Heuristic management of physiological data

What is claimed is: 1. A method of collecting physiological data, the method comprising: allocating in a memory a plurality of reserved blocks, each block designated for receiving data related to a respective one of a plurality of cardiac rhythm types; obtaining digital data representing an electrocardiogram of a patient; detecting from the digital data a first episode of a particular one of the plurality of cardiac rhythm types in the patient, wherein the particular cardiac rhythm type is a first cardiac rhythm type; storing, in the reserved block designated for receiving data related to the detected particular cardiac rhythm type, a data snapshot of the episode of the particular cardiac rhythm type; and inhibiting the recording of further episodes of the first cardiac rhythm type based on the occurrence of an episode of a second cardiac rhythm type. 2. The method of claim 1 , wherein the episode is a first episode, the method further comprising: assigning a respective refractory period to each of at least some of the plurality of rhythm types; detecting from the digital data a second episode of the particular cardiac rhythm type; and storing a data snapshot of the second episode of the particular cardiac rhythm type only if the respective refractory period of the particular cardiac rhythm type has elapsed since storing the data snapshot of the first episode. 3. The method of claim 2 , further comprising: assigning a respective maximum recording rate to each of at least some of the plurality of rhythm types; and storing a data snapshot of the second episode of the particular cardiac rhythm type only if doing so will not exceed the respective maximum recording rate of the particular cardiac rhythm type. 4. The method of claim 2 , wherein the particular cardiac rhythm type is a first rhythm type, the method further comprising: inhibiting the recording of further episodes of the first cardiac rhythm type based on the occurrence of an episode of a second cardiac rhythm type. 5. The method of claim 1 , wherein the episode is a first episode, the method further comprising: assigning a respective maximum recording rate to each of at least some of the plurality of rhythm types; and detecting from the digital data a second episode of the particular cardiac rhythm type; and storing, in the reserved block designated for receiving data related to the particular cardiac rhythm type, a data snapshot of the second occurrence of the particular cardiac rhythm type only if doing so will not exceed the respective maximum recording rate of the particular cardiac rhythm type. 6. The method of claim 1 , wherein the episode is a first episode, the method further comprising: allocating in the memory a shared memory block; detecting from the digital data a second episode of the particular cardiac rhythm type; recognizing that the reserved block designated for receiving data related to the particular cardiac rhythm type has been filled; and storing, in the shared memory block, a data snapshot of the second episode of the particular cardiac rhythm type. 7. The method of claim 1 , further comprising: sensing a non-electrocardiogram physiological parameter of the patient; and adjusting at least one criterion for storage of electrocardiogram data snapshots based at least in part on the sensed non-electrocardiogram physiological parameter of the patient. 8. The method of claim 7 , wherein the non-electrocardiogram physiological parameter of the patient is selected from the group consisting of a bioimpedance of the patient, a hydration level of the patient, a respiration rate of the patient, an activity level of the patient, a posture of the patient, a temperature of the patient, and a reading from an accelerometer attached to the patient. 9. The method of claim 7 , wherein adjusting at least one criterion for storage of electrocardiogram data snapshots comprises adjusting a refractory period assigned to one of the plurality of rhythm types. 10. The method of claim 7 , wherein adjusting at least one criterion for storage of electrocardiogram data snapshots comprises adjusting a maximum recording rate assigned to one of the plurality of rhythm types. 11. The method of claim 7 , wherein adjusting at least one criterion for storage of ECG data snapshots comprises inhibiting the recording of an electrocardiogram data snapshot. 12. The method of claim 7 , wherein adjusting at least one criterion for storage of electrocardiogram data snapshots comprises triggering the recording of an electrocardiogram data snapshot. 13. A cardiac monitoring system, comprising: a processor; and a memory, the memory comprising a data storage area and also storing instructions that are executable by the processor and configure the system to; allocate in the memory a plurality of reserved blocks, each block designated for receiving data related to a respective one of a plurality of cardiac rhythm types; obtain digital data representing an electrocardiogram of a patient; detect from the digital data a first episode of a particular one of the plurality of cardiac rhythm types in the patient, wherein the particular cardiac rhythm type is a first cardiac rhythm type; and store, in the reserved block designated for receiving data related to the detected particular cardiac rhythm type, a data snapshot of the episode of the particular cardiac rhythm type, wherein the recording of further episodes of the first cardiac rhythm type are inhibited based on the occurrence of an episode of a second cardiac rhythm type. 14. The cardiac monitoring system of claim 13 , further comprising one or more sensors for sensing one or more non-electrocardiogram physiological parameters of the patient, wherein the instructions further configure the system to adjust at least one criterion for storing electrocardiogram data snapshots based at least on part on one or more of the sensed non-electrocardiogram physiological parameters. 15. The cardiac monitoring system of claim 13 , further comprising an adherent device configured to be worn on the skin of the patient, wherein the adherent device includes electrodes for measuring the electrocardiogram of the patient. 16. The cardiac monitoring system of claim 15 , wherein the processor and memory are disposed in the adherent device. 17. A method of collecting physiological data, the method comprising: obtaining digital data representing an electrocardiogram of a patient; detecting from the digital data a first episode of one of the plurality of cardiac rhythm types in the patient; storing in an electronic memory a data snapshot of the first episode; detecting from the digital data a second episode of one of the plurality of cardiac rhythm types in the patient; and making one or more of the following determinations: whether a respective refractory period has elapsed since the most recent recording of a data snapshot of an episode of the same rhythm type as the second episode, wherein the refractory period begins at an offset of the first episode and must elapse before an onset of the second episode; whether storing a data snapshot of the second episode would exceed a respective maximum recording rate assigned to the rhythm type of the second episode; and whether recording of a data snapshot of the second episode is inhibited by the recording of a different data snapshot; and evaluating whether storing of a data snapshot of the second episode is prohibited by the outcome of any one of the one or more determinations made; and storing in the electronic memory a data snapshot