Use of Recombinant Activated Factor VII to Treat the Acquired Coagulopathy of Trauma

Damage Control Resuscitation

Damage control resuscitation (DCR) is a strategy for resuscitating patients from hemorrhagic shock to rapidly restore homeostasis. Efforts are focused on blood product transfusion with whole blood or component therapy closely approximating whole blood, limited use of crystalloid to avoid dilutional coagulopathy, hypotensive resuscitation until bleeding control is achieved, empiric use of tranexamic acid, prevention of acidosis and hypothermia, and rapid definitive surgical control of bleeding. Patients receiving uncrossmatched Type O blood in the emergency department and later receiving cumulative transfusions of 10 or more red blood cell units in the initial 24-hour post-injury (massive transfusion) are widely recognized as being at increased risk of morbidity and mortality due to exsanguination. Ideally, these patients should be rapidly identified, however anticipating transfusion needs is challenging. Useful indicators of massive transfusion reviewed in this guideline include: systolic blood pressure <110 mmHg, heart rate > 105 bpm, hematocrit <32%, pH < 7.25, injury pattern (above-the-knee traumatic amputation especially if pelvic injury is present, multi-amputation, clinically obvious penetrating injury to chest or abdomen), >2 regions positive on Focused Assessment with Sonography for Trauma (FAST) scan, lactate concentration on admission >2.5, admission international normalized ratio ≥1.2-1.4, near infrared spectroscopy-derived StO2 < 75% (in practice, rarely available), BD > 6 meq/L. Unique aspects of out-of-hospital DCR (point of injury, en-route, and remote DCR) and in-hospital (Medical Treatment Facilities: Role 2b/Forward surgical teams - role 3/ combat support hospitals) are reviewed in this guideline, along with pediatric considerations.

Well-ordered mesoporous silica and bioactive glasses: promise for improved hemostasis

Mesoporous silica and bioactive glasses with unique textural properties are new generations of inorganic hemostats with efficient hemostatic ability.

Reduced mortality by meeting guideline criteria before using recombinant activated factor VII in severe trauma patients with massive bleeding

BACKGROUND

Management of trauma patients with severe bleeding has led to criteria before considering use of recombinant activated factor VII (rFVIIa), including haemoglobin >8 g dl^-1, serum fibrinogen ≥1.0 g l^-1, platelets >50,000 x 10⁹ l^-1, arterial pH ≥ 7.20, and body temperature ≥34 °C. We hypothesized that meeting these criteria is associated with improved outcomes.

METHODS

In this prospective cohort study of 26 French trauma centres, subjects were included if they received rFVIIa for persistent massive bleeding despite appropriate care after severe blunt and/or penetrating trauma.

RESULTS

After surgery and/or embolization as haemostatic interventions, 112 subjects received a first dose of 103 μg kg^-1 rFVIIa (82-200) (median, 25^th-75^th percentile) at 420 min (285-647) post-trauma. Of these, 71 (63%) "responders" were still alive at 24h post-trauma and had their transfusion requirements reduced by > 2 packed red blood cell units after rFVIIa treatment. Mortality was 54% on day 30 post-trauma. There were 21%, 44% and 35% subjects who fulfilled 0-1, 2-3 or 4-5, respectively, of the guidelines before receiving rFVIIa. Survival at day 30 was 13%, 49% and 64% and the proportion of responders was 39%, 64% and 82%, when subjects fulfilled 0-1, 2-3 or 4-5 conditions, respectively (both P <0.01).

CONCLUSIONS

In actively bleeding trauma patients, meeting guideline criteria before considering rFVIIa was associated with lower mortality and a higher proportion of responders to the rFVIIa.

[A new concept of organization and scope of neurosurgical care in the US army during armed conflicts in the early 2000s]

Military operations in various parts of the world in the early 2000s are becoming more regionalized; new warfare tactics emerge, which makes it necessary to review and modify the neurosurgical care system. The article reviews the results of original studies on this issue and summarizes the experience of the US Army medical service in Afghanistan and Iraq. The article discusses the structure of sanitary losses, organization and scope of medical and evacuation neurosurgical measures, types and techniques of surgical interventions, and the rate of complications. We describe five levels of neurosurgical care echelons and an implemented "injury control - neurosurgery" concept; particular attention is paid to the peculiarities of research and specialist training. We demonstrate that implementation of the new concept for organization and scope of neurosurgical care has improved treatment outcomes and reduced the mortality rate in the mentioned military conflicts of recent years compared to those in the Vietnam War. We may conclude that the described experience of the US Army can be used to improve the efficacy of neurosurgical care to the wounded and victims of armed conflicts.

