Traumatic acute subdural hematoma: major mortality reduction in comatose patients treated within four hours

Neurosurgery in the elderly: brain tumors and subdural hematomas

Primary malignant brain tumors present a formidable challenge to surgeons, patients, and families. Although the prognosis in elderly patients approaches only 6 months, aggressive resection and adjuvant treatment may be indicated in a select group of patients who have preserved functional status. Subdural hematomas in the geriatric population usually are chronic. Patients often benefit from evacuation but their advanced age and significant comorbidities often increase perioperative morbidity and mortality. Minimally invasive evacuation, possibly under local anesthesia, often is indicated as an initial treatment.

Medical outcome after immediate computed tomography or admission for observation in patients with mild head injury: randomised controlled trial

OBJECTIVE

To compare immediate computed tomography during triage for admission with observation in hospital in patients with mild head injury.

DESIGN

Multicentre, pragmatic, non-inferiority randomised trial.

SETTING

39 acute hospitals in Sweden.

PARTICIPANTS

2602 patients (aged > or = 6) with mild head injury.

INTERVENTIONS

Immediate computed tomography or admission for observation.

MAIN OUTCOME MEASURE

Dichotomised extended Glasgow outcome scale (1-7 v 8). The non-inferiority margin was 5 percentage points.

RESULTS

At three months, 275 patients (21.4%) in the computed tomography group had not recovered completely compared with 300 (24.2%) admitted for observation. The difference was - 2.8 percentage points, non-significantly in favour of computed tomography (95% confidence interval - 6.1% to 0.6%). The worst outcomes (mortality and more severe loss of function) were similar between the groups. In the patients admitted for observation, there was a considerable delay in time to treatment in those who required surgery. None of the patients with normal findings on immediate computed tomography had complications later. Patients' satisfaction with the two strategies was similar.

CONCLUSIONS

The use of computed tomography in the management of patients with mild head injury is feasible and leads to similar clinical outcomes compared with observation in hospital.

TRIAL REGISTRATION

ISRCTN81464462.

Caspase-dependent cell death involved in brain damage after acute subdural hematoma in rats

Traumatic brain injury is associated with acute subdural hematoma (ASDH) that worsens outcome. Although early removal of blood can reduce mortality, patients still die or remain disabled after surgery and additional treatments are needed. The blood mass and extravasated blood induce pathomechanisms such as high intracranial pressure (ICP), ischemia, apoptosis and inflammation which lead to acute as well as delayed cell death. Only little is known about the basis of delayed cell death in this type of injury. Thus, the purpose of the study was to investigate to which extent caspase-dependent intracellular processes are involved in the lesion development after ASDH in rats. A volume of 300microL blood was infused into the subdural space under monitoring of ICP and tissue oxygen concentration. To asses delayed cell death mechanisms, DNA fragmentation was measured 1, 2, 4 and 7 days after ASDH by TUNEL staining, and the effect of the pan-caspase inhibitor zVADfmk on lesion volume was assessed 7 days post-ASDH. A peak of TUNEL-positive cells was found in the injured cortex at day 2 after blood infusion (53.4+/-11.6 cells/mm(2)). zVADfmk (160ng), applied by intracerebroventricular injection before ASDH, reduced lesion volume significantly by more than 50% (vehicle: 23.79+/-7.62mm(3); zVADfmk: 9.06+/-4.08). The data show for the first time that apoptotic processes are evident following ASDH and that caspase-dependent mechanisms play a crucial role in the lesion development caused by the blood effect on brain tissue.

Comparison of craniotomy and craniectomy in patients with acute subdural haematoma

Despite the increasing acceptance of craniectomy in patients with traumatic brain injury, the value of early decompressive craniectomy in patients with acute subdural haematoma is still under debate. In this retrospective study, we reviewed 180 patients with traumatic acute subdural haematoma, 111 of whom were treated with haematoma evacuation via craniotomy and 69 of whom were treated with early decompressive craniectomy. Due to the higher incidence of signs of herniation for patients in the craniectomy group, the mortality rate in this group was higher than that in the craniotomy group (53% vs. 32.3%). However, overall there was no significant difference in outcome between the two groups. Age and clinical signs of herniation were significantly associated with an unfavourable outcome, regardless of the type of surgery. Decompressive craniectomy did not seem to have a therapeutic advantage over craniotomy in traumatic acute subdural haematoma.

Mechanics of acute subdural hematomas resulting from bridging vein rupture

Object

Based on data from primate experiments it is known that rotational acceleration in the sagittal plane and in a forward direction is most likely to produce acute subdural hematomas due to bridging vein rupture. For protection against these lesions, knowledge of rotational acceleration tolerance levels in humans is required. In the present study the authors analyze human tolerance levels for bridging vein rupture by performing head impact tests in cadavers.

Methods

Ten unembalmed cadavers were subjected to 18 occipital impacts producing head rotation in the sagittal plane with varying rotational acceleration magnitudes and pulse durations. Rotational acceleration was calculated from the linear acceleration histories recorded by three uniaxial accelerometers mounted on the side of the head. Bridging vein ruptures were detected by injecting contrast dye into the superior sagittal sinus under fluoroscopy and by autopsy procedures. Bridging vein ruptures were produced in six head impact tests: one test with a pulse duration of 5.2 msec and a peak rotational acceleration of 13,411 rad/second2; three tests with a pulse duration between 7 and 8 msec and a peak rotational acceleration of 12,558, 10,607, and 8567 rad/second2; and two tests with a pulse duration longer than 10 msec and a peak rotational acceleration as low as 5267 rad/second2.

Conclusions

This is the only cadaveric study of bridging vein rupture focused on short pulse durations, which are usually associated with falls. The data suggest a tolerance level of approximately 10,000 rad/second2 for pulse durations shorter than 10 msec, which seems to decrease for longer pulse durations.

Do trauma patients with a Glasgow Coma Scale score of 3 and bilateral fixed and dilated pupils have any chance of survival?

BACKGROUND

Low Glasgow Coma Scale score (GCS) and pupillary status predict poor outcomes in head injury (HI) patients. We compared the mortality of GCS 3 patients having bilateral fixed and dilated pupils (BFDP) with GCS 3 patients having reactive pupils (RP). We then determined if trauma system or patient factors were responsible for the difference in mortality.

METHODS

We reviewed all adult, blunt HI patients with GCS=3, admitted to our institution from January 1, 2001 to December 31, 2003. Demographics, injury data, prehospital times, procedures, and outcomes were recorded.

RESULTS

During this period, 245 patients were admitted with GCS of 3, and met inclusion criteria. In all, 173 patients were analyzed, after excluding 23 patients who were dead-on-arrival, and 45 others, who were intoxicated with alcohol, or received paralytic agents in the trauma room. All BFDP patients died, whereas 42.0% of reactive pupil (RP) patients died (p < 0.0001). With regards to patient factors, BFDP patients were more likely to be unstable, have extra-axial bleeding, and evidence of midline shift and/or herniation. Trauma system factors, however, may also have had an impact on outcome. Despite having more extra-axial bleeding, BFDP patients were less likely to have a neurosurgical operation than RP patients.

