With this system, it is possible to activate the cardiovascular system of (post) ICU patients in an early stage. This will reduce the risk of trombosis and embolisms, muscular hypotrophy, decubit scars / ulcers or sepsis. When the extubated patient starts exercising in an early stage, the cardiovasular system is activated. This could prevent muscular atrophy, infectuous skin and other complications which can occur during or after after ICU admission. Hence this may result in faster healing of patients and a shorter stay at the ICU.
The system can be transported easily which makes it possible to use it at the various other departments where the patient will proceed with the rehabilitation. Using the same Lode ergometer throughout the rehabilitation process will guarantee reproducible tests and efficient following of the recovery process of the patient.
Recovering the quality of life after Covid-19: how can we help the ex-Covid-19 patients?
Together with our sistercompanies ProCare and Umaco, Lode has thought about this question. We want to contribute to the fight against the consequences of the Corona virus.Brainstorming with leaders in the Covid-19 domain gave us a clear picture of the expected situation and the rehabilitation process. Combining this with our network and our understanding of movement and performance resulted into a new platform. We hope to make a difference with this platform and to bring people into contact with each other in order to allow patients to return to their daily life in the most optimal way. For more information, visit: https://www.covid-19rehab.nl/en/. Here you will find validated tools to improve the recovery process. The website is continuously updated.
Torque range | 1-70 Nm | Torque range for rpm independent workload control | |
Maximum rotational speed at 110 V | 1 rpm | Calibrator maximum rotations at 110 V | |
Minimum load | 7 W | the minimum load the ergometer can provide | |
Maximum peak load | 1000 W | the maximum load the ergometer can provide for a short period of time | |
Minimum load increments | 1 W | the smallest steps with which the load can be added | |
Maximum continuous load | 750 W | the maximum power the ergometer can deliver continuous | |
Hyperbolic workload control | control of workload in hyperbolic way | ||
Maximum rpm independent constant load | 150 rpm | rpm as to which constant load can be applied | |
Minimum rpm independent constant load | 30 rpm | rpm as from which constant load can be applied | |
Optional heart rate controlled workload | control the device optionally through a set heartrate | ||
Electromagnetic "eddy current" braking system | system that very accurately applies a brake to the ergometer |
Workload accuracy from 7 to 100 W | 3 W | accuracy of the ergometer between 7 and 100 Watt | |
Workload accuracy from 100 to 500 W | 3 % | accuracy of the ergometer between 100 and 500 Watt | |
Workload accuracy from 500 to 1000 W | 5 % | accuracy of the ergometer between 500 and 1000 Watt |
English user interface | User interface available in English language | ||
Chinese user interface | User interface available in Chinese language | ||
Croatian user interface | User interface available in croatian language | ||
Czech user interface | User interface available in Czech language | ||
Danish user interface | User interface available in Danishlanguage | ||
Dutch user interface | User interface available in Dutch language | ||
Finnish user interface | User interface available in Finnish language | ||
French user interface | User interface available in French language | ||
German user interface | User interface available in German language | ||
Greek user interface | User interface available in Greek language | ||
Hungarian user interface | User interface available in Hungarian language | ||
Italian user interface | User interface available in Italian language | ||
Japanese user interface | User interface available in language | ||
Korean user interface | User interface available in Korean language | ||
Latvian user interface | User interface available in Latvian language | ||
Lithuanian user interface | User interface available in Lithuanian language | ||
Norwegian user interface | User interface available in Norwegian language | ||
Polish user interface | User interface available in Polish language | ||
Portugese user interface | User interface available in Portugese language | ||
Romanian user interface | User interface available in romanian language | ||
Russian user interface | User interface available in Russian language | ||
Spanish user interface | User interface available in Spanish language | ||
Swedish user interface | User interface available in Swedish language | ||
Turkish user interface | User interface available in Turkish language | ||
Ukrainian user interface | User interface available in Ukrainian language | ||
Readout Distance | Readout the distance on control unit | ||
Readout RPM | Readout the actual rpm on control unit | ||
Readout Heartrate | Readout the actual heartarte on control unit | ||
Readout target HR | Readout target heartarte on control unit (only possible with HR option) | ||
Readout Energy | Readout the energy on control unit | ||
Readout Torque | Readout torque on control unit | ||
Readout Time | Readout time on control unit | ||
Readout Power | Readout the actual power on control unit | ||
Set Display | Choosing parameters to be shown on the display during the stress test | ||
Set Resistance | Possibility to define a specific resistance for each test subject | ||
Set P-Slope | Possibility to set the load regulation resistance | ||
Set Mode | Possibility to define parameters to be adjusted during the stress test | ||
Manual operation mode | Operate manually | ||
Preset protocol operation mode | Operate via preset protocols | ||
External control unit | a control unit is connected with a cable to the ergometer | ||
Selfdesigned protocol operation mode | operate via selfdesigned protocols |
V AC | 100-240 V | voltage in Volt | |
Phases | 1 | phases | |
Frequency | 50/60 Hz | frequency in Herz | |
Power cord IEC 60320 C13 with CEE 7/7 plug | European power cord and connector standard supplied with product | ||
Power cord NEMA | NEMA power cord and connector |
ISO 13485:2016 compliant | Lode fulfils ISO 13485:2016 requirements | ||
ISO 9001:2015 compliant | Lode fulfills ISO 9001: 2015 requirements |
Minimum operational temperature | 14 °C | minimum temperature at which the device will work within specification | |
Maximum operational temperature | 35 °C | maximum temperature at which the device will work within specification | |
Minimum operational air pressure | 80 kPa | minimum airpressure as from which the product will be operating within specification | |
Maximum operational air pressure | 106 kPa | maximum air pressure as from which the product will be operating within specification | |
Minimum operational non-condensing humidity | 30 % | minimum non-condensing humidity at which the product will operate within specification | |
Maximum operational non-condensing humidity | 60 % | maximum non-condensing humidity at which the product will operate within specification | |
Minimum storage & transport temperature | -20 °C | minimum temperature the product may be stored and transported at | |
Maximum storage & transport temperature | 60 °C | maximum temperature the product may be stored or transported at | |
Minimum air pressure storage & transport | 50 kPa | minimum air pressure the product may be stored or transported at | |
Maximum storage & transport air pressure | 106 kPa | maximum air pressure the product may be stored and transported at | |
Min. humidity storage & transport | 10 % | minimum non-condensing humidity that the product can be stored or transport at | |
Max. humidity storage & transport | 95 % | max. non-condensing humidity that the product can be stored or transported at |