Summary
The following types of training are supported in cardiological rehabilitation:
Type | since Version | training device type | Description |
---|
Ergometer |
load profileLoad Profile | 1.0 | Ergometer | Classic training profile with |
watt load specifications. |
Treadmill |
profiletreadmillTreadmill | Classic training profile for treadmills with specifications for speed and |
incline controllen profilecontrolled Profile | 4.0 | Ergometer | Training profile with HR setting for training with a fixed HR value on an ergometer. The load on the ergometer is automatically adjusted by the software to hold the HR. |
HR |
controllen profile treadmillTreadmill | Training profile with HR setting for training with a fixed HR value on a treadmill. The software automatically adjusts the speed or the |
incline inclination or both on the treadmill to hold the HR. You can choose whether the |
incline inclination is fixed and the speed is adjusted automatically or whether the speed is fixed and the |
incline inclination is adjusted automatically. |
free profileFree defined Profile | 1.0 | Ergometer |
classic Classic training profile with |
watt load settings in any number of levels.
|
Beginning with version As start from Version 5.1 |
, you can also specify relative load values to the previous level. |
two level profile pulse HR profile for ergometers with two HR steps with different HR values and different lengths. These can be repeated as often as desired during the training phase. |
multilevel profileProfile | 5.1 | Ergometer | Ergometer training profile with any number of HR levels. The data can be given both absolutely in HR and in various relative data. |
Relative load data
Motivation
Normally, load values are given in watts, km/h or HF, depending on the type of training profile. These data are always fixed values which cannot in all cases be used for all patients. Therefore the software allows to create many different training profiles and then to select them specifically for each patient. This method has the disadvantage that many training profiles have to be managed, but they are all structured in the same way and only differ in their absolute values in the training phase.
Profiles with relative data are a better alternative for such profiles. Normally, patients are subjected to a stress examination (classical stress-ECG or spirroergometry) before rehabilitation to determine their capabilities, or there are formulas with which age-dependent stress can be determined. In rehabilitation, for example, at ~ 70% of the maximum load, training is done in a load-controlled training profile. Now the therapist has to select from the different training profiles the one whose absolute load best fits the 70% of the patient's maximum load. This is possible, but time-consuming, but can also be partially automated (automatic assignment of the standard profile). In order to simplify this process of selecting a suitable training profile for the patient, training profiles with relative data were introduced in version 5.1.
Specification
Relative values are usually percentage values that refer to a patient-specific parameter. Thus, with only one training definition, a specific training for all patients can be applied. This saves effort in the training definition as well as in the later process the annoying selection from different, but essentially always the same training profiles. In the training definition, the following reference values can be selected, depending on whether you want to create a profile for load or pulse data.
Reference value | Training type | Description |
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Watt / kg |
load profileLoad Profile | This is a common specification in training science. For example, it is defined that a patient should train 1 |
.,2 watts per 1 kg body weight. This value is the watt value that has to be trampled per kg body weight (relative to the weight). |
maximum Watt / kg |
load profileLoad Profile | This is the maximum watt / kg value determined in the stress test ( |
stress spiroergometryCPET), i.e. the maximum load related to the body weight under consideration of what the patient can achieve to the maximum. |
maxumum profileProfile | This is the maximum achieved heart rate of the patient determined in the stress test ( |
stress- spiroergometryCPET), or a value determined from various (adjustable) formulas. |
HR |
reseerve profileProfile | For training, the optimal HR can also be defined via the HR reserve (see Karvonen formula), |
where by definition HRreserve is := HRmax - HRrest. The HR to be achieved is then HRrest + |
x % x% of HRReserve. The percentage of HRreserve is also called training intensity, which is usually around 60-70% in cardiological rehabilitation. |