Methods and systems for arrhythmia episode prioritization and improving arrhythmia detection and classification to reduce clinical review burden

What is claimed is: 1. A method for reducing a burden associated with analyzing electrogram (EGM) segments obtained from an implantable medical device (IMD) that is configured to monitor for arrhythmic episodes of a patient within which the IMD is implanted, the method comprising: obtaining respective EGM data and respective classification data for each arrhythmic episode of a plurality of arrhythmic episodes that were detected by the IMD during a period of time, wherein the respective EGM data is indicative of an EGM segment corresponding to the arrhythmic episode, and wherein the respective classification data specifies a type of the arrhythmic episode; obtaining a representative R-R interval or a representative heart rate (HR) for each of the arrhythmic episodes, wherein for at least two different types of the arrhythmic episodes the respective manners for determining the representative R-R interval or the representative HR differ from one another; selecting one or more EGM segments to be displayed for each type of arrhythmic episode, of a plurality of different types of arrhythmic episodes for which the EGM data and the classification data were obtained for the period of time, the selecting based on the representative R-R intervals or the representative HRs that are determined for the plurality of arrhythmic episodes; and providing for display of the EGM segments that correspond to the one or more arrhythmic episodes that were selected for display, for each type of arrhythmic episode, of the plurality of different types of arrhythmic episodes for which the EGM data and the classification data were obtained for the period of time; wherein the representative R-R interval or the representative HR for each bradycardia type of arrhythmic episode, for which respective EGM data and respective classification data were obtained, comprises a longest R-R interval or a slowest HR during the bradycardia type of episode. 2. The method of claim 1 , wherein: the representative R-R interval or the representative HR for each tachycardia type of arrhythmic episode, for which respective EGM data and respective classification data were obtained, comprises a shortest R-R interval or a fastest HR during the tachycardia type of episode. 3. The method of claim 2 , wherein: the representative R-R interval or the representative HR for each atrial fibrillation (AF) type of arrhythmic episode, for which respective EGM data and respective classification data were obtained, comprises a mean R-R interval or a mean HR during the AF type of episode. 4. The method of claim 3 , wherein: the representative R-R interval or the representative HR for each cardiac pause type of arrhythmic episode, for which respective EGM data and respective classification data were obtained, comprises a longest R-R interval during the cardiac pause type of episode. 5. The method of claim 4 , wherein: for the bradycardia type of arrhythmic episodes, the one or more EGM segments that are selected for display include the EGM segment having the representative R-R interval that is shortest or the representative HR that is fastest; for the tachycardia type of arrhythmic episodes, the one or more EGM segments that are selected for display include the EGM segment having the representative R-R interval that is shortest or the representative HR that is fastest; and for the cardiac pause type of episodes, the one or more EGM segments that are selected for display include the EGM segment having the representative R-R interval that is shortest or the representative HR that is fastest; and for the AF type of arrhythmic episodes, the one or more EGM segments that are selected for display include the EGM segment having the representative R-R interval that is shortest or the representative HR that is fastest. 6. The method of claim 5 , further comprising: obtaining a respective duration of each of the arrhythmic episodes for which respective EGM data and respective classification data were obtained; and wherein the selecting one or more EGM segments to be displayed for each type of arrhythmic episode, of the plurality of different types of arrhythmic episodes for which the EGM data and the classification data were obtained for the period of time, also comprises selecting, for each type of arrhythmic episode, one or two of the arrhythmic episodes having the longest duration(s). 7. The method of claim 6 , wherein the method is performed by a non-implanted system, and wherein: the respective EGM data, the respective classification data, the representative R-R interval or the representative HR, and the respective duration, for each arrhythmic episode of the plurality of arrhythmic episodes that were detected by the IMD during the period of time, are obtained by the non-implanted system from the IMD. 8. The method of claim 1 , further comprising: saving the respective EGM data and the respective classification data for each arrhythmic episode of the plurality of arrhythmic episodes that were detected by the IMD during the period of time, but were not selected for display at the selecting step; enabling a user to select one or more additional arrhythmic episodes for which corresponding EGM segments are to be displayed for at least one type of arrhythmic episode, of the plurality of different types of arrhythmic episodes for which the EGM data and the classification data were obtained for the period of time; and providing for display of EGM segments that correspond to the one or more additional arrhythmic episodes that were selected for display by the user. 9. A system for reducing a burden associated with analyzing electrogram (EGM) segments obtained from an implantable medical device (IMD) that is configured to monitor for arrhythmic episodes of a patient within which the IMD is implanted, the system comprising: a telemetry subsystem that is non-implanted and is configured to communicate with the IMD; and one or more processors, one or more of which can be included in the IMD, and one or more of which can be non-implanted; the telemetry subsystem configured to obtain respective EGM data for each arrhythmic episode of a plurality of arrhythmic episodes that were detected by the IMD during a period of time, wherein the respective EGM data is indicative of an EGM segment corresponding to the arrhythmic episode; the telemetry subsystem, or at least one of the one or more processors, configured to obtain respective EGM data and respective classification data for each arrhythmic episode of a plurality of arrhythmic episodes that were detected by the IMD during a period of time, wherein the respective EGM data is indicative of an EGM segment corresponding to the arrhythmic episode, and wherein the respective classification data specifies a type of the arrhythmic episode; and obtain a representative R-R interval or a representative heart rate (HR) for each of the arrhythmic episodes, wherein for at least two different types of the arrhythmic episodes the respective manners for determining the representative R-R interval or the representative HR differ from one another; at least one of the one or more processors, configured to select one or more EGM segments to be displayed for each type of arrhythmic episode, of a plurality of different types of arrhythmic episodes for which the EGM data and the classification data were obtained for the period of time, wherein the selecting is based on the representative R-R intervals or the representative HRs that are determined for the plurality of arrhythmic episodes; and provide for display of the EGM segments that correspond to the one or more arrhythmic episodes that were selected for display, for each type of arrhythmic episode, of the plurality of differe