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Question 1

What is the largest joint of the knee complex?

Answer 1

The tibiofemoral joint.

Question 2

Name the 3 joints of the knee and what type of joint they are?

Answer 2

Tibiofemoral- complex joint, patellofemoral- compound joint, proximal tibiofibular- simple joint.

Question 3

The knee complex is the most common site of what type of impairment?

Answer 3

Permanent impairment in the lower limb

Question 4

There are large forces at what 2 joints in the knee complex and this is due to what?

Answer 4

Tibiofemoral and patellofemoral due to very long levers.

Question 5

What is the posterior compartment of the knee and what is the anterior compartment of the knee?

Answer 5

Posterior- tibiofemoral joint. Anterior- Patellofemoral joint.

Question 6

At which knee joint is compression greater in the tibiofemoral or the patellofemoral?

Answer 6

Tibiofemoral

Question 7

At which knee joint is distraction greater in the tibiofemoral or the patellofemoral?

Answer 7

patellofemoral

Question 8

What are the femoral condyles like?

Answer 8

Egg shaped and separted by a fossa.

Question 9

Will the radius of the femoral condyles be larger anterior or posterior?

Answer 9

Anterior.

Question 10

What will the significance of egg shaped femoral condlyes be?

Answer 10

They will need a variable socket to articulate with the tibia and that is what the menisci are for.

Question 11

What is conjoint rotation of the knee?

Answer 11

Screw home mechanism which is external rotation seen in the last few degrees of knee extension.

Question 12

Conjoint rotation pivots around what?

Answer 12

The lateral femoral condyles during extension.

Question 13

Whatis the direction of angulation of the femoral condyles and what is the reason for this angulation??

Answer 13

Posterior angulation to increase flexion and decrease extension of the knee.

Question 14

What will valgus and varus mean?

Answer 14

Valgus- distal part bent outward (abducted), knocked kneed. Varus- distal part bent inward (adducted), bowlegged.

Question 15

Which femoral condyle will have the longer larger articulare surface? Why?

Answer 15

Medial. It allows for conjoint rotation and more sliding to occur on the medial side.

Question 16

The medial femoral condyle will also have a larger epicondyle, but why?

Answer 16

Has the adductor tubercle to receive the adductor magnus hamstring portion

Question 17

What will the angle of the medial femoral condyle be like?

Answer 17

It will be more oblique than the lateral.

Question 18

Which femoral condyle will extend more distally and what can this lead to?

Answer 18

Medial and this causes valgus of the knee.

Question 19

What is the pivot point of conjoint rotation?

Answer 19

The shorter smaller articular surface of the lateral femoral condyle. (more spin occurs on the lateral condyle than medial condyle)

Question 20

What muscle originates on the smaller lateral femoral epicondyle?

Answer 20

Politeus inserts between the epicondyle and condyle

Question 21

What will the angle of the lateral femoral condyle be like?

Answer 21

Less oblique A-P.

Question 22

The tibial femoral rotation of the skrew home mechanism happens when?

Answer 22

The last 15-0 degrees of extension of the knee.

Question 23

What occurs with the tibia when the knee complex flexes?

Answer 23

Tibia rotates medially

Question 24

What occurs with the tibia when the knee complex extends?

Answer 24

Tibia rotates laterally

Question 25

What degree of tibia angulation classifies Genu Valgum?

Answer 25

Greater than 15 degrees that the tibia is angled outwards

Question 26

What degree of tibia angulation classifies Genu Varum?

Answer 26

Less than 5 degrees that the tibia is angled outwards

Question 27

What foot motion does genu valgum increase?

Answer 27

Pronation of the foot (greatest compensator)

Question 28

What is femoral torsion?

Answer 28

anetversion ( degree to which an anatomical structure is rotated forwards (towards the front of the body) or backwards (towards the back of the body) respectively, relative to some datum position)

Question 29

What is the normal femoral torsion or anteversion?

Answer 29

10-20 degrees.

Question 30

What is an anteverted femur?

Answer 30

one rotated forward more than 20 degrees.

Question 31

What will an anteverted femurs impact be on the knee?

Answer 31

Medial orientation.

Question 32

What is a medial orentation of the the patella aka?

Answer 32

Squinting patella. (often seen with an anteverted femur)

Question 33

What is a common compensation for a anteverted femur?

Answer 33

Genu valgum.

Question 34

What is a retroverted femur?

Answer 34

One that has femoral torsion of 10 degrees or less.

Question 35

What is the impact on the knee for a retroverted femur?

Answer 35

Lateral orientation.

Question 36

What is the common compensation for a retroverted femur?

Answer 36

Genu varum.

Question 37

What is a squinting patella?

Answer 37

Patella faces medially and increases external tibial torsion

Question 38

What is the superior surface of the tibial condyles like?

