Spine Classification Systems PDF Fall 2024

Summary

This document describes various systems for classifying spine conditions, including pathoanatomic, movement systems impairments, and treatment-based classifications. It also details the prognosis of different types of tissue injuries.

Full Transcript

Lumbar Classification Systems:
Pathoanatomic
Movement Systems Impairments (MSI, ie Sahrmann)
Mechanical Diagnosis & Therapy (MDT, ie McKenzie)
Treatment Based Classification (TBC)

Nick Washmuth
Spine
Fall 2024
 Pathoanatomic
Derived from James Cyriax:
“All pain has an anatomic source, and all treatments must reach that anatomic source.”

Different tissues require tissue-specific stimuli for healing (intervention). Different tissues
heal at different rates (prognosis).

Calm “tissue” down, then build “tissue” up.

Exam should provoke all the suspected tissues to see if the concordant sign is reproduced.
This allows the PT to eliminate normal tissue & identify the pathology.

Pathoanatomic classification is discovering the SOURCE of the pain.

Pain is very complex. The pathoanatomic approach is more reliable in acute pain. The more
chronic the pain, the complex the pain pattern.
 Example of
Pathoanatomic
Classification
Every tissue requires specific stimuli for healing and every
tissue heals at different rates.
Tendon & muscle

If it is a muscle or tendon injury, every time the muscle or
tendon is stressed during the clinical exam, it should
reproduce the patient’s concordant sign.

Pathoanatomic approach is used frequently with the
extremities, for muscle or tendon sources of pain.
Hamstring strain, patellar tendonitis
 Example of
Pathoanatomic
Classification
Every tissue requires specific stimuli for healing and every
tissue heals at different rates.
Joint articular cartilage

If it is a facet joint articular cartilage injury, every time the
joint is compressed during the clinical exam, it should
reproduce the patient’s concordant sign.

Pathoanatomic approach is used frequently with the
extremities, for joint sources of pain.
Knee OA, patellofemoral pain
 Pathoanatomic Framework
Structure governs function. Inadequacies in anatomic structure will adversely affect function, leading to
dysfunction.

If the anatomic structure that is the SOURCE of the patient’s pain is discovered, treatment can focus on either
calming that tissue down or building that tissue up.
Examples: Muscle, IV disc, bone, articular cartilage, facet capsule, skin…

Acute = Inflammation = PROM/AAROM/muscle activation/rest/immobilization/modalities = Rest & Protect
Sub-Acute = Repair & Healing = strength/endurance/neuromuscular control/power/kinetic chain = On The Fence
Chronic = Maturation & Remodeling = activity specific = Push & Build

Knowing the SOURCE of the pain is NOT enough. Why did the tissue become painful? There must be a CAUSE.
Pathoanatomic Classification: Keys to Success

Know how to provoke & relieve all tissues.

Know the optimal stimulus to strengthen (repair) all tissues.

Specific adaptations to imposed demands.
 Pathoanatomic Classification:
How do you know what tissue(s) is(are) involved?
*you can have more than 1 tissue that is the source of pain

Skin: painful to palpate & stretch
Ligament & Fascia: painful to palpate & stretch
Muscle & Tendon: painful to palpation, stretch, & resist
Joint Capsule: painful to palpate & stretch, painful joint play
Bursa: painful to palpate & compress
Meniscus (knee): + special tests, ROM, & history
Articular Cartilage: painful to compress & painful joint play
Nerve: + neurological testing
Disc: painful to compress, painful to shear, decrease pain with distraction
Bone: painful with percussion & palpation; imaging
Pathoanatomic Classification:
Prognosis
Pathoanatomic Classification:
How does this guide treatment?
Healing = Repair =
Every tissue has an optimal stimulus for healing. Strengthening

Optimal Stimulus for Healing: Wolff's Law states that
Bone – modified compression in the line of stress your bones will adapt
Stimulates osteoblasts based on the stress or
Collagen – modified tension demands placed on
Stimulates fibroblasts them.
Nerve – modified tension
Articular Cartilage – modified compression & decompression with
glide
Stimulates chondroblasts
Aids in movement & viscosity of synovial fluid
Muscle – modified tension

Modified = “pain free”; an intensity that does not cause further injury
 Movement Systems Impairments
Created by Shirley Sahrmann & based on concepts proposed by Florence Kendall.

