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rious situations and patient-specific hemodynamic characteristics during CPR through in-depth research, such as patient-specific model and parameter optimization. Comparison of the hemodynamics with the existing model by simulating various conditions showed that the developed CPR model reflects the CPR physiology better. The model suggests that the hemodynamics may vary depending on the ventricle and atrium compression ratio. This study may provide an important basis for helping understand various situations and patient-specific hemodyn
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