic implications in mammalian ischemia/reperfusion (I/R) injury of the heart, liver, and kidney. Although limb muscle compression and subsequent reperfusion are the causative factors in developing crush syndrome (CS), there has been no report evaluating the therapeutic effects of nitrite on CS. We therefore tested whether nitrite could be a therapeutic agent for the treatment of CS. METHODS: To create a CS model, anesthetized rats were subjected to bilateral hind limb compression with rubber tourniquets for 5 hours, followed by reperfusion for 0 hour to 6 hours while monitoring blood pressure. Saline for the CS group or sodium nitrite (NaNO(2)-100, 200, and 500 µmol/kg) for the nitrite-treated CS groups was intravenously administered immediately before reperfusion. Blood and tissue samples were collected for biochemical analysis. RESULTS: Tissue nitrite levels in injured muscles were significantly reduced in the CS group compared with the sham group during I/R injury. Nitrite administration to CS rats restored nitric oxide bioavailability by enhancing nitrite levels of the muscle, resulting in a reduction of rhabdomyolysis markers such as potassium, lactate dehydrogenase, and creatine phosphokinase. Nitrite treatment also reduced plasma levels of interleukin-6 and myeloperoxidase activities in muscle and lung tissues, finally resulting in a dose-dependent improvement of survival rate from 24% (CS group) to 36% (NaNO(2)-100 group) and 64% (NaNO(2)-200 and 500 groups). CONCLUSION: These results indicate that nitrite reduces I/R-induced muscle damage through its cytoprotective action and contributes to improved survival rate in a rat CS model.

Systemic involvement of high-mobility group box 1 protein and therapeutic effect of anti-high-mobility group box 1 protein antibody in a rat model of crush injury.

Patients with crush injury often present systemic inflammatory response syndrome and fall into multiple organ failure. The mechanism by which the local tissue damage induces distant organ failure is still unclear. We focused on high-mobility group box 1 protein (HMGB1) as one of the damage-associated molecular pattern molecules that cause systemic inflammation in crush injury. We investigated involvement of HMGB1 and the effects of treatment with anti-HMGB1 antibody in a rat model of crush injury. Both hindlimbs of rats were compressed for 6 h and then released. In the crush injury group, the level of serum HMGB1 peaked at 3 h after releasing compression, followed by the increasing in the serum levels of interleukin 6 and tumor necrosis factor α. Hematoxylin-eosin staining showed substantial damage in the lung 24 h after the crush injury, with upregulation of the expression of receptor for advanced glycation end products, as revealed by immunohistochemical analysis. Intravenous administration of anti-HMGB1 antibody improved survival (n = 20 each group) and significantly suppressed serum levels of HMGB1, interleukin 6, and tumor necrosis factor α compared with the untreated crush injury group (n = 6-9 each group). Histological findings of lung damage were ameliorated, and the expression of receptor for advanced glycation end products was hampered by the treatment. These results indicate that HMGB1 is released in response to damage immediately after crush injury and acts as a proinflammatory mediator. Administration of anti-HMGB1 antibody reduced inflammatory reactions and improved survival by blocking extracellular HMGB1. Thus, HMGB1 appears to be a therapeutic target, and anti-HMGB1 antibody may become a promising novel therapy against crush injury to prevent the progression to multiple organ failure.

The clinical features and outcome of crush patients with acute kidney injury after the Wenchuan earthquake: differences between elderly and younger adults.

