Wrist PPT 3 Soft Tissue injuries of the wrist and Hand.pptx.pdf

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SOFT TISSUE
DIAGNOSIS OF
THE HAND
Sarah Maceda OTR/L CHT

Tendon repair
■ Goal : Heal a tendon without Rupture or gap formation and to be
able to have enough strength and excursion for ADLs
■ Normal tendon function needs free gliding without hindrance
from surrounding tissues. Scar adhesions can occur easily due to
close proximity if structures.

■ Tendon adhesions limit function and ROM of the digits
■ Normal gliding of the tissue encounters drag from surrounding
tissues. Postoperatively the drag is increased by edema and
bulk of sutures (more is not always better). If stressed too early
the tendon may pull apart and rupture or Gap (weaken and
elongate the tissue). Less than 2 mm of gapping is preferred.

■ Three types of Protocols, Immobilization, Early passive mobilization,
early active mobilization (& Tenodesis).
■ Tendon nutrition comes from blood supply(Vincula ) and the synovial
diffusion. Even if the vincula is damaged the synovial diffusion is
important for healing . Important in Zone 2 Flexor tendon.
■ Brand: If living tissue is subject to slight tension for a long period of
time the collagen fibers will be progressively absorbed and laid down
again in modified bonding patterns.
■ Studies on animals show better healing of tendons with early
mobilization and stress applied to tendon anastomoses. Day 3-5 is
optimum. We want to achieve strong healing in the tendon and weak
healing with surrounding tissue.

Tendon Healing

■ Intrinsic healing: Tenocytes within
the tendon Extrinsic healing:
Healing stimulated by the synovial
■ fluid and inflammatory cells
Forms scarring and adhesions

■ Local edema caused by healing =
Increased resistance in flexor
tendon movement

■ Based on experimental studies,
Gelberman et al. found that 3-4
mm of excursion at a flexor
tendon repair was necessary to
stimulate the intrinsic repair site
without creating significant
repair-site deformation
■ Active tension of at least 300 g
maybe necessary to effect 3 mm
of true excursion in zone II

■ Many factors need to be
considered. Moment arm at
repair site, type of sutures,
status of pully (venting), blood
vessels, other structures
damaged, amount of edema.

WOF
■ Work of Flexion(WOF):summation of forces necessary to move
the tendon along its excursion distance
■ – Edema factors
■ – Local edema contributes to 20-25% increase of total
resistance to gliding of the flexor tendon
■ – Increase WOF 10-30% with prolonged edematous tissue

Complications To Repairs
■ Rupture
■ Tethering of the extensor tendons
■ Adherence of the flexor tendon
■ Severe edema can cause restricted extensor tendon
movement and secondary adhesions
■ Inadequate access to health care

Flexor tendon repair
■

Early Passive motion 1977 – 1980s

■

2 strand repairs

■

Modified Duran Program (Duran and Houser)

■

Objective: independent tendon gliding

■

3-5mm tendon gliding intraoperative; less postop

■

Clinical research: 17-19 days negligible passive tendon gliding

■

Orthotic – wrist flex 30 deg , MP flex 70 .Ex every 2-3 hr 25 passive MP , PIP , Combined
Flex and ext . Three weeks AROM

■

Kleinert Program

■

Orthosis – time-consuming to fabricate

■

Concerns with flexion contractures

■

Only use with N/C patients. Less popular

Strength of healing Tendon

Suture
Techniques

Movement towards Newer
Protocols
■ Tendon Excursion is increased by the addition of wrist tenodesis.
Synergistic wrist and MCP motion provide more effective excursion than
wrist fixation
■ MCP extension and wrist extension with the IP joints in full flexion to
provide effective excursion to the FDP. (modified tenodesis exercises)
■

Isolated DIP motion of at least 35deg may be necessary to effect 3-4
mm of differential glide of the FDP on the FDS and hook fist position also
is critical in promoting differential glide within the digital

■

Improvements in surgical techniques to 4, 6 , and 8 strand repairs
venting of pulleys.

