Correlation of the ferrum and VEGF with magnetic resonance imaging in chronic subdural hematomas : a prospective study

In this study, we measured the level of ferrum ion and VEGF from the hematoma cavity fluid in chronic subdural hematoma (CSDH), and analyzed the relationship between these values with the CSDH diagnosis by MRI. The cranial MRI appearance of each CSDH were classified as hypodense, isodense, hyperdense, or mixed density. The concentrations of ferrum ions in serum and hematoma cavity fluid were measured before and after operation, and the VEGF level in hematoma cavity was examined by ELISA. Totally, the ferrum ion concentration in hematoma cavity fluid was higher than that in periphery serum. In hypodense hematomas (n=5), ferrum and VEGF was 55.24±12.57 μmol/L, 7254.40±575.88 pg/ml, respectively. In isodense hematomas (n=6), ferrum and VEGF was 65.18±8.63 μmol/L, 8194.17±619.47 pg/ml, respectively. In hyperdense hematomas (n=7), ferrum and VEGF was 38.96±6.37 μmol/L and 6142.43±549.87 pg/ml, respectively. In mixed-density hemotomas (n=7), ferrum and VEGF was 45.99±10.11 μmol/L, 6861.00±686.89 pg/ml, respectively. There was significant difference of ferrum and VEGF between 4 classes of MRI appearance (P<0.05). Meanwhile, earlier age and shorter onset days were found in hyperdense hematomas with lower ferrum and VEGF. The ferrum concentration and VEGF level was correlated with the MRI signal density in CSDH.

[1]  H. Chhabra,et al.  A rare case of chronic subdural haematoma presenting with paraparesis: A case report and review of literature. , 2015, Journal of clinical orthopaedics and trauma.

[2]  C. Sorenson,et al.  Functional role of inorganic trace elements in angiogenesis--Part I: N, Fe, Se, P, Au, and Ca. , 2015, Critical reviews in oncology/hematology.

[3]  Iliescu Ia Current diagnosis and treatment of chronic subdural haematomas. , 2015 .

[4]  L. Bie,et al.  Surgical management of the patients with chronic subdural haematoma and contralateral subdural effusion: Operation or no-operation? , 2015, Brain Injury.

[5]  Seong-Hyun Park,et al.  Correlation of the Beta-Trace Protein and Inflammatory Cytokines with Magnetic Resonance Imaging in Chronic Subdural Hematomas : A Prospective Study , 2015, Journal of Korean Neurosurgical Society.

[6]  Yaodong Wang,et al.  Chronic subdural haematoma evolving from traumatic subdural hydroma , 2015, Brain injury.

[7]  T. Santarius,et al.  Chronic subdural haematoma: modern management and emerging therapies , 2014, Nature Reviews Neurology.

[8]  Chai-ching Lin,et al.  Quantitative assessment of post-operative recurrence of chronic subdural haematoma using mean haematoma density , 2014, Brain injury.

[9]  Seong-Hyun Park,et al.  Fibrinogen and D-dimer analysis of chronic subdural hematomas and computed tomography findings: A prospective study , 2011, Clinical Neurology and Neurosurgery.

[10]  W. Gormley Role of angiogenic growth factors and inflammatory cytokine on recurrence of chronic subdural hematoma , 2009 .

[11]  Nedugov Gv Forensic medical assessment of health status dynamics in a victim of fatal traumatic subdural hematomas , 2008 .

[12]  A. C. Iplikcioglu,et al.  The role of exudation in chronic subdural hematomas. , 2007, Journal of neurosurgery.

[13]  O. Barbash,et al.  Expression of Angiogenic Factors Vascular Endothelial Growth Factor and Interleukin-8/CXCL8 Is Highly Responsive to Ambient Glutamine Availability , 2004, Cancer Research.

[14]  K.Stuart Lee Natural history of chronic subdural haematoma. , 2004, Brain injury.

[15]  M. Zurita,et al.  Vascular Endothelial Growth-Permeability Factor in Granulation Tissue of Chronic Subdural Haematomas , 2002, Acta Neurochirurgica.

[16]  Satoshi O. Suzuki,et al.  Vascular endothelial growth factor in chronic subdural haematomas , 2001, Journal of Clinical Neuroscience.

[17]  N. Tamaki,et al.  Magnetic resonance images of chronic subdural hematomas. , 1987, Journal of neurosurgery.

[18]  T. Markwalder Chronic subdural hematomas: a review. , 1981, Journal of neurosurgery.