Knee ligament CPG

Question 1

• The incidence of ligamentous injury from greatest to least is:

Answer 1

ACL, PCL, MCL, LCL

Question 2

• The most common multiligamentous injuries include:

Answer 2

o ACL and MCL

o Posterolateral corner (PLC) and either the ACL or PCL

Question 3

What demographics have the highest incidence of ligamentous injury?

Answer 3

• Ligamentous knee injury is substantially higher for people in the military and professional athletes; moderately higher for amateur athletes

Question 4

What are the stats for second ACL injury following ACL reconstruction?

Answer 4

o patients under the age of 25 have a second ACL injury rate of 21%
o athletes under the age of 25 who return to sport have a second ACL injury rate of 23%
o Female athletes returning to sport are 4.5x more likely to have a second ACL injury within 24 months than female controls

Question 5

What sports are arguably the most dangerous for ACL injury?

Answer 5

• soccer accounts for a third of all ACL reconstructions, however football is more dangerous for males.
• skiing carries a higher risk of injury in general, but lower volume of injury

Question 6

What is the standard mechanism of ACL injury?

Answer 6

o Non-contact
o Acceleration or deceleration with excessive quad contraction and reduced hamstring co-contraction at or near full extension.
o Loading is higher with quadriceps force combined with knee internal rotation, a valgus load combined with knee internal rotation, or excessive valgus loads applied during weight bearing deceleration activities

Question 7

What is/are the standard mechnism(s) for PCL injury?

Answer 7

o “dashboard/anterior tibial blow injury” (38.5%),
o fall on the flexed knee with the foot in plantar flexion (24.6%)
o a sudden violent hyperextension of the knee joint (11.9%)

Question 8

What is the standard mechanism for PLC injury? (isolated)

Answer 8

Isolated injury to the PLC can occur from a posterolateral directed force to the proximal medial tibia with the knee at or near full extension, forcing the knee into hyperextension and varus.

Question 9

What is the standard mechanism for PLC injury? (combined)

Answer 9

Combined PLC injuries can result from knee hyperextension, external rotation, and varus rotation; complete knee dislocation; or a flexed and externally rotated knee that receives a posteriorly directed force to the tibia

Question 10

What does the evidence say about early vs delayed ACL reconstruction?

Answer 10

• There is high quality evidence that shows:
  o No difference between early and delayed ACL reconstruction for multiple outcomes including knee laxity/instability and return to sport levels
  o No difference between early ACL reconstruction with structured rehabilitation and structured rehabilitation with the option for delayed ACL reconstruction at 5 year follow up with multiple outcome measures

Question 11

Are there differences between quad tendon, hamstring tendon, or patellar tendon grafts for ligamentous stability and patient reported outcomes?

Answer 11

• Level II evidence shows that outcomes are generally similar between graft types

Question 12

What are the expectations following ligament injury and surgical management with regards to graft type and timing of surgery?

Answer 12

The clinical course for most patients after ligament injury and surgery is satisfactory, with no differences between graft type or timing of surgery.

Question 13

Can people expect to return to sport following ligamentous injury and surgical management?

Answer 13

Rates of return to any sport are good, but there are substantially lower rates for return to preinjury levels or competitive sports. Physical impairments, performance-based tests, PROs, and psychological responses may influence return-to-sport rates.

Question 14

Is there an effect of psychological factors on return to sport following ACL reconstruction?

Answer 14

yes

Other important factors include psychological responses, including fear of movement/reinjury, athletic confidence, self-efficacy, and emotions, after ACL reconstruction.

Question 15

What two environmental (literally) conditions are associated with risk of ACL injury?

Answer 15

• Dry weather conditions and artificial turf surface

Question 16

What are other risk factors associated with the risk of ACL injury? (6)

Answer 16

• Female sex
• narrow intercondylar femoral notch size
• lesser concavity depth of the medial tibial plateau
• greater anterior/poste¬rior tibiofemoral joint laxity
• prior ACL reconstruction
• familial predisposition

Question 17

Is the magnitude of the posterior slope of the tibia a risk factor for ACL injury?

