Introduction to Spinal Orthotics: Difference between revisions

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<div class="editorbox"> '''Original Editor '''- [[User:Carin Hunter|Carin Hunter]] based on the course by [https://members.physio-pedia.com/course_tutor/donna-fisher/ Donna Fisher]<br> '''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div>
<div class="editorbox"> '''Original Editor '''- [[User:Carin Hunter|Carin Hunter]] based on the course by [https://members.physio-pedia.com/course_tutor/donna-fisher/ Donna Fisher]<br>'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div>


== Introduction ==
== Introduction ==
* Orthotic management of spinal disorders dates back to Egyptian times.
In the early days of making orthoses, materials such as metal and leather were predominantly used. However, these materials were heavy, hot and uncomfortable, so materials have been developed and progressed over time. Now, lightweight foams and thermoplastics are used, which facilitates new designs and more comfort for the user.
* Some of the concepts used in primitive devices, such as the use of three-point forces are still valid today.
* Materials have progressed from metal and leather to light weight foams and thermoplastics facilitating new designs and more comfort for the user.


* Spine is a complex part of our anatomy and the key structure to our function.
A spinal orthosis is an external aid that is used to correct and support the spine. The spine is a complex anatomical structure and is key to our function. It is not possible to treat all spinal conditions with orthotics alone. However, a multidisciplinary team approach that includes orthotists, surgeons, and physiotherapists and considers the patient's perspectives can have positive results. A thorough assessment, appropriate goal setting and clear expectations will result in a well-designed and appropriate orthotic device which is comfortable and functional and meets the user's needs.<ref name=":0" /> Unlike other orthotic devices, many spinal braces are off-the-shelf, although certain situations call for a custom-made device.<ref name=":0" />
* Not possible to treat all spinal issues with orthotic and team work with surgeons, physiotherapy and the patient is important
* Assessment, goal setting and clear expectations will lead to a well designed and appropriate orthotic device which is comfortable and functional and meets the users needs.


What is an orthosis
== Four Principles of Spinal Bracing ==


* External aid
===== Assessment =====
* The word orthosis is derived from the Greek word meaning “to straighten or align”
* Spinal orthoses or braces are appliances used to correct and support the spine
* Integrates biomechanical principles
* OTS/Individually designed/customised
* Unlike most other types of orthoses, many spinal braces are OTS


Why a spinal orthosis
* Medical diagnosis
* Knowledge of anatomy / physiology
* Subjective assessment
** Medical history
** Social history
** Underlying conditions
** X-ray reports and findings
* Objective assessment
** [[Range of Motion|Range of motion]]
** [[Muscle Strength Testing|Muscle strength]]
** [[Sensation#Sensory Examination|Sensation testing]]
* Determination of which motions should be restricted by the device:
** Sagittal [[Cardinal Planes and Axes of Movement|plane]]
** Frontal / coronal plane
** Transverse plane
** Combination of directional control
* Functional goals of the orthotic device and patient<ref name=":0" />


* Provides support and stabilization
===== Aims =====
 
* Provides support and stabilisation
* Maintains alignment of spine
* Maintains alignment of spine
* Prevention/correction of deformity
* Prevention / correction of deformity
* Reduce pain by limiting motion
* Reduce pain by limiting motion
* Assist with healing post surgery
* Assist with healing post-surgery
 
* Restriction of motion
Principles of Spinal Bracing
* Reduction of axial loading of the spine
 
 
Design of a spinal brace is based on:
 
* Biomechanics of the spine
* Restriction of motion  
** sagittal
** coronal/frontal
** transverse or combination of directional control
* Reduction of axial loading of the spine  
* Increasing intra-abdominal pressure may reduce axial loading of spine
* Increasing intra-abdominal pressure may reduce axial loading of spine
* May provide heat and kinesthetic feedback, acts as a reminder.
* May provide heat and kinesthetic feedback and act as a reminder for the patient<ref name=":0" />


Principles - 3 Point Pressure Control
===== Manufacturing =====
* Materials
** Soft fabric
** Flexible plastic
** Polyethylene
** Rigid plastic polypropylene
* Construction
** Off-the-shelf
** Custom made
* Suspension / strapping should be anchored above the iliac crests or over the shoulders
* For cosmetic purposes, the device should be worn under clothing around the trunk<ref name=":0" />


===== Fitting and Evaluation =====
* '''Comfort'''.
** Rejection due to discomfort is common as there are high forces applied when applying a spinal brace. This is important for patient compliance and efficacy of the brace.
* '''Good anatomical fit'''
* '''Good biomechanical function.'''
** When assessing function, there may be a requirement for an x-ray both in and out of the brace.
* '''Easy to don / doff'''
* '''Cosmesis'''<ref name=":0" />


Based on “Laws of Equilibrium”
== Anatomy ==
The [[Spinal cord anatomy#Spinal Cord: External|vertebral column]] consists of 24 individual bones called vertebrae. The spinal column consists of this vertebral column and two sections of naturally fused vertebrae, the sacrum and the coccyx, located at the very bottom of the spine. Vertebrae are separated by intravertebral discs, which are fluid-filled cushions between vertebrae.<ref name=":0" /><br />'''The vertebral column can be divided into 5 regions:'''


* Most orthotic devices use a three-point pressure control design
# Cervical spine: 7 vertebrae of the neck (C1-C7)
* This requires three-points of contact with balanced opposing forces in a particular plane.
# Thoracic spine: 12 vertebrae of the mid-back (T1-T12)
** Pressure = Force / Area
# Lumbar spine: 5 vertebrae of the lower back (L1-L5)
** Moment = Force x Distance
# Sacrum
** Moment is angular movement around an axis. The longer the lever arm the less force is required to control a joint and therefore results in reduced pressure
# Coccyx
[[File:Vertebral Column (1).jpg|thumb|600x600px]]
'''<u>Cervical Region:</u>'''


Anatomy
* There are [[Cervical Anatomy#Vertebrae|7 cervical vertebrae]] - two vertebrae are considered atypical: the Atlas and Axis
* Movements:
** Cervical flexion / extension – Atlas (nodding)
** Cervical rotation – Axis (shaking head)
** Lateral flexion<ref name=":0" />