Brain injury from explosive blast: description and clinical management

Accumulating clinical experience is indicating that explosive blast brain injury is becoming recognized as a disease distinct from the penetrating form of blast injury as well as the classic closed head injury (CHI). In recent US conflicts in Iraq and Afghanistan, over 60% of combat casualties were from explosive blast with the hallmark explosive weapon being the improvised explosive device (IED). Explosive blast TBI is a condition afflicting many combat injured warfighters potentially constituting another category of TBI. Clinically, it shares many features with conventional TBI but possesses some unique aspects. In its mild form, it also shares many clinical features with PTSD but here again has distinct aspects. Although military medical providers depend on civilian standard of care guidelines when managing explosive blast mTBI, they are continually adapting their medical practice in order to optimize the treatment of this disease, particularly in a theater of war. It is clear that further rigorous scientific study of explosive blast mTBI at both the basic science and clinical levels is needed. This research must include improved understanding of the causes and mechanisms of explosive blast TBI as well as comprehensive epidemiologic studies to determine the prevalence of this disease and its risk factors. A widely accepted unambiguous clinical description of explosive blast mTBI with diagnostic criteria would greatly improve diagnosis. It is hoped that through appropriate research meaningful prevention, mitigation, and treatment strategies for explosive blast mTBI can be speedily realized.

The Effects of QuikClot Combat Gauze, Fluid Resuscitation, and Movement on Hemorrhage Control in a Porcine Model

The purpose of this study was to compare the effectiveness of QuikClot Combat Gauze (QCG) compared to a control group on hemorrhage control; the amount of crystalloid volume infusion on rebleeding; the effect of movement on hemorrhage. This was a prospective, experimental design. Swine were randomly assigned to either the QCG () or the control group (). Investigators transected the femoral artery and vein in each swine. After one minute of uncontrolled hemorrhage, the hemostatic agent, QCG, was placed into the wound followed by standard wound packing. The control group underwent the same procedures but without a hemostatic agent. After five minutes of direct pressure, a standard pressure dressing was applied. After 30 minutes, dressings were removed, and the wound was observed for rebleeding for 5 minutes. If hemostasis occurred, 5 liters of crystalloid was given over 5 minutes, and the wound was observed for rebleeding for 5 additional minutes. If no bleeding occurred, the extremity on the side of the injury was moved. There were significant differences in the amount of hemorrhage (), the amount of fluid administration (), and the number of movements () between the QCG and control.

Factor IX complex for the correction of traumatic coagulopathy

BACKGROUND

Damage control resuscitation advocates correction of coagulopathy; however, options are limited and expensive. The use of prothrombin complex concentrate (PCC), also known as factor IX complex, can quickly accelerate reversal of coagulopathy at relatively low cost. The purpose of this study is to describe our experience in the use of factor IX complex in coagulopathic trauma patients.

METHODS

All patients receiving PCC at our Level I trauma center over a two-year period (2008-2010) were reviewed. PCC was used at the discretion of the trauma attending for treatment of coagulopathy, reversal of coumadin, and when recombinant factor VIIa was indicated.

RESULTS

Forty-five trauma patients received 51 doses of PCC. Sixty-two per cent were male and mean Injury Severity Score was 23 (± 14.87). Standard dose was 25 units per kg and mean cost per patient was $1,022 ($504-3,484). Fifty-eight per cent of patients were on warfarin before admission. Mean international normalized ratio (INR) was decreased after PCC administration (p = 0.001). Packed red blood cell transfusion was also reduced after factor IX complex (p = 0.018). Mean INR was reduced in both the nonwarfarin (p = 0.001) and warfarin (p = 0.001) groups. Packed red blood cell transfusion was less in the nonwarfarin group (p = 0.002) however was not significant in the warfarin group. Subsequent thromboembolic events were observed in 3 of the 45 patients (7%). Mortality was 16 of 45 (36%).

