Mass spectrometry imaging (MSI) generates large volumetric data sets consisting of mass to charge

ratio (m/z), ion current, and x,y coordinate location. A typical analysis can acquire a dataset comprising

tens of thousands of ion signals at each of thousands of sampling locations. This dataset volume often

serves the limited purpose of measuring the distribution of a small set of ions with known m/z, but those

m/z values represent only a fraction of the full mass spectrum present in the volume of data. There are

few tools to assist the exploration of the remaining volume of unknown data in terms of demonstrating

similarities of associations in tissue compartment distributions of singular ions or in groupings of ions.

To address this problem we have devised several methods to query the full volume of scanned data to

find new m/z values of potential interest based on similarity to biological structures, or to the spatial

distribution of known ions. We present a novel approach to extract information from MSI data that

relies on pre-calculated data structures to allow interactive queries of large data sets with a typical

laptop. These queries are based on different forms of correlation, and the output consists of a ranked list

of m/z values, from most correlated to most anti-correlated with the query, each with an associated

image. We describe these query methods in detail and provide examples demonstrating the power of the

methods to “discover” m/z values of ions that have potentially interesting correlations with known

histological structures. Such “discovered“ ions may be further correlated with either positional locations

or the coincident distribution of other ions, using successive queries. The ability to discover new ions of

interest in the unknown bulk of an MSI dataset offers the potential to further our understanding of

biological and physiological processes related to health and disease.