Knowledge and Utilization of Sex-Specific Lead Aprons Among Pediatric Orthopaedic Surgeons.

Background: Orthopaedic surgeons routinely face exposure to ionizing radiation during intraoperative use of fluoroscopy. Lead personal protective equipment reduces occupational radiation exposure. Female-specific lead aprons are designed with expanded lateral coverage to improve protection of breast tissue against radiation beams.

Influence of Thyroglobulin Autoantibodies on Thyroglobulin Levels Measured by Different Methodologies: IMA, LC-MS/MS, and RIA.

Context: Serum thyroglobulin (Tg) measured by immunometric assay (IMA) is prone to underestimation due to Tg autoantibody (TgAb) interference, often prompting reflex Tg measurement by liquid chromatography/tandem mass spectrometry (MS) or radioimmunoassay (RIA).

Objective: IMA, MS, and RIA methodologies were used to measure serum Tg in TgAb-negative (TgAb-) and TgAb-positive (TgAb+) patients with either distant metastatic differentiated thyroid cancer (DTC) or hyperthyroidism (HY)-patients in whom a detectable serum Tg would be expected.

Results: When TgAb was absent, all methodologies detected Tg in the sera of all DTC and HY patients and reported appropriate Tg trends and treatment responses for DTC patients with progressive distant metastatic disease, albeit with high between-method variability (> 30% coefficient of variability).

Cultural Responsivity in Technology-Enabled Services: Integrating Culture Into Technology and Service Components.

Technology-enabled services (TESs) are clinical interventions that combine technological and human components to provide health services. TESs for mental health are efficacious in the treatment of anxiety and depression and are currently being offered as frontline treatments around the world. It is hoped that these interventions will be able to reach diverse populations across a range of identities and ultimately decrease disparities in mental health treatment.

Thermal boundary layer limitations on the performance of micromachined microphones.

This work examines the extent to which thermal boundary layer effects limit the performance of micromachined microphones. The acoustic impedance of the cavity formed by the microphone enclosure is calculated using both analytical and finite-element methods. A thermal correction to the cavity impedance is included to account for the transition of compression and expansion within the enclosure from adiabatic to isothermal when the thermal boundary layer that forms at the walls of the enclosure becomes large compared to the enclosure dimensions.