Anitha Nimmagadda scite author profile

Anitha Nimmagadda

5Publications

94Citation Statements Received

79Citation Statements Given

How they've been cited

120

How they cite others

Affiliations

University of Illinois Hospital & Health Sciences System, University of Miami, Neurological Surgery

Publications

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Albumin Therapy Improves Local Vascular Dynamics in a Rat Model of Primary Microvascular Thrombosis

Nimmagadda

Park

Prado

et al. 2008

Stroke

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Background and Purpose— High-dose human albumin is robustly neuroprotective in preclinical ischemia models and is currently in phase III clinical trial for acute ischemic stroke. To explore the hypothesis that albumin’s protective effect is mediated in part by salutary intravascular mechanisms, we assessed microvascular hemodynamics in a model of laser-induced cortical arteriolar thrombosis. Methods— The cortical microcirculation of anesthetized, physiologically monitored Sprague-Dawley rats was studied in vivo via a frontoparietal cranial window (intact dura) by two-photon laser-scanning microscopy after plasma-labeling with fluorescein-dextran. Focal thrombosis was produced in 30- to 50-μm cortical arterioles by laser irradiation. Arteriolar flow velocity was measured repeatedly by line-scanning. At 30 minutes post-thrombosis, animals were treated with either human albumin, 2 g/kg, or with saline control. Results— Baseline arteriolar flow velocity averaged 3.5±1.8 mm/s and was reduced to 10% to 13% of control values by laser-induced thrombosis, which also led to focal vasodilatation (mean, 49% above baseline diameter). Saline treatment at 30 minutes post-thrombosis failed to influence arteriolar flow velocity, which remained depressed at 10% to 22% of control throughout the subsequent 60- to 90-minute observation period. By contrast, albumin treatment induced a prompt rise in median flow velocity to 38% of control by 10 minutes post-treatment, and to 61% to 67% of control by 50 to 60 minutes. Conclusions— High-dose albumin therapy induces a prompt, sustained improvement in microvascular hemodynamics distal to a cortical arteriolar thrombosis; these data support an important intravascular component to albumin’s protective effect in acute cerebral ischemia.

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Albumin Therapy Augments the Effect of Thrombolysis on Local Vascular Dynamics in a Rat Model of Arteriolar Thrombosis

Park

Nimmagadda

DeFazio

et al. 2008

Stroke

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Background and Purpose-Results of our recent pilot clinical trial suggest that the efficacy of thrombolytic therapy in acute ischemic stroke may be enhanced by the coadministration of high-dose albumin. Here, we explored the microvascular hemodynamic effects of this combined therapy in a laboratory model of cortical arteriolar thrombosis. Methods-We studied the cortical microcirculation of physiologically monitored rats in vivo by two-photon laser-scanning microscopy after plasma-labeling with fluorescein-dextran. We induced focal thrombosis in 30-to 50-m cortical arterioles by laser irradiation and measured arteriolar flow velocity by repeated line-scanning. At 30 minutes post-thrombosis, we treated animals with the thrombolytic agent, reteplase, which was coadministered with either human albumin, 2 g/kg, or with saline control. Results-Baseline arteriolar flow velocity averaged 3.8Ϯ0.7 mm/s, was immediately reduced by thrombosis to 22% to 25% of control values, and remained unchanged before treatment. Subthrombolytic doses of reteplase combined with saline led to a median increase in flow velocity to 37% of control distal to the thrombus (Pϭnonsignificant versus pretreatment). By contrast, reteplase combined with albumin therapy resulted in a prompt, highly significant increase of median flow velocity to 58% of control levels (Pϭ0.013 versus reteplaseϩsaline), which remained significantly higher than the reteplaseϩsaline group at multiple time-points over the subsequent hour. Conclusions-The

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Endovascular Treatment of a Bilateral Dural Carotid-Cavernous Fistula Using an Unusual Unilateral Approach Through the Basilar Plexus

Dabus¹,

Batjer²,

Hurley³

et al. 2012

World Neurosurgery

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Spontaneous involution of a large pineal region hemorrhagic cyst in an infant

Nimmagadda¹,

Sandberg²,

Ragheb³

2006

Journal of Neurosurgery: Pediatrics

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An Unusual Case of Footdrop

Levene

Nimmagadda

Levi

2010

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