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The Impact of the Prospective Payment System on the Technical Efficiency of Hospitals (2000)

Chern, Jin-Yuan ; Wan, Thomas T. H.

Springer

Journal of medical systems 24 (2000), S. 159-172

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ISSN: 1573-689X

Keywords: prospective payment system ; technical efficiency ; DEA analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In a longitudinal panel study design, 80 hospitals in Virginia were selected for analysis to test the hypothesis that the introduction of the prospective payment system (PPS) in October 1983 had helped hospitals enhance their operational performance in technical efficiency. A non-parametric method called Data Envelopment Analysis (DEA) was used to calculate and compare the efficiency scores for each peer group of hospitals (by bed size) between the year 1984 and the year 1993. Contrary to expectations, no significant difference in technical efficiency was found in each hospital peer group over the study period. Nevertheless, the case study demonstrates that if hospital managers use this analytical tool appropriately, they may spot where any organizational weakness lies and how they can improve it.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005542324990

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Numerical dosimetry at power-line frequencies using anatomically based models (1992)

Gandhi, Om P. ; Chen, Jin-Yuan

New York, NY [u.a.] : Wiley-Blackwell

Bioelectromagnetics 13 (1992), S. 43-60

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ISSN: 0197-8462

Keywords: scaled frequency FDTD method ; induced current densities ; pure electric or magnetic fields ; combined electric and magnetic fields ; Life and Medical Sciences ; Occupational Health and Environmental Toxicology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Physics

Notes: We have used the finite-difference time-domain (FDTD) method to calculate induced current densities in a 1.31-cm (nominal 1/2 in) resolution anatomically based model of the human body for exposure to purely electric, purely magnetic, and combined electric and magnetic fields at 60 Hz. This model based on anatomic sectional diagrams consists of 45,024 cubic cells of dimension 1.31 cm for which the volume-averaged tissue properties are prescribed. It is recognized that the conductivities of several tissues (skeletal muscle, bone, etc.) are highly anisotropic for power-line frequencies. This has, however, been neglected in the first instance and will be included in future calculations. Because of the quasi-static nature of coupling at the power-line frequencies, a higher quasi-static frequency f′ may be used for irradiation of the model, and the internal fields E′ thus calculated can be scaled back to the frequency of interest, e.g., 60 Hz. Since in the FDTD method one needs to calculate in the time domain until convergence is obtained (typically 3-4 time periods), this frequency scaling to 5-10 MHz for f′ reduces the needed number of iterations by over 5 orders of magnitude. The data calculated for the induced current and its variation as a function of height are in excellent agreement with the data published in the literature. The average current densities calculated for the various sections of the body for the magnetic field component (H) are considerably smaller (by a factor of 20-50) than those due to the vertically polarized electric field component when the ratio E/H is 377 ohms. We have also used the previously described impedance method to calculate the induced current densities for the anatomically based model of the human body for the various orientations of the time-varying magnetic fields, namely from side to side, front to back, or from top to bottom of the model, respectively. 1992 Wiley-Liss, Inc.

Additional Material: 8 Ill.