Answer 38

Flat with tibial spines.

Question 39

What is the purpose of the tibial spines?

Answer 39

Attachment site for ACL and menisci, and to resist side to side translation and rotation.

Question 40

Are the tibial facets on the tibial plateau concave or flat?

Answer 40

Flat they are not concave.

Question 41

Which tibial facet is larger medial or lateral?

Answer 41

Medial is larger to accommodate for the size of the femoral condyles

Question 42

What allows for the tibial facets to be congruent with the femoral condyles?

Answer 42

The menisci improves the fit

Question 43

What is the angle of the proximal tibia like? Why?

Answer 43

Posterior angulation. To increase flexion ROM.

Question 44

What attaches to Gerdy’s Tubercles of the tibia?

Answer 44

Iliotibial band insertion

Question 45

What type of torsion occurs at the tibial condyles d/t the ITB?

Answer 45

External tibial torsion

Question 46

Where is the patellar surface of the femur at?

Answer 46

The anterior distal femur. Anterior to condyles.

Question 47

What is the patellar surface of the femur like?

Answer 47

It has a medial facet/lip a lateral facet/lip and a central groove.

Question 48

Which facet/lip of the anterior distal femur is bigger? Why?

Answer 48

Lateral because the patella wants to go laterally and this keeps it from displacing.

Question 49

What is the significance of a small lateral facet and lip (shallow groove)?

Answer 49

Leads to patellar instability

Question 50

What is the anterior distal part of the femur (facets/lips) lined with?

Answer 50

Hyaline cartilage.

Question 51

What is the main function of the patella?

Answer 51

Increase angular pull of quadraceps (increase leverage at extension).

Question 52

What is the shape of the patella like?

Answer 52

Triangular with the apex pointing down.

Question 53

What is the posterior part of the patella like?

Answer 53

Medial and lateral facet with a central ridge, and once and a while there will also be an odd medial facet.

Question 54

What is the purpose of the central ridge on the patella?

Answer 54

makes bone more wedge shaped.

Question 55

What will cause the patella to have the odd medial facet?

Answer 55

repeated or sustained deep flexion.

Question 56

What is the thickest cartilage in the body?

Answer 56

The thickest cartilage in the body is found in the knee complex (patellofemoral?) due to highest compression and shear forces on the body.

Question 57

What is paradoxical knee extension?

Answer 57

Hamstring and gastroc finishing full extension of knee

Question 58

What represents the pull of the quads?

Answer 58

The patellofemoral Q angle.

Question 59

How is the patellofemoral Q angle measured?

Answer 59

First line goes from ASIS to center of the tibia. Second line goes from center of the patella to the tibial tuberosity. Then measure the angle.

Question 60

What is the normal range for the patellofemoral Q angle?

Answer 60

5-15 degrees with a mean of 10 degrees.

Question 61

What are the normal ranges for the patellofemoral Q angle for adult men and women?

Answer 61

Males- 8-10 degrees. Females- 10-12 degrees.

Question 62

What does the patellofemoral Q angle affects?

Answer 62

The tendency of the patella to track laterally.

Question 63

What does a larger Q angle lead to?

Answer 63

greater outward pull on patella (more lateral tracking of patella)

Question 64

What affects the Q angle more, height or by the configuration of the pelvis?

Answer 64

Height therefore on average men have less of a Q angle because they are taller than the average woman

Question 65

What is the patellofemoral ratio?

Answer 65

A ratio of distance; tibial tuberosity to patellar apex (inferior pole)/ height of the Patella (Patellar apex to base.)

Question 66

What is a normal patellofemoral ratio?

Answer 66

one.

Question 67

When would the patellofemoral ratio be considered low and what is this known as?

Answer 67

less than 0.8 aka Baja (the patella is too low/ patella tendon is too short)

Question 68

When would the patellofemoral ratio be considered high and what is this known as?

Answer 68

More than 1.2 and this is aka alta. (the patella is too high or the length of tendon is too great or patella is too small)

Question 69

What will a Warberg, magna and parva patella mean?

Answer 69

Warberg- too wedge shaped. Magna- too large. Parva- too small.

Question 70

What will functionally increase and decrease the patellofemoral Q angle?

Answer 70

Increase- lateral/external rotation of the tibia. Decrease- medial/internal rotation of the tibia.

Question 71

What will excessive foot flare do to the Q angle?

Answer 71

Increase the Q angle and lead to an unstable patella.

Question 72

When will the patella be less stable with extension or flexion? Why?

Answer 72

Less stable with extension. Due to shallower groove.

Question 73

What muscle was mentioned that if weak will make the patella less stable?

Answer 73

VMO. Also mentioned the medial retinaculum.

Question 74

Will genu vagum or varum make the patella less stable?

Answer 74

Valgum.

Question 75

What is the function of the VMO?

