Jessica M. Bargoil scite author profile

Jessica M. Bargoil

2Publications

39Citation Statements Received

88Citation Statements Given

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Wake Forest University

Publications

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A randomized trial of diagnostic ultrasound to improve outcomes in focal neuropathies

et al. 2015

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Introduction Neuromuscular ultrasound is valid, reliable, and accurate, but it is not known if combining it with electrodiagnostic studies leads to better outcomes in individuals with focal neuropathies. Methods 120 individuals with focal neuropathy based on history, examination, and electrodiagnosis were enrolled. All underwent neuromuscular ultrasound and were randomized to either have their ultrasound results sent to the referring physician or not. Outcomes were assessed at 6 months by evaluators blinded to group assignment. Results The Overall Disability Sum Score and 7 of 8 domains of the Medical Outcomes Study 36-Item Short-Form Health Survey (SF-36) showed more improvement in the “report sent” group, though only the general health perception domain was significant (P = 0.005). Conclusions Most 6-month outcomes did not reach statistical significance between the 2 groups. However, the “report sent” group had trends toward better outcomes with significance reached in the general health perception domain of the SF-36.

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Can a combination of ultrasonographic parameters accurately evaluate concussion and guide return-to-play decisions?

et al. 2015

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Mild traumatic brain injury, often referred to as concussion, is a common, potentially debilitating, and costly condition. One of the main challenges in diagnosing and managing concussion is that there is not currently an objective test to determine the presence of a concussion and to guide return-to-play decisions for athletes. Traditional neuroimaging tests, such as brain magnetic resonance imaging, are normal in concussion, and therefore diagnosis and management are guided by reported symptoms. Some athletes will under-report symptoms to accelerate their return-to-play and others will over-report symptoms out of fear of further injury or misinterpretation of underlying conditions, such as migraine headache. Therefore, an objective measure is needed to assist in several facets of concussion management. Limited data in animal and human testing indicates that intracranial pressure increases slightly and cerebrovascular reactivity (the ability of the cerebral arteries to auto-regulate in response to changes in carbon dioxide) decreases slightly following mild traumatic brain injury. We hypothesize that a combination of ultrasonographic measurements (optic nerve sheath diameter and transcranial Doppler assessment of cerebrovascular reactivity) into a single index will allow for an accurate and non-invasive measurement of intracranial pressure and cerebrovascular reactivity, and this index will be clinically relevant and useful for guiding concussion diagnosis and management. Ultrasound is an ideal modality for the evaluation of concussion because it is portable (allowing for evaluation in many settings, such as on the playing field or in a combat zone), radiation-free (making repeat scans safe), and relatively inexpensive (resulting in nearly universal availability). This paper reviews the literature supporting our hypothesis that an ultrasonographic index can assist in the diagnosis and management of concussion, and it also presents limited data regarding the initial use of this index in healthy controls.

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