BACKGROUND: On May 12, 2008, a devastating earthquake hit Wenchuan county of China's Sichuan province. Acute kidney injury (AKI) is one of the most lethal but reversible complications of crush syndrome after an earthquake. However, little is known about the epidemiological features of elderly crush patients with AKI. The aim of the present study is to compare clinical features and outcome of crush related AKI between elderly and younger adults in the Wenchuan earthquake. MATERIALS AND METHODS: A questionnaire was sent to 17 reference hospitals that treated the victims after the earthquake. Clinical and laboratory characteristics of crush patients with AKI were retrospectively analysed. RESULTS: 228 victims experienced crush related AKI, of which 211 were adults, including 45 elderly (age ≥ 65 years) and 166 younger adults (age, 15-64 years). Compared with the resident population, the percentage of patients was higher amongst elderly (19.7% versus 7.6%, P<0.001). The distribution of gender was similar in elderly and younger adults. Mean systolic blood pressure was higher in elderly groups. Although no statistical differences in number of injury and injury severity score were observed between elderly and younger adults, elderly victims had lower frequency of extremities crush injury; higher incidences of thoracic traumas, limb, rib, and vertebral fractures; lower serum creatinine, potassium and creatinine kinase levels; lower incidence of oliguria or anuria; lower dialysis requirement; underwent less fasciotomies and amputations, received less blood and plasma transfusions. Mortality were 17.8% and 10.2% in elderly and younger adults, respectively (P=0.165). Stratified analysis demonstrated the elderly receiving dialysis had higher mortality rate compared with younger patients (62.5% versus 10.5%, P<0.001). Multivariate logistic regression analysis indicated that need for dialysis and sepsis were independent risk factors for death in the elderly patients. CONCLUSIONS: Elderly crush victims more frequently developed AKI in the Wenchuan earthquake, and they differ from younger adults in injury patterns and treatment modalities. The elderly patients with AKI requiring dialysis were at a relatively high risk of mortality.

Infections in crush syndrome: a retrospective observational study after the Wenchuan earthquake.

OBJECTIVES: To investigate the characteristics of infections in the casualties with crush syndrome after the Wenchuan earthquake. METHODS: The clinical data of patients during their first 2 months of hospitalisation were analysed retrospectively. 58 crush syndrome patients were included. Demographic data, physical and laboratory findings, treatment and outcome were recorded. RESULTS: The mean age of these patients was 32.8±20.7 years and the average duration under the rubble was 23.7±19.3 h. Fasciotomy and amputation were performed in 29 (50%) and 34 (58.6%) patients, respectively. Renal replacement therapies were administered to 47 patients (81%). Four patients died while all the others restored their renal function. Microbial pathogens were detected in the samples from 39 patients (67.2%), 26 of whom developed sepsis. The most vulnerable sites for infection were wounds (55.2%) and lungs (37.9%). Acinetobacter baumanii and Pseudomonas aeruginosa were the most common bacterial isolates from wound infections. 26 of 39 patients (66.7%) became infected after 48 h of admission. The infected group had a longer duration under the rubble (39.2 h vs 30.1 h, p=0.000) and more fasciotomies (61.5% vs 26.3%, p=0.012) compared with those without infections. Multivariate analysis indicated that duration under the rubble (p=0.012, OR 1.061), duration of renal impairment (p=0.015, OR 1.096) and fasciotomy (p=0.024, OR 5.470) were risk factors for infection. CONCLUSIONS: Infectious complications are common in crush syndrome. In order to improve patient outcomes, vigorous care and strict surveillance are required.

Outcomes of fasciotomy in patients with crush-induced acute kidney injury after Bam earthquake.

INTRODUCTION. Fasciotomy may increase the morbidity and mortality in patients with crush-induced acute kidney injury (AKI), by creating an open wound, increasing the risk of bleeding, coagulopathy, and potentially fatal sepsis. This study evaluates the outcomes of fasciotomy in these patients after Bam earthquake in Iran. MATERIALS AND METHODS. We reviewed medical records of victims of Bam earthquake complicated with crush-induced AKI. Demographic, biochemical, and clinical data of patients who underwent fasciotomy were evaluated and compared with other patients with AKI. RESULTS. Fasciotomy was performed for 70 of 200 patients with crush-induced AKI (35.0%). There were no significant differences regarding sex, age, time under the rubble, and muscle enzymes level between these patients and those without fasciotomy. They did not experience higher rates of disseminated intravascular coagulopathy, sepsis, adult respiratory distress syndrome, amputation, and dialysis session. Neither did they have a longer hospitalization period or higher death rate. CONCLUSIONS. This study showed that fasciotomy did not have any deteriorating effect on morbidity and mortality of patients with crush-induced AKI after Bam earthquake.

[Muscle crush injury and crush syndrome]. / Raumenu sutraiskymas ir sutraiskymo sindromas.