CONCLUSION

PCC rapidly and effectively treats coagulopathy after traumatic injury. PCC therapy leads to a significant correction in INR in all trauma patients, regardless of coumadin use, and concomitant reduction in blood product transfusion. PCC should be considered as an effective tool to treat acute coagulopathy of trauma. Further prospective studies examining the safety, efficacy, cost, and outcomes comparing PCC and recombinant factor VIIa are needed.

Creation, implementation, and maturation of a massive transfusion protocol for the exsanguinating trauma patient

The majority of trauma patients (>90%) do not require any blood product transfusion and their mortality is <1%. However, 3% to 5% of civilian trauma patients will receive a massive transfusion (MT), defined as >10 units of packed red blood cells (PRBC) in 24 hours. In addition, more than 25% of these patients will arrive to emergency departments with evidence of trauma-associated coagulopathy. With this combination of massive blood loss and coagulopathy, it has become increasingly more common to transfuse early the trauma patients and with a combination of PRBC, plasma, and platelets. Given the inherent uncertainties common early in the care of patients with severe injuries, the efficient administration of massive amounts of PRBC and clotting factors tends to work best in a predefined, protocol driven system. Our purpose here is to (1) define the problem of massive hemorrhage and coagulopathy in the trauma patient, (2) identify which group of patients this type of protocol should be applied, (3) describe the extensive coordination required to implement this multispecialty MT protocol, (4) explain in detail how the MT was developed and implemented, and (5) emphasize the need for a robust performance improvement or quality improvement process to monitor the implementation of such a protocol and to help identify problems and deliver feedback in a "real-time" fashion. The successful implementation of such a complex process can only be accomplished in a multispecialty setting. Input and representation from departments of Trauma, Critical Care, Anesthesiology, Transfusion Medicine, and Emergency Medicine are necessary to successfully formulate (and implement) such a protocol. Once a protocol has been agreed upon, education of the entire nursing and physician staff is equally essential to the success of this effort. Once implemented, this process may lead to improved clinical outcomes and decreased overall blood utilization with extremely small wastage of vital blood products.

Prothrombin complex concentrate versus recombinant factor VIIa for reversal of hemodilutional coagulopathy in a porcine trauma model

BACKGROUND

Fluid resuscitation after traumatic injury may necessitate coagulation factor replacement to prevent bleeding complications of dilutional coagulopathy. Recombinant activated factor VII (rFVIIa) is being widely investigated as a hemostatic agent in trauma. Multicomponent therapy with prothrombin complex concentrate (PCC) containing coagulation factors II, VII, IX, and X might offer potential advantages.

METHODS

Anesthetized mildly hypothermic normotensive pigs were hemodiluted by substituting 65% to 70% of total blood volume in phases with hydroxyethyl starch and red cells. Thereafter, animals received 12.5 mL . kg isotonic saline placebo, 35 IU . kg PCC, or 180 microg x kg rFVIIa. Immediately afterward, a standardized spleen injury was inflicted, and prothrombin time (PT) and hemostasis were assessed. Thrombin generation was also determined.

RESULTS

Hemodilution depleted levels of factors II, VII, IX, and X markedly, prolonged PT and decreased thrombin formation. PCC and rFVIIa both fully normalized the hemodilution-induced lengthening of PT. In PCC recipients, peak thrombin generation was greater by a median of 60.7 nM (confidence interval 56.4-64.9 nM) compared with the rFVIIa group (p = 0.008). After spleen trauma, time to hemostasis was shortened to a median of 35 minutes in animals treated with PCC versus 94 minutes with rFVIIa (p = 0.016).

CONCLUSIONS

In a pilot study involving an in vivo large-animal model of spleen trauma, PCC accelerated hemostasis and augmented thrombin generation compared with rFVIIa. Further investigations are warranted on PCC as a hemostatic agent in trauma.

Transfusion therapy in hemorrhagic shock

PURPOSE OF REVIEW

Bleeding and death from hemorrhage remain a leading cause of morbidity and mortality in the trauma population. Early resuscitation of these gravely injured patients has changed significantly over the past several years. The concept of damage control resuscitation has expanded significantly with the experience of the US military in southwest Asia. This review will focus on this resuscitation strategy of transfusing blood products (red cells, plasma, and platelets) early and often in the exsanguinating patient.

RECENT FINDINGS

In trauma there are no randomized controlled trials comparing the current damage control hematology concept to more traditional resuscitation methods. But the overwhelming conclusion of the data available support the administration of a high ratio of plasma and platelets to packed red blood cells. Several large retrospective studies have shown ratios close to 1: 1 will result in higher survival.