Answer 75

Holds the patella medially (stretched medial retinaculum can be from MCL sprain)

Question 76

What muscle was mentioned that if too tight will make the patella less stable?

Answer 76

Vastus lateralis or ITB.

Question 77

What shapes of the patella will make it less stable?

Answer 77

Too small or facet angle is too flat.

Question 78

Will patella baja or alta make the patella less stable?

Answer 78

Alta.

Question 79

What rotation of the tibia will make the patella less stable?

Answer 79

Externally rotated.

Question 80

What foot position will make the patella less stable?

Answer 80

Pronation.

Question 81

What position of the knee will make the patella more stable? Why?

Answer 81

Flexed knee. Due to deeper groove and increased compression force.

Question 82

What muscle if strong will make the patella more stable?

Answer 82

VMO.

Question 83

What will genu varum do to patellar stability?

Answer 83

Increase it.

Question 84

What patellar shapes will increase patellar stability?

Answer 84

Normal, large lateral lip.

Question 85

What will patella baja do to patellar stability?

Answer 85

Increase it but wil lead to increase wear and tear due to excessive compression.

Question 86

What foot position will make the patella more stable?

Answer 86

Normal or under pronated.

Question 87

Where is the thickest cartilage in the body found?

Answer 87

Patellofemoral joint

Question 88

What type of large force is placed on the patellofemoral joint?

Answer 88

Compression.

Question 89

Cartilage compression of the patellofemoral joint will increase with what knee position?

Answer 89

Flexion.

Question 90

What will the comprssion forces be like on the patellofemoral joint with; walking, joggin, stair climbing (walking), Descending stairs (walking), 90 degree squat?

Answer 90

Walking- half of BW, jogging- 4 X BW, Stair climbing- 2.5 X BW, descending stairs- 3.5 X BW, 90 degree- 7.5 BW.

Question 91

What will the compression forces on the patellofemoral joint be like with jumping?

Answer 91

10 X BW.

Question 92

What are the compression forces on the patellofemoral joint like with full extension of the knee?

Answer 92

No compression force through this joint.

Question 93

During flexion of the knee what direction will the patella travel?

Answer 93

It glides inferior and posterior in the patellar sulcus.

Question 94

What part of the patella will contact the femur with; zero degrees of flexion, 20 degrees, 45 degrees, 90 degrees, 135 degrees?

Answer 94

zero- no direct contact, 20- distal or apex, 45- central, 90- proximal or base, 135- Lateral and medial part of patella.

Question 95

How much will the extensor leverage of the patella increase with 90-120 degrees and 0-5 degrees flexion?

Answer 95

90-120- 13%. 0-5- 31%.

Question 96

With a 5, 15, 30, 45, 75 degree squat how much of the body weight will the quadraceps be able to lift?

Answer 96

5- 30%. 15- 100%. 30- 200%. 45- 300%. 75- 500%.

Question 97

Walking on a level surface produces _____ x BW on quadraceps tendon, jogging produces about ____ X BW on quadraceps tendon, and jumping produces about ____ X BW on Quadraceps tendon.

Answer 97

1, 5, more than 10.

Question 98

What muscle would respond faster to tension and faster to stress the VMO or Vastus lateralus and why?

Answer 98

Tension- Vastus lateralus. Stress- VMO due to faster twitch.

Question 99

What are the ligaments of the anterior compartment of the knee?

Answer 99

Medial and lateral retinaculum.

Question 100

What will the medial and lateral retinaculum allow for with a quadraceps tendon injury?

Answer 100

Allow patient to still extend the knee.

Question 101

What could cause a tear of the medial retincaulae of the knee?

Answer 101

Valgus sprains and patellar dislocations.

Question 102

A medial retinacular tear would lead to what?

Answer 102

Lateral patellar instability.

Question 103

What would a weak or stretched medial retinaculum or a tight lateral retinaculum cause?

Answer 103

Lateral patellar tracking.

Question 104

Where will the ITB be located at and what compartment of the knee?

Answer 104

Lateral knee and is included in the anterior compartment.

Question 105

What are the 2 parts to the ITB and where will it insert at?

Answer 105

Smaller patellar band, larger tibial band, and inserts on patella and Gerdy’s tubercle.

Question 106

What would happen with a tight ITB?

Answer 106

Rubs on the lateral epicondyle of the femur and pulls on the patella. Leading to lateral tracking dysfunction.

Question 107

What is a lateral release of the ITB?

Answer 107

CUT ITB and or lateral retincaulum leading to decreased tension on lateral patella.

Question 108

What are synovial plica?

Answer 108

Remnant of 3 embryotic parts of the knee that if they remain can cause recurrent snapping and pain in the knee.

Question 109

What are most synovial plica like?

Answer 109

Small and asymptomatic.

Question 110

Which synovial plica is the most common?

