We also examine the construct validity of the new CarerQol instrument measuring caregiver burden and general quality of life.
Caregivers of children born with CFM were identified through the Arkansas Reproductive Health Monitoring System. A mailed survey included the HUI3, the SF-6D, the QWB-SA to measure health-related quality of life; the CES-D measuring depressive symptoms as well as the SRB MK-2206 scale, and the CarerQol.
The HUI3, the SF-6D, and the QWB-SA were examined in relation to the CES-D the SRB, the CarerQol, and each other.
A total of 65 (63%) parents of children (a parts per thousand currency sign17 years) responded. The mean SF-6D, HUI3, and QWB-SA scores were 0.81 (SD = 0.13), 0.84 (SD = 0.23), and 0.67 (SD = 0.14), respectively. The mean CES-D score was 13.3 (SD = 13.4) and 28.6% of the sample met a threshold for depressive symptoms (CES-D a parts per thousand yen 16).
The mean CarerQol-VAS and SRB scores were 7.5 (SD = 2.3) and 15.1 (SD = 23.5), respectively. The Spearman correlations (rho) of the HUI3 and the SF-6D with the CES-D were similar (-0.81 and -0.76) while the rho was lower (-0.57) for the QWB-SA. Preference-weighted scores of caregivers with CES-D scores a parts per thousand yen 16 differed significantly for both the SF-6D and the HUI3, but not the QWB-SA. All three generic instruments showed moderate to strong relationships with the CarerQol.
The HUI3 and SF-6D were more sensitive predictors of depressive symptoms in this caregiver sample than was the QWB-SA. The CarerQol showed
LY2835219 inhibitor KPT-8602 good construct validity and may be useful for measuring well-being effects associated with caregiving.”
“Four-electrode techniques are used to minimize the effects of electrode polarization on measurements of the frequency-dependent impedance of conductive solutions. Basic circuit analysis confirms that an ideal Schwan-type four-electrode measurement can theoretically determine the polarization-free impedance of a sample. However, circuit analysis including parasitic effects indicates that the input impedance of the potential-sensing electrodes will be a significant influence on the measurement. This is verified in experiments on conductive solutions employing measurements of the gain and phase between potential-sensing electrodes in a four-electrode arrangement. The electrode impedance is varied by adding capacitors in parallel with the probes. The combined theory and experimental data indicate that parasitic capacitance of the potential-sensing electrodes is non-negligible and will alter the measured capacitance at all frequencies and even distort conductivity measurements at high-frequencies. This result has significant implications for the feasibility of broadband measurements of liquids based on four-electrode impedance methods. (C) 2009 American Institute of Physics. [DOI: 10.1063/1.