SUMMARY

The current evidence supports that the acute coagulopathy of trauma is present in a high percentage of trauma patients. Patients who will require a massive transfusion will have improved outcomes the earlier that this is identified and the earlier that damage control hematology is instituted. Current evidence does not describe the best ratio but the preponderance of the data suggests it should be greater than 2: 3 plasma-to-packed red blood cells.

Explosive blast neurotrauma

Explosive blast traumatic brain injury (TBI) is one of the more serious wounds suffered by United States service members injured in the current conflicts in Iraq and Afghanistan. Some military medical treatments for blast TBI that have been introduced successfully in the war theater include decompressive craniectomy, cerebral angiography, transcranial Doppler, hypertonic resuscitation fluids, among others. Stateside neurosurgery, neuro-critical care, and rehabilitation for these patients have similarly progressed. With experience, military physicians have been able to clinically describe blast TBI across the entire severity spectrum. One important clinical finding is that a significant number of severe blast TBI victims develop pseudoaneurysms and vasospasm, which can lead to delayed decompensation. Another is that mild blast TBI shares clinical features with post-traumatic stress disorder (PTSD). Observations suggest that the mechanism by which explosive blast injures the central nervous system may be more complex than initially assumed. Rigorous study at the basic science and clinical levels, including detailed biomechanical analysis, is needed to improve understanding of this disease. A comprehensive epidemiological study is also warranted to determine the prevalence of this disease and the factors that contribute most to the risk of developing it. Sadly, this military-specific disease has significant potential to become a civilian one as well.

Effect of recombinant factor VIIa as an adjunctive therapy in damage control for wartime vascular injuries: a case control study

OBJECTIVES

Military casualties with vascular injuries often present with severe acidosis and coagulopathy that can negatively influence limb salvage decisions. We previously reported the value of a damage control resuscitation (DCR) strategy that can correct physiologic shock during simultaneous vascular reconstruction. The effect of recombinant factor VIIa (rFVIIa) on the repair of injured vessels and vascular grafts when used as an adjunctive therapy during DCR is unclear in the setting of wartime vascular injuries. The primary aim of this study was to assess the effect of rFVIIa use during DCR for vascular trauma and the impact on vessel repair.

METHODS

A retrospective two cohort case control study was performed using the Joint Theater Trauma Registry to identify patients with major vascular injury and DCR. Group 1 (n = 12) had DCR and repair of the injured vessels. Group 2 (n = 41) included early rFVIIa as an adjunctive therapy with DCR to control bleeding and perform simultaneous vascular reconstruction.

RESULTS

Age, injury severity score, presenting physiology, and operative time were similar between groups. Postoperative data show that early physiologic recovery from acidosis, coagulopathy, and anemia was associated with rFVIIa and DCR. Extremity graft failures in groups 1 and 2 (follow-up range, 10-26 months) were either from early thrombosis (1 vs. 5 p = 1), graft dehiscence (1 vs. 2 p = 0.55), or infection (1 vs. 1 p = 0.41) and were the result of inadequate soft tissue coverage or technical factors that eventually resulted in eight (15%) amputations. All cause mortality (group 1: 0% vs. group 2: 7.3%, p = 1) and amputation rates (group 1: 25% vs. groups 2: 12.2%, p = 0.36) were similar between the two groups.

CONCLUSIONS

DCR using rFVIIa is effective for controlling hemorrhage and reversing coagulopathy for severe vascular injuries. Early graft failures seem unrelated to rFVIIa use in the setting of wartime vascular injuries. No differences in amputation rate or mortality were seen. Although rFVIIa may be a useful damage control adjunct during vessel repair, the overall impact of this strategy on long-term outcomes such as mortality and limb salvage remains to be determined.

