CPR chest compression system periodically reminding attendant to check patient

What is claimed: 1. A Cardio-Pulmonary Resuscitation (CPR) system that is usable by a rescuer to care for a patient, the CPR system comprising: a retention structure configured to retain a body of the patient; a communication module configured to receive a pause instruction from an other device; a compression mechanism attached to the retention structure, the compression mechanism configured to perform, while the body is thus retained, automatically CPR compressions to a chest of the body alternating with releases of the CPR compressions, most of the CPR compressions causing the chest to become compressed by at least 2 cm, the CPR compressions performed in a certain sequence comprising: a first group of at least 120 of the CPR compressions, then a check pause from performing the CPR compressions of the first group, the chest not becoming thus compressed during the check pause, the check pause lasting at least 5 sec, and then, upon an end of the check pause, a second group of the CPR compressions; and a user interface configured to output a human-perceptible check patient prompt responsive to a check patient condition becoming met, the check patient prompt reminding the rescuer to check the patient for a condition other than ventilating the patient, the check patient condition including that a threshold number of the CPR compressions have been performed in the second group, the threshold number being at least 120, the check patient condition further including that the pause instruction having a pause time duration has been received from the other device, even if the threshold number of the CPR compressions in the second group has not been performed yet, the check pause lasting as specified by the encoded pause time duration. 2. The CPR system of claim 1 , in which the user interface is physically coupled to the retention structure. 3. The CPR system of claim 1 , in which the compression mechanism includes a plunger, during the performance of the first group the CPR compressions, a specific point of the plunger starts one of the CPR compressions from a first elevation, and during the check pause, the specific point is automatically lifted by at least 3 cm from the first elevation. 4. The CPR system of claim 1 , further comprising: a counter, and in which a number of the CPR compressions in the second group are counted by the counter, and the patient check condition becomes met when the counted number reaches the threshold number. 5. The CPR system of claim 4 , in which the counter becomes re-initialized after a pause in the CPR compressions that has lasted at least 3 sec. 6. The CPR system of claim 1 , further comprising: a time keeping mechanism, and in which time is kept by the time keeping mechanism for the second group of the CPR compressions, and the patient check condition becomes met when the kept time exceeds a check time duration, the check time duration lasting at least 1.5 min. 7. The CPR system of claim 6 , in which the time keeping mechanism becomes re-initialized after a pause in the CPR compressions that has lasted at least 3 sec. 8. The CPR system of claim 6 , further comprising: a memory configured to store a value for the check time duration; and a communication module configured to receive a remote check time duration input, and in which the stored value for the check time duration becomes adjusted responsive to the received remote check time duration input. 9. The CPR system of claim 6 , further comprising: a memory configured to store a value for the check time duration, and in which the user interface is further configured to receive a local check time duration input, and the stored value for the check time duration becomes adjusted responsive to the received local check time duration input. 10. The CPR system of claim 1 , further comprising: a parameter sensor configured to detect a parameter about the patient, and to output a parameter sensor signal indicative of a dynamic value of the parameter, and in which the check patient condition includes that a stoppage criterion becomes met by the dynamic value, even if the threshold number of the CPR compressions in the second group has not been performed yet. 11. The CPR system of claim 10 , in which the parameter is detected while the second group of the CPR compressions is being performed. 12. The CPR system of claim 11 , in which the check patient condition includes that the stoppage criterion becomes met by the dynamic value after the second group of the CPR compressions has been performed uninterrupted for at least 1 min. 13. The CPR system of claim 10 , in which the parameter includes an Electrocardiogram (ECG), and the stoppage criterion becomes met if a dynamic value of the ECG includes a QRS complex. 14. The CPR system of claim 10 , in which the parameter includes an Electrocardiogram (ECG), and the stoppage criterion becomes met if a dynamic value of an aspect of a QRS morphology narrows by more than a certain amount within a time period. 15. The CPR system of claim 10 , in which the parameter includes an Electrocardiogram (ECG), and the stoppage criterion becomes met if a dynamic value of the ECG indicates that a patient rhythm has changed from non-shockable to shockable. 16. The CPR system of claim 10 , in which the parameter includes an Electrocardiogram (ECG), and the stoppage criterion becomes met if a dynamic value of a heart rate measured from the ECG increases by more than a certain amount within a time period. 17. The CPR system of claim 10 , in which the parameter includes an Electrocardiogram (ECG) and an impedance, and the stoppage criterion becomes met if a dynamic value of the ECG that is synchronous with a dynamic value of the impedance fluctuates. 18. The CPR system of claim 10 , in which the parameter includes an airway CO 2 partial pressure, and the stoppage criterion becomes met if a dynamic value of the airway CO 2 partial pressure exceeds a threshold. 19. The CPR system of claim 10 , in which the parameter includes an airway end-tidal CO 2 , and the stoppage criterion becomes met if a dynamic value of the airway end-tidal CO 2 increases by more than a certain amount within a time period. 20. The CPR system of claim 10 , in which the parameter includes a blood pressure, and the stoppage criterion becomes met if a dynamic value of the blood pressure reaches a threshold. 21. The CPR system of claim 10 , in which the parameter includes a regional oxygen saturation, and the stoppage criterion becomes met if a dynamic value of the regional oxygen saturation reaches a threshold. 22. The CPR system of claim 10 , in which the retention structure includes a strap configured to be used by the rescuer to restrain a motion of the patient's body, and a force sensor configured to detect a change in the force applied to the strap, and the stoppage criterion becomes met if a detected change in the force applied to the strap reaches a threshold. 23. The CPR system of claim 10 , in which the parameter sensor includes a defibrillation detector, and the stoppage criterion becomes met if a defibrillation was detected by the defibrillation detector. 24. The CPR system of claim 10 , in which the check patient prompt includes a notification about the dynamic value of the parameter or about the stoppage criterion. 25. The CPR system of clai