* The vertebral column consists of 24 individual bones called vertebrae.
'''<u>Thoracic Region:</u>'''
* The spinal column consists of this vertebral column and 2 sections of naturally fused vertebrae—the sacrum and the coccyx—located at the very bottom of the spine.
* There are [[Thoracic Anatomy#Bones .28vertebrae and ribs.29|12 thoracic vertebrae]]
* <br />The vertebral column can be divided into 5 regions:
* Movements:
** Cervical spine: 7 vertebrae of the neck (C1-C7)
** Thoracic spine: 12 vertebrae of the mid-back (T1-T12)
** Lumbar spine: 5 vertebrae of the lower back (L1-L5)
** Sacrum
** Coccyx
** Separated by Discs, intravertebral discs, fluid filled cushions between vertebrae
 
Function/movements of each region
 
* Cervical
* There are 7 cervical vertebrae with 2 considered atypical vertebrae:
* Atlas and Axis
* Cervical flexion/Extension – Atlas (Nodding)
* Cervical Rotation –Shaking head Axis
* Lateral bending
 
Thoracic Region
 
* There are 12 thoracic vertebrae
* The thoracic vertebral motion is limited by the facets and ribs
** Rotation
** Rotation
** Flexion/extension
** Flexion / extension
** Side /Lateral bending
** Side / lateral flexion
* Largest motion is at T12/L1. Due to the lack of rib stabilization at this level and the facets being more medial to lateral orientation
* The thoracic vertebral motion is limited by the facets and ribs
* Associated with more injury and degenerative changes.
** The largest motion segment is at T12/L1
 
*** This is due to the lack of rib stabilisation at this level and because the facets have a more medial to lateral orientation
Lumbar Region
* Thoracic injuries are often associated with injury, trauma and degenerative changes<ref name=":0" />
 
'''<u>Lumbar Region:</u>'''
* There are 5 lumbar vertebrae:
* There are [[Lumbar Anatomy|5 lumbar vertebrae]]
** Primarily flexion and extension,
* Movements:
** Some lateral bending
** Primarily flexion and extension
** Limited rotation
** Partial lateral flexion
 
** Limited rotation<ref name=":0" />
Anatomy of Spine - Problems
 
* Spine function
* Upright walking, protection spinal cord, head to ground weight transfer
* Ligaments muscles
* Discs, intravertebral discs
* Bony structures attached
 
Common spinal disorders
 
* Fractures-
** Compression
** Dislocation
** Compression/dislocation
** 5-10% occur in the cervical (neck) region.
** 60-65% occur in the thoracolumbar (low back) region, often at T12-L1.
*** Common Causes: Osteoporosis, Trauma, Tumour


* Intravertebral disc problems
== Common Spinal Disorders ==
'''<u>1. Fractures:</u>''' There are three types of [[Fracture|fractures]] that are commonly treated with spinal orthotics: compression, dislocation and compression / dislocation. 5-10% of these occur in the cervical (neck) region while up to 65% occur in the thoracolumbar region, commonly at T12-L1 levels. Common causes include [[osteoporosis]], trauma and tumours.<ref name=":0" />


* Prolapsed/ herniated disc
'''<u>2. Intravertebral Disc Complications:</u>''' There are many complications associated with the intervertebral disc. Often complications are caused by a prolapsed or [[Disc Herniation|herniated disc]] or are degenerative in nature. Disc degeneration can be due to ageing, trauma, repetitive strains or wear and tear.<ref name=":0" />
* Degeneration
* Age, trauma, repetitive strain, wear and tear.
** Spondylolisthesis-  Latin term meaning slipped vertebral body  Typically, the L4 vertebral body slips forward on the L5 vertebral body. Under normal circumstances, the L4-L5 segment is the one in the lumbar spine with the most movement.  
** Spondylolisthesis in the lumbar spine is most commonly caused by degenerative spinal disease (degenerative spondylolisthesis).
** occurs as a result of due to degeneration or wear and tear of the intervertebral discs and ligaments.
** Osteoarthritis of the facet joints can also play an important role in the development of instability and slippage.
** Degenerative spondylolisthesis usually occurs in people over 60 years of age.
*** Curvatures
*** Lordosis. Excessive convex curvature of the lumbar spine
*** Kyphosis. Kyphosis is characterized by concave curvature of the upper spine (abnormal > 50 degrees of curvature)
*** Scoliosis. A lateral bend in the spine. The curve can be S-shaped or C-shaped.  Causes vary:  congenital, degenerative, trauma, tumour and idiopathic in nature
*** Soft tissue injuries  Soft tissues include the muscles, tendons, ligaments, and nerves. Injury to these tissues can be caused by unnecessary stress to the spine
*** Sprains/strains- lifting, poor posture
*** Muscle injury – lifting, sports
*** Trauma - Whiplash
*** Whether we are designing a custom made or customised device or fitting an off the shelf device. The construction of the orthosis is based on the assessment of the patient and clear goals of what we want to achieve.   The material choices should reflect the forces to be generated and where, the activity level of the user and the proposed use of the orthosis and the environment. Often the orthosis will be a multi-layered construction, using different materials.  Any suspension or strapping is an integral part of the design and should be based on the users ability to don/doff the device, the area of the body to be braced and skin and pressure considerations.  The cosmesis or how the device will ultimately look is also very important, often we can be focused so much on the function of a device that we can overlook the importance of providing a comfortable and aesthetically pleasing orthosis. This can be a show stopper for some users and they can choose to abandon an orthosis that functions well but just doesn’t look good!


Orthotic Prescription
'''<u>3. Spondylolisthesis:</u>''' This is a Latin term which means 'slipped vertebral body'. Typically, the L4 vertebral body slips forward on the L5 vertebral body. Under normal circumstances, the L4-L5 segment is the one in the lumbar spine with the most movement. [[Spondylolisthesis]] in the lumbar spine is most commonly caused by degenerative spinal disease, and is referred to as degenerative spondylolisthesis. It is caused by degeneration of the intervertebral discs and ligaments. [[Spinal Osteoarthritis|Osteoarthritis]] of the facet joints can also contribute to the development of instability and slippage. Degenerative spondylolisthesis usually occurs in people over 60 years of age.<ref name=":0" />


* Medical and social history, underlying condition, x rays, diagnostics
'''<u>4. Lordosis:</u>''' A lordosis is classified as an excessive convex curvature of the lumbar spine.<ref name=":0" />
* Diagnosis of problem, knowledge of anatomy/physiology
* Functional goals of the orthotic device:


Need to determine what motions should be restricted by the device: sagittal, frontal, transverse plane motion
'''<u>5. Kyphosis:</u>''' Kyphosis is characterised by concave curvature of the upper spine (abnormal > 50 degrees of curvature).<ref name=":0" />