Crush injury is defined as compression of extremities or other parts of the body that causes muscle breakdown (traumatic rhabdomyolysis). Systemic consequences of crush injuries are as follows: rhabdomyolysis, electrolyte and acid-base abnormalities, hypovolemia, and acute renal failure. Crush injuries are important injuries in disaster situations: earthquakes, hurricanes, mining and road traffic accidents, war, collapse of buildings, etc. In this review article, there are discussed about epidemiology of crush syndrome, risk factors, pathophysiology (mechanisms of muscle cell injury, release of substances from injured muscles, other consequences of reperfusion), clinical features, differential diagnosis, investigations, complications (acute renal failure, hypovolemic shock, hyperkalemia, infection, compartment syndrome), approach to treatment (adequate rehydration, a forced mannitol-alkaline diuresis, intravenous fluids, management of hyperkalemia, wound care, hyperbaric oxygen, etc.), prognosis, the mortality rate and prevention (timely support may reduce morbidity and mortality).

Fluid therapy in pediatric victims of the 2003 bam, Iran earthquake.

INTRODUCTION: On 26 December 2003, at 05:26 hours, an earthquake of magnitude 6.6 (Richter scale) caused a disaster in the Bam region of Southeastern Iran, which had a population of approximately 102,000. In this study, the clinical and laboratory features and therapeutic interventions in pediatric (three months to 14 years) crush victims were analyzed. Determination of the type and amount of fluid therapy for prevention of acute renal failure (ARF) was the main aim of this study. METHODS: The clinical and laboratory data and therapeutic interventions provided to 31 pediatric crush victims were collected. Early and vigorous fluid resuscitation was immediately performed. Resuscitation of the children from hypovolemic shock was initiated by interavenous (IV) administration of normal saline until the signs and symptoms of shock disappeared. For victims with crush injuries, an alkaline intravenous solution, up to 3 to 5 times more than maintenance doses was provided. In this study, there were two groups with decreasing severity of injury: (1) crush injury (CI), with or without ARF; and (2) non-crush injury (Non-CI). According to the above mentioned classification, there were 15 and 16 patients in group I and II, respectively. RESULTS: The mean time spent under the rubble was 2.2 +/-2.5 hours and 0.5 +/-0.5 hours in Groups I and II, respectively. Seventy-five percent of ARF patients (n = 8), were admitted to the hospital the day of the earthquake (Day 0) and the day after earthquake (Day 1). In non-ARF patients (n = 7), 85.7% of the victims were admitted on Day 0 and Day 1. In Group II (ARF and non-ARF), all patients were admitted within three days after the earthquake. Although ARF did not develop in any of the children without CI, it was observed in eight of 15 patients with CI. There was no significant difference between CI with ARF (n = 8) and CI without ARF (n = 7) patients, in terms of the admission date, time of admission, hospitalization duration, and time under the rubble (TUR). Admission SGOTs were significantly different between these two groups. The ratio of the amount of delivered IV fluid (DL) to expected (EX) was based on weight of children was the only fluid therapy parameter in which there was a statistically significant difference between ARF and non-ARF groups. It was 3.6 +/-0.99 in ARF and 4.8 +/-0.74 in Non-ARF group (p = 0.01). CONCLUSIONS: Early intravenous volume replacement may prevent both ARF and dialysis need that may develop on the basis of rhabdomyolysis. In adults, six liters or 12-14 liters of fluids for prophylaxis of ARF in crush syndrome, were suggested. In children, it seems that DL/EX ratio (delivered to expected ratio) is the best marker for evolution of IV fluid therapy in pediatric patients. In children with crush injuries, DL/EX ratio of >4.8 was sufficient for the prevention of ARF.

Effect of fluid therapy on prevention of acute renal failure in Bam earthquake crush victims.

BACKGROUND: At 5:28 a.m. (local time) on December 26, 2003, an earthquake measuring 6.51 on the Richter scale struck the city of Bam in the Kerman Province in southeastern Iran. Among the most important morbid events in survivors were acute renal problems. Clinical findings, laboratory data, and management of the renal victims, all of whom were transferred to Shiraz Hospitals, have been the subject of this analysis. METHOD: Medical records of twenty patients with acute renal failure admitted to three university hospitals and one community hospital were reviewed. RESULTS: Overall, 801 patients were transferred to Shiraz hospitals, of whom 20 (mean age 36.2 +/- 14.8 years, 15 males) developed acute renal failure with mean duration of 14.5 +/- 9.6 days. Total mortality was 21 (2.6%) and acute renal failure mortality was 3 (15%). Seven patients received standard fluid therapy and 13 patients received variable volume treatment. In total, 79 dialysis sessions were performed in 15 patients (mean 5.2, 3.3 +/- 1 sessions per patients). There was a positive correlation between time spent under rubble and peak serum CK (creatine phosphokinase) level (p = 0.035), acute renal failure duration (p = 0.047), and admission potassium levels (p = 0.033). Serum CK level was positively correlated with acute renal failure duration (p = 0.008). Patients who had received standard treatment had significantly shorter duration of acute renal failure (7.1 versus 9.4 days, p = 0.008) and less need for dialysis (1 versus 6, p = 0.007) than patients who were treated variably. CONCLUSION: In victims of earthquake, time spent under rubble and peak serum CK level can serve to estimate morbidity, and early standard treatment may decrease renal morbidity.