Answer 110

Medial plica

Question 111

What causes the growth of synovial plica?

Answer 111

Synovial membrane is innervated and therefore an increased inflammatory cycle which can cause scarring and progressive growth at the plica

Question 112

What should be done with synovial plica?

Answer 112

No pain then leave alone, but if there is pain then they should be checked out.

Question 113

What are the menisci made of?

Answer 113

Fibrocartilagenous.

Question 114

How will the menisci help the joint articulation to fit?

Answer 114

Deepen socket and increases stability and congruency. Allow for flexible socket and this accommodates the egg shaped femoral condyles.

Question 115

The menisci accommodate what type of movement? Why?

Answer 115

Slide which decreases shear

Question 116

How will the menisci help reduce compression?

Answer 116

Force is directed to peripheray away from articular surfaces.

Question 117

How much of the compressive load will the lateral and medial menisci direct to the periphery?

Answer 117

Lateral- 70%. Medial- 50%.

Question 118

With a partial and a total meniscectomy how much wear and tear increase will occur?

Answer 118

Partial- 50-60% increase in wear and tear. Total- 200-235% increase.

Question 119

What are the shapes of the lateral and medial meniscus?

Answer 119

Lateral- o shaped. Medial- C shaped.

Question 120

What are the designs of the lateral and medial meniscus and which one is injured most often?

Answer 120

Medial- skinnier, thinner, more fixed and is injured most often. Lateral- Stronger, more mobile and only about 25% of meniscus tears happen in the lateral menisci.

Question 121

What part ot the medial menisci will tear the most often?

Answer 121

The posterior horn.

Question 122

Where will the coronary ligaments attach to?

Answer 122

Inferior- tibia and menisci. Superior femur and menisci.

Question 123

Name the other attachments of the menisic besides the coronary ligaments?

Answer 123

Medial collateral ligament (meniscus to Intercondylar area), intermeniscal ligament, posterior meniscofemoral ligament, anterior meniscofemoral ligament, popliteus (to lateral meniscus), semimembranosus.

Question 124

What is another name for the posterior meniscofemoral ligament and what is its purpose?

Answer 124

Wrisberg and it stabilizes the posterior horn.

Question 125

What is another name for the anterior meniscofemoral ligament and what is its purpose?

Answer 125

AKA humphry and I donˍ脌 know its purpose but it is rare.

Question 126

What part of the menisci will the popliteus and semimembranosus attach to?

Answer 126

Popliteus- lateral meniscus. Semimembranosus- medial meniscus.

Question 127

What happens to the menisci with flexion of the knee?

Answer 127

They slide posterior.

Question 128

Which menisci will slide posterior the most with knee flexion and why?

Answer 128

Lateral because it is not attached to the Lateral collateral ligament.

Question 129

When flexed at the knee where will the focal weight bearing be at?

Answer 129

The posterior horn.

Question 130

Deep squats (over 90 degrees) will increase stress where?

Answer 130

Posterior horns.

Question 131

What happens to the synovial fluid of the knee joint complex when the knee is flexed?

Answer 131

It is squeezed in a posterior direction.

Question 132

What will support the posterior horn and the lateral meniscus?

Answer 132

Popliteus and meniscofemoral ligaments.

Question 133

What happens to the menisci with knee extension?

Answer 133

They slide anterior.

Question 134

Which menisci will slide anterior more with knee extension?

Answer 134

Lateral always

Question 135

Which menisci will deforme more with knee extension and why?

Answer 135

Medial because it is attached to the medial collateral ligament.

Question 136

What position is the knee in while fully extended?

Answer 136

Tight packed.

Question 137

What is the pressure on the menisici like with full extension?

Answer 137

More spread out so pressure is less.

Question 138

What happens to the synovial fluid of the knee joint complex when the knee is extended?

Answer 138

It shifts anterior.

Question 139

What motions can damage the meniscus?

Answer 139

Rotation, Flexion, Extension, Lateral Bending

Question 140

What does the menisci move with knee rotation?

Answer 140

With the femur and opposite the tibia.

Question 141

What happens to the medial menisci with internal rotation?

Answer 141

Medial- rotates anterior and is more prominent in anterior part of the medial joint line.

Question 142

What happens to the lateral menisci with internal rotation?

Answer 142

Lateral- moves posterior and deepr within the joint thus the lateral joint line deepens. MORE PRESSURE IS EXERTED ON THE MEDIAL MENISCUS WITH INTERNAL ROTATION.

Question 143

What happens to the medial menisci with external rotation?

Answer 143

Medial- joint deepens. PRODUCES MORE PRESSURE ON THE LATERAL MENISCUS.

Question 144

What happens to the lateral menisci with external rotation?

Answer 144

Lateral- rotates anterior into the anterolateral joint line.

Question 145

Abnormal movements of the menisci with fixation leads to what?