Use of rFVIIa in the Trauma Setting–Practice Patterns in United States Trauma Centers

Much excitement has been generated regarding the off label use of recombinant factor VIIa (rFVIIa) in the severely injured trauma patient. The purpose of our study is 3-fold: 1) describe the type of centers that use rFVIIa, 2) determine which centers use the drug more frequently, and finally 3) investigate how this drug is being administered at trauma centers. A survey was mailed or e-mailed to 435 trauma centers (Level I and II) throughout the nation. One hundred fifty-six surveys were returned. American College of Surgeons (ACS) verification and trauma Level I designation were independent predictors of rFVIIa use (odds ratio [OR] 3.74 and 5.40, P < 0.05). High users of rFVIIa were defined as those centers that had above median usage of the drug. Level I centers accounted for 67 per cent of the high users. Only the number of fellowship-trained trauma surgeons and trauma volume predicted high usage of rFVIIa (OR 1.38 and 14.09, P < 0.05). Trauma volume predicted whether or not Factor VII users implemented a protocol based approach to administration of the drug (OR 6.57, P < 0.05). Most protocols incorporated packed red blood cells (74%) before giving rFVIIa. The dose of 90 mcg/kg was exceeded in 34 per cent of centers, and 3 per cent used the 200 mcg/kg dose. High volume Level I trauma centers use rFVIIa more frequently and are more likely to use a systematic approach to its administration. However, there is no standardized approach to rFVIIa administration in United States trauma centers.

The effect of recombinant activated factor VII on mortality in combat-related casualties with severe trauma and massive transfusion

BACKGROUND

The majority of patients with potentially survivable combat-related injuries die from hemorrhage. Our objective was to determine whether the use of recombinant activated factor VII (rFVIIa) decreased mortality in combat casualties with severe trauma who received massive transfusions and if its use was associated with increased severe thrombotic events.

METHODS

We retrospectively reviewed a database of combat casualty patients with severe trauma (Injury Severity Score [ISS] >15) and massive transfusion (red blood cell [RBCs] >/=10 units/24 hours) admitted to one combat support hospital in Baghdad, Iraq, between December 2003 and October 2005. Admission vital signs and laboratory data, blood products, ISS, 24-hour and 30-day mortality, and severe thrombotic events were compared between patients who received rFVIIa (rFVIIa) and did not receive rFVIIa (rFVIIa).

RESULTS

Of 124 patients in this study, 49 patients received rFVIIa and 75 did not. ISS, laboratory values, and admission vitals did not differ between rFVIIa and rFVIIa groups, except for systolic blood pressure (mm Hg) 105 +/- 33 and 92 +/- 28, p = 0.02 and temperature ( degrees F) 96.3 +/- 2.1 and 95.2 +/- 2.4, p = 0.03, respectively. Interactions between all vital signs and laboratory values measured upon admission, to include systolic blood pressure and temperature, were not significant when measured between rFVIIa use and 30-day mortality. Twenty-four-hour mortality was 7 of 49 (14%) in rFVIIa and 26 of 75 (35%) in rFVIIa, (p = 0.01); 30-day mortality was 15 of 49 (31%) and 38 of 75 (51%), (p = 0.03). Death from hemorrhage was 8 of 14 (57%) for rFVIIa patients compared with 29 of 37 (78%) for rFVIIa patients, (p = 0.12). The incidence of severe thrombotic events was similar in both groups.

CONCLUSIONS

The early use of rFVIIa was associated with decreased 30-day mortality in severely injured combat casualties requiring massive transfusion, but was not associated with increased risk of severe thrombotic events.

Utilization of recombinant activated factor VII in southern Ontario in 85 patients with and without haemophilia

Recombinant activated factor VII (rFVIIa) is licensed for the treatment of bleeding in individuals with haemophilia and inhibitors. The use of rFVIIa appears to be increasing, and an increase in unlicensed use is suspected. There are currently few data about the specific indications for its use. The aim of this study was to describe the patterns of utilization of rFVIIa. We performed a retrospective cohort study using rFVIIa infusion data collected prospectively and clinical data collected retrospectively. Patients were identified using a tracking system designed to account for use of all coagulation factor concentrates issued in southern Ontario. Between 1 January 2001 and 31 December 2005, 85 patients received rFVIIa. 1164 infusions were given (8246.4 mg). Haemophilia patients with inhibitors accounted for 82.9% of rFVIIa infused and represented 8.2% of patients. The total amount of rFVIIa used increased each year from 2001 to 2004 and then decreased in 2005. The total number of infusions of rFVIIa administered annually increased. Both on-label and off-label use of rFVIIa increased. The number of patients with haemophilia receiving rFVIIa remained small and constant. The number of patients receiving rFVIIa for off-label indications increased markedly. Most rFVIIa infusions were given for licensed indications; however, these infusions represented <10% of patients treated. Overall, the utilization of rFVIIa is increasing, mostly for approved indications; however, the number of patients being prescribed rFVIIa for off-label indications has increased. The tracking system used in this study is a valuable tool to describe ongoing utilization patterns of rFVIIa.

