Upload
dokien
View
223
Download
0
Embed Size (px)
Citation preview
Evidence-based rehabilitation of
the foot and ankle
William A. Cannarozzi PT
Kettering Sports Medicine Symposium
November 11, 2016
Why an interest in foot/ankle
rehab? Interested as a
student
Senior symposium
Worked with Gary
Gray on continuing
education course that
went on to become
Scapular Reaction
Objectives Demonstrate
understanding of
foot/ankle anatomy and
biomechanics
Articulate understanding
of evidence-based
updates for rehabilitation
of the foot and ankle as it
pertains to
Therapeutic exercise
Manual therapy
Orthotic intervention
Bony structure of foot/ankle
Full disclosure Some slides and research
taken from MedBridge course by: Alexis Wright PT, PhD, DPT, FAAOMPT
Not focusing on thrust-type manipulation. Why? Because I don’t want to
Most research from last 10-years.
Presenting research can be boring—bear with me
Majority of literature focuses on ankle sprains, chronic ankle instability (CAI), heel pain syndromes,
Anatomy
Anterior compartment muscles
NWB action=DF
FWB action=Decelerate
pronation at heelstrike
Tibialis anterior
Extensor hallucis longus
Extensor digitorum
longus
Peroneus tertius
Innervation from deep
peroneal nerve
Lateral compartment muscles NWB
action=Eversion
FWB
action=Decelerate
inversion/supination
Peroneus longus
Peroneus brevis
Innervation from
superficial peroneal
nerve
Deep posterior compartment
muscles NWB action=PF
FWB action=
deceleration of DF
through midstance
Tibialis posterior
Flexor digitorum
longus
Flexor hallucis longus
Popliteus
Innervation from tibial
nerve
Superficial posterior
compartment muscles
Same action as
deep posterior
compartment
muscles
Gastrocnemius
Soleus
Popliteus
Innervation from
tibial nerve
The Manual Therapy “Six-pack”
From Whitman et. al.
But wait—there’s more! Don’t forget:
Intertarsal
Tarsometatarsal
Intermetatarsal
MTP, especially
1st
How ‘bout that foot binding?!?
Manual therapy techniques
used
Most may be done as mobilization or manipulation
Medial/Lateral glides and INV/EVE
mobilization/manipulation
Proximal tibiofibular joint thrust
mobilization/manipulation
Distal tibiofibular joint mobilization/manipulation
Rearfoot distraction thrust mobilization/manipulation
Talocrural joint anterior to posterior
mobilization/manipulation
Alternate method of talocrural joint AP
mobilization/manipulation (weight-bearing MWM)
Medial/Lateral calcaneal
glide Subtalar
mobilization:
Stabilize talus by
table or
manually
Medial glide of
calcaneus
Lateral glide of
calcaneus
Rearfoot distraction
mobilization
Wrap fingers around
talus and proximal
mid-foot
Provide traction force
to distract talus out of
ankle mortise
May be done as a
grade 5 manipulation
Proximal tibiofibular
mobilization Subject’s leg
stabilized by table
Clinician stabilizes tibia
Anterior/posterior mobilizing force through fibula
Beware paresthesia and protect peroneal nerve
Talocrurual Joint mobilization
Clinician stabilizes
ankle mortise
Anterior/posterior
mobilizing force
provided through
talus
I believe this is easier
to do with Kaltenborn
wedge.
But DON’T do this with it!
Distal Tibiofibular joint
mobilization
Clinician stabilizes
Tibia
Anterior/posterior
mobilizing force
through fibula
Mobilization With Movement Pioneered by Brian
Mulligan
Patient in FWB
Clinician stabilizes talus
Clinician provides anterior glide of mortise through belt
Clinician facilitates DF movement
Can also be done PWB or NWB
Mobilization with Movement-
MWM
Weight bearing Non weight bearing
What does the literature say? Prepare now:
Drink your coffee now
Steal some of Chris’s 5-
hour energy!
Initial Changes in Posterior Talar Glide and Dorsiflexion of
the Ankle After Mobilization With Movement in Individuals
with Recurrent Ankle Sprain—JOSPT 2006, Branjerdporn et. Al.
Subjects: N = 16 (history of 2 ankle sprains each)
• Treatment conditions: 3 groups
• Weight bearing MWM (10 sec
hold x 4 sets of 4 glides)
• Non weight bearing MWM (10
sec hold, 4 sets of 4 glides)
• No treatment control group
• Outcome Measures:
• Posterior talar glide
• Weight-bearing ankle
dorsiflexion
Results—Does it work?
