Standardized Modeling and Simulation of Hospital … Standardized Modeling and Simulation of...
Transcript of Standardized Modeling and Simulation of Hospital … Standardized Modeling and Simulation of...
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Standardized Modeling and Simulation of Hospital Processes
– Optimization of Cancer Treatment Center
Horst Salzwedel, Frank Richter, Matthias KühnTechnical University of Ilmenau
[email protected]’07, San Diego, January 15th, 2007
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The challenge for German hospitals
Health care costs in Germany have been growing exponentially and are among the highest in Europe
% of GNP Billions of Euro
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The challenge for German hospitals
In 2004 a new reimbursement policy has been introduced by the German government, that pay hospitals based on Diagnosis Related Groups (DRGs)
The profit of a hospital is now
Profit = (DRGPayment – CostOfCare)*NumberOfPatients
=> Profit is maximized if
- CostOfCare is minimized and
- NumberOfPatients is maximized
=> Cost, which do not effect quality of treatment, has to be minimized
=> Attractiveness of a hospitals, i.e., quality of treatment and other image related items have to be maximized
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Goal of this research
The goal of this research is to model, simulate, and optimize hospital processes and to provide a basis for comparison with processes in competing hospitals. Analyzed and optimized are
- patient waiting time
- allocation of hospital resources
- server shared resources like physicians and nurses
- quantity shared resources like facilities and equipment
- redundancy in information collected for treatment
- patient and health care personal walking time
Constraints: - quality of treatment is not to be reduced
- solution must be attractive, in order to be implemented
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Methodology for modeling, optimization and verification
Tool selection
Development of standardized library of guideline recommended treatment processes
Development an validation of existing process for the case of a cancer treatment center- Data collection- Model development with building blocks from developed standardized
library- Verification of model and library components
Optimization of process
Implementation of optimized process
Comparison of implemented process with simulation result
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Tool selection
Specification of tool requirements- Execute workflow simulation models and permit optimization of architecture
and function- Existence of quantity and server resource models- Existence of hospital process models- Routing optimization and animation- Must be completely validated- Must have hierarchical GUI based modeling environment- Must support distributed Monte Carlo simulation to be able to rapidly
analyze the statistical nature of hospital process data
We presented the requirements to vendors of business and hospital simulation vendors: ARIS, MedModel, ProcessSimulator, Mosaik-M. None came close of meeting the requirements and also could not present a pass for timely update of their tools to meet these requirements
We decided to use MLDesigner (developed for simulation of networked technical systems), which met all the simulation requirements + develop a new library for modeling and animation hospital processes
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Development of library of standardized building blocks for clinical process simulation
Library development- Development of master clinical process model- Development of reference models according to master model- Instantiation for specific organization
Master Model
Reference Model
Organization Specific Model
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Master Model
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Example: PTCA (coronary angioplasty)
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MLDesigner hospital library: Extract
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Library block: Outpatient admission
incoming port outgoing port
outgoing ports
patient data (memory)nurses (resources)
reception area examination
dequeue
queue
collectpatient data
transport patient to
point of care
ascertainmedical history
physicalexamination
of patient …
definetemporarytreatment
incoming port
outgoing ports
patient data (memory) dequeue
queue
collectpatient data
save timestampat begin
…
outgoing port
nurses (resources)
reception area
allocatenurse
generateduration
releasenurse
save timestampat end
transport patient to point of care
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Library block: Preparation for taking blood samples
incoming port
outgoing portpatient data (memory)
laboratory
dequeuequeue
transportblood sample
outgoing ports
nurses (resources)
admission prepare takinga blood sample
take a blood
sample
outgoing port
incoming port
outgoing portpatient data (memory)
take a blood sample
queue
prepare takinga blood sample
save timestampat begin
…
outgoing port
nurses (resources)
admission allocatenurse
generateduration
releasenurse
save timestamp
at end
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Deployment of resources
For analyzing the deloyment of resources, standard quantity and server resources were used
Example: Resource deployment of physicians
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Optimization of Cancer Treatment Center
(1) Analysis of organization and existing process
