The Leatt 5.5 collar offers maximum protection without compromising on comfort. The brand's flagship product, Leatt collars are proven to reduce forces on the neck and neck injuries. The clavicle cut-out keeps the edge of the helmet away from fragile bones, while the rear strut is designed to come off before putting undue pressure on the back.
The 5.5 collar is extremely comfortable and durable. It is lightweight, made of composite polyamide and has 3-way adjustability for a perfect fit. Stay fully protected and ride with confidence.
- Tested independently in the lab and by motorcyclists, it has been proven to reduce neck forces and neck injuries by transferring the load during an accident away from the fragile bones of the neck.
- *Reduction of up to 89% of critical cervical spine injuries
- *Clavicle injuries up to 45% more likely WITHOUT a cervical collar
- *Independent motorbike motorbike study conducted by Action Sports EMS
- Clavicle cut designed to keep the edge of the helmet away from the most fragile bones
- Optimal impact platform of the helmet edge is designed to redistribute the forces on the neck and give the helmet freedom of movement
- The CoreFlex foldable rear thoracic strut is designed to adapt to the natural movements of the body, providing a more comfortable fit and greater freedom of movement before exerting excessive pressure on the back
- SureFit front and rear sliding adjusters offer three-way adjustability for a perfect fit
- Composite matrix platform allows efficient reduction of forces on the neck
- Sculpted, split front for greater comfort and a better fit
- Low-profile push-button opening/closing system
- Easy-to-use emergency release mechanism
- Durable and easy-to-clean injected foam padding
- Tested and CE certified according to PPE Regulation (EU) 2016/425
- Weight: from 600 g (1.32 lbs)
- Sizes: S/M - L/XL
- Packaging without plastic
Up to 47% reduced risk of serious neck injury
Independently tested and proven to reduce neck forces
Composite matrix platform allows for themost efficient reduction in neck forces