CONCLUSION

Patients with GCS of 3 and BFDP have a dismal prognosis. These patients have suffered devastating brain injuries and tend to be hemodynamically unstable. Clinicians, however, are less likely to aggressively treat BFDP patients than RP patients. Further prospective studies are required to determine which patients with GCS of 3 and BFDP are likely to benefit from aggressive treatment.

Surgical Management of Acute Subdural Hematomas

Indications for Surgery

Timing

Methods

Developing a decision instrument to guide computed tomographic imaging of blunt head injury patients

BACKGROUND

Computed tomographic (CT) head scanning of blunt trauma patients is expensive, delays care, and necessitates radiation exposure, while detecting intracranial injuries in a minority of patients. Clinical characteristics may be able reliably identify patients who do not have intracranial injuries and consequently, do no require imaging.

METHODS

Physicians assessed blunt trauma patients undergoing imaging for the presence or absence of specific criteria. Recursive partitioning was used to identify criteria that predict intracranial injuries with high sensitivity.

RESULTS

Intracranial injuries were found in 917 of 13,728 enrolled patients (6.7%). Injuries were rare among patients under age 65 who had no evidence of skull fracture, scalp hematoma, neurologic deficit, abnormal alertness, abnormal behavior, coagulopathy, or persistent vomiting. These characteristics would have identified 901 injury cases (sensitivity 98.3% [CI: 97.2-99.0]), while classifying 1,752 patients (12.8%) as "low risk."

CONCLUSIONS

Clinical characteristics can reliably identify patients who are unlikely to have intracranial injuries and who do not require CT imaging.

RURAL NEUROTRAUMA IN AUSTRALIA: IMPLICATIONS FOR SURGICAL TRAINING

BACKGROUND

Australia's vast size and small population preclude a neurosurgical service in most rural areas. Thus, general surgeons often initially manage rural neurotrauma. This study aimed to define the neurotrauma surgical caseload in rural Australia and to examine the level of training and confidence of rural surgeons for neurotrauma management.

METHODS

A questionnaire was sent to all Australian members of the Division of Rural Surgery of the Royal Australasian College of Surgeons. Responses were grouped by distance from a neurosurgical centre and analysed using one-way anova.

RESULTS

The response rate was 91%, and 161 rural surgeons were included. In total, 90 surgeons carried out approximately 600 procedures for neurotrauma in 5 years. The number of procedures per surgeon increased with distance from a neurosurgical centre (P < 0.0001), as did pre-transport delays (P < 0.001). Combined pre-transport and transport time was at least 2 h for 84% of surgeons. The majority (75% or more) of rural surgeons accessed hospitals with necessary basic infrastructure, including 24-h computed tomography scan, emergency department, and intensive care unit. There was no association between distance from a neurosurgical centre and level of neurosurgical training. Only 28% of rural surgeons had neurosurgery training more advanced than resident level. However, confidence with management of cranial trauma increased significantly with distance. More distant surgeons felt more confident with computed tomography reading (P = 0.02); burr hole (P = 0.02); craniotomy (P = 0.03) and intracranial pressure monitor insertion (P < 0.0001).

CONCLUSIONS

A significant volume of neurotrauma is managed surgically in rural Australia as dictated by distance. However, neurotrauma training of rural surgeons has occurred on an ad hoc basis, with those most exposed and most distant developing some confidence. Evidence for specific adequate training is lacking, but this study suggests that it is necessary.

The Management of Patients with Intradural Post-Traumatic Mass Lesions: A Multicenter Survey of Current Approaches to Surgical Management in 729 Patients Coordinated by the European Brain Injury Consortium

OBJECTIVE:

Controversy exists about the indications and timing for surgery in head injured patients with an intradural mass lesion. The aim of this study was to survey contemporary approaches to the treatment of head injured patients with an intradural lesion, placing a particular focus on the utilization of decompressive craniectomy.

METHODS:

A prospective international survey was conducted over a 3-month period in 67 centers from 24 countries on the neurosurgical management of head injured patients with an intradural mass lesion and/or radiological signs of raised intracranial pressure. Information was obtained about demographic, clinical, and radiological features; surgical management, and mortality at discharge.

RESULTS:

Over the period of the study, data were collected about 729 patients consecutively admitted to one of the participating centers. The survey included 397 patients with a severe head injury (Glasgow Coma Scale [GCS] 3–8), 155 with a moderate head injury (GCS 9–12) and 143 patients with a mild head injury (GCS 13–15). An operation was performed on 502 patients (69%). Emergency surgery (&lt;24 h) was most frequently performed for patients with an extracerebral mass lesions (subdural hematomas) whereas delayed surgery was most frequently performed for an intracerebral hematoma or contusion. Decompressive craniectomy was performed in a substantial number of patients, either during an emergency procedure (n = 134, 33%) or a delayed procedure (n = 47, 31%). The decompressive procedure was nearly always combined with evacuation of a mass lesion. The size of the decompression was however considered too small in 25% of cases.

CONCLUSION:

The results provide a contemporary picture of neurosurgical surgical approaches to the management of head injured patients with an intradural mass lesion and/or signs of raised intracranial pressure in some Neurosurgical Units across the world. The relative benefits of early versus delayed surgery in patients with intraparenchymal lesions and on the indications, technique and benefits of decompressive craniectomy could be topics for future head injury research.

Physiological and biochemical principles underlying volume-targeted therapy--the "Lund concept"

The optimal therapy of sustained increase in intracranial pressure (ICP) remains controversial. The volume-targeted therapy ("Lund concept") discussed in this article focuses on the physiological volume regulation of the intracranial compartments. The balance between effective transcapillary hydrostatic and osmotic pressures constitutes the driving force for transcapillary fluid exchange. The low permeability for sodium and chloride combined with the high crystalloid osmotic pressure (approximately 5700 mmHg) on both sides of the blood-brain barrier (BBB) counteracts fluid exchange across the intact BBB. Additionally, variations in systemic blood pressure generally are not transmitted to these capillaries because cerebral intracapillary hydrostatic pressure (and blood flow) is physio-logically tightly autoregulated. Under pathophysiological conditions, the BBB may be partially disrupted. Transcapillary water exchange is then determined by the differences in hydrostatic and colloid osmotic pressure between the intra- and extracapillary compartments. Pressure autoregulation of cerebral blood flow is likely to be impaired in these conditions. A high cerebral perfusion pressure accordingly increases intracapillary hydrostatic pressure and leads to increased intracerebral water content and an increase in ICP. The volume-targeted "Lund concept" has been evaluated in experimental and clinical studies to examine the physiological and biochemical (utilizing intracerebral microdialysis) effects, and the clinical experiences have been favorable.

Neurosurgical coverage: essential, desired, or irrelevant for good patient care and trauma center status

SUMMARY AND BACKGROUND DATA

As a result of many factors, the availability of neurosurgeons (NS) to care for trauma patients (TP) is increasingly sparse. This has precipitated a crisis in access to neurosurgical support in many trauma systems, often placing undue burden on level I centers. This study examines the profile of head-injured (HI) trauma patients and their actual need for the specific expertise of a neurosurgeon.

METHODS

The National Trauma Data Bank (NTDB) was queried for specific information relating to the volume, nature, timeliness, and outcome of HI TP. Study patients were identified by reported International Classification of Diseases, 9th Edition (ICD-9) codes denoting open (OHI) or closed head injury (CHI) in isolation or in combination with other injuries.