Kinesiopathologic Model:
Impaired movement causes pain, dysfunction, & pathology
Repetitive motion in the presence of biomechanical dysfunction will provoke injury
Example:
Valgus fault at the knees cause patellofemoral joint injury.
Lifting with hyperflexed spine causing lumbar injury (disc injury).

Maintaining or restoring ideal movement of specific segments (or body regions) is the key to preventing or
correcting neuromusculoskeletal pain.

Movement diagnosis is used to describe the CAUSE of the pain or dysfunction.

Alternative model is Pathokinesiologic Model:
A pathologic condition (health condition) causes a movement dysfunction
Example: Stroke with resultant hemiparesis
Example of MSI
Repetitive motion in the presence of uncoordinated motion or
biomechanical dysfunction will provoke injury.

Excessive lumbar flexion is required during forward bending in the
presence of decreased hamstring extensibility.

Case Example:
A patient’s job requires them to perform a forward bending
movement throughout the day. If this forward bending occurs in
the presence of decreased hamstring extensibility, the forward
bending mechanics will be impaired, as there will be decreased hip
flexion and excessive lumbar flexion during forward bending. This
could place excessive compressive stress on the lumbar
intervertebral discs. Over the course of days, weeks, or years, this
excessive compressive force could provoke a disc injury or
herniation.
 Example of MSI

Impaired movement results in pain, dysfunction, & pathology.

During cutting or landing movements, a valgus collapse of the
knee puts excessive stress on the MCL & ACL, which can lead
to a ligament sprain.

Case Example:
This patient lands with R knee valgus and tears ACL.

The movement fault (valgus) caused the pathology (torn ACL).
 Example of MSI
Repetitive motion in the presence of biomechanical
dysfunction will provoke injury.
Lumbar spine instability can lead to osteophyte
formation.
Case Example:
Lumbar spine instability occurs when the static &
dynamic stabilizers of the lumbar spine are unable to
control a hypermobility (eg. uncontrolled hypermobility).
If a hypermobile lumbar spine moves repeatedly without
proper stabilization, for example, in the presence of a
faulty muscle recruitment pattern, the hypermobile spine
will lay down new bone, osteophytes (i.e. bone spurs), to
help stabilize the spine.
The movement faulty (hypermobility) caused the
pathology (osteophyte).
 Movement Systems Impairments:
Framework
In a multisegmental system, movement will take the path of least resistance, a concept referred to as
relative flexibility.

Areas in the body that are relatively MORE flexible are more likely to experience musculoskeletal
impairment through cumulative trauma, since that area likely moves 1st and to a greater degree than
adjacent regions.

The relative flexibility, or direction of pain, is used to classify the patient’s movement impairment.
 Movement System Impairments:
Principles of Intervention
Segmental hypomobility contributes to compensatory hypermobility at adjacent segments. Classically,
the hypermobility is the painful region. The hypermobile regions are compensating for the
hypomobilities in neighboring joints.

The MSI approach attributes most spine-related symptoms to the regions that have excessive relative
flexibility as apposed to segments in which motion is reduced.
Hypermobile regions are where the patient will move 1st and are painful

Therefore, the focus of intervention is directed toward achieving and maintaining proper spinal
alignment and the prevention of unwanted movement.

An emphasis is placed on correct exercise performance so that precise movement patterns are adopted.
*Dx should guide intervention
 Movement Systems Impairments:
Lumbar Spine Classification Categories
*you can have more than 1 MSI diagnosis
Ex. Flexion-rotation syndrome

Flexion Syndrome

Extension Syndrome

Rotation Syndrome
 Movement Systems Impairments:
Lumbar Flexion Syndrome
Symptom Behavior:
Increased symptoms with spinal flexion movements and alignments.
Symptoms decrease with extension movements

What exam findings are expected in a patient with Flexion Syndrome?
 Movement Systems Impairments:
Lumbar Extension Syndrome
Symptom Behavior:
Increased symptoms with spinal extension movements and alignments.
Symptoms decrease with flexion movements and positions.