* Materials and design
'''<u>6. [[Scoliosis]]:</u>''' More simply known as a lateral bend in the spine. The curve can be S-shaped or C-shaped. The cause can be varied, but is often congenital, degenerative, or due to trauma or tumours. Occasionally they are idiopathic in nature. Scoliosis is discussed in more detail below.<ref name=":0" />
* Needs of the user


Types of Spinal Orthoses
'''<u>7. Soft Tissue Injuries:</u>'''  Soft tissues include the muscles, tendons, ligaments, and nerves. Injury to these tissues can often cause  stress on the spine.<ref name=":0" />


* CO:  Cervical orthosis (collars)
'''<u>8. Sprains / strains:</u>''' A sprain or strain is often due to poor posture or lifting a heavy object, whether it be poor lifting techniques or inadequate strength.<ref name=":0" />
* CTO: Cervicothoracic Orthosis (HALO, SOMI, Minerva)
* CTLSO: Cervico-thoraco-lumbosacral Orthosis (Milwaukee)
* TLSO: Thoracolumbo sacral orthosis CASH, Jewett, custom TLSO
* LSO: Lumbosacral orthosis (Corsets, Chairback O)
* SO: Sacral orthosis ( Sacro-iliac bands)


CO – Soft Collars
'''<u>9. Muscle injury:</u>'''  These types of injuries are often caused by lifting or sport.<ref name=":0" />


* Soft cervical collar: construction foam
'''<u>10. Trauma:</u>'''  Commonly associated with [[Whiplash Associated Disorders|whiplash]].<ref name=":0" />


* Provides partial support of the head reducing paraspinal contraction and spasm. No structural cervical spine support.  
== Types of Spinal Orthoses ==
* Movement
# '''Cervical Orthosis (CO)'''
** Flexion/extension by ~ 8-26%,  
# '''Cervicothoracic Orthosis (CTO), e.g. HALO, SOMI, Minerva'''
** Lateral bending is limited by ~8%
# '''Cervico-Thoraco-Lumbosacral Orthosis (CTLSO), e.g. Milwaukee'''
** Rotation ~10-17%.
# '''Thoracolumbosacral Orthosis (TLSO), e.g. CASH, Jewett, custom TLSO'''
# '''Lumbosacral Orthosis (LSO), e.g. Corsets, Chairback O'''
# '''Sacral Orthosis (SO), e.g. Sacro-iliac bands'''<ref name=":0" />


* Muscular strains/sprains
==== 1. Cervical Orthosis (CO) ====
* Trauma
'''<u>1. Soft Collars</u>'''[[File:Pp.png|thumb|300x300px|alt=]]The most basic collar is a soft cervical collar. It is made using construction foam and coated with cotton wool.<ref>Xu Y, Li X, Chang Y, Wang Y, Che L, Shi G, Niu X, Wang H, Li X, He Y, Pei B. D[https://www.hindawi.com/journals/abb/2022/8243128/ esign of Personalized Cervical Fixation Orthosis Based on 3D Printing Technology]. Applied Bionics and Biomechanics. 2022 Apr 30;2022.</ref> It provides partial support of the head, reducing paraspinal contraction and spasm. While it offers NO structural cervical spine support, it offers proprioceptive input, psychological reassurance and can provide relief through heat retention.<ref name=":0" />
* Movement limitations:<ref name=":0" />
** Flexion / extension limited by ~ 8-26%
** Lateral bending is limited by ~8%
** Rotation is limited by ~10-17%


Acts as a reminder, psychological reassurance and can provide relief through heat retention
* Assists with:<ref name=":0" />
** Muscular strains / sprains
** Trauma


CO – Hard Collars
'''<u>2. Hard Collars</u>'''


* Miami J Collar/VISTA Collar/ Aspen/ headmaster/Philadelphia
Hard collars are rigid / semirigid and are made of hard foam combined with plastic. The main function of this collar is support.<ref name=":0">Fisher, D. Introduction to Spinal Orthoses Course. Plus. 2022</ref>  Hard collars such as the Philadelphia collar may be used initially with unstable fractures until a decision is made regarding treatment. These collars can be used for 6-8 weeks when non-operative treatment is recommended.<ref>Ghosh JC. Review of Management of Type-2 Odontoid [https://www.scirp.org/journal/paperinformation.aspx?paperid=106768 Fracture in Elderly]. Open Journal of Orthopedics. 2021 Jan 11;11(1):12-21.</ref>
** (Rigid/semirigid): It is made of hard foam combined with plastic
* Types of hard collars:<ref name=":0" />
** Supportive
** Miami J Collar
* Movement/function
** VISTA Collar  
** Flexion/extension limited ~69-90%,
** Aspen  
** lateral bending limited ~34-48%  
** Headmaster
** Rotation limited ~74%.
** Philadelphia
* Features
* Movement / function limitations:<ref name=":0" />
** Flexion / extension limited by ~69-90%
** Lateral bending is limited by ~34-48%
** Rotation is limited by ~74%
* Features:<ref name=":0" />
** Tracheostomy opening
** Height around chin and occiput can be adjusted
** Due to their construction, most individuals report less sweating than those wearing a soft collar and increased comfort


* Has tracheostomy opening
* Indications:<ref name=":0" />
* Custom adjustment height around chin and occiput
* Less sweating, more comfortable
** Indications
** Cervical trauma in unconscious patients
** Cervical trauma in unconscious patients
** Jefferson’s Fracture (C1) Hangman’s fracture
**[[Jefferson fracture|Jefferson’s Fracture]] (C1), [[Hangman's Fracture|Hangman’s fracture]]
** Traumatic spondylolisthesis of C2 on C3
** Traumatic spondylolisthesis of C2 on C3
** Dens type I fracture
**[[Odontoid fractures|Dens type I fracture]]
** Post op care
** Post-operative care
** Anterior discectomy
**[[Anterior cervical discectomy and fusion|Anterior discectomy]]
** Cervical Strain
** Cervical strain<ref name=":0" />
 
Cervico-thoracic Orthosis


* CTO: Cervicothoracic orthosis
==== 2. Cervicothoracic Orthosis (CTO) ====
* Halo, Sterno-occipital mandibular orthosis, Minerva
* Types of CTO:
* CTLSO: Cervicothoracolumbosacral orthosis
** Halo
* CTLSO: Milwaukee
** Sterno-occipital mandibular orthosis (SOMI)
** Minerva


CTO
'''<u>1. Halo</u>'''


