A good socket as a prerequisite for mobility. Non-amputees move best with the right footwear. Amputees move best with the right socket. This training provides an entertaining bird's eye view of central topics in the field of socket technologies, illustrates what makes a good socket and sensitizes to the needs of amputees.
A good socket as a prerequisite for mobility. Non-amputees move best with the right footwear. Amputees move best with the right socket. This training provides an entertaining bird's eye view of central topics in the field of socket technologies, illustrates what makes a good socket and sensitizes to the needs of amputees.
Prosthetics Lower Limb
Socket technologies | A holistic view
A good socket as a prerequisite for mobility. Non-amputees move best with the right footwear. Amputees move best with the right socket. This training provides an entertaining bird's eye view of central topics in the field of socket technologies, illustrates what makes a good socket and sensitizes to the needs of amputees.
This video-tutorial supports CPOs and occupational therapists regarding the therapay and rehabilitation of users with above-elbow Body-Powered arm prostheses. They are guided through the therapy and training sessions step by step: From the assessment to the the therapy and rehabilitation part and finally ending with the quality check. Refers to steps 2, 6 and 7 of the treatment cycle of the Ottobock Body-Powered Education Concept.
This video-tutorial supports CPOs and occupational therapists regarding the therapay and rehabilitation of users with above-elbow Body-Powered arm prostheses. They are guided through the therapy and training sessions step by step: From the assessment to the the therapy and rehabilitation part and finally ending with the quality check. Refers to steps 2, 6 and 7 of the treatment cycle of the Ottobock Body-Powered Education Concept.
Prosthetics Upper Limb
Body-powered prostheses
Therapy for Transradial Body-Powered Users
This video-tutorial supports CPOs and occupational therapists regarding the therapay and rehabilitation of users with above-elbow Body-Powered arm prostheses. They are guided through the therapy and training sessions step by step: From the assessment to the the therapy and rehabilitation part and finally ending with the quality check. Refers to steps 2, 6 and 7 of the treatment cycle of the Ottobock Body-Powered Education Concept.
This how-to video shows the thumb adjustment to contact point of the bebionic hand small.
The adjustment option makes it possible to optimize the contact point of the thumb with the opposite index and middle fingers (for the tripod grip), or with the index finger only (pinch and precision grips). The adjustment screw is located below the CMC joint of the thumb. Perform the following steps to make the adjustments.
Always read the IFU of the bebionic hand carefully before start adjusting the hand.
This how-to video shows the thumb adjustment to contact point of the bebionic hand small.
The adjustment option makes it possible to optimize the contact point of the thumb with the opposite index and middle fingers (for the tripod grip), or with the index finger only (pinch and precision grips). The adjustment screw is located below the CMC joint of the thumb. Perform the following steps to make the adjustments.
Always read the IFU of the bebionic hand carefully before start adjusting the hand.
Prosthetics Upper Limb
Bebionic
bebionic prosthetic hand small - Tutorial: thumb adjustment contact point
This how-to video shows the thumb adjustment to contact point of the bebionic hand small.
The adjustment option makes it possible to optimize the contact point of the thumb with the opposite index and middle fingers (for the tripod grip), or with the index finger only (pinch and precision grips). The adjustment screw is located below the CMC joint of the thumb. Perform the following steps to make the adjustments.
Always read the IFU of the bebionic hand carefully before start adjusting the hand.
In safety mode (for example, when the battery is drained) the Meridium switches to individually set resistances for Plantar and DF. The standing stop is not available. The values set by the OT should provide a compromise between statics and dynamics. This video shows the impact and training of walking in safety mode, on level surfaces, on ramps and on stairs.
In safety mode (for example, when the battery is drained) the Meridium switches to individually set resistances for Plantar and DF. The standing stop is not available. The values set by the OT should provide a compromise between statics and dynamics. This video shows the impact and training of walking in safety mode, on level surfaces, on ramps and on stairs.
Prosthetics Lower Limb
Meridium
Meridium - Safety Mode
In safety mode (for example, when the battery is drained) the Meridium switches to individually set resistances for Plantar and DF. The standing stop is not available. The values set by the OT should provide a compromise between statics and dynamics. This video shows the impact and training of walking in safety mode, on level surfaces, on ramps and on stairs.
