A Validation Study for SHE Score for Acute Subdural Hematoma in the Elderly

Objective: The aim of this study was the verification of the Subdural Hematoma in the Elderly (SHE) score proposed by Alford et al. as a mortality predictor in patients older than 65 years with nontraumatic/minor trauma acute subdural hematoma (aSDH). Additionally, we evaluated further predictors associated with poor outcome. Methods: Patients were scored according to age (1 point is given if patients were older than 80 years), GCS by admission (1 point for GCS 5–12, 2 points for GCS 3–4), and SDH volume (1 point for volume 50 mL). The sum of points determines the SHE score. Multivariate logistic regression analysis was performed to identify additional independent risk factors associated with 30-day mortality. Results: We evaluated 131 patients with aSDH who were treated at our institution between 2008 and 2020. We observed the same 30-day mortality rates published by Alford et al.: SHE 0: 4.3% vs. 3.2%, p = 1.0; SHE 1: 12.2% vs. 13.1%, p = 1.0; SHE 2: 36.6% vs. 32.7%, p = 0.8; SHE 3: 97.1% vs. 95.7%, p = 1.0 and SHE 4: 100% vs. 100%, p = 1.0. Additionally, 18 patients who developed status epilepticus (SE) had a mortality of 100 percent regardless of the SHE score. The distribution of SE among the groups was: 1 for SHE 1, 6 for SHE 2, 9 for SHE 3, and 2 for SHE 4. The logistic regression showed the surgical evacuation to be the only significant risk factor for developing the seizure. All patients who developed SE underwent surgery (p = 0.0065). Furthermore, SHE 3 and 4 showed no difference regarding the outcome between surgical and conservative treatment. Conclusions: SHE score is a reliable mortality predictor for minor trauma acute subdural hematoma in elderly patients. In addition, we identified status epilepticus as a strong life-expectancy-limiting factor in patients undergoing surgical evacuation.

[1]  D. McArthur,et al.  Sedation-Induced Burst Suppression Predicts Positive Outcome Following Traumatic Brain Injury , 2021, Frontiers in Neurology.

[2]  E. Fainardi,et al.  Use of the Subdural Hematoma in the Elderly (SHE) score to predict 30-day mortality after chronic subdural hematoma evacuation. , 2021, World neurosurgery.

[3]  A. Singhal,et al.  Subdural Hematoma: Predictors of Outcome and a Score to Guide Surgical Decision-Making. , 2020, Journal of stroke and cerebrovascular diseases : the official journal of National Stroke Association.

[4]  P. De Bonis,et al.  Acute subdural hematoma in the elderly: outcome analysis in a retrospective multicentric series of 213 patients. , 2020, Neurosurgical focus.

[5]  Jennifer A. Kim,et al.  Association of race and ethnicity to incident epilepsy, or epileptogenesis, after subdural hematoma , 2020, Neurology.

[6]  A. Unterberg,et al.  Mortality and functional outcome after surgical evacuation of traumatic acute subdural hematomas in octa- and nonagenarians , 2020, European Journal of Trauma and Emergency Surgery.

[7]  V. Seifert,et al.  External validation and modification of the Oslo grading system for prediction of postoperative recurrence of chronic subdural hematoma , 2020, Neurosurgical Review.

[8]  R. Oster,et al.  Development of the Subdural Hematoma in the Elderly (SHE) score to predict mortality. , 2020, Journal of neurosurgery.

[9]  F. Rosenow,et al.  Seizure and status epilepticus in chronic subdural hematoma , 2019, Acta neurologica Scandinavica.

[10]  F. Drislane,et al.  Nonconvulsive seizures and nonconvulsive status epilepticus in the neuro ICU should or should not be treated aggressively: A debate , 2019, Clinical neurophysiology practice.

[11]  A. Pack Epilepsy Overview and Revised Classification of Seizures and Epilepsies , 2019, Continuum.

[12]  Sinan Karacabey,et al.  Risk factors associated with mortality and survival of acute subdural hematoma: A retrospective study , 2019, Journal of research in medical sciences : the official journal of Isfahan University of Medical Sciences.

