Reference no: EM132245589
Problem description:
In the Capital Health System, the Nuclear Medicine Department and the Heart Station work together to provide the service of nuclear stress testing. Nuclear stress testing evaluates the patient for coronary artery disease through a combination of myocardial perfusion imaging scans and treadmill or pharmacologic stress testing. Nuclear Medicine’s role in nuclear stress testing is to prepare all patients (both inpatients and outpatients) for undergoing the procedure, to prepare all radioactive doses utilized for imaging, to inject all patients with radioactive doses, and to image all patients undergoing nuclear stress testing.
Currently, Nuclear Medicine utilizes two gamma cameras for nuclear stress imaging. The department operates 24 hours a day, 7 days a week. On any given day, bottlenecks can occur on the gamma cameras due to high volumes of inpatients and/or ER chest pain patients. Inpatients and ER patients are unlimited and variable on any given day for both Nuclear Medicine gamma cameras. Arrival and service rates were collected on all patients served during regular operating hours for a one-week period. Patient arrival rate per gamma camera is estimated at 2.9 per hour. Patient service rate per gamma camera is three per hour.
Cost:
Nuclear Medicine busy server: $500
Nuclear Medicine idle server: $200
Nuclear Medicine patient waiting: $1500
Nuclear Medicine patient being served: $1200
perform a queuing analysis for the stress test imaging process in Nuclear Medicine to determine the optimal server capacity.