16_18- Footwear

Question 1

What changed in the 70s which made running shoes start to become much better?

Answer 1

People started running to become fit/to improve performance in other sports

Question 2

What are the different functions of the outsole, midsole, and heel counter in a running shoe?

Answer 2

Outsole: interface bw ground and shoe

Midsole: provides cushioning and supprt

Heel counter: provides stability and motion control

Question 3

Why does the posterolateral portion of a running shoe tend to wear out the quickest while most of the shoe remains untouched?

Answer 3

Avg forward velocity at heel contact is 1m/s, and most people are heel-strikers.

After heel strike, shoe is not moving until just before foot is lifted off the ground

Question 4

Your patient has a strike index of 8%. This would indicatethat the patient is a:
A. Forefoot striker
B. Midfoot striker
C. Rearfoot striker

Answer 4

Rearfoot striker - SI is measure of point of initial contact as a percent of the length of the shoe

Question 5

Individuals with pes planus tend to have the most pressure in the (heel/forefoot) while individuals with pes cavus tend to have the most pressure in the (heel/forefoot) during gait.

Answer 5

Forefoot; heel

Question 6

What are the risks of having too much cushioning in a running shoe? Too little?

Answer 6

Too much: shoe will bottom out

Too little: excessive shock to leg

Question 7

Where should a shoe bend relative to the structures of the foot?

Answer 7

Behind the metatarsals

Question 8

What is the major effect of a shoe’s weight on function?

Answer 8

Every 100g increases energy expenditure by 1%

Question 9

Which factors help reduce over-pronation?
A. Stiff heel counter
B. Increased heel height
C. Increased medial midsole stiffness
D. Straight last

Answer 9

All of the above

Question 10

How is the subtalar joint affected differently on heel contact depending on if you’re wearing running shoes vs. barefoot? What is the result?

Answer 10

Barefoot: ground reaction forces go right through subtalar joint axis, so no rotation forces generated

Running shoes: larger shoe width creates moment arm for GRF on subtalar joint

Result: more likely to over-pronate with running shoes

Question 11

Why are anterior shin splints more likely when wearing running shoes vs running barefoot?

Answer 11

The heel of running shoes creates a larger moment arm for plantarflexion, which means tib ant needs to resist more force

Question 12

Early running shoes caused problems such as overpronation and increased plantarflexion moments. How is this resolved in newer running shoes?

Answer 12

Double-density sole + rounded lateral heel

Lateral part is softer to absorb extra pronation GRF generated at heel strike

Medial part is harder to resist pronation

Question 13

True or false: the vast majority of runners who over pronate develop overuse injuries

Answer 13

False - 40-50% of runners with excessive pronation do NOT have overuse injuries

BUT individuals with injuries have an avg of 2-4degrees of increased pronation compared to non-injured runners

Question 14

The transfer of pronation into tibial pronation has been found to be the best predictor of overuse injuries. Which is more likely to cause injury:

a) 20 degree angle of the axis of rotation between talus and tibia
b) 60 degree angle of the axis of rotation between talus and tibia

Answer 14

B - will lead to 13 degrees if tibial rotation (vs only 3 degrees if angle is 20deg)

Question 15

What is the “last” of the running shoe?

What kind of last is ideal for oversupinators?

Overpronators?

Answer 15

Line from the middle of the heel to the middle of the big toe

Overpronators: straight
Oversupinators: curved

Question 16

The most common last configuration in modern running shoes is:
A. Board last
B. Combination last
C. Strobel board last
D. Slip last

Answer 16

C - board made of cloth or thin sheet of EVA glued to midsole

Question 17

Which 4 tests should you do on a patient’s shoe to check for motion control?

Answer 17

1. Torsional rigidity (dish-rag)
2. Heel counter rigidity (pinch test)
3. Flexion stability (fold test)
4. Upper stability (shelf test)

Question 18

At what point in the shoe should a fold in the flexion stability test?

Answer 18

Behind met heads

Question 19

What is the role of heel counter rigidity in running

Answer 19

Proprioception (NOT buttressing)

Question 20

What is the difference between a positive and negative heel drop? What are their advantages?

Answer 20

Positive heel drop = heel height > toe height. Found in most running shoes to reduce over-pronation b/c is dorsiflexes the hallux, encouraging subtalar joint supination through the Windlass effect
Negative heel drop = heel height < toe height. Helps encourage midfoot strike rather than heel-strike

Question 21

An elderly patient asks you for running shoe recommendations. They are choosing between EVA and polyurethane midsole material. Which would you recommend? What are the benefits and drawbacks?

Answer 21

EVA - very light and provides responsive cushioning

Con:

• takes 24 hours to decompress and regain shock absorption after wearing - should recommend buying 2 pairs and switching between them each day
• not as durable as polyurethane

Question 22

Your patient is an over-pronator. Which drop would be more likely to match their foottype?

A. 8mm
B. 0mm

Answer 22

A

Question 23

Almost all shoes today have an outer sole made of a combination of _________ ________ and ____________ _____________ ______________

Answer 23

Blown rubber (least durable)
Carbon impregnated rubber (usually at back of heel - much more durable)

Question 24

In general, you should always recommend a sole with the greatest surface area. Why? What is the exception?

