1. January 24, 2011 Neurocognitive Screening for POCD via the iPad Sarah Waring and Emily Whitaker Advised by: Dr. James L. Blair, VUMC Anesthesiology Dept.

2. Project Advisor James L. Blair, OD Assistant Professor, VUMC Department of Anesthesiology Looking to develop pre-op screening for brain function using imaging and neurocognitive tests January 24, 2011

3. Overview of POCD Cognitive Dysfunction  impairment of vital mental processes After surgery with anesthesia  post operative cognitive dysfunction (POCD) Most common in elderly patients Affects perception, memory, and information processing Problems can persist for several months Impedes activities of daily living (ADL)

4. January 24, 2011 Overview of Neurocognitive Tests Stroop test Assesses concept shifting ability and executive function Name ink color, not the word Example: http://www.cs.dartmouth.edu/farid/illusions/stroop.html Easy to read  ink = word Trickier  ink ≠ word

5. January 24, 2011 The Problem “Comprehensive” pre-operative screening neglects brain All other major organs are tested Elderly patients often end up with some degree of POCD Causes need for assistance with ADL Causes increased mortality risk for next year

6. January 24, 2011 Current “Solutions” Neurocognitive testing (NCT) after surgery to assess mental functions One week and three months post-surgery These tests determine presence of POCD Accuracy without a pre-op baseline?

7. January 24, 2011 Group Purpose A pre-operative test of mental function is needed MRI/DTI/fMRI Neurocognitive testing (NCT) Values can be obtained for baseline Physiological Neurocognitive abilities Can NCT be a screening tool for high risk of POCD? Dr. Blair’s upcoming study will compare NCT results to physiological changes

8. January 24, 2011 Group Objective Create an iPad program that will be used to administer a battery of neurocognitive tests as part of the pre-op screening process Must be: user friendly, in touch screen format, easy to administer, and take approx. 10 min. Develop accurate scoring methods for program Stroop test to start; other tests added later

9. Why an iPad? More portable than a laptop Lightweight Don’t have to open/close Longer battery life Touch screen Easy to use, especially for the elderly Instant start-up January 24, 2011

10. Completed Work Met with Dr. Blair to discuss overall project objectives Received project protocol Decided to focus initially on Stroop test Research into Stroop test, both paper- and computer-based versions Research into POCD Research into iPad programming

11. January 24, 2011 Current Work Initial program coding Research into relevant neurocognitive tests Searching for computerized versions of Stroop test, “finger tapping,” JLO, and HVLT Research into licensing of tests

12. January 24, 2011 Future Work Continue to meet with Dr. Blair to discuss our role in project Determine appropriate scoring method for Stroop test Finish program coding Begin testing Administer to patients and test program performance

13. Long Term Implications iPad format: Combination of multiple tests into one program cuts costs Easy transfer of data for analysis Scoring algorithm: Results calculated quickly Data all in the same format Trained proctor not necessary January 24, 2011

14. Long Term Implications Decrease number of cases of post-operative cognitive dysfunction Decrease lawsuits associated with POCD Gain more knowledge of POCD/how surgery and anesthesia affect the brain January 24, 2011

15. References Hanning CD. Postoperative cognitive dysfunction. Br J of Anaesth. Jan 2005;95(1):82-87 Monk TG, Weldon BC, Garvan CW, et al. Predictors of cognitive dysfunction after major noncardiac surgery. Anesthesiology. Jan 2008;108(1):18-30 Monk TG, Saini V, Weldon BC, Sigl JC. Anesthetic management and one-year mortality after noncardiac surgery. Anesth Analg. Jan 2005;100(1):4-10