Abstract Rationale: Clinical practice guidelines define radiologic pattern categories based on integration of multiple individual features; however, it is not clear how important each feature is in the eyes of expert radiologists. Methods: Consecutive patients with fibrotic ILD in the Canadian Registry for Pulmonary Fibrosis were re-evaluated in standardized multidisciplinary discussion. An experienced chest radiologist blinded to clinical data assessed disease distribution and visually quantified the percentage of lung parenchyma affected by honeycombing, reticulation, ground glass, hypoattenuating lung, consolidation, and emphysema. Additional binary features recorded included presence of asymmetric disease, costophrenic angle sparing, 3-density sign, subpleural sparing, dilated esophagus, cysts, and lymphadenopathy. The radiologist then provided a differential diagnosis of patterns with ascribed confidence, mandated to sum to 100%. Patients with confidence >50% for a usual interstitial pneumonia (UIP), fibrotic hypersensitivity pneumonitis (fHP), and non-specific interstitial pneumonia (NSIP) pattern were used in subsequent analyses, compared to cases where no single pattern was >50% (“no confident pattern”). The strength of association of individual radiologic features with radiologist-assigned patterns (UIP, fHP, NSIP) was quantified using a multinomial model, with “no confident pattern” selected as the reference category. Results: 1498 patients were included with patterns of UIP (36%), fHP (17%), NSIP (33%), and “no confident pattern” (14%). Results of the multinomial model are displayed in Figure 1. Increasing honeycombing and reticulation suggested UIP, while ground-glass, hypoattenuating lung, subpleural sparing, and a distribution other than basal and peripheral led away from UIP, including the presence of any central component of disease. Increasing hypoattenuating lung, pure ground-glass, and a 3-density sign suggested fHP, as did a mid-upper predominant distribution, sparing of the extreme costophrenic angle, and the presence of any central component of disease. Axillary lymphadenopathy, a dilated esophagus, and subpleural sparing were strongly associated with NSIP, while increasing honeycombing, reticulation, hypoattenuating lung, and emphysema as well as a non-basal distribution led away from NSIP. The most helpful features (OR≥3 or ≤0.3) were related to distribution or were particularly distinctive findings (e.g. 3-density sign, dilated esophagus, subpleural sparing). Conclusions: Expert radiologists emphasize disease distribution and a few distinctive dichotomous features when determining ILD patterns, likely because these are more reliably identifiable with lower interobserver disagreement compared to continuous variables that lack clear demarcation of clinical significance. These data will help non-experts to assign weights to the building blocks of patterns, increase reproducibility in pattern identification, and improve future clinical practice guidelines in an evidence-based manner.