New experimental model of crush injury of the hindlimbs in rats.

BACKGROUND: Crush injury (CI) remains a life-threatening condition. Because there is a shortage of animal models of CI, we purposed to develop a reproducible model of CI of hindlimbs in rats and to evaluate correlation between the volume of muscles traumatized and the severity of CI. METHODS: The right or both hindlimbs of anesthetized rats were compressed for 6 hours under blocks weighing 3 kg. This was followed by 3 hours of reperfusion. Serum lactate, base excess (BE), and potassium (K) were measured at 10 minutes after cannulaton (baseline), immediately before release (compression), and 3 hours after release (reperfusion). Serum creatine phosphokinase (CK), lactate dehydrogenase (LDH), aspartate transferase (AST) and alanine transferase (ALT) were measured at baseline and reperfusion. Muscles and kidneys were evaluated morphologically. In a separate group of animals treated in the same way, survival rate was monitored for 168 hours. RESULTS: Unilateral CI did not induce serious systemic impairment. Bilateral CI resulted in severe lactic acidosis. Serum K levels increased similarly and significantly in both groups. Serum CK levels correlated strongly with the volume of muscles traumatized. Bilateral CI produced a sharp increase in serum LDH, AST and ALT levels by the end of experiment. Signs of direct cellular damage and ischemia-reperfusion injury were found in histology specimens. In bilaterally crushed rats there were patent signs of acute tubular necrosis at 24 hours after insult. All rats with unilateral CI survived, whereas mortality rate reached 58.3% in rats with bilateral CI. The majority of these animals died within 24 hours after compression. CONCLUSIONS: We developed a valid experimental model of severe CI of the hindlimbs in rats. Systemic responses to CI and the severity of CI appeared to correlate strongly with the volume of muscle traumatized.

Serum potassium in the crush syndrome victims of the Marmara disaster.

BACKGROUND: Hyperkalemia is a major cause of mortality in the patients who suffer from crush syndrome in the aftermath of major earthquakes. The aim of this study is to investigate the frequency and effects of hyperkalemia in the 639 victims of catastrophic Marmara earthquake that struck northwestern Turkey, in August 1999. PATIENTS AND METHODS: Within the first week of disaster, questionnaires were sent to 35 reference hospitals that treated the victims. Information on serum potassium which was provided in 595 out of 639 questionnaires was submitted to analysis. RESULTS: In the patients who were admitted within the first 3 days of the disaster (n = 401) serum potassium was 5.4 +/- 1.3 mEq/l, which was higher than in those admitted thereafter (n = 171) (4.5 +/- 1.1 mEq/l) (p = 0.02). Considering the whole series, males (p = 0.01), patients needing dialysis support (p < 0.001) and non-survivors (p = 0.001) were characterized by higher serum potassium at admission. Seventy patients' serum potassium was above 7 mEq/l, while 22 patients were hypokalemic (< 3.5 mEq/l). Admission potassium correlated with many clinical and laboratory variables indicating the severity of the trauma, and a logistic regression model with clinical and laboratory parameters upon admission, revealed potassium as the most significant predictor of dialysis needs in the victims admitted within the first 3 days (p = 0.008, OR = 3.33). Among the victims who were admitted to hospitals 1 week after the disaster, 8 had serum potassium levels above 6.5 mEq/l; among 4 of them were complicated by hyperkalemia even higher than 7.5 mEq/l. These findings undeline the importance of hyperkalemia during clinical course. CONCLUSION: The most important and fatal medical complication in crush syndrome patients is hyperkalemia. Risk of fatal hyperkalemia continues even after hospitalization. Empirical therapy at the scene is indicated especially in male victims with severe soft tissue traumas. Early detection and treatment of hyperkalemia may improve the final outcome of renal disaster victims.

