Background：Anticholinergic Risk Scale (ARS) and Anticholinergic Cognitive Burden Scale (ACB) are two anticholinergic drug scoring systems that are most commonly used to measure anticholinergic burden in the elderly. However data are limited regarding which scoring system is more clinically relevant. Studies comparing ARS and ACB were limited by small sample sizes, cross-sectional design or short follow-up periods that could not provide enough information about which scoring system should be used. Objectives：To compare the association between different scoring systems (ARS/ACB) and adverse outcomes, and to investigate whether different compositions of score would have different impact on adverse events under the same anticholinergic burden. Methods：A retrospective cohort study was conducted by using two sets of Longitudinal Health Insurance Database (LHID 2000 and 2005) from Taiwan’s National Health Insurance Research Database. The study cohort comprised outpatients who aged 65 years old and older on January 1, 2001. Baseline characteristics were collected in 2001, and the changes of anticholinergic burden and adverse events were measured monthly from 2002 to 2011 (total 120 months). Anticholinergic burden was estimated by ARS and ACB, and the compositions of score were also examined. Adverse outcomes included emergency room visit, all-cause hospitalization, fracture-specific hospitalization and incident dementia. Generalized estimating equations (GEE) were used to examine the association between anticholinergic burden and adverse outcomes, and stratified by age (65-74, 75-84, 85+ y/o). The models were further adjusted for sex, time-varying comorbidities and average daily dosage of anticholinergic agents. In the first part of the study, we compared the association between ARS/ACB and adverse outcomes, and in the second part, we investigated the impact of different compositions of score on adverse events under the same anticholinergic burden. Results：A total of 116,043 elderly were included in the study (aged 65-74: 68.07 %; aged 75-84: 27.82 %; aged 85+: 4.11 %). At baseline, mean anticholinergic burden based on ARS and ACB was 0.26 (/p/m) and 0.60 (/p/m) respectively. During ten-year follow-up, both ARS and ACB scores increased gradually with more increase in ACB. Both ARS and ACB scores were all significantly associated with increased odds of emergency room visit (e.g. 65-74 y/o, ARS 1-4+, aOR ranged from 1.55-2.04; ACB 1-4+, aOR range from 1.41-2.25), all-cause hospitalization (e.g. 65-74 y/o, ARS 1-4+, aOR ranged from 1.44- 1.95; ACB 1-4+, aOR range from 1.32-1.92), fracture-specific hospitalization (e.g. 65- 74 y/o, ARS 1-4+, aOR ranged from 1.61-1.96; ACB 1-4+, aOR range from 1.10-1.71) and incident dementia (e.g. 65-74 y/o, ARS 1-4+, aOR ranged from 3.87-10.41; ACB 1-4+, aOR range from 3.13- 10.01). ACB scores showed dose-response relations with all adverse outcomes (e.g. emergency room visit：65-74 y/o, ACB 1, aOR 1.41 [95% CI 1.37-1.45]; ACB 2, aOR 1.71 [1.66-1.75]; ACB 3, aOR 1.82 [1.78-1.87]; ACB 4+, aOR 2.25 [2.19-2.31]), but ARS scores showed dose-response relation only with fracture- specific hospitalization(e.g. fracture-specific hospitalization：65-74 y/o, ARS 1, aOR 1.61 [1.47-1.76]; ARS 2, aOR 1.64 [1.48-1.81]; ARS 3, aOR 1.64 [1.49-1.81]; ARS 4+, aOR 1.96 [1.72-2.23]). There were U-shaped relations between ARS scores and other outcomes (e.g. emergency room visit：65-74 y/o, ARS 1, aOR 1.90 [1.86 -1.95]; ARS 2, aOR 1.55 [1.51-1.59]; ARS 3, aOR 1.65 [1.61-1.70]; ARS 4+, aOR 2.04 [1.97-2.11]). After analyzing the compositions of score, we found that the cumulative effects of multiple medications with low anticholinergic activity were greater than one medication with high anticholinergic activity (1+1 > 2, 1+1+1 > 1+2 > 3) (e.g. emergency room visit：65-74 y/o, ACB 1+1, aOR 1.73 [1.68-1.77]; ACB 2, aOR 1.62 [1.53-1.71]; ACB 1+1+1, aOR 2.05 [1.99-2.12]; ACB 1+2, aOR 2.04 [1.91-2.17]; ACB 3, aOR 1.62 [1.57-1.66]). In contrast, medications with higher points in ACB had greater impact on fracture-specific hospitalization and incident dementia (2 > 1 + 1, 3 > 1 + 2 > 1 + 1 + 1) (e.g. incident dementia：65-74 y/o, ACB 1+1, aOR 3.02 [2.71-3.36]; ACB 2, aOR 6.23 [5.18-7.48]; ACB 1+1+1, aOR 3.30 [2.84-3.84]; ACB 1+2, aOR 5.84 [4.59-7.41]; ACB 3, aOR 9.15 [8.38-9.99]). Conclusion：ACB was more selective in capturing medications that likely to cause adverse outcomes and identifying high risk populations for intervention. Although ARS was also associated with adverse outcomes, it was less selective. Even under the same anticholinergic burden score, different compositions of score would have different impact on adverse events.