Loads on a vertebral body replacement during locomotion measured in vivo

- We measured forces on a vertebral body replacement during level and staircase walking in 5 patients.
- Resultant force on the implant for level walking was 71% higher than the value for standing.
- Resultant force value increased by 165% when ascending stairs relative to the standing force.
- Walking speed had a strong effect on the implant force.
- Using a wheeled walker reduced the force on the implant to 62% of the standing force.

Walking is one of the most important activities in daily life, and walking exposes the spine to a high number of loading cycles. Little is known about the spinal loads during walking. Telemeterized spinal implants can provide data about their loading during different activities. The aim of this study was to measure the loads on a vertebral body replacement (VBR) during level and staircase walking and to determine the effects of walking speed and using walking aids.Telemeterized VBRs were implanted in five patients suffering from compression fractures of the L1 or L3 lumbar vertebral body. The implant allows measurements of three force and three moment components. The resultant force on the VBR was measured during level and staircase walking, when walking on a treadmill at different speeds, and when using a wheeled invalid walker or crutches.On average, the resultant force on the VBR for level walking was 171% of the value for standing. This force value increased to 265% of the standing force when ascending stairs and to 225% when descending stairs. Walking speed had a strong effect on the implant force. Using a walker during ambulation on level ground reduced the force on the implant to 62% of standing forces, whereas using two crutches had only a minor effect.Walking causes much higher forces on the VBR than standing. A strong force reduction can be achieved by using a walker.