Lecture 5 - Tissue Pathophysiology & Healing

Question 1

define an injury

Answer 1

• disruption of the continuity and/or function of tissue in the body

Question 2

individual/intrinsic injury risk factors

Answer 2

• strength
• fitness
• body comp
• age
• injury history
• playing level

Question 3

external/extrinsic risk factors

Answer 3

Human Factors
- team mates, opponents
Protective equipment
- helmets, shin guards
Sports Equipement
- skis
Environment
- weather
- floor/turf
- temperature

Question 4

foundational concept of how does a tissue injury occur

Answer 4

the load exerted on the tissue exceeds the tissue capacity

Question 5

main structures of a tendon

Answer 5

• collagen microfibres and tropocollagen (type 1)
• endotendon
• epitendon
  SEE SLIDE 8

Question 6

types of tendon injuries

Answer 6

• tendinopathy (tendonitis; don’t really say this anymore)
• tendon rupture

Question 7

type 1 vs type 3 collagen role in tendon healing

Answer 7

• type 3 is placed down half hazardly (not in same direction as muscle fibres, messy) which has more of an elastic component. type 3 is short term, not good tissue
• type 1 then comes in for a real fix; type 1 is the base unit of tendons and is designed to deal with tensile load in tendons, muscles, and ligaments

Question 8

list and explain the main stages of tendon healing

Answer 8

1. inflammatory stage (up to 7 days)
   - phagocytosis of necrotic tissues (clears he way)
   - increase of vascular permeability, initiation of angiogenesis and tenocyte proliferation (increase)
2. remodelling stage (1 - 6wks)
   - peak of type 3 collagen, will continue for a few more weeks
3. Modeling Stage (6+ wks)
   3a. Consolidation (6-10 wks)
   - change from cellular to fibrous collagen, collagen is aligned in the direction of the stress
   3b. Maturation (10+weeks)
   - continues to remodel the tissue

Question 9

list all parts of the muscle

Answer 9

see slide 11

Question 10

muscle injuries are most common in which muscles

Answer 10

10-55% of athletic injures are muscle injuries
- hamstrings
- adductors
- quadriceps
- calf muscles

Question 11

types of muscle injuries

Answer 11

• contusions
• sTrains (grade 1 - 3)
• lacerations

Question 12

explain different muscle strains

Answer 12

Grade 1
- strain usually causes stretching of a few muscle fibres
Grade 2
- more significant damage, more muscle fibres are torn or damaged (less than 50% of muscle)
Grade 3
- a complete (50%> or more) tear/rupture of the muscle

Question 13

Different phases of muscle healing

Answer 13

1. Destruction Phase
   - muscle injury > formation of hematoma > inflammatory response
2. Repair Phase
   - phagocytosis of necrotic tissues
   - myogenic reserve cells (satellite cells) are activated and become myoblasts, then myoblasts fuse to myotubes
   - 5-6 days after the injury the myotube attach both ends of the stump
3. Remodeling Phase
   - formation of contractile
   - fibroblasts become myofibroblasts which have contractile capabilities
   - scar is formed and becomes stronger over time

Question 14

types of ligament injuries

Answer 14

sPrains
Grade 1
- minimal to moderate pain, minimal to swelling, strength or ROM deficit
Grade 2
- a lot of pain, moderate decreased strength and ROM, moderate swelling
Grade 3
- maybe a lot of pain or none, severe decrease in strength and ROM, severe swelling

Question 15

phases of ligaments healing

Answer 15

1. inflammatory phase
   - ligament tear
   - hematoma
   - phagocytosis
2. Repair Phase
   - fibroblasts creates type 3 collagen and continues for a week
   - increase in glycoaminoglycans > increased water and ligament swelling
3. Remodelling phase
   - formation of a scar
   - type 1 collagen replaces type 3

Question 16

approximate tissue healing time lines

Answer 16

Muscle - 2 to 6 wks
Tendon - 2 to 6wks acute, 8-12 months chronic
Ligament - 3to12 months (T has 1/10th the BF as muscles)
Bone - 6-18wks