Answer 17

• conflicting evidence

Question 18

Are there biomechanical or neuromuscular risk factors associated with non-contact ACL injury?

Answer 18

• no evidence to support their existence at this time

Question 19

What are the CPG diagnostic criteria for ACL sprain diagnosis? (6)

Answer 19

o Mechanism of injury consisting of deceleration and acceleration motions with noncontact valgus load at or near full knee extension
o Hearing or feeling a “pop” at time of injury
o Hemarthrosis within 0 to 12 hours following injury
o History of giving way
o Positive Lachman test with “soft” end feel or increased anterior tibial translation (sensitivity, 85%; 95% CI: 83%, 87% and specificity, 94%; 95% CI: 92%, 95%)
o Positive pivot shift test (sensitivity, 24%; 95% CI: 21%, 27% and specificity, 98%; 95% CI: 96%, 99%)

Question 20

What are expected movement coordination impairment measures following ACL sprain that can assist diagnosis? (3)

Answer 20

• 6-meter single-limb timed hop test result that is less than 80% of the uninvolved limb
  • Maximum voluntary isometric quadriceps strength index that is less than 80% using the burst superimposition technique
  • Reported history of giving-way episodes with 2 or more activities of daily living (ADLs)

Question 21

What are the CPG diagnostic criteria for PCL sprain diagnosis? (4)

Answer 21

o Posterior-directed force on the proximal tibia (dashboard/ anterior tibial blow injury), a fall on the flexed knee, or a sudden violent hyperextension of the knee joint
o Localized posterior knee pain with kneeling or decelerating
o Positive posterior drawer test at 90° with a nondiscrete end feel or an increased posterior tibial translation (sensitivity, 90%; 95% CI not available and specificity, 99%; 95% CI not available)
o Posterior sag (subluxation) of the proximal tibia posteriorly relative to the anterior aspect of the femoral condyles (sen¬sitivity, 79%; 95% CI: 57%, 91% and specificity, 100%; 95% CI: 85%, 100%)

Question 22

What are the CPG diagnostic criteria for MCL sprain diagnosis? (5)

Answer 22

o Trauma by a force applied to the lateral aspect of the lower extremity
o Rotational trauma
o Medial knee pain with valgus stress test performed at 30° of knee flexion (sensitivity, 78%; 95% CI: 64%, 92% and specificity, 67%; 95% CI: 57%, 76%)
o Increased separation between the femur and tibia (laxity) with a valgus stress test performed at 30° of knee flexion (sensitivity, 91%; 95% CI: 81%, 100% and specificity, 49%; 95% CI: 39%, 59%)
o Tenderness over the MCL and its attachments reproduces familiar pain

Question 23

What are the CPG diagnostic criteria for LCL sprain diagnosis? (5)

Answer 23

o Varus trauma
o Localized swelling over the LCL
o Tenderness over the LCL and its attachments reproduces familiar pain
o Lateral knee pain with varus stress test performed at 0° and 30° of knee flexion
o Increased separation between the femur and tibia (laxity) with varus stress test applied at 0° and 30° of knee flexion

Question 24

What are the key clinical findings indicative of knee instability as a clinical diagnosis? (11)

Answer 24

o Symptom onset linked to precipitating trauma
o Deceleration, cutting, or valgus motion associated with injury
o “Pop” heard or felt at time of injury
o Hemarthrosis within 0 to 12 hours following injury
o Knee effusion present
o Sense of knee instability reported
o Excessive tibiofemoral laxity with (cruciate/collateral) ligament integrity tests
o Pain/symptoms with (cruciate/collateral) ligament integrity tests
o Lower-limb strength and coordination deficits
o Impaired single-leg proprioception/balance
o Abnormal compensatory strategies observed during deceleration or cutting movements

Question 25

What outcome measures are most appropriate for use to measure knee symptoms and function in the context of ligamentous injury?

Answer 25

• IKDC 2000
• KOOS
• also “may” use Lysholm scale

Question 26

What outcome measures are more appropriate for use to measure/track efficacy of intervention for impairment/activity/participation with knee ligamentous injury?