RESULTS

Total number of NTDB patients studied was 731,823, of which 213,357 (29%) had a reported HI. CHI represented 22% of all TP and 74% of HI. OHI was reported in 8% of all TP and was 26% of HI. Craniotomy (crani) was performed in 3.6% of all HI (1% of all TP). This was in 2.8% of OHI and 2.6% of CHI. Mean Glasgow Coma Scale score (GCS) of crani patients was 9, and 13 for the noncrani group. Subdural hematoma occurred in 18% of HI (5% of TP), with 13% undergoing crani. Epidural hematoma occurred in 10% of HI (3% of all TP), with 17% undergoing crani. Median time to OR for all cranis was 195 minutes (195 for CHI; 183 for OHI). Of all cranis, 6.5% were performed within 1 hour of hospital admission. Intracranial pressure (ICP) monitoring was reportedly used in 0.7% of TP and 2.2% of HI.

CONCLUSIONS

Care of TP with HI rarely requires the explicit expertise and immediate presence of a neurosurgeon due to volume and nature of care. HI was diagnosed in <30% of TP reported to the NTDB. Over 95% required nonoperative management alone, with only 1% of all TP and 2%-4% of HI TP requiring crani and/or ICP monitoring. Immediate availability of NS is not essential if a properly trained and credentialed trauma surgeon or other health care provider can appropriately monitor patients for neurologic demise and effect early transfer to a center capable of, and committed to, operative and postoperative neurosurgical care. A subgroup of patients known to have a high propensity for the specific expertise of a neurosurgeon may be able to be identified for direct transport to these committed centers.

Effect of perfluorocarbons on brain oxygenation and ischemic damage in an acute subdural hematoma model in rats

Object. This study was conducted to determine whether perfluorocarbons (PFCs) improve brain oxygenation and reduce ischemic brain damage in an acute subdural hematoma (SDH) model in rats.

Methods. Forty adult male Sprague—Dawley rats were allocated to four groups: 1) controls, acute SDH treated with saline and 30% O2; 2) 30-PFC group, acute SDH treated with PFC infusion in 30% O2; 3) 100-O2 group, acute SDH treated with 100% O2; and 4) 100-PFC group, acute SDH treated with PFC plus 100% O2. Ten minutes after the induction of acute SDH, a single dose of PFC was infused and 30% or 100% O2 was administered simultaneously. Four hours later, half of the rats were killed by perfusion for histological study to assess the extent of ischemic brain damage. The other half were used to measure brain tissue oxygen tension (PO2). The volume of ischemic brain damage was 162.4 ± 7.6 mm3 in controls, 165.3 ± 11.3 mm3 in the 30-PFC group, 153.4 ± 17.3 mm3 in the 100-O2 group, and 95.9 ± 12.8 mm3 in the 100-PFC group (41% reduction compared with controls, p = 0.002). Baseline brain tissue PO2 values were approximately 20 mm Hg, and after induction of acute SDH, PO2 rapidly decreased and remained at 1 to 2 mm Hg. Treatment with either PFC or 100% O2 improved brain tissue PO2, with final values of 5.14 and 7.02 mm Hg, respectively. Infusion of PFC with 100% O2 improved brain tissue PO2 the most, with a final value of 15.16 mm Hg.

Conclusions. Data from the current study demonstrated that PFC infusion along with 100% O2 can significantly improve brain oxygenation and reduce ischemic brain damage in acute SDH.

Transfer of intubated patients with traumatic brain injury to Auckland City Hospital

BACKGROUND

Delays in patient transfer to definitive neurosurgical care after traumatic brain injury are important in determining neurological outcome. The efficiency of interhospital transfer of patients to Auckland City Hospital (ACH) was analysed and compared with international standards.

METHODS

The ACH Department of Critical Care Medicine database for the year 2002 was reviewed, with supplementary information obtained from transfer organizations, hospital notes, radiology archives, and operative logbooks.

RESULTS

Thirty-four adult patients with traumatic brain injury and no special reasons for delayed transfer were transported intubated from other hospitals in the North Island of New Zealand. The median time from injury to arrival at ACH was 6.5 h. It took a median 4.4 h for patients to get from initial computed tomographic imaging to ACH. For those requiring evacuation of haematomas, the mean time from arrival at ACH to the start of the operation was 1.4 h. Only 33% of patients from other metropolitan Auckland hospitals, and none from hospitals outside the city, arrived within 4 h from the time of injury.

CONCLUSION

Transfer times for brain trauma patients are currently longer than recommended for optimal neurological outcome. Referring hospitals and transfer organizations should review their systems to identify areas for improvement. Direct admission to theatre needs to be expedited within ACH when required. Triage of all trauma patients in metropolitan Auckland with a Glasgow Coma Scale score of less than 14 to ACH would be likely to improve time to treatment. A mobile acute neurosurgical service based in Auckland that would support general surgeons initiating acute decompressive cranial operations would be likely to reduce time to surgery and improve outcomes for patients admitted to hospitals outside Auckland. The development of a mobile acute neurosurgery service which would complete decompressive procedures started by general surgeons would likely improve trauma outcomes for patients injured outside Auckland.

A review of the current management of severe traumatic brain injury

Traumatic brain injury accounts for up to half of trauma related fatalities. This review describes current management practices including pre-hospital care, surgical interventions and various treatment modalities for intracranial hypertension. The lack of class I evidence for the majority of interventions is highlighted.

Acute Subdural Hematoma: New Model Delineation and Effects of Coagulation Inhibitors

OBJECTIVE

To develop a highly reproducible rat model and behavioral tests for acute subdural hematoma (ASDH) and to investigate the role of intravascular coagulation and thrombin in the pathogenesis of brain injury in this model.

METHODS

A new method was implemented to inject 200 microl of autologous blood subdurally in rats. Immunohistochemistry was used to investigate intravascular fibrin deposition and thrombin levels in the cortex underlying the ASDH. Effectiveness of systemic heparin, argatroban, or ginkgolide B treatment was determined by histological lesion volume, number of occluded microvessels, and neurological deficits. Neurological deficits were monitored for 7 days after ASDH by use of forelimb placing, forelimb use asymmetry, and corner turn tests.

RESULTS

Consistent brain damage and sensorimotor deficits were observed in all animals with ASDH. Histological analysis demonstrated occluded microvessels and enlarged perivascular spaces in the underlying cortex starting 1 hour after hematoma induction. Fibrin and thrombin immunoreactivity were increased in the lesioned cortical parenchyma at 4 and 24 hours. However, no intravascular fibrin deposition was detected. Heparin induced hemorrhagic transformation in the cortical lesion and did not attenuate microvessel occlusion. Argatroban and ginkgolide B did not induce hemorrhage but failed to improve microvessel occlusion, lesion volume, and neurological deficits.

CONCLUSION

Intravascular coagulation and thrombin are not the major mediators of brain damage after ASDH. The model and behavioral tests presented in this study can be used to investigate other putative mechanisms of injury and to test future therapeutic interventions in ASDH.

Emergency department management of mild traumatic brain injury in the USA

OBJECTIVE

To describe the emergency department (ED) management of isolated mild traumatic brain injury (TBI) in the USA and to examine variation in care across age and insurance types.

