Rob G. Parrish scite author profile

Rob G. Parrish

4Publications

102Citation Statements Received

0Citation Statements Given

How they've been cited

218

How they cite others

Affiliations

Methodist Hospital, University at Buffalo, State University of New York, Joint Base San Antonio

Publications

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Promises and Perils of Artificial Intelligence in Neurosurgery

Panesar¹,

Kliot²,

Parrish³

et al. 2019

Neurosurg.

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Artificial intelligence (AI)-facilitated clinical automation is expected to become increasingly prevalent in the near future. AI techniques may permit rapid and detailed analysis of the large quantities of clinical data generated in modern healthcare settings, at a level that is otherwise impossible by humans. Subsequently, AI may enhance clinical practice by pushing the limits of diagnostics, clinical decision making, and prognostication. Moreover, if combined with surgical robotics and other surgical adjuncts such as image guidance, AI may find its way into the operating room and permit more accurate interventions, with fewer errors. Despite the considerable hype surrounding the impending medical AI revolution, little has been written about potential downsides to increasing clinical automation. These may include both direct and indirect consequences. Directly, faulty, inadequately trained, or poorly understood algorithms may produce erroneous results, which may have wide-scale impact. Indirectly, increasing use of automation may exacerbate de-skilling of human physicians due to over-reliance, poor understanding, overconfidence, and lack of necessary vigilance of an automated clinical workflow. Many of these negative phenomena have already been witnessed in other industries that have already undergone, or are undergoing “automation revolutions,” namely commercial aviation and the automotive industry. This narrative review explores the potential benefits and consequences of the anticipated medical AI revolution from a neurosurgical perspective.

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Intraoperative Imaging with a Therapeutic Computed Tomographic Scanner

Lunsford¹,

Parrish²,

Albright³

1984

Neurosurgery

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A therapeutic computed tomographic (CT) scanner uniquely dedicated to surgical usage allowed intraoperative CT imaging during precise resections of glial brain tumors in three patients. Intraoperative CT scanning provided accurate tumor localization, superior contrast and spatial resolution of the lesion, and cross sectional anatomy of the entire brain. Further development of intraoperative CT guidance will allow safer or even complete removal of some previously unresectable brain tumors.

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Reaction of the purple membrane with a carbodimide

Renthal

Harris

Parrish

1979

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Homonymous Hemianopsia Due to a Dural Cavernous Hemangioma

Lee¹,

Parrish²,

Goodman³

1998

Journal of Neuro-Ophthalmology

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Rob G. Parrish

Promises and Perils of Artificial Intelligence in Neurosurgery

Intraoperative Imaging with a Therapeutic Computed Tomographic Scanner

Reaction of the purple membrane with a carbodimide

Homonymous Hemianopsia Due to a Dural Cavernous Hemangioma

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