What exam findings are expected in a patient with Extension Syndrome?
 Movement Systems Impairments:
Lumbar Rotation Syndrome
Symptom Behavior:
Increased symptoms with spinal rotation or side bending movements and alignments.
Symptoms decrease when rotation is minimized during provoking activities.
Unilateral symptoms.

What exam findings are expected in a patient with Rotation Syndrome?
Rotation in flexion or extension is painful
Mechanical Diagnosis & Therapy:
McKenzie Method
Robin McKenzie developed classification system based on individual’s symptomatic and
mechanical response to movement and position.

Exam focuses on having patient performed repeated movements and sustained positions, and
monitoring change in symptoms and ROM

Emphasis on self-intervention procedures and behavior modifications

MDT is a systematic approach to the conservative management of most activity-related spinal disorders. The classification system categorizes
patients according to their symptomatic response to movement and position, rather than a system that is based on a pathoanatomical diagnosis.
Mechanical Diagnosis & Therapy:
Examination

The patient’s symptomatic and mechanical response to loading
guides the therapist to the appropriate classification and course
of intervention.

A comprehensive history should include information about the
present episode of symptoms, including the MOI, symptom
presentation, and functional limitations. This data should help the
therapist formulate an initial working hypothesis regarding the
patient’s mechanical classification. Then, the physical exam is
used to confirm or reject the working hypothesis by testing the
patient’s symptomatic response to loading and by observing the
quality and quantity of movement.
 Mechanical Diagnosis & Therapy:
The patient moves as far as possible through a test movement for one
repetition and then repeats for 10 reps. During and immediately
following these movements, the examiner records the effect on the
patient’s symptoms. Repeated movements that produce
Test Movements
peripheralization of symptoms are immediately stopped. If symptoms
improve or centralize during testing, then the patient should continue
with the repetitions.
1. Flexion in 2. Extension in
Standing Standing
During movement – produces, abolishes, increases, decreases, no
effect, centralizing, peripheralizing

Once the patient returns to the neutral position and rests for a few
moments, the effect of movement on symptoms is recorded.

After movement – better, worse, no better, no worse, no effect,
centralized, peripheralized

If there is no conclusive symptomatic or mechanical response to sagittal
plane movement (flex/ext), then side gliding can be attempted. 5. Side Glide
Although not routinely performed, static tests may be necessary if
repeated movement testing is inconclusive. Examples of these positions in Standing
are in pictures 3 and 4.

3. Flexion 4. Extension
in Lying in Lying
 Mechanical Diagnosis & Therapy:
Classification Syndromes
Derangement syndrome
The derangement syndrome is the most frequently observed clinically. May be synonymous with the pathoanatomical
model – Discogenic Pain. McKenzie believes derangements typically develop as a result of sustained or repetitive loading
(often flexion and/or rotation), chronic postural stresses, or trauma.
Signs and symptoms of radiating or radicular pain are very common with derangements
Repeated movement testing often reveals centralization/peripheralization
May also see motion loss and an obstruction of normal posture (loss of lordosis or a lateral shift/list).
The ability to centralize is considered to be a favorable prognostic indicator.

Dysfunction syndrome
It is thought that these patients have contracted, adhered, or adaptively shortened tissues surrounding one or more of the
spinal segments. Movement becomes painful when restricted soft tissues are brought to the end of their available
motion. The patient’s motion restriction is observed in same direction in which pain is produced.
Symptoms more local and not expected to refer to extremities
Pain usually only present when shortened tissues are stretched
Postural syndrome
Structures (joint capsules, ligaments, muscles) strain in response to prolonged static loading at end range.
No reproduction of symptoms in response to single or repeated movements
Low levels of pain in response to maintenance of prolonged positions only
 Mechanical Diagnosis & Therapy:
How does this guide treatment?
Derangement: Goals: centralize symptoms, maintain centralization, restore full ROM
Movement into direction that causes centralization or pain reduction.
Exercises into the patient’s directional preference are performed 10 times every 1-2 waking hours, or more
frequently if symptoms recur. It is important with these exercises that the patient move to their end range.
Treatment?