METHODS

A secondary analysis of ED visits for isolated mild TBI in the National Hospital Ambulatory Medical Care Survey 1998-2000 was performed. Mild TBI was defined by International Classification of Diseases, 9th Revision, Clinical Modification (ICD-9) codes for skull fracture, concussion, intracranial injury (unspecified), and head injury (unspecified). Available ED care variables were analysed by patient age and insurance categories using multivariate logistic regression.

RESULTS

The incidence of isolated mild TBI cases attending ED was 153,296 per year, or 56.4/100,000 people. Of the patients with isolated mild TBI, 44.3% underwent computed tomography, 23.9% underwent other non-extremity, non-chest x rays, 17.1% received wound care and 14.1% received intravenous fluids. However, only 43.8% had an assessment of pain. Of those with documented pain, only 45.5% received analgesics in the ED. Nearly 38% were discharged without recommendations for specific follow up. Several aspects of ED care varied by age but not by insurance type.

CONCLUSION

Substantial ED resources are devoted to the care of isolated mild TBI. The present study identified deficiencies in and variation around several important aspects of ED care. The development of guidelines specific for mild TBI could reduce variation and improve emergency care for this injury.

The relationship between the location of pediatric intensive care unit facilities and child death from trauma: a county-level ecologic study

OBJECTIVES

To describe the relationship between the location of Pediatric Intensive Care Unit (PICU) facilities and county-level child death from trauma in the contiguous USA.

STUDY DESIGN

We conducted a cross-sectional ecologic study using county-level data on death due to trauma in children 0 to 14 years of age from 1996 to 1998. These data were linked to 1997 county-level data on availability of PICU facilities.

RESULTS

In 1997, PICU facilities were present in 9% of USA counties. There were 18,337 childhood deaths from trauma in the study period. The presence of PICU facilities in a county was associated with lower mortality from trauma (incidence rate ratio [IRR] = 0.72; 95% CI 0.67-0.78) compared to counties without PICU facilities. After controlling for residence in rural and low-income counties, and the presence of adult medicosurgical intensive care units, the presence of PICU facilities in a county remained associated with lower rates of death from trauma (IRR = 0.82; 95% CI 0.75-0.89).

CONCLUSION

The presence of PICU facilities is related to lower mortality rates due to traumatic injuries at the county level. This finding may reflect the concentration of pediatric subspecialty care in counties with PICUs. This association merits further study with individual-level observations.

Craniotomia descompressiva para tratamento precoce da hipertensão intracraniana traumática

O papel da craniotomia descompressiva (CD) no tratamento da hipertensão intracraniana (HIC) refratária ainda não está estabelecido na literatura. Atualmente é recomendada como opção, pois há deficiência de trabalhos classe I ou II que suportem seu emprego. Trabalhos recentes têm avaliado a eficácia da CD quando aplicada precocemente no tratamento da HIC pós traumática. No presente trabalho analisam-se 21 pacientes nos quais a CD foi realizada precocemente. A maioria dos pacientes apresentava traumatismo cranioencefálico grave (Escala de coma glasgow <9) e tomografia de crânio evidenciando tumefação cerebral (brain swelling) ou hematoma subdural agudo. A principal complicação inerente à técnica foi a hidrocefalia (28,5%). Boa reabilitação social ocorreu em 11 pacientes (52,5%). Parece que a CD, quando realizada precocemente, é eficaz no tratamento da HIC refratária, ressaltando-se ainda a necessidade de estudos classe I e II que suportem esta opinião.

Admission of patients with severe and moderate traumatic brain injury to specialized ICU facilities: a search for triage criteria

OBJECTIVE

To investigate whether triage for direct admission of patients with traumatic brain injury to a trauma center is facilitated by predicting the risk of potentially removable lesions or raised intracranial pressure (ICP).

DESIGN AND SETTING

Cohort study in a level I university trauma center.

PATIENTS AND PARTICIPANTS

A prospective cohort of primarily (n=200) and secondarily (n=75) referred patients with moderate or severe traumatic brain injury.

MEASUREMENTS AND RESULTS

Predictive characteristics for the risk of surgically removable lesions and the risk of raised ICP (repeatedly > or = 20 mmHg) were identified and included in prognostic models. These models were validated internally with bootstrapping techniques and externally on a historic sample (n=205) regarding discriminative ability (AUC). Among the cohort patients, 67% had raised ICP and 54% had surgically removable lesions. Both outcomes occurred more frequently in patients secondarily referred, but the incidence in patients primarily referred was also high (62% and 33% respectively). No strong predictors of raised ICP were identified. Age and pupillary reactivity were significant predictors of surgically removable lesions. The models discriminated reasonably for surgically removable lesions (AUC=0.78 at development and AUC=0.67 at external validation) but not for raised ICP (AUC=0.59 at development and AUC=0.50 at external validation).

CONCLUSIONS

It is difficult accurately to identify patients in need of specialized intensive care using baseline characteristics. The high incidence of both outcomes in patients primarily referred support direct admission of more and particularly older patients with severe or moderate brain trauma to level I trauma centers.

Mild head injury: reliability of early computed tomographic findings in triage for admission

OBJECTIVE

To search the literature for case reports on adverse outcomes in patients with mild head injury where acute computed tomography (CT) findings had been normal.

METHODS

Mild head injury was defined as head trauma involving amnesia or loss of consciousness, but where neurological findings are normal on arrival at hospital (GCS 15). The scientific literature was systematically searched for case reports where an early CT was normal and the patient deteriorated within two days. In these cases, early discharge despite a normal CT head scan would have been hazardous.

RESULTS

Two prospective studies were found that investigated the safety of early CT in 3300 patients with mild head injury, as were 39 reports on adverse outcomes describing 821 patients. In addition, 52 studies containing over 62 000 patients with mild head injury were reviewed. In total, only three cases were deemed to have experienced an early adverse outcome despite a normal CT and GCS 15 on initial presentation. In another eight cases with incomplete descriptions, the interpretation was doubtful. Many reports of complications were not relevant to our question and excluded. These reports included cases with more severe head injury/not GCS 15 at presentation, complications that occurred after more than two days, or initial CT findings that were not fully normal.

CONCLUSION

Very few cases were found where an early adverse event occurred after normal acute CT in patients with mild head injury. The strongest scientific evidence available at this time shows that a CT strategy is a safe way to triage patients for admission.

Epiduralh�matom nach Entlastung eines akuten Subduralh�matoms

Subdural haematomas as a consequence of severe head injury often constitute the indication for operative evacuation. Despite intensive care management postoperative computed tomography scans are essential. This is illustrated by an unusual case report of a patient suffering from an epidural haematoma after operation of an subdural haematoma. In addition, the importance of the skull X-ray in the emergency setting and intracranial pressure monitoring are discussed.

Secondary transport of the critically ill and injured adult

There is significant interest in the secondary transport of the critically ill and injured. High profile cases entailing the long distance transfer of patients have highlighted the lack of availability of critical care beds and appropriate systems for transferring this patient group. These and other issues have culminated in the release of Comprehensive Critical Care by the Department of Health in 2000. It has been shown that a large number of critical care transfers originate in the emergency department. The transportation of patients has not traditionally been part of the core curriculum of emergency medicine specialists in the UK. It is imperative that clinicians have an understanding of the issues surrounding transportation of the critically ill and injured. This should include appreciation of the local and regional organisational frameworks implemented for this patient group. This review describes the core issues relevant to emergency medicine relating to the transportation of the critically ill and injured.