[13]  M. AbdelFatah Prognosis of acute subdural hematoma greater than 10 mm in thickness in head injury patients with an extension or no motor response to pain after resuscitation , 2019, Egyptian Journal of Neurosurgery.

[14]  F. Drislane,et al.  Treatment of Refractory and Super-refractory Status Epilepticus , 2018, Neurotherapeutics.

[15]  V. Seifert,et al.  Significant increase in acute subdural hematoma in octo- and nonagenarians: surgical treatment, functional outcome, and predictors in this patient cohort. , 2017, Neurosurgical focus.

[16]  J. Hallas,et al.  Association of Antithrombotic Drug Use With Subdural Hematoma Risk , 2017, JAMA.

[17]  J. Frontera,et al.  Predictors of Functional Outcome After Subdural Hematoma: A Prospective Study , 2017, Neurocritical Care.

[18]  Jan Claassen,et al.  Seizure burden in subarachnoid hemorrhage associated with functional and cognitive outcome , 2016, Neurology.

[19]  H. Kamel,et al.  Adverse Outcomes After Initial Non-surgical Management of Subdural Hematoma: A Population-Based Study , 2016, Neurocritical Care.

[20]  S. Marshall,et al.  Updated clinical practice guidelines for concussion/mild traumatic brain injury and persistent symptoms , 2015, Brain injury.

[21]  M. Maltenfort,et al.  The epidemiology, risk factors, and impact on hospital mortality of status epilepticus after subdural hematoma in the United States , 2014, SpringerPlus.

[22]  R. Berg,et al.  Electrographic status epilepticus and long-term outcome in critically ill children , 2014, Neurology.

[23]  R. Berg,et al.  Electrographic Status Epilepticus Is Associated With Mortality and Worse Short-Term Outcome in Critically Ill Children* , 2013, Critical care medicine.

[24]  S. Cash,et al.  Calculating the Risk Benefit Equation for Aggressive Treatment of Non-convulsive Status Epilepticus , 2013, Neurocritical Care.

[25]  Ta-Liang Chen,et al.  Risk of epilepsy after traumatic brain injury: a retrospective population-based cohort study , 2012, Journal of Neurology, Neurosurgery & Psychiatry.

[26]  S. Mayer,et al.  Electrographic seizures and periodic discharges after intracerebral hemorrhage , 2007, Neurology.

[27]  Hasan Kamil Sucu,et al.  The Value of XYZ/2 Technique Compared With Computer-Assisted Volumetric Analysis to Estimate the Volume of Chronic Subdural Hematoma , 2005, Stroke.

[28]  B. Condon,et al.  Acute subdural haematoma in the conscious patient: Outcome with initial non-operative management , 1993, Acta Neurochirurgica.

[29]  A. Menkü,et al.  Acute subdural hematoma: Outcome and outcome prediction , 2005, Neurosurgical Review.

[30]  J. Brzeziński,et al.  Acute subdural haematoma in adults: an analysis of outcome in comatose patients , 2005, Acta Neurochirurgica.

[31]  D. Cifu,et al.  Analyzing risk factors for late posttraumatic seizures: a prospective, multicenter investigation. , 2003, Archives of physical medicine and rehabilitation.

[32]  G. Manley,et al.  The ICH score: a simple, reliable grading scale for intracerebral hemorrhage. , 2001, Stroke.

[33]  G. Taylor,et al.  CT prognostic factors in acute subdural haematomas: the value of the 'worst' CT scan. , 2000, British journal of neurosurgery.

[34]  C. Avezaat,et al.  The Prognostic Importance of the Volume of Traumatic Epidural and Subdural Haematomas Revisited , 1999, Acta Neurochirurgica.

[35]  J. Thornbury,et al.  Skull x-ray examinations after head trauma. Recommendations by a multidisciplinary panel and validation study. , 1987, The New England journal of medicine.

[36]  J. Hanley,et al.  The meaning and use of the area under a receiver operating characteristic (ROC) curve. , 1982, Radiology.

[37]  A. J. M. van der Werf,et al.  Surgical management of acute subdural hematomas , 1975, Clinical Neurology and Neurosurgery.