Survival analysis of the factors affecting in mortality in injured patients requiring dialysis due to acute renal failure during the Marmara earthquake: survivors vs non-survivors.

BACKGROUND: We reviewed medical records of dialyzed patients admitted to our hospital after the Marmara earthquake and evaluated the factors affecting mortality in survivors and non-survivors according to the survival times. PATIENTS AND METHODS: Crush syndrome (CS) was diagnosed in 110 patients. Dialysis treatment was initiated in 60 patients; 21 of all died. The patients were divided into 2 groups which consisted of 39 survivors (Group A, 25 male, 14 female, mean age: 31 +/- 2.2 years) and 21 non-survivors (Group B, 9 male, 12 female, mean age: 27 +/- 3.0 years). Victims treated by any form of renal replacement therapy, including daily or intermittant hemodialysis and/or continuous venovenous hemodiafiltration. Clinical and laboratory findings were recorded regularly. Statistical analysis was performed with Kaplan-Meier method, log rank test and Cox regression analysis for the survival functions. RESULTS: APACHE II scores were 13.5 +/- 0.5 for Group A and 13 +/- 0.9 for Group B. Dialysis support was started to patients in Group A in a mean period of 2.8 +/- 0.2 days and in Group B in a mean period of 3.7 +/- 0.6 days after the earthquake (p > 0.05). The most frequent site of trauma was lower extremity (61.5%) and upper + lower extremities (23%) in Group A, and lower extremity (38.1%) and trunk + lower extremity (23.8%) in Group B. The frequencies of abdominal trauma, pelvic fracture and thoracic trauma in Group B were 23.8%, 19% and 14.2%, respectively. Multiple trauma was more frequent in Group B than in Group A (42.8% vs 2.5%). The rates of fasciotomy, amputation and surgery were similar in both groups. The frequency of sepsis was higher in non-survivors. In our center, the overall mortality rate was 8%, mortality rate in CS was 21% and in dialyzed patients it was 35%. Mortality was mainly associated with sepsis. Survival periods (52.3 +/- 4.0 days) in Group A were longer than in Group B (17.3 +/- 2.5 days). With Cox regression analysis, the parameters such as systolic hypotension on admission, female gender, high serum peak creatine kinase (> 20,000 U/l) and multiple trauma including thoracic and abdominal regions, were factors increasing risk of mortality. CONCLUSION: As a result, sepsis, multiple trauma and severe crush injury were the main factors increasing mortality risk in dialyzed injuries after the earthquake.

Renal replacement therapies in the aftermath of the catastrophic Marmara earthquake.

BACKGROUND: Renal replacement therapy is of vital importance in the treatment of crush syndrome victims, who are frequently encountered after catastrophic earthquakes. The Marmara earthquake, which struck Northwestern Turkey in August 1999, was characterized by 477 victims who needed dialysis. METHOD: Within the first week of the disaster, questionnaires containing 63 clinical and laboratory variables were sent to 35 reference hospitals that treated the victims. Information considering the features of dialyses obtained through these questionnaires was submitted to analysis. RESULTS: Overall, 639 casualties with renal complications were registered, 477 of whom (mean age 32.3 +/- 13.7 years, 269 male) needed dialysis. Among these, 452 were treated by a single dialysis modality (437 intermittent hemodialysis, 11 continuous renal replacement therapy and 4 peritoneal dialysis), while 25 victims needed more than one type of dialysis. In total, 5137 hemodialysis sessions were performed (mean 11.1 +/- 8.0 sessions per patient) and mean duration of hemodialysis support was 13.4 +/- 9.0 days; this duration was shorter in the non-survivors (7.0 +/- 8.7 vs. 10.0 +/- 9.8 days, P = 0.005). Thirty-four victims who underwent continuous renal replacement therapy had higher mortality rates (41.2 vs. 13.7%, P < 0.0001). Only eight victims were treated by peritoneal dialysis, four of whom also required hemodialysis or continuous renal replacement therapy. The mortality rate in the dialyzed victims was 17.2%, a significantly higher figure compared to the mortality rate of the non-dialyzed patients with renal problems (9.3%; P = 0.015). CONCLUSION: Substantial amounts of dialysis support may be necessary for treating the victims of mass disasters complicated with crush syndrome. Dialyzed patients are characterized by higher rates of morbidity and mortality.