■

four-strand core stitch repair with a running lock or horizontal mattress
circumferential epitendinous stitch needed for tenodesis and early active
exercises

Indiana Protocol
■ the first published rehabilitation regimen to include synergistic motion
and incorporate the exercise referred to as place and hold. 1993
■

a hinged dorsal blocking orthosis is fabricated for exercise/strickland
splint

■ place and hold sequence: passive digital flexion, wrist extension, active
hold of the wrist and digit position for 5 seconds, and release to wrist
flexion with digit extension

Early Active Motion (EAM)
■

2005 began

■

Studies only done for zone 2 flexor tendon. May not safely be applied to
zone 1?

■

true active flexion as opposed to early passive or place and hold flexion.

■

Short Arch Motion through the available range others advocated
initiating motion in the first 1/3 to midrange to avoid the higher levels of
resistance encountered when making a composite fist.

■

Evans safe position orthotic wrist in 25-30 deg of flex . Dec MCP flex to
30 deg in order to decrease bias toward the proximal interphalangeal
(PIP) joint and decrease work of flexion at the distal interphalangeal
(DIP) joint

■

Newest protocols ( St John’s Protocol) splint becomes hand based at 2
weeks allowing full active ROM of the wrist

Therapy considerations for
EAM
■ Skilled surgeon, 4 strand or more repair
■ Venting of pulleys preferred
■ Favorable Considerations – Therapy
■ Limited edema – 5mm or less opposite digit P1
■ Full passive flexion
■ Patient – “seemed reliable”
■ No pertinent medical history (delayed healing)

Mayo Clinic
Short Arc Active Flexion Protocol
Peter Amadio, MD
4-strand and 6-strand repairs
Modified Duran + Active .
Each Week Move towards next finger down

Saint John Protocol
• Protocol Published
2016 . Saint John
Hospital Canada. DR.
Don Lalonde
• WALANT – Wide Awake
, Local Anesthetic, No
Tourniquet.
• Patient completes
AROM in the operating
room to ensure no
gapping of tendon and
proper gliding under
pulley
• Start therapy 3-5 days
post op . Work on
edema control and
elevation first.

Initial 2 ½ Weeks
□DBO – forearm based; wrist 45⁰ ext. MP’s 30⁰
flexion & the IPs extended
□PROM → short arc active flexion 1/3 – 1/2
fist. No forceful flexion. (day 4)
□2 ½ to 4 Weeks
□DBO reduced to hand based
□↑ active flexion to 3/4 fist
□4 – 6 Weeks
□Gradually achieve full active flexion
□6 Weeks – discontinue orthosis

■

“Although the literature continues to move toward progressive protocols with true active
motion and decreased immobilization of the wrist, it is important to recognize that welldesigned intervention studies to support those regimens does not yet exist. Most studies
Duran and Kleinert limited Ruptures but outcomes not as Favorable

■

Active full fist exercise protocols have higher rupture rate 5%

■

50% of all ruptures are with the SF

■

Study : Place and Hold /Indiana 3% most other studies show none or 1-2%

■

Combined place and hold / SAM 1-2%

■

All place and hold and SAM or full fist show excellent to good outcomes

Neiduski, R. L., & Powell, R. K. (2019). Flexor tendon rehabilitation in the 21st Century: A systematic
review. Journal of Hand Therapy, 32(2), 165–174. https://doi.org/10.1016/j.jht.2018.06.001

Protocol Outcomes

Zone 1 Flexor Tendon
■ Jersey Finger / closed avulsion injuries of the FDP
■ Can not Generalize the data and information from zone 2
protocols. Questions arise about strength of tendon to bone
repairs. Kinematics, function of FDP, and small moment arm
must be considered.
■ Evan’s Limited Extension Active Flexion (L.E.A.F) should be
use due to the lack of research to show other EAM protocols
can be generalized to zone 1 repairs.
■ Loss of DIP Flexion of 40 degrees of less is usually not
acceptable for patient functionally.

L.E.A.F Protocol Zone 1
■

Orthotic wrist 30- 40 deg flexion,
MPs 30 , PIPs 0, Dorsal DIP orthotic
40- 45 deg of flexion worn for first 2125 days.

■

Exercises: In dorsal orthotic: Passive
DIP flex, Passive, hook, Passive Full,
Passive MP flex with active IP ext,
Place and hold FDS exercises,
tenodesis.

