The Relationship Between Linear Osteological and Radiographic Measurements of the Human Calcaneus and Talus.

Plain radiographs of the foot are a common form of examination in individuals when medical evaluation is indicated. Their availability makes them useful for studying human variation where large sample sizes are crucial. Calcaneal and talar morphology are critical in the understanding of human foot form and function, but few studies have examined the accuracy of linear measurements of these bones taken from radiographs. If linear measurements are to be used in quantitative analysis, their accuracy must first be demonstrated. For this study, 54 human feet from amputated limbs were imaged in standard radiographic views and skeletonized. Selected linear measurements were made on each skeletonized talus and calcaneus. Corresponding landmarks were identified on the radiographic images and the distances between these points determined. Using the measurements taken from the physical bone, the accuracy of the radiographic measurements was evaluated employing paired Student's t-tests and correlation analysis. Most measurements were not significantly different (P ≥ 0.05). Overall, the sagittal plane measurements were correlated (r2 > 0.61-0.88, all P < 0.001) with the radiographic measurements; transverse plane measurements less so (r2 = 0.20-0.63, P < 0.001). These results demonstrate that measurements from radiographic images provide useful information concerning both the calcaneus and talus, indicating that radiographs of living individuals can be evaluated quantitatively and compared to osteology collections of modern humans. This information can be applied to the understanding of functional anatomy of the modern human foot, interpreting the hominin fossil pedal record, and establishing identification in forensic analysis. Anat Rec, 2017. © 2017 Wiley Periodicals, Inc. Anat Rec, 301:21-33, 2018. © 2017 Wiley Periodicals, Inc.

Design and validation of a low cost, high-capacity weighing device for wheelchair users and bariatrics.

Accessible high-capacity weighing scales are scarce in healthcare facilities, in part due to high device cost and weight. This shortage impairs weight monitoring and health maintenance for people with disabilities and/or morbid obesity. We conducted this study to design and validate a lighter, lower cost, high-capacity accessible weighing device. A prototype featuring 360 kg (800 lbs) of weight capacity, a wheelchair-accessible ramp, and wireless data transmission was fabricated. Forty-five participants (20 standing, 20 manual wheelchair users, and five power wheelchair users) were weighed using the prototype and a calibrated scale. Participants were surveyed to assess perception of each weighing device and the weighing procedure. Weight measurements between devices demonstrated a strong linear correlation (R2 = 0.997) with absolute differences of 1.4 ± 2.0% (mean±SD). Participant preference ratings showed no difference between devices. The prototype weighed 11 kg (38%) less than the next lightest high-capacity commercial device found by author survey. The prototype's estimated commercial price range, $500-$600, is approximately half the price of the least expensive commercial device found by author survey. Such low cost weighing devices may improve access to weighing instrumentation, which may in turn help eliminate current health disparities. Future work is needed to determine the feasibility of market transition.

A rapid, valid and inexpensive assay for measuring epiphyseal plates in mouse tibia.

One of the most accurate indices of changes in somatic tissue growth rate in rodents is the width of tibial epiphyseal plates as unlike most mammals, rodent growth plates never ossify. Unfortunately, the original procedure to measure tibial epiphyseal plate width (TEPW) was developed for rats and yields poor results with mice. This paper demonstrates a simple method for silver staining growth plates that can be used to inexpensively and quickly measure the TEPW of mice. Poor visualization due to overstaining and the shattering of growth plates necessitated several revisions to the original protocol. These include exposing the growth plate prior to acetone dehydration, reducing the silver nitrate concentration from 2% to 1.5% and staining time from 2 min to 10 s and finally, the use of reflective light rather than transmissive light when imaging. The optimized protocol was then validated by generating an age-dependent TEPW growth curve that matched changes in tibia length. A total of 120 tibias were processed in a combined time of less than one day and for less than $30. By contrast, histological processing in the university's core facility would have cost $1440 and taken approximately three weeks. Thus, the revised protocol is vastly more cost effective, reliable and can be performed considerably quicker with minimal training.

Human capital, wealth, and nutrition in the Bolivian Amazon.

We analyze anthropometric variables of a society of forager-horticulturalists in the Bolivian Amazon (Tsimane') in 2001-2002. Community variables (e.g., inequality, social capital) explain little of the variance in anthropometric indices of nutritional status, but individual-level variables (schooling, wealth) are positively correlated with nutritional status. Dietary quality (foods high in animal proteins), access to foraging technology, and traditional knowledge of medicinal plants are related to better anthropometric indices.