Question 17

rehab prinicples

Answer 17

• restoring function
• increasing ROM
• increasing muscle strength
• increasing sport endurance
  INCREASE CAPACITY

Question 18

what is the sequential and progressive multi-phase approach you should follow with injury rehab

Answer 18

Phase 1 - acute management/inflammation control
Phase 2 - restoring strength and ROM
Phase 3 - advanced strengthening
Phase 4 - functional/sport specific/return to play

Question 19

what do you do in Phase 1 of injury rehab

Answer 19

Acute Inflammation Stage
- immobilization for the first 3-6 days depending on the severity
- minimize effects of immobilization
- control pain, inflammation and bleeding (RICE, NSAIDS, etc)
- mobilization within pain, want to avoid re-rupture/tear
- isometric contractions after 3-6 days
MAIN GOAL: minimize damage done by the injury and inflammation

Question 20

Ice or Heat

Answer 20

ICE
- pain relief when on and continues when removed
- reduces inflammation and edema
- decreases tissue metabolism
Heat
- heat can penetrate deeper muscles but pain relief stops when heat is removed
- increase metabolic activity
- reduction of spasm
- facilitation of tissue healing

Question 21

best way to apply ice

Answer 21

10 mins ON - 10 mins OFF - 10 mins ON
*so you body doesn’t think it’s getting hypothermic and send more blood to cold area

Question 22

isometric training in rehab

Answer 22

• heavy isometrics have show to decrease pain immediately and lasted for 45 minutes (patellar tendon)
• used early in the management to build capacity and it’s important to stay in the limits of the plan
• best to be used in early phase post injury
  WHY
• fibroblasts (tenocytes, myofibroblasts, etc) respond to tensile stimulus; they will produce collagen after being stimulated

Question 23

what is mechanotransduction

Answer 23

Mechanotransduction describes the ability of a cell to actively sense, integrate, and convert mechanical stimuli into biochemical signals that result in intracellular changes, such as ion concentrations, activation of signaling pathways and transcriptional regulation (1)

Question 24

mechanotherapy

Answer 24

the employment of mechanotransduction for stimulation of tissue repair and modelling
- mechanical loading stimulates protein synthesis at the cellular level, leading to tissue remodelling

Question 25

steps of mechanotransduction

Answer 25

Mechanotransduction is a multistep process that includes
(1) mechanocoupling (transduction of mechanical forces into signals sensed by sensor cells)
(2) biochemical coupling (conversion of mechanical signal into a biochemical signal to elicit a cellular response such as gene activation) Ca2+ and IP3
(3) transfer of a signal from sensor to effector cells, and
(4) the effector cell response (protein synthesis)

Question 26

What do you do in Phase 2 of injury rehab

Answer 26

Intermediate phase
- isometric, concentric, eccentric exercises to increase tissue strength
- stretching and mobilization to increase ROM
- ensure to train the range that the tissue was injured in to make it stronger, decreasing the likelihood of future injury
- heavy resistance training and plyometrics can be added at the later point in this stage as you move closer to stage 3
MAIN GOAL: increase strength and ROM

Question 27

what do you do in phase 3 of injury rehab

Answer 27

Advanced Strengthening
- must be pain free, have full ROM, no tenderness with palpation, and at least 70% strength of the unaffected side
- begin adding more load to increase the capacity of the area
MAIN GOAL: increase the strength of the tissues

Question 28

what do you do in phase 4 of injury rehab

Answer 28

Return to play
- begin with short-specific training prior to match play
- 90%+ strength as well as be able to perform the required tasks in order to return to play
MAIN GOAL: return to play

Question 29

What happens if the relationship between load and capacity is unbalanced

Answer 29

Load > Capacity = injury
Load =< Capacity = Rehab
Load < < Capacity = Injury prevention

Question 30

Different types of exercises and their effects on injury prevention

Answer 30

• Stretching showed least impact
• Strength training showed the greatest impact
• Proprioception was second most impactful
• Multiple exposures was slightly below proprioception
  exercise in general decreased the amount of injuries

why…..
increase tissue strength = increase capacity = decreased likelihood of injury