■

81% had good ROM (TAM 124-159).
Other groups that 74% -58% .
Average DIP flexion 47 degrees vs 25

Extensor Tendon Rehab
■ All tendons in the extensor system tolerate controlled Active
motion except zone I, isolated wrist extensor tendons, and the
musculotendinous juncture
■ zones III and IV do not require continuous immobilization for four
to six weeks and will tolerate short arc motion (SAM) of 30
degrees in the initial weeks of healing
■ More ROM allowed in zones V-VII than previously allowed.
■ wrist position is critical in decreasing resistive forces from the
antagonistic flexor system and is a factor in true tendon
excursion gained with digital motion.
■ Evidence supports early active protocols. Limited studies found

Extensor tendon
■ Extensor tendons in the finger are flat and
intimate with the periosteum. Mattress
sutures and Kessler repairs without
epitendinous stitching are often used for
zones II, III, and IV. This technique can only
hold minimal force before failure. (840
Grams) Epitendinous repair only has shown
better results
■

Shortening of the tendon when repaired or
even a small amount of gapping at the repair
site can lead to dysfunctions in ROM

Zone I Extensor Tendon
■ Mallet Finger . Treated with a cast or orthotic 6 -8 weeks. DIP
Must be supported at all times in extension or slight
hyperextension
■ If injury more than 21 days old will need at least 8 Weeks .
Wean from orthotic slowly
■ May need up to 10 weeks in the orthotic.
■ Boney mallet – 6 weeks only if less than 21 days .
■ Surgery not recommended /only for extreme Fractures.

■

If not treated will progress to swan neck deformity over time

Zone III Closed tendon
injuries
■ PIP Extension orthotic for 6-8 weeks
■ ORL Stretches
■ Wean from Orthotic
■ PIP must be at 0 degrees of extension full time

Zone III & IV Extensor
tendon Repair
■

Evans: SAM protocol Immediate SAM of 30deg at
the PIP joint imposes approximately 300 g of
internal tension to the central slip and 3.75 mm of
excursion.

■

Resting orthotic DIP and PIP in 0 deg extension

■

1st 3 weeks Exercise: Use of a template orthotic for
exercise. Allow 30 deg of PIP flex to full extension .
Wrist in 20 deg flex and MP in O deg ext. With
lateral band repair DIP can be flexed to 30 degrees
if PIP is held in extension .

■

Slowly increase AROM in weeks 3-6 if no Extensor
lag .

Zone IV- VII
• Evans- treat the repaired EDC
in these zones with dynamic
splinting,. Considered Early
passive motion (patients
actively moving )
• Flexion Block 30-35deg of
motion for the index and long
digits and 40-45deg of
motion for the ring and small
digits effecting approximately
5 mm of excursion
• Wean from orthotic by 6
weeks
• Wrist ext 0 degrees

ICAM Zones 4-7 extensor
tendons
■ Immediate Controlled Active Motion Protocol. Howell 1980s .
Used protocol for 25 years before article was published 2004.
142 patients.
■ More simple orthotic design than Dynamic orthotic.

■ Therapy starts 2-5 days Post OP. Static wrist orthosis with 2030 deg extension . Yoke splint incorporating all fingers .
Holds involved digit 20 deg more ext than involved digit.
■ Phase 1 -0-21 days both orthotics worn. Phase 2- 22-35 days
only the yoke orthotic unless median work performed . Phase
3 - 36-49 days no use of wrist orthotic.

ICAM Orthotic

CAM VS
Relative
motion only
Fig. 1. (A) Orthoses used by the
controlled active motion
(CAM) group: (i) Daytime
WHFO (wrist-hand-finger
orthosis) with
interphalangeal joints free.
(ii) Nighttime static WHFO
with additional interphalangeal
joint extension paddle. (B)
Orthoses used by the
relative motion extension
(RME) group: (i) Daytime
RME static finger orthosis.
(ii) Nighttime static
WHFO.