Dysfunction: Goals: facilitate remodeling of adaptively shortened tissues, restore full ROM
Movement into restricted direction.
The treatment approach for this group is progressive movement into the direction of restriction, with the
main goal being improvement of motion. Exercises are performed 10 times every 2-3 waking hours.
Treatment?

Postural: Goals: remove abnormal postural stress that occurs to normal tissue
Education is the key to management of those with postural syndrome. The slouch-overcorrect exercise is
prescribed to help teach patients how to find good posture in sitting.
Treatments?
Treatment-Based Classifications

The primary purpose of the TBC approach is to identify features at
baseline that predict responsiveness to four different treatment strategies.
This approach has been validated and is used widely in the USA.
In order to classify patients
using the TBC, this chart lists the
Lumbar Treatment-Based
Classifications:
data that needs to be collected
in either the interview or the
physical exam. You should
recognize most all of the tests as

Key Components of Exam
items you have learned in both
this and previous semesters.

Interview
Measures
Tests &
 Lumbar Treatment-Based Classifications:
Treatment SubgroupsThe criteria for the individual subgroups are clearly summarized in this table.

At least 1 hip IR ROM GREATER THAN 35deg

Tasha R. Stanton et al. PHYS THER 2011;91:496-509
 Cervical
Treatment-Based
Classification
System
 Treatment Criteria
Pain Control MVA or other whiplash mechanism
Cervical mobilizations Symptoms < 30 days
Cervical ROM exercises Pain >7/10 or NDI >52
Centralization Signs of nerve root compression
Cervical traction Symptoms distal to elbow
Cervical retraction exercises Symptoms >30 days
Cervical Pain 30 days
System Mobility
Pain 35deg, no symptoms distal to knee
c) Diminished patellar DTR, numbness in thigh, + crossed SLR
Subjective:
Phil, a 67-year-old male retiree, reports a gradual onset of LBP,
which began 3 years ago. His pain is focused to his lower
lumber region, and he denies numbness or tingling. His pain
increases with standing and walking, and his pain decreases with
sitting. Phil is otherwise healthy and has the goal to wanting to
walk 5 miles without pain.

Objective:
AROM:
Lumbar flexion 25%, no pain
Lumbar extension 50%, with pain
Repeated lumbar flexion, no pain
Repeated lumbar extension, with pain and this increases
lumbar extension ROM
MMT: LE, abdominals, and paraspinals 5/5, no pain
Palpation: TTP lumbar paraspinal musculature and spinous
process of L4 & L5
Neuro: Unremarkable
Joint Accessory Motion: Central PAs at L4 and L5 are
hypomobile and painful
Special Tests: + quadrant test to each side, negative lumbar
compression, + lumbar distraction, negative passive lumbar
extension test, negative active SLR test, negative SIJ special
tests

Using the lumbar classification systems, what diagnosis(es)
can be used for this patient? Defend Your Answer

Pathoanatomic: ligament, muscle/tendon, articular cartilage
(facet), nerve, disc, bone

Mechanical Diagnosis & Treatment (MDT): derangement,
dysfunction, postural

Movement Systems Impairment (MSI): flexion, extension, or
rotation syndrome

Treatment Based Classification (TBC): manipulation,
stabilization, specific exercise, traction

Subjective:
Will, a 33-year-old male teacher, reports injuring his low back
yesterday while doing a 1-rep maximum attempt on the bench
press. His pain is focused to the L side and ranges from 0-8/10.
Pain increases with “most movements”, especially when
standing up from a sitting position. Pain decreases when he is
sitting or lying down or otherwise not moving. FABQ is 10.
Will is otherwise healthy and wants to return to working out
without pain as quickly as possible.
Objective:
Posture: Stands with flexed spinal posture.
AROM:
Lumbar flexion 100%, with pain