[Shock trauma room management of the multiple-traumatized patient with skull-brain injuries. A systematic review of the literature]

This overview reviews the literature on multiply injured patients with traumatic brain injuries. Clinical trials were systematically collected (MEDLINE, Cochrane, and hand searches) and classified into evidence levels (1 to 5 according to the Oxford system).A detailed analysis of the literature of traumatic brain injuries has been elaborated by the Brain Trauma Foundation and has been published in the World Wide Web (http://www2.braintrauma.org/). The following procedures should be performed in the emergency room for multiply injured patients with traumatic brain injuries: (1) recording of precise history to identify risk factors for severe traumatic brain injury, (2) measurement of the Glasgow Coma Scale (GCS), pupillary reflex, and mean arterial pressure, (3) diagnostic evaluation with a CT scan, and (4) rapid surgical decompression if indicated.

Evolution of Brain Tissue Injury after Evacuation of Acute Traumatic Subdural Hematomas

OBJECTIVE:

Acute traumatic subdural hematoma complicated by brain parenchymal injury is associated with a 60 to 90% mortality rate. Early surgical evacuation of the mass lesion is essential for a favorable outcome, but the severity of the underlying brain injury determines the outcome, even when surgery has been prompt. The purpose of this study was to analyze tissue biochemical patterns in the brain underlying an evacuated acute subdural hematoma to identify a characteristic pattern of changes that might indicate evolving brain injury.

METHODS:

Prospectively collected data from 33 patients after surgical evacuation of acute subdural hematoma were analyzed. Both a brain tissue oxygen tension probe and an intracerebral microdialysis probe were placed in brain tissue exposed at surgery. On the basis of the postoperative clinical course, the patients were divided into three groups: patients with early intractable intracranial hypertension, patients with evolution of delayed traumatic injury (DTI), and patients with an uncomplicated course (the no-DTI group).

RESULTS:

The overall mortality rate was 46%, with 100% mortality in the intracranial hypertension group (five patients). Mortality in the DTI group was 53% compared with only 9% in the no-DTI group (P = 0.002). There were no significant differences in the initial computed tomographic scan characteristics, such as thickness of the subdural hematoma or amount of midline shift, among the three groups. Physiological variables, as well as the microdialysate measures of brain biochemistry, were markedly different in the intracranial hypertension group compared with the other groups. Differences between the other two groups were more subtle but were significant. Significantly lower values of brain tissue oxygen tension (14 ± 8 mm Hg versus 27 ± 14 mm Hg) and higher dialysate values of lactate and pyruvate were documented in patients who developed a delayed injury compared with patients with uncomplicated courses (4.1 ± 2.3 mmol/L versus 1.7 ± 0.7 mmol/L for lactate, and 104 ± 47 μmol/L versus 73 ± 54 μmol/L for pyruvate at 24 h after injury).

CONCLUSION:

Evolution of DTI in the area of brain underlying an evacuated subdural hematoma is associated with a significant increase in mortality. Postoperatively decreasing brain tissue oxygen tension and increasing dialysate concentrations of lactate and pyruvate in this area may warn of evolving brain injury and evoke further diagnostic and therapeutic activity.

Enquête sur l’utilisation du mannitol en réanimation préhospitalière en Île-de-France

OBJECTIVE

To evaluate the use of mannitol in prehospital care in Paris area.

STUDY DESIGN

Survey using telephone interviews.

METHODS

Emergency physicians on duty in the 37 emergency departments in charge of prehospital care in Paris area were called by one investigator. They were asked to answer a questionnaire about their own use of mannitol in the prehospital setting.

RESULTS

Ninety-six questionnaires were recorded. Physicians were anaesthesiologists (9%) or emergency physicians (87%). In three departments, mannitol was not available in the ambulances. Thirty-five per cent (n = 34) reported no use of mannitol and 17% (n = 16) just once. Fourteen physicians (15%) did not want to use it. The reasons for not using mannitol were lack of knowledge about efficacy for five, need for previous brain imaging for seven or neurosurgeon's agreement before using mannitol for three. For those who had already used mannitol or were ready to use it, the main indication was increased intracranial pressure with clinical signs of brain herniation after severe brain injury for 92% of physicians. Thirty-one % reported not knowing the dose of mannitol, 33% having a memorandum immediately available and among those who answered the question, 63% gave a value compatible with guidelines.

CONCLUSION

A significant percentage of physicians tacking part in the French prehospital care system, do not follow published guidelines on the use of mannitol. Actions improving implementation of those guidelines should be supported.

Maxillofacial fractures masking traumatic intracranial hemorrhages

Maxillofacial trauma may mask intracranial injuries prompting intensive care treatment. The purpose of this study was to identify whether craniofacial fracture patterns predispose patients with maxillofacial fractures to different types of intracranial hemorrhages. Within 7 years, 6649 patients with craniomaxillofacial injuries were admitted for treatment. The charts of the patients were analyzed according to age, sex, cause and mechanism of injury, type and location of facial injury, and intracranial trauma; 2195 sustained maxillofacial fractures. Statistical analyses were followed by logistic regression analyses for the four main types of intracranial hemorrhage to determine the impact of the different maxillofacial fractures. Intracranial hemorrhages in 212 patients (9.7%) occurred as epidural (2.5%), subdural (4.3%), subarachnoid (5.3%), and intracerebral hemorrhages (6.3%). Le Fort, orbit, nose, zygoma, and maxillary fractures increased the risk for accompanying intracranial hemorrhage by two- to fourfold (P < 0.05). Basal skull fractures caused a multiplication of the risk up to 17-fold, while fractures of the cranial vault were associated with a risk up to 14-fold. Nearly 10% of patients with craniomaxillofacial fractures sustain intracranial hemorrhages requiring frequently immediate neurosurgical intervention. Those patients, suffering from central midface fractures and skull base fractures, are prone to highly significant elevated risks of intracranial hemorrhage.

Acute subdural hematoma associated with diffuse brain injury and hypoxemia in the rat: effect of surgical evacuation of the hematoma

The aim of this study was to assess the effect of rapid or delayed surgical evacuation on the physiological consequence and brain edema formation in a rat model of acute subdural hematoma (SDH) coupled with either diffuse brain injury (DBI) or hypoxemia. The SDH was made by an autologous blood injection, while DBI was induced using the impact acceleration model (mild, 450 g/1 m; severe, 450 g/2 m). Physiological parameters measured included intracranial pressure (ICP), mean arterial blood pressure (MABP), cerebral blood flow (CBF), and brain tissue water content. At 1 h (rapid evacuation) or 4 h (delayed evacuation) after the SDH induction, surgical evacuation following a craniotomy was performed using saline irrigation and forceps. The study consisted of three different series, including 400 microL of SDH alone (Series 1), SDH400 + mild DBI (Series 2), and SDH300 + severe DBI + 20 min hypoxemia (Series 3). The hypoxemia was added in Group 3 to produce a steadily increasing ICP. In Series 1 and 2, all rats were randomized into the three following groups: non-, rapid, and delayed evacuation; Series 3 had two groups: non- and rapid evacuation. In Series 1, the surgical evacuation showed no beneficial effects on the brain edema formation assessed at 5 h post-injury. In Series 2, the rapid, but not delayed, evacuation significantly reduced both the increased ICP level and brain water content. The additional insult of hypoxemia (Series 3) resulted in a progressive ICP elevation, persistently depressed CBF, and severe brain swelling. Under this situation, the rapid evacuation exacerbated brain edema. These results have clinical implications for the management of severe traumatic SDH, especially its operative indication and timing.