PIP Joint injuries
■ Most commonly injured joint of the hand
■ More complicated than a “sprain”. The spectrum of PIP joint
injuries ranges from mild ligamentous sprains to unstable
irreducible joint fracture-dislocations.
■ Hinge joint allows 100 degrees arch of motion
■ Condylar asymmetry produces 9 degrees supination during
flexion

■ Stability provided by articular congruency and ligaments .
Most important are the Radial and ulnar collateral ligaments
and the Volar plate.

■ Proper collateral ligament (PCL) –
eccentric origin on the lateral
aspect of the proximal phalanx.
Fibers then course volarly and
distally and insert into the lateral
tubercles of the middle phalanx.
■ Accessory collateral ligament
(ACL)-from PCL to the volar plate.
■ Critical corner where all these
structures converge at the middle
phalanx
■ Function of the collateral
ligaments: As the PIP flexes,
tension increases on the PCLs as
they stretch over the wider
portion of the proximal phalanx .
The ACls fold into synovial
recesses and the volar plate
migrates proximally to allow
maximal joint flexion.
■ In extension the the ACL becomes
taut and strong. The volar plate
prevents hyperextension.

Dislocation Mechanism of
injury
■ Laterally directed dislocation
forces. A, Laterally directed
forces result in disruption of
the collateral ligaments. Most
commonly, this occurs at the
origin of the ligaments at the
proximal phalanx (1). B,
Displacement that is more
forceful leads to failure of the
accessory collateral ligament
(2), followed by failure of the
volar plate at its insertion on
the volar lip of the middle
phalanx (3). The dotted line
indicates the path of most
common failure.
Journal of Hand Therapy 2003 16, 117-128DOI: (10.1016/S0894-1130(03)80007-8)

Journal oJour Hand Therapy Journal of Hand Therapy 2003 16, 117-128DOI: (10.1016/S0894-1130(03)80007-82003 16, 117-128DOI: (10.1016/S08941130(03)80007-8f Hand Therapy 2003 16, 117-128DOI: (10.1016/S0894-1130(03)80007-8)

Bowers Classification
■ Grade I -asymmetric swelling and tenderness over the
collateral ligament, without instability on stress testing.
■ Grade II -complete disruption of the collateral ligament, but
the volar plate remains intact. These injuries are
characterized by a stable active arc of motion and <20° of
deviation with a firm end point on varus or valgus stress.
■ Grade III - total collateral ligament disruption and volar plate
rupture. Clinically, this type of injury may exhibit subluxation
or dislocation on active extension and >20° of joint laxity on
varus/valgus stress without a solid end point.

Treatment of Collateral
ligament injury
■

Night time extension orthotic , day time buddy straps.

■

JHT July 2018 .67 patients treated . Prospective cohort . Buddy strapping
and Tendon gliding exercises for grade 1-3 PIP collateral ligament
injuries.

■

Discussion : Buddy strapping for PIP joint injuries led to satisfactory
results with 77% recovery of grip strength, 84% recovery in ROM, and
mean QuickDASH scores of 14 at 6 months. A decrease in grip strength
was associated with an increase in age and injury severity at 6 months,
and these 2 factors accounted for 22% of the variance in the grip
strength. A decrease in ROM was associated with the delayed treatment,
which accounted for 18% of the variance in ROM at 6 months. An
increased disability was associated with delayed treatment, female
gender, and radial digit injury at 3 months, and these 3 factors
accounted for 37% of the variance in disability. At 6 months, only the
delayed treatment remained an associated factor, which accounted for
20% variance in disability.

Lateral dislocation with Fracture
Lateral or rotatory forces on a proximal interphalangeal joint in slight flexion
may result in unicondylar fractures of the proximal phalanx.
fracture reduction and early motion, angulation at the joint, arthrofibrosis,
and loss of motion are common complications.
External reduction with open screw placement is the preferred treatment.
mobilized actively between 30° and 60° arc of motion on the first
postoperative day, with weekly increases in 10° increments. 6 weeks can
begin PROM /gentle strengthening . Splint DC 8 weeks .
Significant stiffness and PIP extensor tendon lag is a common problem with
ORIF treatment . Minimally displaced FX can be treated with a traction
splint for 6 weeks

Dorsal Dislocation
■ PIP joint hyperextension, volar plate rupture, and dorsal
dislocation with rupture of the collateral ligaments
■ Most treated with closed reduction and use of an orthotic and
or buddy tape. Surgery only indicated when reduction is not
possible.