Both MWM treatment techniques significantly
improved posterior talar glide deficit by 55%
and 50%, respectively
Both MWM treatments significantly improved
weight-bearing ankle dorsiflexion by 26%
compared to 9% for the control condition
Conclusion: positive effect of a MWM treatment
on improving posterior talar glide and dorsiflexion
ROM in individuals with chronic recurrent lateral
ankle sprain.
Predicting Short-Term Response to Thrust and Non-
thrust Manipulation and Exercise in Patients Post
Inversion Ankle Sprain-JOSPT 2009, Whitman et. al.
Subjects: N = 85; status post grade I or II inversion ankle
sprain within 1 year
Goal: to develop Clinical Prediction Rule (CPR)
• Treatment conditions: 1-2 visits
• Ankle/foot thrust and non-thrust manipulation,
ROM/stretching, advice to maintain usual activity, ice and
elevation
• 2 manipulation attempts max, 5 x 30 seconds for
mobilizations grade III or IV
• Outcome measures: NPRS, Foot and Ankle Ability
Measure (FAAM), LEFS, Beck Anxiety Index (BAI), GROC
Exercise techniques
used Achilles tendon stretch, non-weight
bearing with the knee extended (towel stretch)
Achilles tendon stretch, weight bearing (runner’s stretch)
Ankle Alphabet exercises
Ankle eversion self-mobilization
Dorsiflexion self-mobilization
Results-Does it work? 64 of the 85 (75%) participants had a positive
result w/treatment program based on outcome
measures
CPR: Identified 4 predictors of + response to
rehab:
Symptoms worse on standing
Night pain
Navicular drop > 5mm
Distal tibofibular hypomobility
Manual Physical Therapy and Exercise vs Supervised Home
Exercise in the Management of Patients Status post inversion
ankle sprain: a multi-center randomized clinical trial, JOSPT
2013, Cleland et. al.
Subjects: 74 patients post inversion ankle
sprain
• Treatment Conditions: Manual therapy (from
Whitman) plus ther-ex (2x/week x 4 weeks) OR
Home exercise program (HEP) only (1x/week x 4
weeks in clinic)
Used same exercises for both groups
• Outcomes Measures: FAAM, LEFS, NPRS tested at
baseline, 4 weeks, and 6 months
Does it work? Outcomes: Improvements in all outcome measures and
pain significantly greater at
both the 4 week and 6
months in favor of the MTEX
group
Conclusions: MTEX is superior to HEP in the treatment of
inversion ankle sprains
Efficacy of Thrust and Nonthrust Manipulation and Exercise With
or Without the Addition of Myofascial Therapy for the
Management of Acute Inversion Ankle Sprain: A Randomized Clinical Trial, JOSPT 2013, Truyols-Dominguez et. al.
Subjects: 50 patients post acute inversion ankle sprain
• Treatment Conditions (1x/week x 4 weeks):
– MTEX (Whitman-again-and traditional ther-ex
– MTEX plus myofascial therapy
• Outcomes Measures: NPRS, ankle function at Discharge and 1 month
Does it work? Kinda:
Improvement in MFR group was statistically significant
However, gains most likely not clinically significant based on clinically significant change on outcome measure
A Combined Treatment Approach Emphasizing
Impairment-Based Manual Physical Therapy for Plantar Heel Pain: A Case Series, JOSPT 2004, Walker, et. al.
