Dilantha B. Ellegala scite author profile

Spinal cord injury (SCI) is a devastating and common neurologic disorder that has profound influences on modern society from physical, psychosocial, and socioeconomic perspectives. Accordingly, the present decade has been labeled the Decade of the Spine to emphasize the importance of SCI and other spinal disorders. Spinal cord injury may be divided into both primary and secondary mechanisms of injury. The primary injury, in large part, determines a given patient's neurologic grade on admission and thereby is the strongest prognostic indicator. However, secondary mechanisms of injury can exacerbate damage and limit restorative processes, and hence, contribute to overall morbidity and mortality. A burgeoning body of evidence has facilitated our understanding of these secondary mechanisms of injury that are amenable to pharmacological interventions, unlike the primary injury itself. Secondary mechanisms of injury encompass an array of perturbances and include neurogenic shock, vascular insults such as hemorrhage and ischemia-reperfusion, excitotoxicity, calcium-mediated secondary injury and fluid-electrolyte disturbances, immunologic injury, apoptosis, disturbances in mitochondrion function, and other miscellaneous processes. Comprehension of secondary mechanisms of injury serves as a basis for the development and application of targeted pharmacological strategies to confer neuroprotection and restoration while mitigating ongoing neural injury. The first article in this series will comprehensively review the pathophysiology of SCI while emphasizing those mechanisms for which pharmacologic therapy has been developed, and the second article reviews the pharmacologic interventions for SCI.

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Imaging Tumor Angiogenesis With Contrast Ultrasound and Microbubbles Targeted to α _v β ₃

Ellegala

et al. 2003

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Background— Angiogenesis is a critical determinant of tumor growth and metastasis. We hypothesized that contrast-enhanced ultrasound (CEU) with microbubbles targeted to α v -integrins expressed on the neovascular endothelium could be used to image angiogenesis. Methods and Results— Malignant gliomas were produced in 14 athymic rats by intracerebral implantation of U87MG human glioma cells. On day 14 or day 28 after implantation, CEU was performed with microbubbles targeted to α v β 3 by surface conjugation of echistatin. CEU perfusion imaging with nontargeted microbubbles was used to derive tumor microvascular blood volume and blood velocity. Vascular α v -integrin expression was assessed by immunohistochemistry, and microbubble adhesion was characterized by confocal microscopy. Mean tumor size increased markedly from 14 to 28 days (2±1 versus 35±14 mm 2 , P <0.001). Tumor blood volume increased by ≈35% from day 14 to day 28, whereas microvascular blood velocity decreased, especially at the central portions of the tumors. On confocal microscopy, α v β 3 -targeted but not control microbubbles were retained preferentially within the tumor microcirculation. CEU signal from α v β 3 -targeted microbubbles in tumors increased significantly from 14 to 28 days (1.7±0.4 versus 3.3±1.0 relative units, P <0.05). CEU signal from α v β 3 -targeted microbubbles was greatest at the periphery of tumors, where α v -integrin expression was most prominent, and correlated well with tumor microvascular blood volume ( r =0.86). Conclusions— CEU with microbubbles targeted to α v β 3 can noninvasively detect early tumor angiogenesis. This technique, when coupled with changes in blood volume and velocity, may provide insights into the biology of tumor angiogenesis and be used for diagnostic applications.

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The long-term significance of microscopic dural invasion in 354 patients with pituitary adenomas treated with transsphenoidal surgery

Meij¹,

Lopes²,

Ellegala³

et al. 2002

282

174

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The principal significance of dural invasion by pituitary adenoma is the persistence of tumor tissue after transsphenoidal surgery (incomplete adenomectomy; 20% in primary pituitary tumor resections). The increase in adenoma size with time and the concurrent development of dural invasion are the major factors that determine an incomplete adenomectomy. When the adenoma remains restricted to the sellar compartment or shows only moderate suprasellar extension, dural invasion may not yet have developed and conditions for complete selective adenomectomy are improved.

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Radiosurgery for Cushing's disease after failed transsphenoidal surgery

Sheehan¹,

Vance²,

Sheehan³

et al. 2000

234

115

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Differential Macrophage Responses in the Peripheral and Central Nervous System during Wallerian Degeneration of Axons

Avellino

Hart

Dailey

et al. 1995

Experimental Neurology

168

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