Eaton classification Dorsal
Dislocation
■ Type I (hyperextension) injuries are defined by a partial volar
plate avulsion with intact collateral ligaments. These injuries
clinically do not exhibit hyperextension instability on active
extension or passive hyperextension.
■ Type II (dorsal dislocation) injuries are characterized by total volar
plate rupture and complete collateral ligament split. These
injuries exhibit instability on active extension or hyperextension
deformity on passive dorsally directed stress testing.
■ Type III (fracture-dislocation) injuries include a fracture of the
insertion of the volar lip of the middle phalanx. Several
classifications have been used to subcategorize this Eaton type
III fracture-dislocation further

Treatment
for Dorsal
Dislocation
■

Grade I – Treated with
and ring splint (provides
active flex and blocks
extension and
subluxation)preferred.
Slight flexion till pain
subsides.

■

Grade 2 & 3 - Ring splint
in 20- 30 degrees of
flexion .

■

Short phase of
immobilization only 3 -5
days max .

Volar
dislocation

■

unilateral rupture of a collateral ligament and
partial avulsion of the volar plate ,herniation of
the head of the proximal phalanx through the
extensor mechanism

■

rare injury and usually arises from a rotatory
longitudinal force on a semiflexed digit.

■

No universally accepted classification of these
injuries

■

Dorsal lip fracture (Boutonniere FX) . Rupture
of the central slip insertion middle phalanx.

■

Treatment soft tissue extensor tendon injury6-8 weeks in a PIP extension orthotic.

■

Lip fractures – 4- 6 weeks in an extension
orthotic

■

Perform ORL stretches

MP Joints
■

Injured less frequently
than PIP joints.

■

Metacarpal head is
narrow dorsally and
widens volarly

■

PCL – eccentric dorsal
origin and tighten
during flexion. Joint is
lax during extension.
Allows 30 digress of
lateral deviation.

■

Test collateral
ligaments in flexion.
Point tenderness over
ligament

MCP Collateral
Ligament
Injuries
■

Forceful radial or ulnar stress to
the MCP joint

■

Most common radial collateral
ligament .

■

Treatment : Immobilization of
MP joint in 50 degrees of flexion
for 3 weeks. Buddy tape for 3-6
more weeks

■

more than 50 degrees of flexion
will place the injured lig under
max tension.

MCP Dislocations
■

Dorsal dislocation Occurs with a
hyperextension force to the digit.

■

Simple – 60-90 deg of hyperextension.
Reduced with closed manipulation

■

Tx – dorsal extension blocking orthotic

■

Complex- irreducible dislocation .
Caused by VP interposed dorsal to the
metacarpal head. dimpling seen in the
palm

■

Tx- surgical reduction . Orthotic in 50
degrees of MCP flexion

■

Volar dislocation rare

Sagittal Band Injuries
■ Centralize the extensor tendon over
the MCP joint and maintain them over
the dorsum of the MCP.
■ Allows/ helps MCP extension to occur.
■ If Ruptured the extensor tendon will
sublux to the opposite side of the MCP.
■ Most common LF with ulnar
subluxation of the extensor tendon

■ Treated with a yoke orthosis for 6
weeks.

Thumb MP joint
■ Collateral ligaments tight in flex , lax in extension.
■ Lateral movements 0-20 degrees with the MP in extension.
■ VP gives strong support. Dynamic stability –insertion of the
thenar musculature through the sesamoid bones in the distal
Volar plate. (APB, FPB, EPL,EPB,FPL )

Ulnar Collateral Ligament
■ 10 x more frequent than RCL injuries.
■ Forced radial deviation and hyperextension.
■ UCL is detached from its distal insertion on the proximal
phalanx.
■ Stener’s lesion- UCL completely disrupted. Ligament displaces
superficial to the adductor aponeurosis. This prevents the
ligament from healing. MRI useful in diagnosis.