Subjects: N = 4; unilateral heel pain or
plantar fasciitis
• Treatment conditions:
1. Calf-stretching, A/P talocrural
mobs, subtalar distraction manip
2. Calf-stretching, A/P talocrural
mobs, subtalar distraction manip,
lateral subtalar joint glides, A/P –
P/A first TMT joint
3. Subtalar joint distraction manip,
stretching, orthosis
4. Subtalar joint distraction manip,
stretching, foot intrinsics
• Outcome Measures: NPRS and Self-
reported functional status
Does it work? Results:
• Rx duration between 8-49 days
• Sessions ranged from 2-7
• All 4 reported a decrease in
NPRS from an average
of 5.8±2.2 to 0/10 (>2 significant)
Conclusions:
• Impairment-based PT approach emphasizing manual
therapy demonstrated complete
pain relief and full return to
activities
Manual Physical Therapy and Exercise Versus Electrophysical
Agents and Exercise in the Management of Plantar Heel Pain: A Multicenter Randomized Clinical Trial, JOSPT 2009, Cleland et. al
Subjects: N = 60; primary report of plantar heel pain and LEFS ≤ 65
• Treatment conditions: 2x/week x 2 weeks; 1x/week x 2 week; 6 visits
total over 4 weeks
• Control: Electrophysical agents + exercise (EPAX)
• Ultrasound, ionto with dexamethasone, ice, gastroc-soleus & plantar
fascia stretch, intrinsic foot strengthening, self-mob; 3x/day x 4 weeks
• Treatment group: Manual therapy + exercise (MTEX); individualized
STM, rearfoot eversion mobilization, ankle eversion self mobs, manual
STM of plantar fascia, + gastroc/soleus stretches
• Impairment based mobs at the hip, knee, ankle, foot
• Outcome Measures: 4 weeks; 6 months including LEFS, Foot and
Ankle Ability Measure (FAAM), NPRS, Beck Anxiety Index (BAI), Global
rating of change scale
Does it work? Both groups
demonstrated
statistically significant
improvement in all
measures
MTEX clinically greater
improvement in LEFS
and FAAM at 4 & 6
wks
Acute effects of rearfoot manipulation on dynamic
standing balance in healthy individuals; Manual Therapy, Wassinger, et. al., 2014
Design:
20 healthy
participants
Treatment group
underwent rearfoot
distraction
mobilization
Control group did
nothing
Both groups tested
on Y-balance test
Results:
Dynamic balance improved for overall balance and posteromedial excursion direction
The Effect of Sesamoid Mobilization, Flexor Hallucis
Strengthening, and Gait Training on Reducing Pain and Restoring
Function in Individuals with Hallux Limitus: A Clinical Trial, JOSPT 2004, Shamus et. al.
Subjects: N = 20; hallux limitus (“turf toe”,
MPJ sprain)
• Treatment conditions: 3x/week x 4 weeks
Control group: whirlpool,
gastroc/hamstring stretch, pulsed
ultrasound, PROM 1st MPJ, grade III dorsal
glides and distraction 1st MPJ, heel raises,
great toe strengthening, e-stim, ice
Treatment group: Above + grade III
sesamoid joint mobilizations, FHL strengthening, gait training
• Outcome measures: ROM, strength
Does it work?
Control group
demonstrated
statistically significant
improvement in:
Pain level (via
NPRS)
FHL strength
MTP extension
ROM
Achilles pain, stiffness, and muscle power deficits:
Achilles tendinitis; JOSPT, Carcia et. al 2010 APTA clinical practice
guidelines based on meta-
analysis
Protocol 1: (Curwin & Stanish)
– 3 sets of 10 reps eccentrics
– Increased load weekly
– Speed of movement
changed daily
– 95% of patients reported
symptom resolution in 6-8
weeks
• Protocol 2: (Alfredson et al)
– Unilateral heel raises with no
concentric component
– 3 sets of 15 reps, 2x/day, 12
weeks
Does it work?
Strong evidence
supports use of
eccentric loading to
resolve symptoms in 6-
8 weeks
Also suggests
clinicians consider
Modalities (laser,
ionto)
Manual therapy
Other ther ex.
Ill tempered sea-
bass?
Eccentric overload training in patients with chronic
Achilles tendinopathy: a systematic review; British
Journal of Sports Med; Kingma et. al
Similar results found by:
Kingma et. al.
