An efficient scheduling system keeps everyone in the practice—dental clinicians, staff and patients—moving at a steady pace and showing up in the right place at the right time. However, if your scheduling coordinator allocates the wrong amount of time for various procedures, the entire system will break down.
Given too little time, you’ll begin falling behind and may find yourself rushing as patients back up in the reception area. If too much time has been scheduled, you’ll experience another kind of stress, unsettled by the knowledge that you could have easily fit more production into the day were it not for inaccurate appointment times.
Fortunately, there’s an easy way to solve this problem: conduct procedural time studies.
Taking the Guesswork Out of Scheduling
Do you take the same amount of time today to perform a procedure as you did 10 years ago? How much time does that new imaging technology really save your hygienist? Has training enabled your assistants to do their jobs faster?
The point is, everything changes - the skills of you and your staff, the clinical procedures, the technologies and materials your practice uses, etc. If you (or your scheduling coordinator) try to guess how much time to allow for each appointment, there’s a high probability that a number of those guesses will be off target.
The only way to remedy this problem is to conduct procedural time studies whenever your practice has experienced changes likely to alter the time you spend on various tasks. Follow these steps:
Many dentists who conduct these simple time studies are surprised at the results, which proves how valuable they are, and are gratified when their daily schedules are no longer punctuated by rushing or downtime.
This resource was provided by Levin Group, a leading dental consulting firm that provides dentists innovative management and marketing systems that result in increased patient referrals, production and profitability, while lowering stress. Since 1985, dentists have relied on Levin Group dental consulting to increase production.