Answer 26

• Tegner scale

- Marx Activity Rating Scale

Question 27

What outcome measures are most appropriate for use to measure/track efficacy of intervention for psychological factors with knee ligamentous injury?

Answer 27

• ACL-RSI

- “may” use

Question 28

What two hop tests are associated with a cut-off to predict prognosis or specific intervention? What is the cut-off?

Answer 28

• Single-leg hop for distance at 88% or greater predicts normal knee function at 1 year; when conducted 6 months after ACL reconstruction, can predict normal knee function at one year as well
• 6m timed hop test for athletes that demosntrated less than 88% cutoff may benefit from isolated strengthening to improve outcomes

Question 29

Are single leg hop tests predictive of success, preoperatively?

Answer 29

• no

Question 30

What are the recommended impairment level things that should be measure through course of care for a knee ligamentous sprain? (5)

Answer 30

• knee joint laxity
• thigh muscle strength
• lower limb movement coordination
• knee effusion
• knee joint ROM

Question 31

What clinical tests are most appropriate for dx of ACL sprain?

Answer 31

• Lachmans, anterior drawer, pivot shift

- all have good properties; arguably Lachmans and anterior drawer are better

Question 32

What clinical test is the most sensitive for PCL tear? Most specific?

Answer 32

• sensitive: posterior sag sign

- specific: quad active test

Question 33

Is preoperative quad strength associated with outcomes post-ACL surgery?

Answer 33

• kind of.
• quad strength deficits are associated with self-reported impaired knee function at 6 months and 2 years
• higher pre-op quad strength index along with younger age and male sex is associated with higher quad strength 6 months post-op
• the cutoff of 70.2% quad strength index preop is associated with moderate probability of having 85% quad strength index at 6 months postop

Question 34

What are the recommendations for using a CPM following ACL reconstruction?

Answer 34

• weak evidence

- it can be used in the immediate post-op phase to help control pain…oddly…not improve ROM

Question 35

What are the recommendations for early weight bearing following ACL reconstruction?

Answer 35

• weak evidence
• fairly standard at this point though
• may implement WBAT within 1 week post-op

Question 36

What are the recommendations for use of knee bracing for ligamentous injury and post-op?

Answer 36

• Grade F evidence for MCL, LCL, PCL, etc. You can use it, there’s just no research looking at those
• For post-op ACL, there is moderate evidence that use of a brace is no more beneficial than not using one.
• some evidence of a statistical difference in joint laxity for those that wear braces, but not clinically different. No real difference in ROM, strength, function, etc

Question 37

What are the recommendations for use of cryotherapy for ACL reconstruction?

Answer 37

• it should be used in the immediate post-op phase to control pain
• no evidence that it has effects in other variables such as ROM, effusion, etc

Question 38

What are the recommendations for immediate vs delayed mobilization post-op ACL reconstruction?

Answer 38

• moderate evidence supporting immediate (w/in 1 week) mobilization to improve:
• ROM
• pain
• risk of adverse responses; e.g., loss of knee extension

Question 39

What are the recommendations for supervised rehabilitation for post-op ACL reconstruction?

Answer 39

• it should be done.

- Should consist of exercise, HEP progression/supervision, and education to ensure independent performance

Question 40

What are the recommendations for therapeutic exercise for post-op ACL reconstruction?

Answer 40

• It should be done with the goal of increasing thigh muscle strength
• Should consist of WB and non-WB eccentric and concentric exercise
• Should start w/in 4-6 weeks post-op, conducted 2-3x/week for 6-10 months

Question 41

What are the recommendations for NMES use for post-op ACL reconstruction?

Answer 41

• Strong evidence that it should be used in the first 6-8 weeks to augment quad strengthening exercise
• enhances short term outcomes
• can be used longer per some studies
• most studies are worded using the NMES with exercise as opposed to just the NMES alone

Question 42

What are the recommendations for NM re-education for post-op ACL reconstruction?

Answer 42

• Strong evidence that it should be used WITH strength training to improve knee stability and movement coordination impairments
• really no explanation of what exactly NM re-ed consists of though…