Nathan Davidson scite author profile

Ion channel function is fundamental to the existence of life. In metazoans, the coordinate activities of voltagegated Na + channels underlie cellular excitability and control neuronal communication, cardiac excitationcontraction coupling, and skeletal muscle function. However, despite decades of research and linkage of Na + channel dysfunction with arrhythmia, epilepsy, and myotonia, little progress has been made toward understanding the fundamental processes that regulate this family of proteins. Here, we have identified β IV -spectrin as a multifunctional regulatory platform for Na + channels in mice. We found that β IV -spectrin targeted critical structural and regulatory proteins to excitable membranes in the heart and brain. Animal models harboring mutant β IV -spectrin alleles displayed aberrant cellular excitability and whole animal physiology. Moreover, we identified a regulatory mechanism for Na + channels, via direct phosphorylation by β IV -spectrin-targeted calcium/calmodulin-dependent kinase II (CaMKII). Collectively, our data define an unexpected but indispensable molecular platform that determines membrane excitability in the mouse heart and brain.

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Imaging in syndesmotic injury: a systematic literature review

Krähenbühl

Weinberg

Davidson

et al. 2017

Skeletal Radiol

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Conventional radiographs cannot predict syndesmotic injuries reliably. CT scans outperform plain radiographs in detecting syndesmotic mal-reduction. Additionally, the syndesmotic interval can be assessed in greater detail by CT. MRI measurements achieve a sensitivity and specificity of nearly 100%; however, correlating MRI findings with patients' complaints is difficult, and utility with subtle syndesmotic instability needs further investigation. Overall, the methodological quality of these studies was satisfactory.

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Impact of Torque on Assessment of Syndesmotic Injuries Using Weightbearing Computed Tomography Scans

et al. 2019

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Background: The diagnosis of subtle injuries to the distal tibiofibular syndesmosis remains elusive. Conventional radiographs miss a large subset of injuries that present without frank diastasis. This study evaluated the impact of torque application on the assessment of syndesmotic injuries when using weightbearing computed tomography (CT) scans. Methods: Seven pairs of male cadavers (tibia plateau to toe-tip) were included. CT scans with axial load application (85 kg) and with (10 Nm) or without torque to the tibia (corresponding to external rotation of the foot and ankle) were taken during 4 test conditions. First, intact ankles (native) were scanned. Second, 1 specimen from each pair underwent anterior inferior tibiofibular ligament (AITFL) transection (condition 1A), while the contralateral underwent deltoid transection (condition 1B). Third, the lesions were reversed on the same specimens and the remaining intact deltoid or AITFL was transected (condition 2). Finally, the distal tibiofibular interosseous membrane (IOM) was transected in all ankles (condition 3). Measurements were performed to assess the integrity of the distal tibiofibular syndesmosis on digitally reconstructed radiographs (DRRs) and on axial CT scans. Results: Torque impacted DRR and axial CT scan measurements in almost all conditions. The ability to diagnose syndesmotic injuries using axial CT measurements improved when torque was applied. No significant syndesmotic morphological change was observed with or without torque for either isolated AITFL or deltoid ligament transection. Discussion: Torque application had a notable impact on two-dimensional (2-D) measurements used to diagnose syndesmotic injuries for both DRRs and axial CT scans. Because weightbearing conditions allow for standardized positioning of the foot while radiographs or CT scans are taken, the combination of axial load and torque application may be desirable. Clinical Relevance: Application of torque to the tibia impacts 2-D measurements and may be useful when diagnosing syndesmotic injuries by DRRs or axial CT images.

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Currently used imaging options cannot accurately predict subtalar joint instability

Krähenbühl

Weinberg

Davidson

et al. 2018

Knee Surg Sports Traumatol Arthrosc

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Purpose To give a systematic overview of current diagnostic imaging options and surgical treatment for chronic subtalar joint instability. Methods A systematic literature search across the following sources was performed: PubMed, ScienceDirect, and Springer-Link. Twenty-three imaging studies and 19 outcome studies were included. The Quality Assessment of Diagnostic Accuracy Studies 2 (QUADAS 2) tool was used to assess the methodologic quality of the imaging articles, while the modified Coleman Score was used to assess the methodologic quality of the outcome studies. Results Conventional radiographs were most frequently used to assess chronic subtalar joint instability. Talar tilt, anterior talar translation, and subtalar tilt were the three most commonly used measurement methods. Surgery often included calcaneofibular ligament reconstruction. Conclusion Current imaging options do not reliably predict subtalar joint instability. Distinction between chronic lateral ankle instability and subtalar joint instability remains challenging. Recognition of subtalar joint instability as an identifiable and treatable cause of ankle pain requires vigilant clinical investigation.

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Biomechanical Comparison of Syndesmotic Repair Techniques During External Rotation Stress

et al. 2018

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Nathan Davidson

A βIV-spectrin/CaMKII signaling complex is essential for membrane excitability in mice

Imaging in syndesmotic injury: a systematic literature review

Impact of Torque on Assessment of Syndesmotic Injuries Using Weightbearing Computed Tomography Scans

Currently used imaging options cannot accurately predict subtalar joint instability

Biomechanical Comparison of Syndesmotic Repair Techniques During External Rotation Stress

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