Root et. al. *
Mafi et. al. *
Alfredson et. al. *
Silbernagal et. al. *
*Articles not available on
pub med
Nonsurgical Management of Posterior Tibial Tendon Dysfunction With
Orthoses and Resistive Exercise: A Randomized Controlled Trial; Physical
Therapy; Kulig et. al. 2009
Subjects: 36 adults with stage 1 or 2 posterior tib
tendinopathy
• Treatment conditions: 12 week program
– Orthotics & stretching
– Orthotics, stretching, concentric PREs
– Orthotics, stretching, eccentric PREs
• Outcomes Measures: FFI, 5 minute walk, pain
Results:
All groups improved
Orthotics, stretching, and ECCENTRIC PRE group improved most
Orthotic and stretching only group improved least
Effectiveness of exercise therapy and manual mobilisation in
ankle sprain and functional instability: a systematic review; Aust J Physio; Wees et. al. 2006
Meta-analysis of 17
studies
Moderate evidence
exists that:
TherEx (including
wobble board)
effective in preventing
recurrent ankle sprains
for both acute sprain
and CAI
No effect on postural
sway
Initial improvement in
ankle DF
Six Weeks of Balance Training Improves Sensorimotor Function in
Individuals With Chronic Ankle Instability; JOSPT, Sefton et. al. 2009
Subjects: N = 21; 12 w/CAI and 9 healthy
Treatment group: 3x/week x 6 weeks
consisting primarily of balance-board
training
Control group: continue with normal ADLs
Outcome Measures: baseline & 6 weeks
Ankle Injury History Questionnaire
Functional Ankle Instability Index
(FAII)
Single limb stance
Star excursion balance test
Motoneuron pool excitability
recurrent inhibition protocol (EMG)
Joint kinesthesia measurements
(Biodex)
Results:
Enhanced dynamic balance
Inversion joint position sense
Changes in motorneuron pool excitability compared to healthy controls who did not train
Conclusions: Balance board training protocols may produce improvements in the daily functioning of individuals
with CAI
Wobble Board Training After Partial Sprains of the Lateral
Ligaments of the Ankle: A Prospective Randomized Study; JOSPT; Wester et. al. 1996
Subjects: N = 48; primary ankle sprains
• Treatment group: 12
week training program
with a wobble board 15
min/day
• Control: no training
• Outcome measures:
Volumetric measures
Resting pain
Walking pain
Recurrent ankle sprains
Results:
• Recurrent ankle sprains: 25% in
treatment group; 54% in control
• Edema: no differences between
groups
• Return to sport: no differences
Conclusions:
Wobble board training for 12
weeks beginning 1 week after the
ankle sprain was effective in
reducing the number of recurrent
ankle sprains and prevent
functional instability of the ankle in
patients with primary ankle
sprains.
Patellofemoral Joint and Achilles Tendon Loads
During Overground and Treadmill Running; JOSPT, Willy et. al.
2016
Design:
18 healthy runners on treadmill and over ground
3-D motion analysis analyzing PF Joint and Achilles Tendon:
Peak load
Rate of loading
Cumulative load / 1K of running
Results:
No differences at PF Joint for treadmill or road running
Significant differences in all 3 measures for Achilles tendon worse for treadmill
The effect of stride length on the dynamics of barefoot and shod
running; Journal of Biomechanics; Thompson et. al.; 2014
Evaluated effect of
footwear and stride
length on LE
biomechanics during
running
N=11 healthy runners
Ran over ground at
normal stride and at
+/- 5 & 10%
(metronome induced)
both barefoot and
shod
Evaluated 3-D motion capture and force-plate analysis of:
A/P GFRs
Vertical GFRs
Sagittal plane motion of knee, foot, and ankle
Conclusion: At same stride length, no difference in LE biomechanics between barefoot and shod running
Stride-length may be injury-reducing factor
Overall conclusions
Rehabilitation can treat
a myriad of foot/ankle
conditions
Manual therapy
works—use it
Therapeutic exercise
works—use it
There is a place for
modalities—especially
low-level laser
