Risk Factors for Obesity and High Blood Pressure in Chinese American Children: Maternal Acculturation and Children’s Food Choices

The objective of this study is to explore risk factors associated with overweight and high blood pressure in Chinese American children. Students and their parents were recruited from Chinese language schools in the San Francisco Bay Area. Data were collected on 67 children and their mothers, and included children’s weight, height, waist and hip circumferences, blood pressure, level of physical activity, dietary intake, usual food choice, knowledge about nutrition and physical activity, and self-efficacy regarding diet and physical activity. Mothers completed questionnaires on demographic data and acculturation. About 46% of children had a body mass index exceeding the 85th percentile. Lower level of maternal acculturation is a risk factor for overweight and higher waist to hip ratio. Children’s unhealthy food choices were predictive of high body mass index and high systolic blood pressure, whereas older age and less physical activity in children were predictors of high diastolic blood pressure. Developing culturally sensitive and developmentally appropriate interventions to reduce overweight and high blood pressure is critical to reduce health disparities among minority children

An ex vivo exothermal and mechanical evaluation of two-solution bone cements in vertebroplasty.

BACKGROUND CONTEXT: Previous ex vivo studies showed that the properties of commercial cements modified for use in vertebroplasty are not optimal and are associated with several drawbacks, including high exothermic reaction, low cement viscosity and consequent extravasation, and unpredictable wait time after cement preparation. Additionally, strength and stiffness restoration are controversial varying with the cement type, volume injected, and technique used. PURPOSE: To investigate maximum polymerization temperatures and mechanical performance of novel two-solution bone cement (TSBC) modified by the addition of cross-linked poly(methyl methacrylate) nanospheres (η-TSBC) and microspheres (μ-TSBC) in a cadaver vertebroplasty model in comparison to a commercially available cement (KyphX). To study the viability of application of these novel cement formulations in the treatment of vertebral compression fractures. STUDY DESIGN/SETTING: Ex vivo biomechanical and exothermal evaluation of TSBCs using cadaveric vertebral bodies (VBs). METHODS: Thirty-one cadaveric vertebrae (age, 74±2 years; T score, -1.5±0.5) were disarticulated. Thirteen vertebrae were assigned into three groups and instrumented with thermocouples positioned midbody along the intersection of the midsagittal and midcoronal axes, as well as along the intersection of the midsagittal axis and posterior VB wall. After equilibration at 37°C, 5 mL of cement was injected and temperatures were recorded for 1 hour. The groups were injected with η-TSBC, μ-TSBC, or KyphX. The remaining 18 vertebrae were biomechanically tested. After randomization into three groups, each specimen was fractured in compression and stabilized with 5 mL of each cement type. Each specimen was then retested in axial compression. RESULTS: Temperatures in the central region of the vertebrae were significantly lower (p.05) of the three groups. There was no significant difference between the average values of stiffness among the cements (p\u3e.05), however there was a significant difference between intact and treated stiffness (p\u3c.05). CONCLUSIONS: The TSBC cements decreased the local temperature within the VB while providing similar mechanical strength when compared with vertebrae treated with KyphX