Answer 24

Better stability to roation about long axis of shoe

Exception: older people - may increase risk of tripping

Question 25

What kind of shoes should you recommend to an individual with hallux rigidus?

Answer 25

Four finger rocker

Question 26

What kind of shoes should you recommend to an individual with mortons neuroma?

Answer 26

Wide forefoot, narrow heel

Question 27

Trail running shoes should have large ________ and a _________ _________ to prevent rock bruises

Answer 27

Lugs (sole made of rubber with deep indentations/grooves to provide added grip); gait plate

Question 28

A patient has reported having pain across the top of their feet. How should they lace their shoes to avoid this?

Answer 28

Lace to the point where the pain begins(normal lacing) then skip the cross-over in the region where there is pain. Then go back to normal lacing. Because you don’t have the laces crossingover in the area of pain - it shouldn’t beirritated anymore

Question 29

How should shoes be laced for individuals with high arched feet?

Answer 29

Going across-up the whole way on both sides

Question 30

A patient complains that their heel keeps slipping out of their shoe and they’ve been getting blisters. How can you help them?

Answer 30

Lace shoes up to second-last eyelet normally. Create two eyelets by lacing up and not across the last hole, then cross through the loop made by the last eyelet.

Question 31

A patient has been experiencing a lot of pain in their big toe and wonders if they can do anything different to reduce the pain. What do you recommend?

Answer 31

Put the lace in the top left, and straight down to the bottom right and then continuing the lace up. It will pick up the end of the shoe and won’t irritate the toe anymore.

Question 32

What are 4 important features of a tennis shoe which are different from running shoes?

Answer 32

1. Lateral stability (due to changing direction side-to-tide)
2. Torsional flexibility
3. Cushioning (especially in toe area)
4. Traction control

Question 33

When a study was done comparing injury rates among subjects wearing different shoetypes, the greatest injury rate was seen in those wearing:
A. Neutral shoes
B. Partial minimalist shoes
C. Full minimalist shoes

Answer 33

B (therefore need to be careful about prescribing minimalist shoes to patients)

Question 34

What are 2 differences with women’s running shoes?

Answer 34

1. Softer midsole and lighter because women generally weight less so don’t have the same degree of impact
2. Wider forefoot and narrower heel

Question 35

Your patient is an over-pronator. Regarding lacing, what would you recommend?
A. Keep the laces loose by use all 7 eyelets
B. Keep the shoes tight and use all 7 eyelets
C. Keep the shoes loose but only use 5 eyelets
D. Keep the shoes tight but only use 5 eyelets

Answer 35

B (also reduces peak pressure on heel)

Question 36

What effect does increased midsole hardness have on impact peak, energy loss, and contact time?

Answer 36

Reduce impact peak
Minimize energy loss
Increase contact time

Question 37

Which midsole material has better energy return?
A. EVA
B. Sprayed rubber
C. Polyurethane
D. Tire rubber

Answer 37

A (which may translate into improved running economy)

Question 38

True or false: running economy has been found to increase with minimalist footwear

Answer 38

True - thought to be due to greater cross-sectional area and stiffness of Achilles tendon

Question 39

What is the main concern wrt training in minimalist shoes?

Answer 39

ncreased risk of injury, especially to shin, forefoot (stress fracture) and calf

Question 40

True or false: heel flare has been found to increase the risk of over-pronation in runners

Answer 40

False - no sig dif in tibiocalcaneal and ankle kinematics between heel flare conditions

Question 41

Which type of heel cup is recommended for heel fat pad atrophy?
A. Rubber
B. Plastic

Answer 41

B - improved internal shock absorbtion because it squishes the heel pad, causing increased thickness

Question 42

Which type of heel cup is recommended for heel inflammation?
A. Rubber
B. Plastic

Answer 42

A - increased external shock absorption

Question 43

True or false: according to the latest research, there is no significant difference of overall injury risk among different heel-toe drops

Answer 43

TrueTrue

Question 44

Minimalist uppers were found to cause higher peak pressure in all areas of the foot except ___________

Answer 44

Midfoot region

Question 45

What is the main role of the upper of a shoe?

Answer 45

Improved coupling of foot with sole

Question 46

Roy and Steganyshyn had 3 hypothesis about shoe longitudinal bending stiffness, that is would be inversely correlated to:

1. Gross metabolic cost
2. Work at MTP joint
3. Total intensity of muscular activity of the lower limbs

Which turned out to be correct?

Answer 46

None of them! No impact on any of these metrics.

Question 47

What factor is most important to take into consideration when determining ideal shoe stiffness to maximize running economy?

Answer 47

Runner’s mass (heavier subjects should have stiffer shoes)

Question 48

True or false: Running in lighter shoes improves running economy compared to running in heavyshoes.

Answer 48

True

Question 49

True or false: minimalist shoes show greater running economy compared to conventional shoes because they weigh less

Answer 49

False - greater running economy even when weight is accounted for (probably because of forefoot running style)

Question 50

True or false: Benno Nigg believes that nobody really knows that the Vaporfly is doing, but it is doing something.

Answer 50

True - there are several theories (eg. lighter running shoes, stiffer midsole which increases moment arm) but these have not been proven