Answer 145

Meniscal tears.

Question 146

How can you prevent abnormal movements of the menisci with fixation?

Answer 146

Adjustments.

Question 147

What is the stress test that will test for movements/changes with VARUS and VALGUS?

Answer 147

Bohlers test.

Question 148

How is VARUS tested?

Answer 148

Pinches medial meniscus and tractions lateral meniscus thru coronary ligaments.

Question 149

How is the VALGUS test done?

Answer 149

Pinches lateral meniscus and tractions medial meniscus thru medial collateral and coronary ligaments.

Question 150

The potential for injury with the menisci is with what movement?

Answer 150

Any movement and creates a snap (type of crepitus)

Question 151

What are the common mechanisms of injury for the menisci?

Answer 151

Deep flexion, hyperextension, external rotation and valgus stress.

Question 152

What other conditions can cause symptoms to be similar to a meniscus tear?

Answer 152

Plica can be similar in presentation (snapping crepitus and edema)

Question 153

What is the old unhappy triad?

Answer 153

A severe knee injury involving damge to the medial meniscus, ACL, and MCL.

Question 154

What is the new unhappy triad?

Answer 154

A severe knee injury involving damge to the medial meniscus, ACL, and LCL.

Question 155

What is the healing of menisci like?

Answer 155

Poor healers since they are made of fibrocartilage and are mostly avascular.

Question 156

What is the blood flow like to the menisci?

Answer 156

Mainly avascular besides the outer 1/3 in young and healthy. If older and not healthy the outer menisci is more fibrous.

Question 157

Where will nutrients for the menisci come from?

Answer 157

Synovial fluid.

Question 158

What part of the menisci is most poorly supplied with blood?

Answer 158

Central portions especially the posterior horns.

Question 159

What is the innervation of the menisci like?

Answer 159

Outer part of meniscus with pain and proprioception @ junction with deep capsule.

Question 160

What happens to the menisci with age?

Answer 160

decreased vascularization, increased wear and tear, increased friability.

Question 161

Name the two collateral ligaments and both of their names?

Answer 161

Medial collateral ligament (MCL) aka tibial collateral ligament (TCL), Lateral collateral ligament (LCL) aka Fibular collateral ligament (FCL).

Question 162

What ligament is posterior to the LCL?

Answer 162

Poplitiofibular ligament (PFL).

Question 163

Where will the LCL attach to?

Answer 163

Lateral femoral epicondyle and fibular head.

Question 164

The LCL primarily resists what?

Answer 164

Varus stress.

Question 165

what are the 2 sprain mechanisms of the LCL?

Answer 165

Large varus stress and hyperextension.

Question 166

Where will the MCL attach to?

Answer 166

Medial femoral epicondyle and medial tibial condyle and shaft.

Question 167

What does the MCL primarily resist?

Answer 167

Valgus stress.

Question 168

What are the 2 sprain mechanismis of the MCL?

Answer 168

Valgus stess and hyperextension.

Question 169

Which ligament is larger the LCL or MCL?

Answer 169

Medial is larger.

Question 170

Which ligament is damaged more the LCL or MCL?

Answer 170

MCL.

Question 171

What will medial and lateral rotation do to the collateral ligaments?

Answer 171

medial- decreases tension on them. Lateral- increases tension on them.

Question 172

Which rotation, medial or lateral, allows for conjoint rotation?

Answer 172

Medial rotation allows conjoint medial rotation of tibial rotation that must accompany flexion

Question 173

If the collaterals limit medial rotation what action of the foot would it interfere with?

Answer 173

Decreased internal tibial rotation leads to decreased pronation

Question 174

What are the 3 parts to the posteromedial capsular complex of the knee?

Answer 174

1. Posterior part of MCL. 2. Semimembranosis tendon and tendon expansion. 3. Oblique popliteal ligament.

Question 175

What will the posteromedial capsular complex of the knee resist?

Answer 175

Hyperextension, anterior translation, valgus stress, extremes of lateral tibial rotation.

Question 176

Name the 5 parts of the posterolateral capsular complex of the knee?

Answer 176

1. Popliteofibular ligament. 2. LCL. 3. Arcuate ligament. 4. biceps femoris tendon and tendon expansion. 5. Popliteus.

Question 177

What will the posterolateral capsular complex of the knee resist?

Answer 177

anterior translation, hyperextension, varus stress, medial rotation and lateral rotation extremes.

Question 178

How is the posterolateral capsular complex of the knee palpated?

Answer 178

In a figure 4 pattern.

Question 179

What happens to the posterolateral capsular complex of the knee during knee flexion?

Answer 179

LCL- lax, PFL- tense.

Question 180

What will happen when the LCL is lax?

Answer 180

This allows the tibia to undergo its normal internal rotation(conjoint rotation).

