ToeOFF® Short

ToeOFF® Kort er en spesialmodell som har kortere tibiadel, bredere fotblad over metatarsalleddene, lengre tåsprengning og lavere hælhøyde enn ToeOFF originalortose. Skal brukes sammen med polstring. ToeOFF® Kort har en hælhøyde på 7 mm i alle størrelser.

Bruksområde

Droppfot kombinert med ingen til middels spastisitet, i visse tilfeller også ved nedsatt knekontroll.

Kontraindikasjoner

Kraftige ødem, diabetessår og ved meget nedsatt sensibilitet og kraftig spastisitet.

Annen informasjon

Mer informasjon om utprøving, tilpassing, valg av modell og størrelse finnes i Allard AFO Professional Instruction.

Art.nr. Modell Størrelse Ve/Hø Skostørrelse Fotbladets lengde Høyde
289901011 ToeOFF Kort Svart Small Venstre 32-35 21,5 cm 29,5 cm
289901012 ToeOFF Kort Svart Medium Venstre 35-38 23,5 cm 32 cm
289901013 ToeOFF Kort Svart Large Venstre 38-42 25,5 cm 34 cm
289902011 ToeOFF Kort Svart Small Høyre 32-35 21,5 cm 29,5 cm
289902012 ToeOFF Kort Svart Medium Høyre 35-38 23,5 cm 32 cm
289902013 ToeOFF Kort Svart Large Høyre 38-42 25,5 cm 34 cm
Allard AFO STEP 1 PRODUCT SELECTION Play video
Allard AFO STEP 1 PRODUCT SELECTION
Allard AFO STEP 2 SIZE SELECTION Play video
Allard AFO STEP 2 SIZE SELECTION
Allard AFO STEP 3 FOOT BIOMECHANICS Play video
Allard AFO STEP 3 FOOT BIOMECHANICS
Allard AFO STEP 4 SHOE SELECTION & HEEL HEIGHT Play video
Allard AFO STEP 4 SHOE SELECTION & HEEL HEIGHT
Allard AFO STEP 5 PROPER ALIGNMENT Play video
Allard AFO STEP 5 PROPER ALIGNMENT
Allard AFO STEP 6 PROXIMAL CONTROL Play video
Allard AFO STEP 6 PROXIMAL CONTROL
Allard AFO STEP 7 PATIENT COMFORT Play video
Allard AFO STEP 7 PATIENT COMFORT
Allard AFO STEP 8 PATIENT EDUCATION Play video
Allard AFO STEP 8 PATIENT EDUCATION
Customizing the ToeOFF® Carbon Fiber AFO to Meet a Runner's Needs Play video
Customizing the ToeOFF® Carbon Fiber AFO to Meet a Runner's Needs
Bracing for a Marathon Play video
Bracing for a Marathon
Energy expenditure in stroke subjects walking with a carbon composite ankle foot orthosis

Author: Danielsson A, Stibrant Sunnerhagen K.

Source: J Rehabil Med 2004; 36: 165–168

One clinic's experience with carbon fiber orthoses in neuromuscular disease

Author: ANI MNATSAKANIAN BS et al.

Source: Muscle Nerve 000:000–000, 2016

Efficacy of prefabricated carbon-composite ankle foot orthoses for children with unilateral spastic cerebral palsy exhibiting a drop foot pattern.
Characterization of Defects in Polymaer Composites Used in Medical Devices by Means of X-ray Microtomography.

Author: Roberts Joffe, Fredrik Forsberg, Henrik Lycksam, Anders Sjögren

Source: ICTMS 2017 - 3rd International Conference on Tomography of Materials and Structures, 26-30 June 2017, Lund, Sweden

Multiplanar Stiffness of Commercial Carbon Composite Ankle-Foot Orthoses.
Comparison of five different methodologies for evaluating ankle–foot orthosis stiffness.
Carbon fiber ankle-foot orthoses in impaired population

Author: Megan M. Grunst , Robert C. Wiederien and Jason M.

Source: A systematic review Prosthetics and Orthotics International 2023

A Pilot Study to Assess the Immediate Effect of Dynamic Carbon Ground Reaction Ankle Foot Orthoses on Balance in Individuals with Charcot-Marie-Tooth in a Clinical Setting

Author: Burke K1,2, Cornell K1,3, Swartz Ellrodt A1,2, Grant N1,2, Paganoni S2,4,5 and Sadjadi R1,2*

Source: CMT study.2021

Preliminary research suggests the use of a kinetic return ankle foot orthosis is associated with small but significant shortterm increases in calf circumference, which in turn suggests [...]

Preliminary research suggests the use of a kinetic return ankle foot orthosis is associated with small but significant shortterm increases in calf circumference, which in turn suggests this type of device might reduce or protect against the risk of disuse muscle atrophy.

Author: Robert H. Meier, CO, BOCO; David C. Ruthsatz, CO, CPA; and Daniel, Cipriani, PT, PhD. 

Source: Lermagazine 2014

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