* Halo- extensive brace, surgically applied
A Halo brace is an extensive brace which is surgically applied. It is a 4-post brace that is attached by pins which are placed in the cranial table with a jacket fitted to the torso.<ref name=":0" /> Indications for a halo fixated brace range from: pre-surgical correction to post-operative fusion support. Additionally, a halo brace can be used as an alternative to surgery to conserve neck mobility.<ref>Banat M, Vychopen M, Wach J, Salemdawod A, Scorzin J, Vatter H. [https://link.springer.com/article/10.1007/s00068-021-01849-z Use of halo fixation therapy for traumatic cranio-cervical instability in children: a systematic review]. European Journal of Trauma and Emergency Surgery. 2021 Dec 9:1-7.</ref> The halo brace is more efficacious than a hard collar at limiting motion in the upper cervical spine.<ref>Kumar GR. [https://www.isjonline.com/article.asp?issn=2589-5079;year=2022;volume=5;issue=1;spage=10;epage=23;aulast=Vijay Approach to upper cervical trauma. Indian Spine Journal]. 2022 Jan 1;5(1):10.</ref>[[File:Halo Brace.png|thumb|Halo brace]]
* 4-poster orthotic that is attached by pins that are placed in the cranial table. Jacket fitted to torso.
* Movement / function limitations:<ref name=":0" />
* Maximum motion control to T3
** Flexion / extension limited by 96%
** Flexion/Ext limited 96%  
** Lateral bending is limited by 96%
** Lateral Bending limited 96%  
** Rotation is limited by 99%
** Rotation limited 99%.
** It offers maximum motion control to T3 level
 
* Indications:<ref name=":0" />
CTO: HALO
 
* Indications:
** Occipital condyle fractures
** Occipital condyle fractures
** C1 ring injuries,
** C1 ring injuries
** Odontoid fractures
** Odontoid fractures
** Hangman fractures (C2)
** [[Hangman's Fracture|Hangman's fractures (C2)]]
** facet subluxations  
** Facet subluxations
** spinal infections
** Spinal infections
** Extradural tumor involvement that compromises the spinal alignment or bony stability  
** Extradural tumour involvement that compromises the spinal alignment or bony stability
** Subaxial spine injuries
** Subaxial spine injuries<ref name=":0" />
 
'''<u>2. Sterno-Occipital Mandibular Orthosis (SOMI)</u>'''
* Minerva
** Minerva –removable version of HALO  Compliant patient who will not just remove it.
** Motion control
*** Flexion/Ext limited 96%
*** Lateral Bending limited 96%
*** Rotation limited 99%. Controls motion down to T3.
** Indications
*** mid-to-lower cervical spine injuries and
*** stable upper cervical spine injuries.
*** Can be used with skull fractures-Halo Fixator is contraindicated
*** Children due to its decreased weight and increased comfort.
 
CTO: Sterno-occipital mandibular Orthosis (SOMI)
 
* 3-Poster CTO
 
Anterior chest plate that extends to the xiphoid process. It has a removeable chin strap.
 
* Motion restriction
** Flexion/Extension is limited ~60-70%
** lateral bending ~20-35%
** rotation is limited ~30-65%
 
Controls flexion of C1-3 but controls extension less than with other cervical orthotics.
 
* Indications
** Atlanto-axial instability such as in Rheumatoid Arthritis
** Neural arch fractures of C2 due to flexion instability
 
CTLSO:Cervico-thoracolumbarsacral Orthosis
 
* Milwaukee Brace- the classic CTLSO
 
* Metal vertical superstructure with pelvic foundation with rigid plastic pelvic girdle connected to the neck with a ring. There are two posterior paraspinal bars. The cervical ring has mandibular and occipital bars that rest 20-30 mm inferior to the chin.
 
* Indications


* For treatment of kyphosis, high thoracic curves
A SOMI is a 3-post, anterior chest plate that extends to the [[Sternum|xiphoid]] process. It has a removeable chin strap.<ref name=":0" />
[[File:SOMI Brace.png|thumb|400x400px|SOMI brace|alt=]]
* Movement / function limitations:<ref name=":0" />
** Flexion / extension limited by ~60-70%
** Lateral bending is limited by  ~20-35%
** Rotation is limited by ~30-65%
** Offers flexion control of C1-3, but controls extension less than with other cervical orthotics


occiput and mandible.
* Indications:<ref name=":0" />
** Atlanto-axial instability such as in [[Rheumatoid Arthritis|rheumatoid arthritis]]
** Neural arch fractures of C2 due to flexion instability<ref name=":0" />


Pads are positioned to apply forces to correct curvature.


Thoraco lumbar Orthosis
'''<u>3. Minerva</u>'''


* TLSO: Thoracolumbar orthosis
The Minerva orthosis is a removable version of the Halo. This type of orthosis is offered to compliant patients who will not just remove the brace.<ref name=":0" />
* CASH, Jewett, Custom-molded body jacket. Knight Taylor TLSO
* [[File:Minerva Cervico Thoracic Brace - Ottobock Image.jpg|thumb|Minerva brace]]Movement / function limitations:<ref name=":0" />
* Providence Night Brace
** Flexion / extension limited by ~96%
* Charleston Bending Brace
** Lateral bending  is limited by ~96%
** Rotation is limited by ~99%
** This brace offers control of motion down to T3 level
* Indications:<ref name=":0" />
** Mid-to-lower cervical spine injuries
** Stable upper cervical spine injuries
** Can be used with skull fractures when a Halo Fixator is contraindicated
** Children due to its decreased weight and increased comfort<ref name=":0" />


TLSO- Thoracolumosacral Orthosis
*


==== 3. Cervico-Thoracolumbarsacral Orthosis (CTLSO) ====
The Milwaukee Brace is the classic CTLSO. It comprises of a metal vertical superstructure that has a pelvic foundation, with a rigid plastic pelvic girdle connected to the neck with a ring. It has two posterior paraspinal bars. The cervical ring has a mandibular and occipital bar which rests 20-30 mm inferior to the chin. The pads are positioned to apply forces in order to correct curvature.<ref name=":0" />


OTS- adapted for individual use or Custom made
* Indications:<ref name=":0" />
** Treatment of kyphosis
** Treatment of high thoracic curves


* OTS TLSO - comfortable design, easy to don and doff.  
==== 4. Thoracolumbosacral Orthosis (TLSO) ====
** CASH, Jewett, Knight Taylor TLSO
** limited movement control
** flexion from T6 -L1.
** does not limit lateral bending or rotation.