Potential role of recombinant activated factor VII for the treatment of severe bleeding associated with disseminated intravascular coagulation: a systematic review

Recombinant activated factor VII (rFVIIa) is a novel hemostatic agent, originally developed for the treatment of hemorrhage in hemophiliacs with inhibitors, which has been successfully used recently in an increasing number of nonhemophilic bleeding conditions. In the present systematic review we report the existing literature data on the use of this hemostatic agent in severe bleeding, unresponsive to standard treatment, associated with disseminated intravascular coagulation. A total of 99 disseminated intravascular coagulation-associated bleeding episodes treated with rFVIIa were collected from 27 published articles: in the majority of the cases, the underlying disorder complicated by disseminated intravascular coagulation was a postpartum hemorrhage, while in the remaining cases it was a cancer, trauma, sepsis or liver failure. Although limited, the data available suggest that rFVIIa could have a potential role in this clinical setting. Large randomized trials are needed, however, to confirm the preliminary results and to assess the safety and dosing regimens of this agent in refractory bleeding associated with disseminated intravascular coagulation.

Various Local Hemostatic Agents with Different Modes of Action; an in vivo Comparative Randomized Vascular Surgical Experimental Study

OBJECTIVES

To evaluate the effects of different local hemostatic agents in a new high flow vascular experimental bleeding model.

DESIGN

Bovine thrombin combined with collagen matrix (bTcM), microporous polysaccharide hemospheres (MPH), freeze-dried rFVIIa with and without the combination of MPH were compared to a control group (solely compression) in a randomized fashion (20 animals/group). Primary endpoint was hemostasis, and secondary endpoints were time to hemostasis, blood loss, and blood pressure at hemostasis.

METHODS

The common carotid artery of heparinized rats was ligated proximally and transected. Compression was applied for one minute followed by application of the topical hemostatic agent. Compression was maintained for another two minutes followed by re-evaluation of hemostasis: if bleeding continued additional compression was applied and thereafter bleeding was checked every minute until hemostasis.

RESULTS

All animals in the bTcM group obtained hemostasis compared to 20% in the control group (p<0.0001). The combination of MPH and rFVIIa (70% hemostasis) also showed a significant hemostatic capacity compared to control group (p<0.001). None of the other active treatment groups differed compared to control group. Animals treated with bTcM had a significantly shorter time to hemostasis compared to animals in the other active treatment groups. No significant difference in blood loss and blood pressure at hemostasis was detected.

CONCLUSIONS

The most effective hemostatic agent was bTcM, followed by the combination of rFVIIa and MPH, while neither MPH nor rFVIIa alone displayed any hemostatic capacity compared to compression only.

Can we safely restrict transfusion in trauma patients?

PURPOSE OF REVIEW

Transfusion of red blood cells in the trauma patient can be lifesaving. The question is how much and when? It is important to weigh the risks and benefits of red blood cell transfusions, as well alternatives to transfusion as these products are not benign.

RECENT FINDINGS

We explore the evidence, and provide the rationale for current and future red blood cell transfusion strategies within a framework of prehospital and hospital care of the trauma patient. We also describe how red blood cell transfusion trends are changing in trauma, discuss alternatives to red blood cell transfusion and present evidence from randomized controlled trials that support a lower transfusion trigger.

SUMMARY

Optimal transfusion practice and use of alternatives in trauma is a rapidly expanding and important area of research. Strong clinical evidence derived by future randomized controlled trials in the area of transfusion triggers as well as transfusion alternatives is required to determine their roles in clinical practice.

A review of the off-label use of recombinant activated factor VII in a developing country tertiary care center

Recombinant activated factor VII (rFVIIa) was first approved for treatment of congenital hemophilia. It could, however, also have a role in management of patients without pre-existing coagulopathies who undergo surgical procedures, have life-threatening hemorrhages, or sustain traumas associated with major blood loss. A retrospective chart review was performed for all cases given rFVIIa at American University of Beirut Medical Center (AUB MC). Patients with a previous medical history of thrombophilia were excluded. There were four pediatric patients with a mean age younger than 1 year. Adult patients' mean age was 64.5 +/- 17.4 years. The most common off-label uses for rFVIIa are control of hemorrhage during the repair of aortic dissection (4/17 cases) or following intracerebral hemorrhage (4/17 case). One trauma patient received the medication. Complications included cerebral ischemia in one patient. Three of the patients died but their death was not related to the bleeding or the medication. Based on the prognostic score proposed by Biss and Hanley, seven patients were low risk, four intermediate risk, and six high risk. Although off-label use of rFVIIa at AUB MC was supported by published reports, and associated with few complications, guidelines are required to control use of this medication.

