Connor Wathen scite author profile

*Deep tendon, plantar, Babinski reflexes if tele-examiner present Limitations of the telemedicine neurologic examination Comprehensive eye examination Cannot assess corneal reflex May be difficult to assess visual fields Neuromuscular examination Reflex testing may not be possible Difficult to fully assess peripheral strength and grade subtle strength differences between sides of the body Limited assessment of tone and rigidity May be hard to detect subtle signs of Parkinson's disease: in particular rigidity and retropulsion pull testing 44 Vestibular examination Cannot perform HINTs exam (Head Impulse, Nystagmus, Test-of-skew) for vestibular syndrome Cerebellar examination Cannot perform Dix-Hallpike test for cerebellar infarction FDA, Food and Drug Administration. *Elements of the examination that may be more difficult to perform.

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Antioxidant Enzymes Mediate Survival of Breast Cancer Cells Deprived of Extracellular Matrix

Davison

Durbin

Thau

et al. 2013

122

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Metastasis by cancer cells relies upon the acquisition of the ability to evade anoikis, a cell death process elicited by detachment from extracellular matrix (ECM). The molecular mechanisms that ECM-detached cancer cells use to survive are not understood. Striking increases in reactive oxygen species (ROS) occur in ECM-detached mammary epithelial cells, threatening cell viability by inhibiting ATP production, suggesting that ROS must be neutralized if cells are to survive ECM-detachment. Here, we report the discovery of a prominent role for antioxidant enzymes, including catalase and superoxide dismutase, in facilitating the survival of breast cancer cells after ECM-detachment. Enhanced expression of antioxidant enzymes in nonmalignant mammary epithelial cells detached from ECM resulted in ATP elevation and survival in the luminal space of mammary acini. Conversely, silencing antioxidant enzyme expression in multiple breast cancer cell lines caused ATP reduction and compromised anchorage-independent growth. Notably, antioxidant enzyme-deficient cancer cells were compromised in their ability to form tumors in mice. In aggregate, our results reveal a vital role for antioxidant enzyme activity in maintaining metabolic activity and anchorage-independent growth in breast cancer cells. Furthermore, these findings imply that eliminating antioxidant enzyme activity may be an effective strategy to enhance susceptibility to cell death in cancer cells that may otherwise survive ECM-detachment. Cancer Res; 73(12); 3704-15. Ó2013 AACR.

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In vivo X-Ray Computed Tomographic Imaging of Soft Tissue with Native, Intravenous, or Oral Contrast

Wathen

Foje

Avermaete

et al. 2013

Sensors

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X-ray Computed Tomography (CT) is one of the most commonly utilized anatomical imaging modalities for both research and clinical purposes. CT combines high-resolution, three-dimensional data with relatively fast acquisition to provide a solid platform for non-invasive human or specimen imaging. The primary limitation of CT is its inability to distinguish many soft tissues based on native contrast. While bone has high contrast within a CT image due to its material density from calcium phosphate, soft tissue is less dense and many are homogenous in density. This presents a challenge in distinguishing one type of soft tissue from another. A couple exceptions include the lungs as well as fat, both of which have unique densities owing to the presence of air or bulk hydrocarbons, respectively. In order to facilitate X-ray CT imaging of other structures, a range of contrast agents have been developed to selectively identify and visualize the anatomical properties of individual tissues. Most agents incorporate atoms like iodine, gold, or barium because of their ability to absorb X-rays, and thus impart contrast to a given organ system. Here we review the strategies available to visualize lung, fat, brain, kidney, liver, spleen, vasculature, gastrointestinal tract, and liver tissues of living mice using either innate contrast, or commercial injectable or ingestible agents with selective perfusion. Further, we demonstrate how each of these approaches will facilitate the non-invasive, longitudinal, in vivo imaging of pre-clinical disease models at each anatomical site.

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Lateral cerebellar nucleus stimulation promotes motor recovery and suppresses neuroinflammation in a fluid percussion injury rodent model

et al. 2018

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Connor Wathen

Global immune fingerprinting in glioblastoma patient peripheral blood reveals immune-suppression signatures associated with prognosis

Telemedicine in the Era of Coronavirus Disease 2019 (COVID-19): A Neurosurgical Perspective

Antioxidant Enzymes Mediate Survival of Breast Cancer Cells Deprived of Extracellular Matrix

In vivo X-Ray Computed Tomographic Imaging of Soft Tissue with Native, Intravenous, or Oral Contrast

Lateral cerebellar nucleus stimulation promotes motor recovery and suppresses neuroinflammation in a fluid percussion injury rodent model

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