BACKGROUND: Population growth, an aging population and the increasing prevalence of chronic disease are projected to increase demand for primary care services in the United States. OBJECTIVE: Using systems engineering methods, to re-design physician patient panels targeting optimal access and continuity of care. DESIGN: We use computer simulation methods to design physician panels and model a practice's appointment system and capacity to provide clinical service. Baseline data were derived from a primary care group practice of 39 physicians with over 20,000 patients at the Mayo Clinic in Rochester, MN, for the years 2004-2006. Panel design specifically took into account panel size and case mix (based on age and gender). MEASURES: The primary outcome measures were patient waiting time and patient/clinician continuity. Continuity is defined as the inverse of the proportion of times patients are redirected to see a provider other than their primary care physician (PCP). RESULTS: The optimized panel design decreases waiting time by 44% and increases continuity by 40% over baseline. The new panel design provides shorter waiting time and higher continuity over a wide range of practice panel sizes. CONCLUSIONS: Redesigning primary care physician panels can improve access to and continuity of care for patients.
BACKGROUND: Population growth, an aging population and the increasing prevalence of chronic disease are projected to increase demand for primary care services in the United States. OBJECTIVE: Using systems engineering methods, to re-design physician patient panels targeting optimal access and continuity of care. DESIGN: We use computer simulation methods to design physician panels and model a practice's appointment system and capacity to provide clinical service. Baseline data were derived from a primary care group practice of 39 physicians with over 20,000 patients at the Mayo Clinic in Rochester, MN, for the years 2004-2006. Panel design specifically took into account panel size and case mix (based on age and gender). MEASURES: The primary outcome measures were patient waiting time and patient/clinician continuity. Continuity is defined as the inverse of the proportion of times patients are redirected to see a provider other than their primary care physician (PCP). RESULTS: The optimized panel design decreases waiting time by 44% and increases continuity by 40% over baseline. The new panel design provides shorter waiting time and higher continuity over a wide range of practice panel sizes. CONCLUSIONS: Redesigning primary care physician panels can improve access to and continuity of care for patients.
Authors: John C Scott; Douglas A Conner; Ingrid Venohr; Glenn Gade; Marlene McKenzie; Andrew M Kramer; Lucinda Bryant; Arne Beck Journal: J Am Geriatr Soc Date: 2004-09 Impact factor: 5.562
Authors: Mark L Wieland; Thomas M Jaeger; John B Bundrick; Karen F Mauck; Jason A Post; Matthew R Thomas; Kris G Thomas Journal: J Grad Med Educ Date: 2013-12
Authors: Lisa L Cook; Richard P Golonka; Charles M Cook; Robin L Walker; Peter Faris; Shannon Spenceley; Richard Lewanczuk; Robert Wedel; Rebecca Love; Cheryl Andres; Susan D Byers; Tim Collins; Scott Oddie Journal: CMAJ Open Date: 2020-11-16