Analysis of existing data
Peparation of questionare- Arrival time of patients- Start and end time of patient admission- Start end end time of aking blood samples- Start and end time of examination by physician- Time for placing rder for chemotherapies in the hospital internal pharmacy- Start and end time of chemotherapy- Time of patient discharge- Utilization of beds and hospital staff
Training of hospital personal for taking data
Taking data for 55 days
Validation of data
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Preparation of floor plan for routing/path optimization and animation
- Path optimization with modified Dijkstra algorithm (developed for path optimization of thru multiple satellite comm systems)- Animation with info from computed routing table
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Level 2 Model of Cancer Center
waitingroom
examination
therapy
doctors
nurses
discharge
admissioncomputertomographie
electrocardiographie
ultrasound
laboratory
pharmacy
patient data (memory)
nurses (resources)
doctors (resources)(statistic reporting)
(statistic reporting)
incoming portsoutgoing ports
laboratory
pharmacy
electrocardiographie
computertomographie
ultrasound
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Number of scheduled patients
# of Week
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Validation of existing process
- Development of model from 14 days of data- Validation with 55 days of data
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Path Optimization and animation
Path optimization with modified Dijkstra algorithm
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Process Optimization of Cancer Treatment Centerwith genetic algorithm
Before Optimization
After Optimization
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Chart of utilization of therapy beds (result of as-is simulation):• Late start of first therapy compared to opening hours of cancer treatment center• Peak of utilization around noon
Chart of utilization of therapy beds (result of to-be simulation after optimization of sequence planning of scheduled patients):• Partially earlier start of first therapy• Finish of last therapy significantly sooner than in the as-is simulation model
Chart of utilization of therapy beds (results of to-be simulation model after optimization of sequence planning of scheduled patients as well as optimization of blood taking process):• Earlier start of first therapy on simulated every day• Start of first therapy significantly sooner than in the as-is simulation model• Finish of last therapy significantly sooner than in the as-is simulation model
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Optimization step 2: Optimization of the sequence planning of scheduled patients
in %Avg. reduction of waiting
time (in minutes)
Average reduction of waiting time in the optimized model compared to the as-is model (after implementation of step 1 and 2) 34% -54
In the optimized model, patients who will receice a chemotherapy will be schedued as the first group of patients. As a second group, patients who will only be examined by a doctor and will not get a chemotherapy, are being scheduled.
Optimization step 3: For selected patients, blood samples will be taken the day before their treatment with chemotherapy
in %Avg. reduction of waiting
time (in minutes)
Average reduction of waiting time in the optimized model compared to the as-is model (after implementation of step 1, 2 and 3) 44% -69
For selected patients, blood samples will be taken the day before treatment. This enables the cancer center to receive results from the laboratory the day before treatment and to also order the chemotherapy from the hospital pharmacy the day before treatment. Those patients can then receive their chemotherapy right after their admission in the cancer center, since they don't need to wait for any blood results.
Optimization step 1: Elimination of a redundand process step
in % Amount / Time
Average number of patients per day 34
Average number of patients who needed to get a 15% 5,10
Average time to apply a venous access (in minutes) 10
Average time savings per day 51
In the past, patients who needed to get a computertomography, became a venous access (canula/needle) in the treatment center (for taking blood samples) as well as in the radiology department (for application of radiopaque material). In the optimized simulation modell, this group of patients get only one venous access directly in the radiology department. This access will then also be used in the treatment center for taking blood samples. This saves time and increases the quaility of treatment by only puncturing those patients one time instead of two times in a row.
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Summary and Outlook
A library of standard building blocks was developed for modeling, simulation and optimization of hospital processes
The process of a cancer treatment center was modeled, analyzed, and optimized within 6 weeks
Large reductions in cumulative patient treatment times could be realized
The results convinced the hospital to implement the new process immediately
The predicted improvements were fully realized
Current research is optimizing other departments of the hospital. Multi departmental optimization is being developed
A new research program was started for optimization of hospital processes within the State of Thuringia
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Questions?
Universities get free licenses for software system MLDesigner.
Requests to http://www.mldesigner.com