Question 181

What will happen when the PFL becomes tense?

Answer 181

It doesnˍ脌 interfere with internal rotation; half as strong as the LCL.

Question 182

What is more resistant to anterior translation stability the LCL or PFL?

Answer 182

PFL.

Question 183

What is the order of ligament failure with increased carus stress?

Answer 183

LCL—> PFL—-> popliteus and acruate ligaments.

Question 184

Which ligament the PFL or LCL is more resistant to anterior translation?

Answer 184

PFL is more resistant to anterior translation

Question 185

What are the 2 cruciate ligaments?

Answer 185

ACL and PCL.

Question 186

Where are the cruciate ligaments found at in general?

Answer 186

Intracapsular and extrasynovial (outer lining by synovial membrane).

Question 187

What is the blood supply like to the cruciate ligaments?

Answer 187

they are relatively hypovascular however the synovial lining is highly vascular.

Question 188

What is the significance of a highly vascular synovial lining of the cruciate ligaments?

Answer 188

If the ligaments rupture then bleeding would occure and this is calle dhemarthrosis.

Question 189

Where will the anterior cruciate ligament attach to?

Answer 189

anterior tibial plateau and anterior tibial spine to the medial aspect of the lateral femoral condyle.

Question 190

Which cruciate ligament is largest?

Answer 190

Posterior is largest.

Question 191

What are the parts of the ACL?

Answer 191

1. Anterior band. 2. Posterior band.

Question 192

What will the tension be like on the ACL during different positions?

Answer 192

Always tense. Since the anterior band is tense when knee is flexed and posterior band is tense when knee is extended.

Question 193

The ACL is primaraly resistint to what?

Answer 193

anterior tibial translation.

Question 194

Why will 3/4 of all knee hemarthrosis involve the ACL?

Answer 194

Because it supports the blood vessels of the femur.

Question 195

What is the name of the test for tibial translation joint play?

Answer 195

Anterior drawer test.

Question 196

Why are there so many ACL injuries in female athletes?

Answer 196

When running, cutting and jumping, girls exhibit less upper body strength and control

Question 197

What muscles do females rely on for deceleration of the lower extremity?

Answer 197

Females rely more on quadriceps (increases tension on ACL) rather than hamstring, gluteal and calf muscles. Also, females are more likely to land from a jump with the knees in a genu valgum position

Question 198

What is the most common ligamentous problem?

Answer 198

MCL Sprain

Question 199

Where will the PCL attach to?

Answer 199

Attaches to the lateral aspect of medial femoral condyle to posterio proximal tibia (NOT TO THE TIBIAL PLATEAU).

Question 200

The PCL crosses _______ to the ACL.

Answer 200

Posteromedial.

Question 201

Which ligament is stronger the ACL or PCL and by how much?

Answer 201

PCL is 2X as strong as ACL.

Question 202

The PCL is also always tense but it is least tense when?

Answer 202

with 25-40 degrees flexion.

Question 203

What are the parts of the PCL?

Answer 203

smaller anterior and larger posterior bands.

Question 204

The PCL is primarily resistant to what?

Answer 204

Posterior translation.

Question 205

What is the gravity sag sign and what will it mean?

Answer 205

It is posterior sagging of tibia when supine/ knee bent postion and it is a tear of the PCL.

Question 206

What is the most serious ligmaentous injury of the knee?

Answer 206

ACL.

Question 207

Which Cruciate ligament will be less likely to require corrective surgery when torn?

Answer 207

PCL.

Question 208

What muscle protects the PCL?

Answer 208

Quadriceps

Question 209

What muscle protects the ACL?

Answer 209

Hamstrings

Question 210

Why will the PCL be less likely to requrie surgery if torn?

Answer 210

Massive contribution of quadraceps.

Question 211

What is the test for posterior tibial translation joint play?

Answer 211

Posterior drawer test.

Question 212

When will the cruciate ligaments twist around each other and then when will they untwist?

Answer 212

Twist- internal rotation. Untwist- external rotation.

Question 213

During what rotation is sthe ACL weaker and more likely to tear?

Answer 213

During internal rotation

Question 214

What motion of the foot can lead to increased twisting and eventual ACL failure?

Answer 214

Increased pronation of the foot

Question 215

Injury to the ACL increases pronation and this leads to what?

Answer 215

Increased twisting and increased stress.

Question 216

What is the secondary stabilizers of the knee?

Answer 216

Dynamic stability of muscle contractions.

Question 217

What will happen to the knee with isometric contraciton during a sustained squat?

Answer 217

about 60% decrease in rotational laxity and about 300% increase in joint stiffness.

Question 218

What is the difference between closed and open chain with the knee complex?

Answer 218

Closed- increases co-contraction compared with open chain (increased velocity —> increased con-contraction of antagonists).

Question 219

What three muscle groups need to be balanced for a stable knee complex?

