The mass fraction of resins in asphaltone-rich aggregates, present in erude oils, and the physics and chemistry associated with them are poorly defined because of the variability of the definitions of asphaltenes and resins but remain a subject of significant interest to practitioners who model asphaltene behavior in hydrocarbon resources. In this contribution, the mass fraction of resins in pentane-asphaltene-rich aggregates in nanofiltered Athabasca bitumen and Maya crude oil samples is evaluated using a mass balance model and data regression fits to saturates, aromatics, resins, and asphaltenes (SARA.) analyses of permeate and retentate samples obtained by filtering these hydrocarbon resources directly through 5, 10, 20, 50, 100, and 200 nm filters. Solvents are not employed in the filtration experiments. At 473 K, the mass fraction of resins in pentane-asphaltene rich aggregates and the fraction of resins present in aggregates ire both found to be at or below the threshold for resin mass fraction measurement error, The aggregates present in both of these hydrocarbon resources may be treated as resins and pentane-free asphaltenes at this temperature. Nanofiltration measurements with Maya crude oil at lower temperatures, namely, 338-373 K, suggest that similar to 16% of resins comprise similar to 10 wt% of pentanea-asphaltene-rich aggregates. Even at lower temperatures, the resins content of pentane-asphaltene-rich aggregates appears to be limited to a small fraction of resins that comprise it small fraction of asphaltene-rich aggregates. On a heptane asphaltene basis, aggregates would comprise a minimum of 20 wt % resins, Because the definitions of asphaltenes and resins are fungible, these results provide directional and qualitative guidance with respect to asphaltene modeling and highlight limitations in terminology and ambiguity in analytic approaches used in this field