Damage control neurosurgery

Damage control neurosurgery (DCNS) is abbreviated urgent neurosurgery performed on the injured patient which helps to prevent secondary brain injury, assists in stabilising the patient and improves survival and outcome. It may be urgent surgery done by the neurosurgeon in a trauma centre, but it has particular application in the remote, rural or military environment where the surgery can be performed by a generalist. This surgery should always be done in collaboration with the trauma team caring for the overall needs of the patient. The Definitive Surgery Trauma Course (DSTC) is an ideal educational vehicle to disseminate the principles of DCNS.

[Medical prehospital rescue in head injury]

OBJECTIVE

To evaluate the effectiveness of prehospital medical care in head-injured patients.

PATIENTS AND METHODS

All head-injured patients admitted in Bicêtre hospital from 1995 to 1999 were retrospectively studied. Glasgow Coma Scale (GCS) score, mean arterial pressure (MAP) and SpO(2) measured on the field were compared to GCS, MAP and SpO(2) on arrival in the hospital. All treatments given during transport and first data recorded in the hospital were noted. Each parameter was compared to outcome at 6 months. Then, significant parameters were compared with a multivariate analysis.

RESULTS

Three hundred and four patients were included, 80% had a GCS <or= 8 and 45% a GCS = 3. At 6 months, 43% of the patients had no or mild sequelae and 45% died. Prehospital time was 2 h 55 min +/- 1 h 40 min. During transport, 75% of hypoxemic events were corrected, but GCS and MAP decreased significantly. None of the patients with non-reactive mydriasis received any osmotherapy and all patients with non-reactive mydriasis until hospital admission died (n = 55). After multivariate analysis, parameters significantly related to outcome were, on the field, MAP (p < 0.025) and at hospital SAPS II (p < 0,001), GCS (p < 0.001), non-reactive mydriasis (p < 0.025), hyperglycemia (p < 0.025) and low haemoglobinemia (p < 0.001).

CONCLUSION

Respect of guidelines is important to improve medical care. Prehospital management corrected hypoxemia but not hypotension. The lack of osmotherapy after mydriasis cannot be explained and is probably an error. Patient route must be simplified to decrease time delay from field to hospital. Improvement in prehospital care may decrease mortality in head-injured patients.

Traumatic brain and spinal cord injury

The management of pediatric head injuries has evolved over the past decade,and a number of significant advances have been made. Evidence-based guide-lines and algorithms for the management of severe pediatric head injuries have recently been published, and all pediatricians who care for children with severe head injuries should be familiar with these guidelines. It is hoped the guidelines will streamline the clinical management of these children and stimulate future research into the many areas that require further investigation.

Utilidad diagnóstica de la radiografía en el traumatismo craneal. Una revisión crítica de la bibliografía

INTRODUCTION

The indication of distinct imaging studies in pediatric head trauma, and especially the use of skull radiography, is controversial.

OBJECTIVE

To assess the effectiveness of skull radiography in the management of head trauma in pediatric patients. To do this, we aimed to determine the predictive value of this procedure in detecting intracranial injuries, independently of patients' symptoms and clinical examination.

MATERIAL AND METHODS

We performed a review of the medical literature (MEDLINE) and of other resources available for searching biomedical information. Studies limited to pediatric patients (0-18 years old) that provided information on the diagnostic utility of skull radiography in head injury were selected. The source and characteristics of the populations studied and potential design limitations were taken into account.

RESULTS

Twelve original studies were selected, three of which were performed in children younger than two years old. Differences were found in the origin of the sample populations, the prevalence of intracranial injury and skull fracture, the severity of the trauma included, and in the criteria for performing imaging tests.

CONCLUSIONS

Because of the limited comparability of the articles, the usefulness of skull radiography was difficult to assess. Although the use of this technique is accepted in some circumstances in patients younger than two years old, the data obtained assign little value to the systematic use of radiography to assess head trauma in pediatric patients. Head computed tomography is indicated when symptoms or signs of possible neurological injury are present.

Have ATLS and national transfer guidelines improved the quality of resuscitation and transfer of head-injured patients? A prospective survey from a Regional Neurosurgical Unit

High-quality resuscitation and care during transfer of head-injured patients is essential to prevent secondary brain injury. We have prospectively assessed the standard of resuscitation in 50 consecutive head-injured patients transferred to our unit, and compared our findings with previous studies performed before the advanced trauma life support course (ATLS) had become widespread and national guidelines on the transfer of head injuries had been produced by the Association of Anaesthetists of Great Britain and Ireland (AAGBI). Delays in transfer, management of the airway, adequate cervical spine assessment, hypoxia (P(a)O(2) <13 kPa), hypotension (systolic BP <90 mmHg), missed injuries and the experience of the medical escort were compared against the standards laid out in ATLS and AAGBI Guidelines. The mean, unavoidable delay from arrival at the local accident and emergency unit to arrival was 7.4+/-1.9h (mean+/-95%CI) with most of the delay being prior to initial referral. Two patients arrived with an unsecured airway with a GCS=8/15; 26 had inadequate cervical spine imaging; 7 patients arrived hypoxic and 2 patients arrived hypotensive; most of these insults occurred during the transfer. Forty-six percent of medical escorts did not fulfil the minimum standard of experience. ATLS and AAGBI guidelines have provided only modest improvements in patient care at the expense of long delays in transfer. The incidence of hypoxia and hypotension remains unacceptably high.

Preventable Trauma Death in Tehran: An Estimate of Trauma Care Quality in Teaching Hospitals

OBJECTIVE

The purpose of this study was estimate the number of preventable trauma deaths in teaching hospitals in Tehran.

METHODS

We evaluated the complete prehospital, hospital, and postmortem data of 70 trauma patients who had died during a 1-year period in two of the largest university hospitals in Tehran with a multidisciplinary panel of experts.

RESULTS

Panel members identified 26% of all trauma deaths as preventable deaths. From 31 non-central nervous system-related deaths, 17 and 6 cases were identified as surely preventable and probably preventable, respectively. In central nervous system-related deaths, 5% of the deaths overall (2 of 38 cases) were identified as surely preventable or probably preventable. Sixty-four cases of medical errors were identified in 31 trauma deaths and 80% of these errors were directly related to the death of the patients.

CONCLUSION

The high preventable trauma death rate in our teaching hospitals indicates that a relatively significant percentage of trauma fatalities could have been prevented by improving prehospital and in-hospital trauma care.

Subdural hemorrhagic injury after open heart surgery

We report two cases of acute subdural hematoma after cardiac surgery using cardiopulmonary bypass. In both patients, emergency removal and drainage of a subdural hematoma was performed by neurosurgeons, and complete recovery followed. Subdural hemorrhagic brain injury after cardiac surgery is rare and devastating; however, we consider early diagnosis and proper treatment to be effective because organic brain damage did not occur.