Answer 219

Quads - hams, medial tibial rotators (pes answerine/popliteus) and lateral tibial rotators (ITB/biceps)

Question 220

what is the difference between quads and hams with slow and fast contraction?

Answer 220

Q:H slow 60:40. Fast- 10:9

Question 221

What muscle is most importatn to the patellar stability?

Answer 221

VMO.

Question 222

What muscle is reflexivley faster the VMO or the VL?

Answer 222

VMO.

Question 223

Which muscle will atrophy faster the VMO or the VL?

Answer 223

VMO.

Question 224

What is the priamry and seconary stabilizer for anterior translation?

Answer 224

1- ACL, PFL. 2- hams and ITB.

Question 225

What is the priamry and seconary stabilizer for posterior translation?

Answer 225

1- PCL, s -quads and popliteus.

Question 226

What is the priamry and seconary stabilizer for valgus?

Answer 226

1- MCL. 2- Medial retinaculum, poplteus, medial hams and pes anserine.

Question 227

What is the priamry and seconary stabilizer for varus?

Answer 227

1- LCL. 2- lateral retinaculum, ITB, and biceps tendon.

Question 228

What is the priamry and seconary stabilizer for flexion?

Answer 228

1- PCL (anterior bundle) 2 - quadraceps (no ligaments).

Question 229

What is the priamry and seconary stabilizer for extension?

Answer 229

1- ALL and cruciate ligaments. 2- hams, gastroc, popliteus.

Question 230

What is the priamry and seconary stabilizer for medial rotation?

Answer 230

1- cruciates and posterior capsule. 2- lateral retinaculum, ITB, Biceps tendon.

Question 231

What is the priamry and seconary stabilizer for lateral rotation?

Answer 231

1- collaterals and posteriomedial capsule. 2- medial retinaculum, poplieus, medial hams and pes anserine.

Question 232

Damage to the ACL and lateral complex will lead to what type of instability?

Answer 232

Anterolateral rotational.

Question 233

Damage to the ACL and medial complex will lead to what type of instability?

Answer 233

Anteromedial rotational.

Question 234

Damage to the PCL and lateral complex will lead to what type of instability?

Answer 234

Posteriolateral rotational.

Question 235

Damge to the PCL and medial complex will lead to what type of instability?

Answer 235

Posteromedial rotational.

Question 236

What are the bursae found within the joint cavity?

Answer 236

1) Suprapateller bursa 2) Popliteal bursa 3) gastrocnemius bursa

Question 237

What is a baker’s cyst?

Answer 237

Swollen posterior bursa

Question 238

What other bursae of the knee are not connected to the joint cavity?

Answer 238

1) Prepatellar 2) infrapatellar 3) pes answerine 4) ITB

Question 239

How is fluid moved within the joint cavity and bursae?

Answer 239

Fluid movement occurs with flexion and extension

Question 240

Where is the hip joint found?

Answer 240

Between the acetabulum and the femoral head.

Question 241

The hip joint in general is unstable in who?

Answer 241

Infants especially female and northern european infants.

Question 242

What % of congenital hip dislocations are female?

Answer 242

90%.

Question 243

What are the 3 parts of the acetabulum and where are they located at?

Answer 243

Ilium- superior, Iscium (posteroinferior), pubis- anteroinferior.

Question 244

What is the difference between the acetabular brim and notch?

Answer 244

The brim is 4/5 of a full circle and the notch encloses the anteroinferior 1/5.

Question 245

What is the thickest cartilage of the hip joint?

Answer 245

The superior semilunar cartilage because it is the main weight bearing region.

Question 246

What are the other cartilage of the hip joint (besides the superior semilunar cartilage)?

Answer 246

Labrum and trans. Ligament.

Question 247

Where will the labrum and transverse ligament be at and what are they made of?

Answer 247

Labrum- upper 4/5 of ring. Transverse ligament- the inferior part that covers the notch. Both are made of fibrocartilage.

Question 248

What is the anteversion angle like for the acetabulum in males vs. females and infants?

Answer 248

Larger angle for females. Infants- more anterverted than adults.

Question 249

Increased anterversion of the acetabulum will do what?

Answer 249

Decrease stability.

Question 250

What will inferior acetabular tilt be like for males vs. females, and adults vs. infants?

Answer 250

Males larger than females. Adults greater than infants.

Question 251

Increased inferior tilit of the acetabulum will do what?

Answer 251

Increase stability as it puts a greater cap over top of the hip

Question 252

What is the shape of the femur head?

Answer 252

2/3 sphere and larger in diameter thatn the acetabulum @ labrum.

Question 253

What are the 2 keeper rings?

Answer 253

Labrum and zona orbicularis of the capsule.

Question 254

What is the articular cartilage of the femur head like?

Answer 254

Thickest superior since all pressure is here.