Indications:  
* Types of Thoracolumbosacral Orthoses:<ref name=":0" />[[File:TLSO.jpg|thumb|TLSO brace]]
** CASH
** Jewett
** Knight Taylor TLSO
** Custom-molded Spinal/Body Jacket
** Providence Night Brace
** Charleston Bending Brace
* Off-the-shelf (CASH, Jewett, Knight Taylor):<ref name=":0" />
** Comfortable design
** Easy to don and doff
** Limited movement control
** Flexion from T6-L1
** No limitation of lateral flexion or rotation
** Indications:<ref name=":0" />
*** Thoracic and lumbar vertebral body fracture
*** Kyphosis reduction in osteoporosis
*** Cervical trauma in unconscious patients
* Off-the-shelf moulded plastic Spinal Jacket:
** Indications:<ref name=":0" />
*** Immobilisation for thoracic compression fractures from osteoporosis
*** Immobilisation after surgical stabilisation for spinal fractures
*** Immobilisation for unstable spinal disorders of T3-L3
* Custom made Spinal Jacket:
** Indications:<ref name=":0" />
*** Scoliosis
*** Severe spinal abnormalities
*** Night bracing


* Thoracic and lumbar vertebral body fracture and kyphosis reduction in osteoporosis.
=== Scoliosis ===
 
[[File:Scoliosis.jpg|thumb|350x350px|scoliosis|alt=]]
* Moulded plastic Spinal Jacket (TLSO)
* Types of [[scoliosis]]:<ref name=":0" />
** OTS shell
** Neuromuscular scoliosis
** Custom made – from plaster cast
** [[Congenital Spine Deformities|Congenital skeletal scoliosis]]
*** Overlap type brace  Indications:  
** [[Idiopathic Scoliosis|Idiopathic scoliosis]]
*** Immobilization for thoracic compression fractures from osteoporosis. Immobilization after surgical stabilization for spinal fractures.  
* Indications for bracing in scoliosis:<ref name=":0" />
*** Immobilization for unstable spinal disorders of T3-L3.
** Flexible curves with [[Cobb's angle]] (10°- 40°)
*** Custom made Spinal Jacket (TLSO)
*** 10°- 20° observe initially, if curve progresses by 5° then brace
**** Custom made – from plaster cast
*** 30°- 40° prompt use of orthosis
**** Scoliosis, severe spinal abnormailities
*** > 40◦  generally surgery
**** Night Bracing
*** Risser sign for remaining growth
 
*'''Boston Brace'''<ref name=":0" />[[File:Boston Brace - Donna's Own Image.jpg|thumb|alt=]]
 
** In the 1970s, this was the most researched and widely used brace
SCOLIOSIS
** Module from measurements, type of curve
 
** Blueprint created from x-rays
* Neuromuscular Scoliosis
** Determine apex of curve and position of pads ([[Foundations for Ankle Foot Orthoses#Three-Point Force System|three-point pressure system]])
 
* Congenital Skeletal Scoliosis
 
* Idiopathic Scoliosis
* Indications for Bracing in Scoliosis
* Flexible curves with Cobb angle(10°- 40°)   • 10°- 20° observe initially, if curve progresses by 5° then brace   • 30°- 40° prompt use of orthosis   • > 40◦  generally surgery Risser sign for remaining growth
* Boston Brace
** 1970’s, most Research and widely used
** Module from measures, type of curve
** Blueprint created from x rays
** Determine apex of curve and position of pads (3 point pressure)
** Cut outs to allow body to move
** Cut outs to allow body to move
** Difficult to control rotation
** Difficult to control rotation
** Maximum curve 45 degrees below T8
** Maximum curve 45 degrees below T8
** Cheneau Brace
** ** A symmetrical Boston brace has a consistent success rate of over 70%<ref>Weiss HR, Turnbull D. [https://www.intechopen.com/chapters/71257 Brace treatment for children and adolescents with scoliosis]. InSpinal deformities in adolescents, adults and older adults 2020 Feb 27. IntechOpen.</ref>
*** Relatively new type, limited research but possibly better results due to rotational control
* '''Cheneau Brace'''<ref name=":0" />[[File:Cheneau.jpg|thumb|199x199px|Cheneau brace|alt=]]
*** Fully custom made
** Relatively new type, limited research but possibly better results due to rotational control
*** Type of curve, assessment, x rays
** Fully custom made
*** Pads and cut outs, severe looking
** Type of curve, assessment, x rays
*** Control rotation with extensions at shoulders
** Pads and cut outs
*** Prescription criteria for Neuromuscular Scoliosis
** Severe looking
**** Generally not Boston or Cheneau
** Controls rotation with extensions at the shoulders
**** Different etiology, muscle weakness, underlying condition, severity
[[File:Neuromuscular Scoliosis - Donna's Own Images.jpg|thumb|450x450px|alt=]]Prescription criteria for '''Neuromuscular Scoliosis''':<ref name=":0" />
**** Corrects flexible curves
*Generally not Boston or Cheneau
**** Provides stability
* Different aetiology, muscle weakness, underlying condition, severity
**** Accommodates fixed deformities
* Corrects flexible curves
**** Can prevent further deformity
* Provides stability
 
* Accommodates fixed deformities
Lumbo-sacral Orthosis - LSO
* Can prevent further deformity
 
* Fabric lumbar support – soft fabric support often with metal or plastic struts to provide support for lumbar region of spine
 
Indications: Pain relief, postural support, reduces excessive lumbar lordosis, vasomotor and respiratory support in the spinal cord patient. Increase intra abdominal pressure, heat, kinesthetic feedback
 
* Moulded plastic Spinal Jacket (LSO)
** OTS- adapted for individual use
** Custom made – from plaster cast
 
SO- Sacral Orthosis
 
* Fabric support- Sacro-iliac band support
* Sacrio-iliac joint pain
 
Design/Manufacture
 
* Materials – soft fabric, flexible plastic, polyethylene, rigid plastic polypropylene
* Construction – OTS or Custom made
* Suspension/strapping- above iliac crests, over shoulders
* Cosmesis – worn under clothing around trunk
 
Fitting and Evaluation
 
* Comfortable to wear – most important in spinal bracing as applying high forces and rejection is common.
* Good anatomical fit
* Good biomechanical function – may require in/out of brace x-rays to determine function.
* Easy to don/doff
* Cosmesis
 
 
Weiss, Hans-Rudolf, Stefano Negrini, Manuel Rigo, Tomasz Kotwicki, Martha C. Hawes, Theodoros B. Grivas, Toru Maruyama, and Franz Landauer.
 
"Indications for conservative management of scoliosis (guidelines)."
 