Lumbar extension 100%, with pain

Side bending and rotation 75%, with pain

PROM:
Hip ER 45° B

Hip IR 30° L, 40° R

Hip extension 5° B

Hip flexion 125° B

MMT: Paraspinal strength 4/5 with pain
Palpation: TTP L lumbar paraspinal musculature and quadratus
lumborum
Neuro: Unremarkable
Joint Accessory Motion: Hypomobile PAs at L3 & L4, no pain
Special Tests: lumbar distraction increase his pain, negative
lumbar compression, negative passive lumbar extension test,
negative active SLR test, negative SIJ special tests, + Sorenson’s
test with pain

Using the lumbar classification systems, what diagnosis(es)
can be used for this patient?
Defend Your Answer

Pathoanatomic: ligament, muscle/tendon, articular cartilage
(facet), nerve, disc, bone

Mechanical Diagnosis & Treatment (MDT): derangement,
dysfunction, postural

Movement Systems Impairment (MSI): flexion, extension, or
rotation syndrome

Treatment Based Classification (TBC): manipulation,
stabilization, specific exercise, traction
 How would we diagnose Kathryn?
Subjective: Kathryn presents with ~8 year history of LBP, starting when she was 14 y/o in gymnastics. She points
to her beltline as pain location and denies peripheral symptoms or N/T. Pain increases primarily with extension
movements, and sometimes with flexion movements. Kathryn’s symptoms improve with lumbar flexion
movements and heat. Pain is described as sharp, sometimes dull, and achy after a lot of extension. She did
“core stabilization stuff” in high school for this same pain, with questionable success. I am the first provider she
has seen for this condition.
Objective:
Posture: L iliac crest elevated, R shoulder lower than L, forward shoulders, mild swayback
AROM:
Forward bending: excessive hamstring length, did not reverse lumbar curve (hypomobile), excessive thoracic
flex
Backward bending: ROM painful, more pain with overpressure
SB WNL
Rotation painful each side
PROM:
WNL motion
Mild pain with ext and rot
Joint Play:
Central PAs: pain with L5
Unilateral lumbar PAs: pain at L4 & L5
Grade 3 throughout
Palpation: TTP – L4 & 5 SPs
Special Tests: Lumbar compression – negative in flexion, positive in extension
 Pathoanatomic Classification:
How do you know what tissue(s) is(are) involved?
Skin: painful to palpate & stretch
Ligament & Fascia: painful to palpate & stretch
Muscle & Tendon: painful to palpation, stretch, & resist
Joint Capsule: painful to palpate & stretch, painful joint play
Bursa: painful to palpate & compress
Meniscus (knee): + special tests, ROM, & history
Articular Cartilage: painful to compress & painful joint play
Nerve: + neurological testing
Disc: painful to compress, painful to shear, decrease pain with distraction
Bone: painful with percussion & palpation; imaging
 Movement Systems Impairments:
Lumbar Spine Classification Categories
Flexion Syndrome

Extension Syndrome

Rotation Syndrome
 Mechanical Diagnosis & Therapy:
Classification Syndromes
Derangement syndrome
The derangement syndrome is the most frequently observed clinically. May be synonymous with the
pathoanatomical model – Discogenic Pain. McKenzie believes derangements typically develop as a result of sustained
or repetitive loading (often flexion and/or rotation), chronic postural stresses, or trauma.
Signs and symptoms of radiating or radicular pain are very common with derangements
Repeated movement testing often reveals centralization/peripheralization

Dysfunction syndrome
It is thought that these patients have contracted, adhered, or adaptively shortened tissues surrounding one or more
of the spinal segments. Movement becomes painful when restricted soft tissues are brought to the end of their
available motion. The patient’s motion restriction is observed in same direction in which pain is produced.
Symptoms more local and not expected to refer to extremities
Pain usually only present when shortened tissues are stretched

Postural syndrome
Structures (joint capsules, ligaments, muscles) strain in response to prolonged static loading at end range.
No reproduction of symptoms in response to single or repeated movements
Low levels of pain in response to maintenance of prolonged positions only
 Lumbar Treatment-Based
Classifications:
Treatment Subgroups

At least 1 hip IR ROM GREATER THAN 35deg

Tasha R. Stanton et al. PHYS THER 2011;91:496-509