Question 255

Where is proximal physis of the femur located at and this causes what?

Answer 255

It is proximal to the neck and this creates a lot of shear force as we grow.

Question 256

When will a slipped capital femoral epiphysis be seen?

Answer 256

Slipped capital femoral epiphysis happens d/t increased growth and shear In early teens and tall and large people. More common in males.

Question 257

What does trochanter mean?

Answer 257

To turn.

Question 258

During growth what normally happens to the distal femur?

Answer 258

twisted medially relative to the proximal end.

Question 259

What is the normal, anterverted and retroverted angles of the femoral torsion?

Answer 259

Normal- 10-20 degrees. Anteverted- >20degrees. Retroverted- <10 degrees.

Question 260

What will make the hip more and less stable anterverison or retroversion?

Answer 260

Anterversion- less stable. Retroversion- more stable.

Question 261

What is femoral inclination?

Answer 261

Draw a line directly through the center of the fovea capitis femoris. Then draw another line parallel to the long shaft of the femur and then measure the inside angle

Question 262

What is the normal femoral inclination angle?

Answer 262

120-130 degrees.

Question 263

What will femoral inclination angles of >130 and <120 mean?

Answer 263

> 130- coxa valga- less stable hip. <120- coxa vara- more stable hip.

Question 264

What is the femoral inclination angle like at birth?

Answer 264

150 degrees.

Question 265

Coxa vara is often seen in who?

Answer 265

The elderly.

Question 266

Coxa vara will make the hip more stable, but what is the negative trade off to coxa vara?

Answer 266

More shear stress on femoral neck increases the risk of fracture.

Question 267

Both coxa vara and valga cause what?

Answer 267

Abnormal wear and tear on articular surfaces and may lead to osteoarthrosis.

Question 268

Will increased abductor or adductor strength make the hip joint more or less stable?

Answer 268

Increased abductor- increases stability. Increased adductor- less stable.

Question 269

Will extension, external rotation and abduction make the hip joint more stable?

Answer 269

yes.

Question 270

Will flexion, internal rotation, and adducted position make the hip joint more stable?

Answer 270

No it makes it unstable.

Question 271

Will increased or decreased acetabular anteversion favor hip joint stability?

Answer 271

Decreased acetabular anteversion

Question 272

Will increased or decreased inferior acetabular tilt favor hip joint stability?

Answer 272

Increased inferior acetabular tilt

Question 273

Will femoral anteversion or retroverion favor hip joint stability?

Answer 273

Femoral Retroversion

Question 274

Will coxa vara or coxa valga favor hip joint stability?

Answer 274

Coxa Vara

Question 275

Will a male (android pelvis) or female (gynecoid pelvis) favor hip joint stability?

Answer 275

Male/android pelvis

Question 276

Will being an adult or infant favor hip joint stability?

Answer 276

Adult

Question 277

What are the 3 types of femoral trabeculae?

Answer 277

1. vertical- compression on femoral head. 2. Acruate- bending of neck. 3. Intertrochanteric- torsion between trochanters.

Question 278

What happens to the femoral trabeculae with age?

Answer 278

Vertical trabelculae are saved and others are depleted in osteoporosis.

Question 279

Loss of the arcuate and intertrochanteric trabeculae in elderly leads to what?

Answer 279

Femoral neck fracutures in the weak cortical zone.

Question 280

Pelvic trabeculae direct forces from acetabulum to where?

Answer 280

SI.

Question 281

What is gynecoid?

Answer 281

Like a women.

Question 282

What are gynecoid pelvic lines of stress like?

Answer 282

Larger oval outlet.

Question 283

What are android pelvic lines of stress like?

Answer 283

Smaller heart haped outlet.

Question 284

What are the lines of force transfer like for the pelvic lines of stress while sitting and standing?

Answer 284

Sitting- ischium —> SI joint and sacrum. Standing- femur —-> SI joint and sacrum.

Question 285

What are hip joint ligaments like?

Answer 285

Very strong.

Question 286

How many tight packed positions of the hip are there?

Answer 286

Two and it is one of the most stable joints in adults.

Question 287

What are the two tight packed positions of the hip?

Answer 287

Figure 4 (extended, adducted, internally rotated) and Flexed, internally rotated and adducted position in side posture

Question 288

Why are the ligaments of the hip joint relatively unstable in infants?

Answer 288

Because of the ligaments being lax from relaxin from mom

Question 289

What is the shape of the iliofemoral ligament and it is aka?

Answer 289

Y and aka ligament of bigalow.

Question 290

What is the hip ligament that is not structurally significant and why is it there?

Answer 290

Ligamentum teres and it mainly supports Blood vessels.

Question 291

Which hip ligament is the strongest?

Answer 291

Y-ligament aka iliofemoral ligament aka ligament of bigalow.