The purpose of this study was to describe nurse burnout, job satisfaction, and intention to leave, and to explore the relationship of work environment to nurse outcomes in a sample of 9,698 nurses from 181 hospitals in China. Nurses reported moderate levels of emotional exhaustion and depersonalization, and high levels of reduced personal accomplishment. Nearly one fifth of the nurses reported high levels of burnout on all three dimensions. Forty-five percent of the nurses were dissatisfied with their current job; these nurses were most dissatisfied with their salary. Five percent of nurses reported intention to leave. Nurses reporting mixed and good work environments were less likely to report high burnout, job dissatisfaction, and intention to leave compared with those in poor work environments. The results suggest that high burnout and low job satisfaction are prominent problems for Chinese nurses, and improving work environment might be an effective strategy for better nurse outcomes in Chinese hospitals.
Quartz-enhanced photoacoustic spectroscopy (QEPAS) is a sensitive gas detection technique which requires frequent calibration and has a long response time. Here we report beat frequency (BF) QEPAS that can be used for ultra-sensitive calibration-free trace-gas detection and fast spectral scan applications. The resonance frequency and Q-factor of the quartz tuning fork (QTF) as well as the trace-gas concentration can be obtained simultaneously by detecting the beat frequency signal generated when the transient response signal of the QTF is demodulated at its non-resonance frequency. Hence, BF-QEPAS avoids a calibration process and permits continuous monitoring of a targeted trace gas. Three semiconductor lasers were selected as the excitation source to verify the performance of the BF-QEPAS technique. The BF-QEPAS method is capable of measuring lower trace-gas concentration levels with shorter averaging times as compared to conventional PAS and QEPAS techniques and determines the electrical QTF parameters precisely.
We recommend that the nurse-to-patient ratio on medical and surgical units in Chinese hospitals be increased to at least 0.5-0.6 so as to secure patient safety and the quality of health services.
A quartz enhanced photoacoustic spectroscopy (QEPAS) sensor, employing an erbium-doped fiber amplified laser source and a custom quartz tuning fork (QTF) with its two prongs spaced $800 lm apart, is reported. The sensor employs an acoustic micro-resonator (AmR) which is assembled in an "on-beam" QEPAS configuration. Both length and vertical position of the AmR are optimized in terms of signal-to-noise ratio, significantly improving the QEPAS detection sensitivity by a factor of $40, compared to the case of a sensor using a bare custom QTF. The fiber-amplifier-enhanced QEPAS sensor is applied to H 2 S trace gas detection, reaching a sensitivity of $890 ppb at 1 s integration time, similar to those obtained with a power-enhanced QEPAS sensor equipped with a standard QTF, but with the advantages of easy optical alignment, simple installation, and long-term stability.
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