The Ankle Arthrodesis Compensation data repository is a collection of foot and ankle 3D clinical computed tomography (CT) images (.nii), associated surface files of the tibia-talus fused construct, distal tibia, talus, and calcaneus (.k and .stl), and rigid body transforms (.txt). CT images and rigid body transforms were collected directly from participants for both the treated (AD) and untreated (NonAD) limbs. Landmarks were derived from surface models, which were generated from CT scans. For a detailed description of participant selection, data collection, and data processing methods, please refer to https://doi.org/10.2106/JBJS.19.01132
This dataset includes electrical resistivity data collected along the south shore of the Great Salt Lake to go along with the publication, "Characterization of hydrogeologic and lithologic heterogeneity along the southern shore of the Great Salt Lake, Utah, from electrical methods."
Librarian tracked all Read and Publish support activities between March 2025 through August 2025, assigning each activity to a category (Author Support, Publisher Coordination, data Management, Communication and Training, Systems and Internal Workflow) and recording time spent on each activity. The purpose of the study is to better understand the infrastructure, expertise, and library staff time needed to support institutional Read and Publish agreements.
This dataset contains measurements of airborne particle concentrations and environmental conditions collected in clinical settings, including dental clinics and hospitals. Data were recorded using a GRIMM 1.109 (Grimm Technologies, Inc., Douglasville, GA, USA) aerosol spectrometer and TSI Q-Trak Indoor Air Quality (IAQ) Monitor (TSI Incorporated, Shoreview, MN, USA) (Appendix E) to assess indoor air quality and bioaerosol exposure. This dataset can be used to evaluate indoor air quality, particle exposure levels, and environmental conditions in healthcare environments.
The Cam FAIS Biomechanics data repository is a collection of hip 3D clinical computed tomography (CT) images (.nii), associated surface files of the proximal femur and ipsilateral hemipelvis (.k), and rigid body transforms (.txt). These datasets were collected for two different groups denoted by their group identifiers (Cam and Norm). For a detailed description of participant selection, data collection, and data processing methods, please refer to https://doi.org/10.1002/jor.24509.
The Femur Statistical Shape Model data repository is a collection of hip 3D clinical computed tomography (CT) or magnetic resonance imaging (MRI) images (.nii.gz), associated surface files of the proximal femur (.vtk), and ShapeWorks project file (.xlsx) with related subject-specific correspondence models (.particles), groomed surface files (.vtk) and cutting planes (.json). These datasets were collected separately and under different conditions, so each of the datasets are separated into different groups denoted by their group identifiers (dod, fai, ihc, nih, and P). For a detailed description of participant selection, data collection, and data processing methods, please refer to https://doi.org/10.1177/23259671241309604. and See README file for data retrieval instructions.
This dataset provides measured maximum dynamic modulus (E_max*) values for eleven asphalt mixtures using Bending Beam Rheometer (BBR) tests at low temperatures (0°C to –24°C). It includes binder properties, RAP content, and volumetric parameters, with results compared to Hirsch model predictions. The dataset supports more accurate mechanistic-empirical pavement design, particularly for predicting fatigue, rutting, and thermal cracking.
This dataset contains extracellular neurophysiological recordings from long interval neurons in the midbrain of Pseudacris feriarum frogs collected from sympatric and allopatric populations (Alabama, Georgia, South Carolina). Frogs were presented with synthetic acoustic stimuli varying in pulse rate (5–70 pulses/s) to assess pulse rate selectivity. Data include neuronal responses to acoustic stimuli.
This dataset evaluates geologic trends in and controls on rare earth element (REE)-enrichment of coal in eastern Utah. 1945 bituminous coal samples from 68 mine, core, and outcrop localities from the Blackhawk Formation (n = 378) and Ferron Sandstone (n = 1567) in eastern Utah were geochemically evaluated using portable X-ray fluorescence (n = 1945) and inductively coupled plasma-mass spectrometry (n = 100) to quantify REE content. Using coal as a secondary REE source could bolster global REE production, leveraging existing coal infrastructure to alleviate CM supply chain bottlenecks and couple traditional coal geology with the innovative resource needs of the future.