A new rat model of diffuse brain injury associated with acute subdural hematoma: assessment of varying hematoma volume, insult severity, and the presence of hypoxemia

The aim of this study was to develop a new rat model of diffuse brain injury (DBI) associated with acute subdural hemorrhage (SDH). In order to make this model more clinically relevant, we determined whether the varying hematoma volume, severity of DBI, or the presence of hypoxemia could influence the physiological consequence. SDH was made by an autologous blood injection, while DBI was induced using the impact acceleration model (mild, 450 g/1 m, severe, 450 g/2 m). Physiological parameters measured included intracranial pressure (ICP), mean arterial blood pressure (MABP), cerebral blood flow (CBF), and brain tissue water content. In the first series, 23 rats were randomized into the five following groups: Group 1, sham; Group 2, 400 (microL SDH; Group 3, SDH400 + mild DBI; Group 4, SDH400 + severe DBI; and Group 5, SDH300 + severe DBI. Results suggested that SDH300 + severe DBI (Group 5) may be the most suitable model, in which the MABP and CBF temporarily decreased during the SDH induction, but thereafter recovered to the baseline. Conversely, ICP was persistently elevated throughout the experiment. The water content was also significantly higher in both hemispheres compared to that of sham. In the second series, the animal was exposed to a hypoxemic insult (10 or 30 min) in addition to SDH300 + severe DBI (Group 6). The prolonged hypoxemia caused both a severe CBF reduction without recovery and a bilateral brain swelling, whereas the brief hypoxemia showed a gradual CBF recovery from the transient reduction and an increased water content only in the SDH side. These results suggest that these models may be potentially useful to study the combination of DBI and SDH with or without hypoxemia.

Significance of consecutive bilateral surgeries for patients with acute subdural hematoma who develop contralateral acute epi- or subdural hematoma

BACKGROUND

Although rare, patients with acute subdural hematoma (ASDH) because of severe head injury can develop contralateral acute epi- or subdural hematoma, requiring consecutive surgical procedures. The choice of treatment strategies for such patients is clinically important.

METHODS

Among 88 patients with ASDH who were surgically treated over 13 years, we encountered and studied 5 patients who developed contralateral acute epi- or subdural hematoma (5.7%).

RESULTS

All 5 patients were male, ranging in age from 17 to 40. According to the Glasgow Coma Scale on admission, 1 patient was rated 3, 1 was 4, 1 was 5, and 2 were 6. All patients underwent consecutive surgical procedures for ASDH and contralateral ASDH and/or acute epidural hematoma, and were given postoperative supportive therapy with barbiturates and mild hypothermia. Patients' outcomes according to the Glasgow Outcome Scale were as follows: 1 patient, good recovery (20.0%); 1, mild disability (20.0%); 2, severe disability (40.0%), and 1, persistent vegetative state (20.0%). No patients died. Although decompressive craniectomy and evacuation of hematoma may lead to contralateral acute epi- or subdural hematoma in patients with ASDH, this therapy is justified because hematoma irrigation with trephination therapy has a poor outcome for comatose patients.

CONCLUSION

Awareness of intraoperative brain swelling is important, as it suggests the development of contralateral hematoma. Immediate computed tomography and a rapid return to the operating room are therefore critical.

Analysis of ischemic brain damage in cases of acute subdural hematomas

BACKGROUND

Ischemic damage of the brain is one of the most important factors for the sequelae of acute subdural hematomas (ASDHs). However, ischemic damage is infrequently addressed in a systematic manner in the clinical setting.

METHODS

The analysis of ischemic brain damage was performed based on serial computed tomography (CT) scans in 80 patients with traumatic ASDHs. Single photon emission computed tomography (SPECT) for regional blood flow and/or magnetic resonance imaging (MRI) were also performed.

RESULTS

Follow-up CT scans showed ischemic brain damage in 19 patients and no significant damage in 35 patients. The remaining 26 patients progressively deteriorated to the point of brain death. The ischemic brain damage was seen most frequently in the territory of the anterior cerebral artery (13 cases), followed by the territory of the posterior cerebral artery (12 cases). The ischemic damages in the pallidum, the hypothalamus and the thalamus were demonstrated in 4, 8, and 4 cases, respectively. The ischemic damage in the underlying brain that was probably because of the direct compression of the hematoma was seen in only two cases.

CONCLUSIONS

Most of the ischemic brain damage noted in this study was because of arterial compression secondary to the brain shift and brain herniation, rather than the direct effect of the hematoma upon the underlying brain. Ischemic brain damage adversely affects outcome morbidity, and the difficulty in preventing ischemic damage in cases with marked brain shift leads to poor outcome in patients with ASDHs.

Quality of multiple trauma care in 33 German and Swiss trauma centers during a 5-year period: regular versus on-call service

BACKGROUND

The purpose of this study was to evaluate process and outcome quality of severely injured patients admitted during on-call (OC) versus regular trauma service (RS).

METHODS

This was a prospective and multicentric analysis of the Trauma Registry of the German Trauma Society. Patients were evaluated if directly admitted from the scene of accident with an Injury Severity Score of > 15 and if alive on arrival at the emergency department.

RESULTS

Seventy percent of patients were admitted during OC; these patients were significantly younger. Blunt trauma predominated, with a 95% incidence. Falls from great heights were significantly more frequent during RS, whereas motor vehicle crashes predominated during OC. No differences were found for emergency department management (e.g., time to abdominal ultrasound, chest radiograph, or cranial computed tomography). However, time to admission to the intensive care unit was substantially longer during RS. No significant differences were found for outcome parameters such as length of intensive care unit stay, hospitalization time, incidence of organ failure, or mortality.

CONCLUSION

This study demonstrates a constant quality of care provided 24 hours per day, 7 days per week in the participating hospitals. Differences within individual trauma centers were not compared and need to be assessed by internal quality management.

Tempol, a novel stable nitroxide, reduces brain damage and free radical production, after acute subdural hematoma in the rat

Recent studies have shown that there is increased production of deleterious free radicals following acute subdural hematoma (ASDH). Scavenging them may therefore be of therapeutic benefit. Nitroxides are new, low molecular weight, cell permeable superoxide dismutase mimics. This study investigated the neuroprotective effect of 4-hydroxy-2,2,6,6-tetramethylpiperidine-1-oxyl (Tempol) following ASDH in the rat. Twenty-one male Sprague-Dawley rats were used in two studies: (1) a volumetric study of ischemic brain damage (n = 10); and (2) a microdialysis study measuring free radical generation after ASDH (n = 11). Ten minutes after induction of hematoma, the animals received 10 mg/kg Tempol or vehicle intravenously. In the volumetric study, 4 h after treatment, the rats were perfused, the brain removed, cut into serial 12-microm coronal sections, and stained. Ischemic areas were measured in eight predetermined stereotactic planes. In the microdialysis study, free radical production was measured using the salicylate trapping technique by quantifying 2,3-dihydrobenzoic acid (2,3-DHBA) and 2,5-DHBA using HPLC. In the volumetric study, Tempol treatment significantly reduced infarct volumes; 100.2 +/- 15.7 mm3 in Tempol-treated animals compared with 171.5 +/- 13.6 mm3 in controls (42% reduction, p = 0.0005). The microdialysis study demonstrated an early twofold increase of free radical production at 30 min, and returning to the baseline levels in controls. However, in Tempol-treated animals, this early surge was attenuated, and all measured values remained around the baseline levels throughout the experiments. Tempol thus provides significant neuroprotective effect in a rat model of ASDH, related to attenuation of superoxide radical production. The use of these low molecular weight, cell-permeable agents, which readily cross the blood-brain barrier and enter cells, thus appears indicated for acute pathologies, ASDH.