Treatment
■ Nondisplaced stable avulsion, partial ligament- Hand based
thumb spica cast 2-4 weeks, removable splint and begin A/AA
ROM . Key pinch ok. Avoid tip pinch for 8 weeks.
■ Complete ligament disruption or displaced Fractures treated
with ORIF. Cast 4 weeks. Begin gentle ROM . Avoid tip pinch
for 8 weeks. Thumb spica orthotic for 2-6 weeks. Return to
sport 10-2 weeks
■ Internal Brace from Arthrex – start ROM 7-10 days, orthotic
as needed 4-6 weeks full activity.

Trigger Digit
■

Fibroosseous tunnel formed by Metacarpal neck and A1 pully. FDS, FDP or
both affected

■

symptomatic clicking or locking of a finger or the thumb. The etiology involves
pathological thickening of the flexor sheath, the annular pulley system, and
intrasubstance changes within the flexor

■

Felt as a palpable nodule, resulted in the inability of the affected digit to flex
or extend smoothly. A person with TD may initially experience painless
clicking of the digit during movements which may progress to painful
triggering and locking.

■

2.6% incidence in general population. Women more affected to men , 5 th
and 6th generation.

■

Primary TD etiology is often idiopathic. Secondary TD can be caused by
trauma (chronic trauma or repetitive strain) and is often found in association
with other conditions such as diabetes mellitus, rheumatoid arthritis, carpal
tunnel syndrome, and De Quervain’s tenosynovitis

Conservative management
■ Poorer outcome with multiple digits . Symptoms more than 4-6
months . Presence of significant triggering .
■ CSI injection 50-94% effective . Diabeties 50% success rate .
General population 72-90%
■ Several studies have evaluated the effectiveness of the MCPJblocking orthosis (MCPJ-BO), and the reported success rate
range from 70% to 92.9%.
■ Randomized controlled study in JHT 2018 looked at immobilizing
the PIP joint vs the MP joint . Wear 24hours a day for 8 weeks.
47% improved in PIP group one level on Green’s classification.
MP group 40% improved. PIP joint was better tolerated, better
cosmesis, and better compliance. Use for level 2-3 TD.

Dupuytren’s Disease
■

Benign fibroproliferative disorder of the hand, characterized by nodules and cords of the
palmar fascia. RF and SF usually affected the most . Surgery not recommended till MP
or PIP Joint are at 30 degrees of flexion .

■

recurrence after palmar fasciotomy surgery may be as high as 60 percent. Extensive
post operative care and therapy . PIPJ involvement has a higher rate of return than MPJ.

■

Current treatments are moving towards nonsurgical options such as needle fasciotomy
and collagenase injections (XYLAFLEX). Journal of hand surgery study 2007 showed
higher rates of return than Fasciotomy at 1 year follow up .

■

2017 random study of 130 patient in the Journal of Plastic and Reconstructive study
showed similar outcomes between Fasciotomy and XYLAFLEX for mild disease. Type I
and II. Study only 1 year follow up not enough time.

■

Treatment post XYLAFLEX and Fasciotomy involves a custom static orthotic to wear at
night for 4 months.

Post surgical Treatment
■ Orthotic use for involved fingers only. Initiated 2-3 days post
op/ continuous for 3 weeks and then at night for 6-8 months.
■ No tension techniques are considered superior to aggressive
orthotic use and ROM.

■ Begin AROM day 2-3 Post op . PROM 3-4 weeks. Flair up
usually occurs around week 2. Monitor for CRPS.

Conservative Tx for
Dupuytren’s ?
■

In the past studies that “stretch” the contracted
tissues show no benefit.

■

Orthoses act on myofibroblasts and the
contracted nodules of Dupuytren’s disease
consist of myofibroblasts.

■

Myofibroblasts are activated contractile cells
similar to those in scar tissue. In vitro
experiments report that myofibroblasts are
sensitive to mechanical traction but also to
compression.

■

Randomized clinical trial on 30 patients in 2
groups. Used a compression orthotic (Hand
based compression with silicone bed) or a
tension orthotic.

■

Wore the orthotics 3 months 20 hours a day

■

Outcome Tension group TAE 32 deg, Compression
40 deg.

■

Both orthotics show reduction in Extension.
Compression group was better tolerated and had
increased extension.

■

Needs long term follow up study.