Scoliosis 1, no. 1 (2006): 5.
 
Giele BM, Wiertsema SH, Beelen A, van der Schaaf M, Lucas C, Been HD, Bramer JA. No evidence for the effectiveness of bracing in patients with thoracolumbar fractures: a systematic review. Acta orthopaedica. 2009 Jan 1;80(2):226-32.
 
van Leeuwen PJ, Bos RP, Derksen JC, de Vries J. Assessment of spinal movement reduction by thoraco-lumbar-sacral orthoses. Journal of rehabilitation research and development. 2000 Jul 1;37(4):395.
 
Kawchuck, Gregory; A non-randomized clinical trial to assess the impact of nonrigid, inelastic corsets on spine function in low back pain participants and asymptomatic controls, The spine Journal 15 2015 pg 2222-2227


Harrington, Amanda: Chapter 43, Spinal Orthoses; Spinal Cord Medicine 2019 Springer Publishing Company, Editor Steven Kirshblum MD pg 744- 753
==== 5. Lumbo-Sacral Orthosis (LSO) ====
[[File:Fabric Lumbosacral Orthosis - Ottobock Image.jpg|thumb|279x279px|alt=]]
Two types of lumbosacral orthoses are prescribed to patients: a soft fabric lumbar support, often constructed with metal or plastic struts to provide support for the lumbar region of the spine; or a moulded plastic Spinal Jacket. These can be off-the-shelf or custom made to suit the patient needs.
* Indications:<ref name=":0" />
** Pain relief
** Postural support
** Reduces excessive lumbar lordosis
** Vasomotor and respiratory support in the spinal cord patient
** Increase intra-abdominal pressure
** Heat
** Kinesthetic feedback


Schott, Cordelia: Effectiveness of lumbar orthoses in low back pain: Review of the literature and our results. Orthopedic Reviews 2018 Vol 10, 7791 pg 141-146
==== 6. Sacral Orthosis (SO) ====
[[File:SIJ Belt - Ottobock Image.jpg|thumb|200x200px|alt=]]
A sacral orthosis is a fabric, often elasticated support.<ref name=":0" />
* Indications:<ref name=":0" />
** Sacro-iliac joint pain


Morris: Role of the trunk in stability of the spine JBJS, 1961;43:327-351 36.
*


Nachemson: In Vivo Measurements of intradiscal pressure: Discometry, a method for the determination of pressure in the lower lumbar discs, JBJS American Volume 46(5) 1964 pg 1077 to 1092
== Resources ==


Lantz SA, Schultz AB: Lumbar spine orthoses wearing: Effect on trunk muscle myoelectric activity. Spine 1986;11:838–4234. 29.
* [[Introduction to Ankle Foot Orthoses]]
* [[Introduction to Complex Orthoses]]
* [[Introduction to Orthotics]]
* [[Milwaukee brace|Milwaukee Brace]]


Lantz, S: Lumbar Spine Orthosis Wearing II. Effect on Trunk Muscle Myoelectric Activity Spine Vol 11, Number 8 1986 pg 838-842
== References ==
[[Category:Course Pages]]
[[Category:Course Pages]]
[[Category:Physioplus Content]]
<references />
[[Category:ReLAB-HS Course Page]]
[[Category:Rehabilitation]]

Latest revision as of 12:46, 12 December 2022

Original Editor - Carin Hunter based on the course by Donna Fisher
Top Contributors - Robin Tacchetti, Carin Hunter, Jess Bell, Kim Jackson and Tarina van der Stockt

Introduction[edit | edit source]

In the early days of making orthoses, materials such as metal and leather were predominantly used. However, these materials were heavy, hot and uncomfortable, so materials have been developed and progressed over time. Now, lightweight foams and thermoplastics are used, which facilitates new designs and more comfort for the user.

A spinal orthosis is an external aid that is used to correct and support the spine. The spine is a complex anatomical structure and is key to our function. It is not possible to treat all spinal conditions with orthotics alone. However, a multidisciplinary team approach that includes orthotists, surgeons, and physiotherapists and considers the patient's perspectives can have positive results. A thorough assessment, appropriate goal setting and clear expectations will result in a well-designed and appropriate orthotic device which is comfortable and functional and meets the user's needs.[1] Unlike other orthotic devices, many spinal braces are off-the-shelf, although certain situations call for a custom-made device.[1]

Four Principles of Spinal Bracing[edit | edit source]

Assessment[edit | edit source]
  • Medical diagnosis
  • Knowledge of anatomy / physiology
  • Subjective assessment
    • Medical history
    • Social history
    • Underlying conditions
    • X-ray reports and findings
  • Objective assessment
  • Determination of which motions should be restricted by the device:
    • Sagittal plane
    • Frontal / coronal plane
    • Transverse plane
    • Combination of directional control
  • Functional goals of the orthotic device and patient[1]
Aims[edit | edit source]
  • Provides support and stabilisation
  • Maintains alignment of spine
  • Prevention / correction of deformity
  • Reduce pain by limiting motion
  • Assist with healing post-surgery
  • Restriction of motion
  • Reduction of axial loading of the spine
  • Increasing intra-abdominal pressure may reduce axial loading of spine
  • May provide heat and kinesthetic feedback and act as a reminder for the patient[1]
Manufacturing[edit | edit source]
  • Materials
    • Soft fabric
    • Flexible plastic
    • Polyethylene
    • Rigid plastic polypropylene
  • Construction
    • Off-the-shelf
    • Custom made
  • Suspension / strapping should be anchored above the iliac crests or over the shoulders
  • For cosmetic purposes, the device should be worn under clothing around the trunk[1]
Fitting and Evaluation[edit | edit source]
  • Comfort.
    • Rejection due to discomfort is common as there are high forces applied when applying a spinal brace. This is important for patient compliance and efficacy of the brace.
  • Good anatomical fit
  • Good biomechanical function.
    • When assessing function, there may be a requirement for an x-ray both in and out of the brace.
  • Easy to don / doff
  • Cosmesis[1]

Anatomy[edit | edit source]

The vertebral column consists of 24 individual bones called vertebrae. The spinal column consists of this vertebral column and two sections of naturally fused vertebrae, the sacrum and the coccyx, located at the very bottom of the spine. Vertebrae are separated by intravertebral discs, which are fluid-filled cushions between vertebrae.[1]
The vertebral column can be divided into 5 regions:

  1. Cervical spine: 7 vertebrae of the neck (C1-C7)
  2. Thoracic spine: 12 vertebrae of the mid-back (T1-T12)
  3. Lumbar spine: 5 vertebrae of the lower back (L1-L5)
  4. Sacrum
  5. Coccyx
Vertebral Column (1).jpg

Cervical Region:

  • There are 7 cervical vertebrae - two vertebrae are considered atypical: the Atlas and Axis
  • Movements:
    • Cervical flexion / extension – Atlas (nodding)
    • Cervical rotation – Axis (shaking head)
    • Lateral flexion[1]

Thoracic Region:

  • There are 12 thoracic vertebrae
  • Movements:
    • Rotation
    • Flexion / extension
    • Side / lateral flexion
  • The thoracic vertebral motion is limited by the facets and ribs
    • The largest motion segment is at T12/L1
      • This is due to the lack of rib stabilisation at this level and because the facets have a more medial to lateral orientation
  • Thoracic injuries are often associated with injury, trauma and degenerative changes[1]

Lumbar Region:

  • There are 5 lumbar vertebrae
  • Movements:
    • Primarily flexion and extension
    • Partial lateral flexion
    • Limited rotation[1]

Common Spinal Disorders[edit | edit source]

1. Fractures: There are three types of fractures that are commonly treated with spinal orthotics: compression, dislocation and compression / dislocation. 5-10% of these occur in the cervical (neck) region while up to 65% occur in the thoracolumbar region, commonly at T12-L1 levels. Common causes include osteoporosis, trauma and tumours.[1]

2. Intravertebral Disc Complications: There are many complications associated with the intervertebral disc. Often complications are caused by a prolapsed or herniated disc or are degenerative in nature. Disc degeneration can be due to ageing, trauma, repetitive strains or wear and tear.[1]

3. Spondylolisthesis: This is a Latin term which means 'slipped vertebral body'. Typically, the L4 vertebral body slips forward on the L5 vertebral body. Under normal circumstances, the L4-L5 segment is the one in the lumbar spine with the most movement. Spondylolisthesis in the lumbar spine is most commonly caused by degenerative spinal disease, and is referred to as degenerative spondylolisthesis. It is caused by degeneration of the intervertebral discs and ligaments. Osteoarthritis of the facet joints can also contribute to the development of instability and slippage. Degenerative spondylolisthesis usually occurs in people over 60 years of age.[1]

4. Lordosis: A lordosis is classified as an excessive convex curvature of the lumbar spine.[1]

5. Kyphosis: Kyphosis is characterised by concave curvature of the upper spine (abnormal > 50 degrees of curvature).[1]

6. Scoliosis: More simply known as a lateral bend in the spine. The curve can be S-shaped or C-shaped. The cause can be varied, but is often congenital, degenerative, or due to trauma or tumours. Occasionally they are idiopathic in nature. Scoliosis is discussed in more detail below.[1]

7. Soft Tissue Injuries: Soft tissues include the muscles, tendons, ligaments, and nerves. Injury to these tissues can often cause stress on the spine.[1]

8. Sprains / strains: A sprain or strain is often due to poor posture or lifting a heavy object, whether it be poor lifting techniques or inadequate strength.[1]

9. Muscle injury: These types of injuries are often caused by lifting or sport.[1]

10. Trauma: Commonly associated with whiplash.[1]

Types of Spinal Orthoses[edit | edit source]

  1. Cervical Orthosis (CO)
  2. Cervicothoracic Orthosis (CTO), e.g. HALO, SOMI, Minerva
  3. Cervico-Thoraco-Lumbosacral Orthosis (CTLSO), e.g. Milwaukee
  4. Thoracolumbosacral Orthosis (TLSO), e.g. CASH, Jewett, custom TLSO
  5. Lumbosacral Orthosis (LSO), e.g. Corsets, Chairback O
  6. Sacral Orthosis (SO), e.g. Sacro-iliac bands[1]

1. Cervical Orthosis (CO)[edit | edit source]

1. Soft Collars

The most basic collar is a soft cervical collar. It is made using construction foam and coated with cotton wool.[2] It provides partial support of the head, reducing paraspinal contraction and spasm. While it offers NO structural cervical spine support, it offers proprioceptive input, psychological reassurance and can provide relief through heat retention.[1]

  • Movement limitations:[1]
    • Flexion / extension limited by ~ 8-26%
    • Lateral bending is limited by ~8%
    • Rotation is limited by ~10-17%
  • Assists with:[1]
    • Muscular strains / sprains
    • Trauma

2. Hard Collars

Hard collars are rigid / semirigid and are made of hard foam combined with plastic. The main function of this collar is support.[1] Hard collars such as the Philadelphia collar may be used initially with unstable fractures until a decision is made regarding treatment. These collars can be used for 6-8 weeks when non-operative treatment is recommended.[3]

  • Types of hard collars:[1]
    • Miami J Collar
    • VISTA Collar
    • Aspen
    • Headmaster
    • Philadelphia
  • Movement / function limitations:[1]
    • Flexion / extension limited by ~69-90%
    • Lateral bending is limited by ~34-48%
    • Rotation is limited by ~74%
  • Features:[1]
    • Tracheostomy opening
    • Height around chin and occiput can be adjusted
    • Due to their construction, most individuals report less sweating than those wearing a soft collar and increased comfort

2. Cervicothoracic Orthosis (CTO)[edit | edit source]

  • Types of CTO:
    • Halo
    • Sterno-occipital mandibular orthosis (SOMI)
    • Minerva

1. Halo

A Halo brace is an extensive brace which is surgically applied. It is a 4-post brace that is attached by pins which are placed in the cranial table with a jacket fitted to the torso.[1] Indications for a halo fixated brace range from: pre-surgical correction to post-operative fusion support. Additionally, a halo brace can be used as an alternative to surgery to conserve neck mobility.[4] The halo brace is more efficacious than a hard collar at limiting motion in the upper cervical spine.[5]

Halo brace
  • Movement / function limitations:[1]
    • Flexion / extension limited by 96%
    • Lateral bending is limited by 96%
    • Rotation is limited by 99%
    • It offers maximum motion control to T3 level
  • Indications:[1]
    • Occipital condyle fractures
    • C1 ring injuries
    • Odontoid fractures
    • Hangman's fractures (C2)
    • Facet subluxations
    • Spinal infections
    • Extradural tumour involvement that compromises the spinal alignment or bony stability
    • Subaxial spine injuries[1]

2. Sterno-Occipital Mandibular Orthosis (SOMI)

A SOMI is a 3-post, anterior chest plate that extends to the xiphoid process. It has a removeable chin strap.[1]