Combat orthopaedics: a view from the trenches

Approximately 70% of war wounds involve the musculoskeletal system, and military orthopaedic surgeons have assumed a pivotal role in the frontline treatment of these injuries in Iraq. Providing battlefield orthopaedic care poses special challenges; not only are many wounds unlike those encountered in civilian practice, but patients also must be triaged and treated in an austere and dangerous environment, undergo staged resuscitation and definitive surgery, and endure prolonged medical evacuation, often involving ground, helicopter, and fixed-wing transport across continents. Most orthopaedic wounds in Iraq are caused by exploding ordnance--frequently, improvised explosive devices, or IEDs. Because of advances in care, rapid medical evacuation, and modern body armor, many casualties have survived in Iraq who would not have done so in previous wars. Treatment of war wounds, many of which are devastating in the scope of soft-tissue and bony injury, requires a team approach using hypotensive resuscitation, damage-control orthopaedics, new or rediscovered techniques of hemostatic and intravenous hemorrhage control, vacuum-assisted wound closure, and advanced reconstruction. Current challenges include prevention of infection, a better understanding of heterotopic ossification as a sequela of blast injury, and the need for a comprehensive, joint service database that encompasses the multilevel spectrum of orthopaedic care.

[Use of activated recombinant FVII in the control of haemorrhage following trauma]

Uncontrolled haemorrhage is a major cause of death in trauma patients: sometimes inaccessible to surgery and often associated with coagulopathy. We report a case of severe blunt pelvic trauma associated with suicide. The conventional treatments were unsuccessful and embolization was impossible. The patient required massive blood product transfusion. A 100 microg/kg recombinant activated factor VII dose was infused, twice. After administration of the first dose, the blood requirement decreased dramatically. Further work and trials are required to assess the safety profile and dose regimen for this drug.

Challenges in the Therapeutic Use of a “So-Called” Universal Hemostatic Agent: Recombinant Factor VIIa

Recombinant factor VIIa (rFVIIa) was developed in the early 1990s to provide “bypassing” hemostatic therapy for hemophilia A and B patients with inhibitors. More recently, it has been licensed for use in patients with inherited deficiency of factor VII. Since it was licensed for use in hemophilia with inhibitors in the US, Europe, and other countries for these specific indications, it has been used selectively but in a wide array of clinical settings for uncontrolled hemorrhage in individuals without an inherited bleeding disorder. Many of these uses have been described in the medical literature as case reports or small, uncontrolled series. Several randomized clinical trials (RCT) for these “off-label” medical uses have been published in recent months and will serve as the focus of this review. In particular, a review of an RCT for spontaneous intracranial hemorrhage that has demonstrated clinical efficacy in reducing both mortality and volume of central nervous system hemorrhage will be offered. A brief discussion of hypothesized physiologic mechanisms of supraphysiologic doses of rFVIIa will introduce the clinical discussion of these broad off-label uses. Since rFVIIa is a very expensive therapy, possible strategies for optimizing its use in the these settings will be presented.

Die Beckenringzerreißung beim polytraumatisierten Patienten

Pelvic injuries represent a thorny and stubborn therapeutic challenge. Because major forces are required to fracture the pelvis, pelvic ring disruption, more than any other fracture, can lead to life-threatening associated injuries such as massive bleeding, organ injuries, and open fractures including hemipelvectomy. The rapid diagnosis and effective treatment ("damage control") of those injuries play the key role in the patient's survival, inasmuch as the mortality of multiply injured patients with pelvic ring disruption remains high with 20-35%. Exsanguinating hemorrhage represents the most dreaded acute complication of pelvic injuries. Therefore, diagnostic and therapeutic procedures have to be primarily adapted to the hemodynamics of the patient, secondarily to injuries of the brain and the torso. The time point and the techniques of definitive pelvic ring stabilization may be different in the patient with multiple injuries compared to isolated pelvic ring injuries.