Wearable ambulatory medical device with multiple sensing electrodes

What is claimed is: 1 . A wearable monitoring device, comprising: at least two ECG channels corresponding to different pairings of a plurality of ECG sensing electrodes, wherein the plurality of ECG sensing electrodes are configured to be disposed at spaced apart positions about a body of a patient; at least one activity sensor configured to monitor a physical activity of the patient; an electrode signal acquisition circuit configured to be electrically coupled to the plurality of ECG sensing electrodes of the at least two ECG channels and configured to sense respective signals provided by the at least two ECG channels; and a monitoring and detection circuit electrically coupled to an output of the electrode signal acquisition circuit, the monitoring and detection circuit including at least one processor configured to instruct the electrode signal acquisition circuit to analyze the respective signals provided by the at least two ECG channels, select one or more of the at least two ECG channels to monitor based on analysis of the respective signals provided by the at least two ECG channels and the monitored physical activity of the patient, and determine a presence of an arrhythmia condition based on the respective signals from the selected one or more of the at least two ECG channels. 2 . The wearable monitoring device of claim 1 , wherein at least one of the at least two ECG channels is based on two or more ECG sensing electrodes of the plurality of ECG sensing electrodes that are selected to be paired together to form the at least one of the at least two ECG channels. 3 . The wearable monitoring device of claim 1 , wherein the plurality of ECG sensing electrodes include at least three ECG sensing electrodes. 4 . The wearable monitoring device of claim 1 , wherein one or more of the plurality of ECG sensing electrodes comprises adhesive ECG sensing electrodes. 5 . The wearable monitoring device of claim 4 , wherein the plurality of ECG sensing electrodes are not all located in a common plane. 6 . The wearable monitoring device of claim 1 , wherein the monitoring and detection circuit is configured to analyze the respective signals provided by each of the at least two ECG channels and to instruct the electrode signal acquisition circuit to select the one or more of the at least two ECG channels to monitor based upon a quality of the respective signals provided by each of the at least two ECG channels. 7 . The wearable monitoring device of claim 1 , wherein the at least one processor is configured to instruct the electrode signal acquisition circuit to select a different ECG channel to monitor in response to a detected event. 8 . The wearable monitoring device of claim 7 , wherein the detected event is strenuous physical activity of the patient. 9 . The wearable monitoring device of claim 7 , wherein the detected event is movement of the patient. 10 . A wearable monitoring device for monitoring electrical activity of a patient's heart, comprising: at least two ECG channels corresponding to different pairings of a plurality of ECG sensing electrodes, wherein the plurality of ECG sensing electrodes are configured to be disposed at spaced apart positions about a body of a patient; an electrode signal acquisition circuit configured to be electrically coupled to the plurality of ECG sensing electrodes and configured to sense respective signals provided by the at least two ECG channels, wherein each of the respective signals represents a different view of the electrical activity of the patient's heart; and a monitoring and detection circuit electrically coupled to an output of the electrode signal acquisition circuit, the monitoring and detection circuit including at least one processor configured to instruct the electrode signal acquisition circuit to analyze a first ECG channel of the at least two ECG channels, determine a presence of an arrhythmia condition based on analysis of the first ECG channel, and instruct the electrode signal acquisition circuit to analyze a second ECG channel, different than the first ECG channel, to assess a confidence level in the determined arrhythmia condition based on the analysis of the first ECG channel. 11 . The wearable monitoring device of claim 10 , wherein at least one of the at least two ECG channels is based on two or more ECG sensing electrodes of the plurality of ECG sensing electrodes that are selected to be paired together to form the at least one of the at least two ECG channels. 12 . The wearable monitoring device of claim 10 , wherein the plurality of ECG sensing electrodes includes at least three ECG sensing electrodes. 13 . The wearable monitoring device of claim 10 , wherein one or more of the plurality of ECG sensing electrodes comprises adhesive ECG sensing electrodes. 14 . The wearable monitoring device of claim 13 , wherein the plurality of ECG sensing electrodes are not all located in a common plane. 15 . The wearable monitoring device of claim 13 , further comprising at least one electrode configured to be directly attached to the body of the patient and configured to deliver a defibrillating shock to the body of the patient. 16 . The wearable monitoring device of claim 10 , wherein the at least one processor is further configured to determine whether the arrhythmia condition is present on the second ECG channel. 17 . The wearable monitoring device of claim 16 , wherein the at least one processor is configured to increase the confidence level in the determined arrhythmia condition responsive to a determination that the arrhythmia condition is present on the second ECG channel and to decrease the confidence level in the determined arrhythmia condition responsive to a determination that the arrhythmia condition is not present on the second ECG channel. 18 . The wearable monitoring device of claim 16 , wherein the confidence level is assessed based on whether the arrhythmia condition is present on the second ECG channel and a quality of the respective signals provided by each of the first ECG channel and the second ECG channel. 19 . A wearable monitoring device, comprising: a plurality of ECG channels corresponding to different pairings of a plurality of ECG sensing electrodes, wherein the plurality of ECG sensing electrodes are configured to be disposed at spaced apart positions about a body of a patient; an electrode signal acquisition circuit configured to be electrically coupled to the plurality of ECG sensing electrodes of the plurality of ECG channels and configured to sense respective signals provided by the plurality of ECG channels; and a monitoring and detection circuit electrically coupled to an output of the electrode signal acquisition circuit, the monitoring and detection circuit including at least one processor configured to instruct the electrode signal acquisition circuit to analyze the respective signals provided by the plurality of ECG channels, select one or more of the plurality of ECG channels to monitor based upon at least a quality of each of the respective signals provided by the plurality of ECG channels, and determine a presence of an arrhythmia condition based on the respective signals from the selected one or more of the plurality of ECG channels. 20 . A method of monitoring ECG signals, comprising: sensing respective ECG signals provided by at least two ECG channels, each ECG channel of the at least two ECG channels corresponding to different pairings of a plurality of ECG sensing elec