Patients with a head injury who "talk and die" in the 1990s

BACKGROUND

Patients who "talk and die" after head injury may represent a group who suffer delayed and therefore potentially preventable complications after injury. We have compared the clinical and pathologic features of patients who talk and die with those who "talk and live" after head injury.

METHODS

Data collected prospectively by the Scottish Trauma Audit Group were used to identify patients with a head injury and classify them according to verbal response at admission to hospital. All "talking" patients in the catchment area of a regional neurosurgical center were selected and those who died were compared with those who survived.

RESULTS

Seven hundred eighty-nine talking patients were identified. Seven hundred twenty-seven patients survived and 62 died. Patients who talked and died were older, had more severe extracranial injuries, had lower consciousness levels, and reached theater more quickly than those who talked and lived. Thirty-one of the patients that died had extra-axial hematomas.

CONCLUSION

Even with increased availability of computed tomographic scanning, some patients still talk and die after head injury.

Diffuse brain injury complicated by acute subdural hematoma in the rodents: the effect of early or delayed surgical evacuation

Of all the possible clinical factors affecting the outcome of patients suffering acute subdural hematomas (SDH), timing of surgical evacuation is certainly the most debated. The purpose of this study was to develop an experimental model able to reproduce the clinical behavior of post-traumatic SDH as observed in head injured patients. We present a novel model of SDH combined with diffuse brain injury (DBI), and investigate the effects of early and delayed surgical evacuation. Following Impact Acceleration DBI, adult Sprague-Dawley rats were given a 400 microliters SDH. Hematoma was then evacuated at one (rapid evacuation) or four hours (delayed evacuation) post-injury. Physiological parameters were measured for 5 hours, followed by the assessment of brain water content. In this experimental model, there is strong evidence that trauma acts synergistically with SDH enhancing brain edema formation and increasing ICP. In absence of secondary insult, rapid evacuation of traumatic SDH limits exposure to high ICP, reduces brain edema and is beneficial.

[Spontaneous resolution of an acute subdural hematoma]

Acute postraumatic subdural hematoma is known to have bad prognosis. Traditionally, its treatment consisted in urgent surgical evacuation. Rapid spontaneous resolution of the hematoma has been infrequently observed. We report a case of a patient with an acute traumatic subdural hematoma which disappeared without surgery. CT-scan showed a left-sided subdural hematoma with marked mass effect. A low density layer, which implied involvement of CSF in the subdural space, was observed between the hematoma and the inner wall of the skull. We think that the spontaneous resolution of the hematoma was due to the dilution and washing-out by the CSF through an arachnoid tear. Another suggested mechanism in the literature is blood redistribution in the subdural space. Selected patients with an acute subdural hematoma can be managed with conservative treatment.

Effect of patients' age on management of acute intracranial haematoma: prospective national study

OBJECTIVE

To determine whether the management of head injuries differs between patients aged > or =65 years and those <65.

DESIGN

Prospective observational national study over four years.

SETTING

25 Scottish hospitals that admit trauma patients.

PARTICIPANTS

527 trauma patients with extradural or acute subdural haematomas.

MAIN OUTCOME MEASURES

Time to cranial computed tomography in the first hospital attended, rates of transfer to neurosurgical care, rates of neurosurgical intervention, length of time to operation, and mortality in inpatients in the three months after admission.

RESULTS

Patients aged > or =65 years had lower survival rates than patients <65 years. Rates were 15/18 (83%) v 165/167 (99%) for extradural haematoma (P=0.007) and 61/93 (66%) v 229/249 (92%) for acute subdural haematoma (P<0.001). Older patients were less likely to be transferred to specialist neurosurgical care (10 (56%) v 142 (85%) for extradural haematoma (P=0.005) and 56 (60%) v 192 (77%) for subdural haematoma (P=0.004)). There was no significant difference between age groups in the incidence of neurosurgical interventions in patients who were transferred. Logistic regression analysis showed that age had a significant independent effect on transfer and on survival. Older patients had higher rates of coexisting medical conditions than younger patients, but when severity of injury, initial physiological status at presentation, or previous health were controlled for in a log linear analysis, transfer rates were still lower in older patients than in younger patients (P<0.001).

CONCLUSIONS

Compared with those aged under 65 years, people aged 65 and over have a worse prognosis after head injury complicated by intracranial haematoma. The decision to transfer such patients to neurosurgical care seems to be biased against older patients.

Critical decision making in severe head injury management

The management of severe head injury (SHI) remains a major challenge not only for neurosurgeons but also for all other health professionals involved in the care of trauma patients. Any trauma patient with SHI is at risk of further neurological deterioration if appropriate measures are not instituted from the start of his or her treatment. Secondary insults due to ischaemic, hypotensive, and metabolic or other causes are still common, even in the most advanced neurocritical care settings. Management controversies are widespread and few decision options can be supported by Class I evidence. This article attempts to provide an up-to-date review of the published recommendations that could help health professionals in their management of SHI.

Volume-targeted therapy of increased intracranial pressure: the Lund concept unifies surgical and non-surgical treatments

Opinions differ widely on the various treatment protocols for sustained increase in intracranial pressure (ICP). This review focuses on the physiological volume regulation of the intracranial compartments. Based on these mechanisms we describe a protocol called 'volume-targeted' ('Lund concept') for treatment of increased ICP. The driving force for transcapillary fluid exchange is determined by the balance between effective transcapillary hydrostatic and osmotic pressures. Fluid exchange across the intact blood-brain barrier (BBB) is counteracted by the low permeability to crystalloids (mainly Na+ and Cl-) combined with the high osmotic pressure (5500 mmHg) on both sides of the BBB. This contrasts to most other capillary regions where the osmotic pressure is mainly derived from the plasma proteins (approximately 25 mmHg). Accordingly, the level of the cerebral perfusion pressure (CPP) is of less importance under physiological conditions. In addition cerebral intracapillary hydrostatic pressure (and cerebral blood flow) is physiologically tightly autoregulated, and variations in systemic blood pressure are generally not transmitted to these capillaries. If the BBB is disrupted, transcapillary water transport will be determined by the differences in hydrostatic and colloid osmotic pressure between the intra- and extracapillary compartments. Under these pathological conditions, pressure autoregulation of cerebral blood flow is likely to be impaired and intracapillary hydrostatic pressure will depend on variations in systemic blood pressure. The volume-targeted 'Lund concept' can be summarized under four headings: (1) Reduction of stress response and cerebral energy metabolism; (2) reduction of capillary hydrostatic pressure; (3) maintenance of colloid osmotic pressure and control of fluid balance; and (4) reduction of cerebral blood volume. The efficacy of the protocol has been evaluated in experimental and clinical studies regarding the physiological and biochemical (utilizing intracerebral microdialysis) effects, and the clinical experiences have been favorable.