Publication

Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands

Ramwadhdoebe, S., Van Merode, G. G., Boere-Boonekamp, M. M., Sakkers, R. J. B. & Buskens, E., 23-Mar-2010, In : BMC Health Services Research. 10, 9 p., 75.

Research output: Contribution to journalArticleAcademicpeer-review

APA

Ramwadhdoebe, S., Van Merode, G. G., Boere-Boonekamp, M. M., Sakkers, R. J. B., & Buskens, E. (2010). Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands. BMC Health Services Research, 10, [75]. https://doi.org/10.1186/1472-6963-10-75

Author

Ramwadhdoebe, Sabrina ; Van Merode, Godefridus G. ; Boere-Boonekamp, Magda M. ; Sakkers, Ralph J. B. ; Buskens, Erik. / Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands. In: BMC Health Services Research. 2010 ; Vol. 10.

Harvard

Ramwadhdoebe, S, Van Merode, GG, Boere-Boonekamp, MM, Sakkers, RJB & Buskens, E 2010, 'Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands', BMC Health Services Research, vol. 10, 75. https://doi.org/10.1186/1472-6963-10-75

Standard

Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands. / Ramwadhdoebe, Sabrina; Van Merode, Godefridus G.; Boere-Boonekamp, Magda M.; Sakkers, Ralph J. B.; Buskens, Erik.

In: BMC Health Services Research, Vol. 10, 75, 23.03.2010.

Research output: Contribution to journalArticleAcademicpeer-review

Vancouver

Ramwadhdoebe S, Van Merode GG, Boere-Boonekamp MM, Sakkers RJB, Buskens E. Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands. BMC Health Services Research. 2010 Mar 23;10. 75. https://doi.org/10.1186/1472-6963-10-75


BibTeX

@article{211793258c1b46999daffe2e491847db,
title = "Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands",
abstract = "Background: Implementation of medical interventions may vary with organization and available capacity. The influence of this source of variability on the cost-effectiveness can be evaluated by computer simulation following a carefully designed experimental design. We used this approach as part of a national implementation study of ultrasonographic infant screening for developmental dysplasia of the hip (DDH).Methods: First, workflow and performance of the current screening program (physical examination) was analyzed. Then, experimental variables, i.e., relevant entities in the workflow of screening, were defined with varying levels to describe alternative implementation models. To determine the relevant levels literature and interviews among professional stakeholders are used. Finally, cost-effectiveness ratios (inclusive of sensitivity analyses) for the range of implementation scenarios were calculated.Results: The four experimental variables for implementation were: 1) location of the consultation, 2) integrated with regular consultation or not, 3) number of ultrasound machines and 4) discipline of the screener. With respective numbers of levels of 3,2,3,4 in total 72 possible scenarios were identified. In our model experimental variables related to the number of available ultrasound machines and the necessity of an extra consultation influenced the cost-effectiveness most.Conclusions: Better information comes available for choosing optimised implementation strategies where organizational and capacity variables are important using the combination of simulation models and an experimental design. Information to determine the levels of experimental variables can be extracted from the literature or directly from experts.",
keywords = "DEVELOPMENTAL DYSPLASIA, INFANTS",
author = "Sabrina Ramwadhdoebe and {Van Merode}, {Godefridus G.} and Boere-Boonekamp, {Magda M.} and Sakkers, {Ralph J. B.} and Erik Buskens",
year = "2010",
month = "3",
day = "23",
doi = "10.1186/1472-6963-10-75",
language = "English",
volume = "10",
journal = "BMC Health Services Research",
issn = "1472-6963",
publisher = "BioMed Central Ltd.",

}

RIS

TY - JOUR

T1 - Implementation by simulation; strategies for ultrasound screening for hip dysplasia in the Netherlands

AU - Ramwadhdoebe, Sabrina

AU - Van Merode, Godefridus G.

AU - Boere-Boonekamp, Magda M.

AU - Sakkers, Ralph J. B.

AU - Buskens, Erik

PY - 2010/3/23

Y1 - 2010/3/23

N2 - Background: Implementation of medical interventions may vary with organization and available capacity. The influence of this source of variability on the cost-effectiveness can be evaluated by computer simulation following a carefully designed experimental design. We used this approach as part of a national implementation study of ultrasonographic infant screening for developmental dysplasia of the hip (DDH).Methods: First, workflow and performance of the current screening program (physical examination) was analyzed. Then, experimental variables, i.e., relevant entities in the workflow of screening, were defined with varying levels to describe alternative implementation models. To determine the relevant levels literature and interviews among professional stakeholders are used. Finally, cost-effectiveness ratios (inclusive of sensitivity analyses) for the range of implementation scenarios were calculated.Results: The four experimental variables for implementation were: 1) location of the consultation, 2) integrated with regular consultation or not, 3) number of ultrasound machines and 4) discipline of the screener. With respective numbers of levels of 3,2,3,4 in total 72 possible scenarios were identified. In our model experimental variables related to the number of available ultrasound machines and the necessity of an extra consultation influenced the cost-effectiveness most.Conclusions: Better information comes available for choosing optimised implementation strategies where organizational and capacity variables are important using the combination of simulation models and an experimental design. Information to determine the levels of experimental variables can be extracted from the literature or directly from experts.

AB - Background: Implementation of medical interventions may vary with organization and available capacity. The influence of this source of variability on the cost-effectiveness can be evaluated by computer simulation following a carefully designed experimental design. We used this approach as part of a national implementation study of ultrasonographic infant screening for developmental dysplasia of the hip (DDH).Methods: First, workflow and performance of the current screening program (physical examination) was analyzed. Then, experimental variables, i.e., relevant entities in the workflow of screening, were defined with varying levels to describe alternative implementation models. To determine the relevant levels literature and interviews among professional stakeholders are used. Finally, cost-effectiveness ratios (inclusive of sensitivity analyses) for the range of implementation scenarios were calculated.Results: The four experimental variables for implementation were: 1) location of the consultation, 2) integrated with regular consultation or not, 3) number of ultrasound machines and 4) discipline of the screener. With respective numbers of levels of 3,2,3,4 in total 72 possible scenarios were identified. In our model experimental variables related to the number of available ultrasound machines and the necessity of an extra consultation influenced the cost-effectiveness most.Conclusions: Better information comes available for choosing optimised implementation strategies where organizational and capacity variables are important using the combination of simulation models and an experimental design. Information to determine the levels of experimental variables can be extracted from the literature or directly from experts.

KW - DEVELOPMENTAL DYSPLASIA

KW - INFANTS

U2 - 10.1186/1472-6963-10-75

DO - 10.1186/1472-6963-10-75

M3 - Article

VL - 10

JO - BMC Health Services Research

JF - BMC Health Services Research

SN - 1472-6963

M1 - 75

ER -

ID: 5063123