In this course, "Socket Technologies" is defined, and connected with the fundamentals of socket design, liner differentiation, suspension systems and more. After finishing, you will be able to answer the following questions:
- What is the purpose of socket technologies?
- Why do we need a liner and which should I choose for my patients?
- What are the different suspension systems and socket types?
In this course, "Socket Technologies" is defined, and connected with the fundamentals of socket design, liner differentiation, suspension systems and more. After finishing, you will be able to answer the following questions:
- What is the purpose of socket technologies?
- Why do we need a liner and which should I choose for my patients?
- What are the different suspension systems and socket types?
Prosthetics Lower Limb
Socket Technolgy
Socket Technology Fundamentals
In this course, "Socket Technologies" is defined, and connected with the fundamentals of socket design, liner differentiation, suspension systems and more. After finishing, you will be able to answer the following questions:
- What is the purpose of socket technologies?
- Why do we need a liner and which should I choose for my patients?
- What are the different suspension systems and socket types?
The Meridium has MyModes for special types of movement (e.g., golf, ...). These are preset via the adjustment software by the orthopedic technician. This video shows the change of the MyMode using the movement pattern and as an example the use of a home trainer.
The Meridium has MyModes for special types of movement (e.g., golf, ...). These are preset via the adjustment software by the orthopedic technician. This video shows the change of the MyMode using the movement pattern and as an example the use of a home trainer.
Prosthetics Lower Limb
Meridium - MyModes
The Meridium has MyModes for special types of movement (e.g., golf, ...). These are preset via the adjustment software by the orthopedic technician. This video shows the change of the MyMode using the movement pattern and as an example the use of a home trainer.
The new sitting function automatically switches C-Leg 4 to free-swing when the user sits down, resulting in a relaxed position and activation of a battery save mode.
The new sitting function automatically switches C-Leg 4 to free-swing when the user sits down, resulting in a relaxed position and activation of a battery save mode.
Prosthetics Lower Limb
C-Leg
C-Leg 4: Sitting Function
The new sitting function automatically switches C-Leg 4 to free-swing when the user sits down, resulting in a relaxed position and activation of a battery save mode.
X-Soft recommends a value for the stance flexion resistance based on the user data that was entered. Work together with the user to further refine this value.
X-Soft recommends a value for the stance flexion resistance based on the user data that was entered. Work together with the user to further refine this value.
Prosthetics Lower Limb
Genium
Stance Flexion Resistance
X-Soft recommends a value for the stance flexion resistance based on the user data that was entered. Work together with the user to further refine this value.
Mode C is appropriate for users who have moderate control over their residual limb, can handle a variety of everyday situations and can walk short to medium distances outdoors. The stance phase is not locked but exhibits a high level of damping. The swing phase can be released earlier, which promotes more dynamic movements. The stance phase flexion damping has to be customized in advance.
Mode C is appropriate for users who have moderate control over their residual limb, can handle a variety of everyday situations and can walk short to medium distances outdoors. The stance phase is not locked but exhibits a high level of damping. The swing phase can be released earlier, which promotes more dynamic movements. The stance phase flexion damping has to be customized in advance.
Prosthetics Lower Limb
Kenevo
Activity Mode C
Mode C is appropriate for users who have moderate control over their residual limb, can handle a variety of everyday situations and can walk short to medium distances outdoors. The stance phase is not locked but exhibits a high level of damping. The swing phase can be released earlier, which promotes more dynamic movements. The stance phase flexion damping has to be customized in advance.
Varos is an adjustable transfemoral socket from Ottobock that is easy to set up and adjust. This short course reviews the features and technical aspects of the Varos socket.
Varos is an adjustable transfemoral socket from Ottobock that is easy to set up and adjust. This short course reviews the features and technical aspects of the Varos socket.
Prosthetics Lower Limb
Varos
Varos | eLearning
Varos is an adjustable transfemoral socket from Ottobock that is easy to set up and adjust. This short course reviews the features and technical aspects of the Varos socket.