References Branjerdporn, M. (2006). Initial Changes in Posterior Talar Glide and Dorsiflexion of the Ankle After Mobilization With Movement in Individuals With Recurrent Ankle Sprain. Journal of Orthopaedic and Sports Physical Therapy. doi:10.2519/jospt. Carcia, C. R., Martin, R. L., & Wukich, D. K. (2010). Achilles Pain, Stiffness, and Muscle Power Deficits: Achilles Tendinitis. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 40(9). doi:10.2519/jospt.2010.0305 Cleland, J. A., Abbott, J. H., Kidd, M. O., Stockwell, S., Cheney, S., Gerrard, D. F., & Flynn, T. W. (2009). Manual Physical Therapy and Exercise Versus Electrophysical Agents and Exercise in the Management of Plantar Heel Pain: A Multicenter Randomized Clinical Trial. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 39(8), 573-585. doi:10.2519/jospt.2009.3036 Cleland, J. A., Mintken, P., Mcdevitt, A., Bieniek, M., Carpenter, K., Kulp, K., & Whitman, J. M. (2013). Manual Physical Therapy and Exercise Versus Supervised Home Exercise in the Management of Patients With Inversion Ankle Sprain: A Multicenter Randomized Clinical Trial. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 43(7), 443-455. doi:10.2519/jospt.2013.4792 Hong, Y., Wang, L., Li, J. X., & Zhou, J. H. (2012). Comparison of plantar loads during treadmill and overground running. Journal of Science and Medicine in Sport, 15(6), 554-560. doi:10.1016/j.jsams.2012.01.004
References (cont) Kingma, J. J., Knikker, R. D., Wittink, H. M., & Takken, T. (2007). Eccentric overload training in patients with chronic Achilles tendinopathy: A systematic review. British Journal of Sports Medicine, 41(6). doi:10.1136/bjsm.2006.030916 Kulig, K., Reischl, S. F., Pomrantz, A. B., Burnfield, J. M., Mais-Requejo, S., Thordarson, D. B., & Smith, R. W. (2008). Nonsurgical Management of Posterior Tibial Tendon Dysfunction With Orthoses and Resistive Exercise: A Randomized Controlled Trial. Physical Therapy, 89(1), 26-37. doi:10.2522/ptj.20070242
Mcclinton, S., Collazo, C., Vincent, E., & Vardaxis, V. (2016). Impaired Foot Plantar Flexor Muscle Performance in Individuals With Plantar Heel Pain and Association With Foot Orthosis Use. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 46(8), 681-688. doi:10.2519/jospt.2016.6482 Sefton, J. M., Yarar, C., Hicks-Little, C. A., Berry, J. W., & Cordova, M. L. (2011). Six Weeks of Balance Training Improves Sensorimotor Function in Individuals With Chronic Ankle Instability. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 41(2), 81-89. doi:10.2519/jospt.2011.3365 Shamus, J., Shamus, E., Gugel, R. N., Brucker, B. S., & Skaruppa, C. (2004). The Effect of Sesamoid Mobilization, Flexor Hallucis Strengthening, and Gait Training on Reducing Pain and Restoring Function in Individuals With Hallux Limitus: A Clinical Trial. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 34(7), 368-376. doi:10.2519/jospt.2004.34.7.368
References (cont) Thompson, M., Gutmann, A., Seegmiller, J., & Mcgowan, C. (2014). The effect of stride length on the dynamics of barefoot and shod running. Journal of Biomechanics, 47(11), 2745-2750. doi:10.1016/j.jbiomech.2014.04.043 Truyols-Domínguez, S., Salom-Moreno, J., Abian-Vicen, J., Cleland, J. A., & Fernández-De-Las-Peñas, C. (2013). Efficacy of Thrust and Nonthrust Manipulation and Exercise With or Without the Addition of Myofascial Therapy for the Management of Acute Inversion Ankle Sprain: A Randomized Clinical Trial. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 43(5), 300-309. doi:10.2519/jospt.2013.4467
Walker, M. J. (2004). A Combined Treatment Approach Emphasizing Impairment-Based Manual Physical Therapy for Plantar Heel Pain: A Case Series. Journal of Orthopaedic and Sports Physical Therapy. doi:10.2519/jospt.2004.1506 Wassinger, C. A., Rockett, A., Pitman, L., Murphy, M. M., & Peters, C. (2014). Acute effects of rearfoot manipulation on dynamic standing balance in healthy individuals. Manual Therapy, 19(3), 242-245. doi:10.1016/j.math.2013.11.001
Wees, P. J., Lenssen, A. F., Hendriks, E. J., Stomp, D. J., Dekker, J., & Bie, R. A. (2006). Effectiveness of exercise therapy and manual mobilisation in acute ankle sprain and functional instability: A systematic review. Australian Journal of Physiotherapy, 52(1), 27-37. doi:10.1016/s0004-9514(06)70059-9
References (Cont) Wester, J. U., Jespersen, S. M., Nielsen, K. D., & Neumann, L. (1996). Wobble Board Training After Partial Sprains of the Lateral Ligaments of the Ankle: A Prospective Randomized Study. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 23(5), 332-336. doi:10.2519/jospt.1996.23.5.332
Whitman, J. M., Cleland, J. A., Mintken, P., Keirns, M., Bieniek, M. L., Albin, S. R., . . . Mcpoil, T. G. (2009). Predicting Short-Term Response to Thrust and Nonthrust Manipulation and Exercise in Patients Post Inversion Ankle Sprain. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 39(3), 188-200. doi:10.2519/jospt.2009.2940
Willy, R. W., Halsey, L., Hayek, A., Johnson, H., & Willson, J. D. (2016). Patellofemoral Joint and Achilles Tendon Loads During Overground and Treadmill Running. J Orthop Sports Phys Ther Journal of Orthopaedic & Sports Physical Therapy, 46(8), 664-672. doi:10.2519/jospt.2016.6494