SOMI brace
  • Movement / function limitations:[1]
    • Flexion / extension limited by ~60-70%
    • Lateral bending is limited by ~20-35%
    • Rotation is limited by ~30-65%
    • Offers flexion control of C1-3, but controls extension less than with other cervical orthotics
  • Indications:[1]
    • Atlanto-axial instability such as in rheumatoid arthritis
    • Neural arch fractures of C2 due to flexion instability[1]


3. Minerva

The Minerva orthosis is a removable version of the Halo. This type of orthosis is offered to compliant patients who will not just remove the brace.[1]

  • Minerva brace
    Movement / function limitations:[1]
    • Flexion / extension limited by ~96%
    • Lateral bending is limited by ~96%
    • Rotation is limited by ~99%
    • This brace offers control of motion down to T3 level
  • Indications:[1]
    • Mid-to-lower cervical spine injuries
    • Stable upper cervical spine injuries
    • Can be used with skull fractures when a Halo Fixator is contraindicated
    • Children due to its decreased weight and increased comfort[1]

3. Cervico-Thoracolumbarsacral Orthosis (CTLSO)[edit | edit source]

The Milwaukee Brace is the classic CTLSO. It comprises of a metal vertical superstructure that has a pelvic foundation, with a rigid plastic pelvic girdle connected to the neck with a ring. It has two posterior paraspinal bars. The cervical ring has a mandibular and occipital bar which rests 20-30 mm inferior to the chin. The pads are positioned to apply forces in order to correct curvature.[1]

  • Indications:[1]
    • Treatment of kyphosis
    • Treatment of high thoracic curves

4. Thoracolumbosacral Orthosis (TLSO)[edit | edit source]

  • Types of Thoracolumbosacral Orthoses:[1]
    TLSO brace
    • CASH
    • Jewett
    • Knight Taylor TLSO
    • Custom-molded Spinal/Body Jacket
    • Providence Night Brace
    • Charleston Bending Brace
  • Off-the-shelf (CASH, Jewett, Knight Taylor):[1]
    • Comfortable design
    • Easy to don and doff
    • Limited movement control
    • Flexion from T6-L1
    • No limitation of lateral flexion or rotation
    • Indications:[1]
      • Thoracic and lumbar vertebral body fracture
      • Kyphosis reduction in osteoporosis
      • Cervical trauma in unconscious patients
  • Off-the-shelf moulded plastic Spinal Jacket:
    • Indications:[1]
      • Immobilisation for thoracic compression fractures from osteoporosis
      • Immobilisation after surgical stabilisation for spinal fractures
      • Immobilisation for unstable spinal disorders of T3-L3
  • Custom made Spinal Jacket:
    • Indications:[1]
      • Scoliosis
      • Severe spinal abnormalities
      • Night bracing

Scoliosis[edit | edit source]

scoliosis
  • Types of scoliosis:[1]
  • Indications for bracing in scoliosis:[1]
    • Flexible curves with Cobb's angle (10°- 40°)
      • 10°- 20° observe initially, if curve progresses by 5° then brace
      • 30°- 40° prompt use of orthosis
      • > 40◦  generally surgery
      • Risser sign for remaining growth
  • Boston Brace[1]
    • In the 1970s, this was the most researched and widely used brace
    • Module from measurements, type of curve
    • Blueprint created from x-rays
    • Determine apex of curve and position of pads (three-point pressure system)
    • Cut outs to allow body to move
    • Difficult to control rotation
    • Maximum curve 45 degrees below T8
    • ** A symmetrical Boston brace has a consistent success rate of over 70%[6]
  • Cheneau Brace[1]
    Cheneau brace
    • Relatively new type, limited research but possibly better results due to rotational control
    • Fully custom made
    • Type of curve, assessment, x rays
    • Pads and cut outs
    • Severe looking
    • Controls rotation with extensions at the shoulders

Prescription criteria for Neuromuscular Scoliosis:[1]

  • Generally not Boston or Cheneau
  • Different aetiology, muscle weakness, underlying condition, severity
  • Corrects flexible curves
  • Provides stability
  • Accommodates fixed deformities
  • Can prevent further deformity

5. Lumbo-Sacral Orthosis (LSO)[edit | edit source]

Two types of lumbosacral orthoses are prescribed to patients: a soft fabric lumbar support, often constructed with metal or plastic struts to provide support for the lumbar region of the spine; or a moulded plastic Spinal Jacket. These can be off-the-shelf or custom made to suit the patient needs.

  • Indications:[1]
    • Pain relief
    • Postural support
    • Reduces excessive lumbar lordosis
    • Vasomotor and respiratory support in the spinal cord patient
    • Increase intra-abdominal pressure
    • Heat
    • Kinesthetic feedback

6. Sacral Orthosis (SO)[edit | edit source]

A sacral orthosis is a fabric, often elasticated support.[1]

  • Indications:[1]
    • Sacro-iliac joint pain

Resources[edit | edit source]

References[edit | edit source]

  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.14 1.15 1.16 1.17 1.18 1.19 1.20 1.21 1.22 1.23 1.24 1.25 1.26 1.27 1.28 1.29 1.30 1.31 1.32 1.33 1.34 1.35 1.36 1.37 1.38 1.39 1.40 1.41 1.42 1.43 1.44 1.45 1.46 1.47 1.48 1.49 1.50 1.51 1.52 1.53 1.54 1.55 1.56 Fisher, D. Introduction to Spinal Orthoses Course. Plus. 2022
  2. Xu Y, Li X, Chang Y, Wang Y, Che L, Shi G, Niu X, Wang H, Li X, He Y, Pei B. Design of Personalized Cervical Fixation Orthosis Based on 3D Printing Technology. Applied Bionics and Biomechanics. 2022 Apr 30;2022.
  3. Ghosh JC. Review of Management of Type-2 Odontoid Fracture in Elderly. Open Journal of Orthopedics. 2021 Jan 11;11(1):12-21.
  4. Banat M, Vychopen M, Wach J, Salemdawod A, Scorzin J, Vatter H. Use of halo fixation therapy for traumatic cranio-cervical instability in children: a systematic review. European Journal of Trauma and Emergency Surgery. 2021 Dec 9:1-7.
  5. Kumar GR. Approach to upper cervical trauma. Indian Spine Journal. 2022 Jan 1;5(1):10.
  6. Weiss HR, Turnbull D. Brace treatment for children and adolescents with scoliosis. InSpinal deformities in adolescents, adults and older adults 2020 Feb 27. IntechOpen.
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