Spatialleaming and memory in rodents is most often assessed in the Morris water maze. Neurobiologists have to distinguish behavioral patterns to unravel underlying neuronal systems. Weanalyzed swimpatterns of mice videotaped before and after training with a multitrial procedure in the water maze. In addition to traditional parameters, the animals' position in relation to trained and other possible platform locations was estimated five times per second by an image analysis system. This parameter, cumulative distance to platform, was correlated with time spent in the platform quadrant but not with latency to and crossings of the platform location. We detected a subgroup of animals with concentric patterns within the group of spatial/persistent patterns. Random patterns were classified as well. Swim patterns before training were not predictive for the one after training. In summary, image analysis systems have made it very convenient to quantify behavior. Usingtheir capacity, we have further improved the analysis of swim patterns, revealing animals' different approaches to solve a problem.Behavioral biologists are confronted with the problem of how learning and memory can reliably be quantified using behavioral measures. Automated video-tracking and image analysis systems have made it very convenient to quantify the performance of animals in behavioral tasks and have made it possible to calculate many parameters. One of the most frequently used tasks to measure spatial learning and memory ofrodents is the Morris water maze (Morris, 1984). Various procedures (e.g., multitrial, reversal, delayed matching to place) have been developed to examine the neurobiological basis oflearning and memory (Brandeis, Brandys, & Yehuda, 1989; Poucet & Benhamou, 1997). Since the creation of mutant mice, the multi trial procedure in the water maze has become the standard and most widely used behavioral task (Wolfer, Stagljar-Bozicevic, Errington, & Lipp, 1998). Specifically, the analysis and interpretation of this multi trial water maze procedure requires refinement.Briefly, in a pool of warm water, animals are trained to locate a platform in a fixed position just below the water surface. During several days, a number of trials are given (i.e., multitrial procedure). The animal's ability to find it most efficiently depends on the use ofa configuration of cues surrounding the pool. Allowing the animal to swim for a fixed time without the platform (i.e., free swim, probe, or transfer trial) reveals the search strategy. Learning is defined by shorter latencies and by decreased path length to the platform. Because the path to the platform is in no way constrained, different strategies are possible, each of which may result in successively shorter escape latencies. For example, animals that direct their search predominantly to the area ofthe maze where the platform was located during training can have the same latency to the platform as animals that use a circular strategy, but do not show direct search toward the platform area (Schenk & M...
