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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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A frequency-dependent finite-difference time-domain formulation for induced current calculations in human beings (1992)

Gandhi, Om P. ; Gao, Ben-Qing ; Chen, Jin-Yuan

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

Bioelectromagnetics 13 (1992), S. 543-555

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ISSN: 0197-8462

Keywords: broadband irradiation ; short pulses ; tissue dispersion ; induced currents ; SARs ; Life and Medical Sciences ; Occupational Health and Environmental Toxicology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Physics

Notes: The finite-difference time-domain (FDTD) method has been used to calculate SARs and induced currents involving whole-body or partial-body exposures of models to spatially uniform or nonuniform (far-field or near-field), to sinusoidally varying EM fields, or to transient fields such as those associated with electromagnetic pulses. However, a weakness of the FDTD algorithm is that the dispersion of the tissue's dielectric properties is ignored and frequency-independent properties are assumed. Although this is permissible for continuous-wave or narrow-band irradiation, the results may be highly erroneous for short pulses, in which ultra-wide bandwidths are involved. In some recent publications, procedures are described for one- and two-dimensional problems for media in which the complex permittivity ∊ * (ω) may be described by a single-order Debye relaxation equation or a modified version thereof. These procedures based on a convolution integral describing D(t) in terms of E(t) cannot be extended to human tissues for which multiterm Debye relaxation equations must generally be used.We describe here a new differential-equation approach that can be used for general dispersive media. We illustrate the use of this approach by one- and three-dimensional examples of media for which ∊ * (ω) is given by a multiterm Debye equation, and for an approximate two-thirds muscle-equivalent model of the human body. Based on a single run involving a Gaussian pulse, the frequency-dependent FDTD [(FD)2TD] method allows calculations of SARs and induced currents at various frequencies by taking the Fourier components of the induced E fields. The (FD)2TD method can also be used to calculate coupling of the short (ultra-wideband) pulses to the human body. 1992 Wiley-Liss, Inc.

Additional Material: 8 Ill.