Extracorporeal Shock-wave

Question 1

What is ESWT

Answer 1

The application of pressure mechanical waves outside the body (extracorporeal) that violently impact (shock) biologic tissues for therapeutic purposes

(NOTE: mechanical energy is absorbed by soft tissues and leads to physiologic and therapeutic effects).

Question 2

What is shock wave

Answer 2

Low to large amplitude wave formed by the sudden mechanical compression of the medium

Question 3

What is a mechanical wave

Answer 3

A wave that is an oscillation of matter and therefore transfers energy through a medium

Question 4

What are the two types of shock waves devices

Answer 4

Focused shock waves (f-ESWT)

Unfocused/ Radial shock waves (r-ESWT)

(NOTE: some devices have both)

Question 5

What different methods produce f-ESWT

Answer 5

Electrohydraulic : force of liquid pressure

Electromagnetic : electric and magnetic fields come in contact

Piezoelectric : using crystals to convert mechanical energy ➡️ electrical energy

Question 6

What method is used to produce r-ESWT

Answer 6

Pneumatically (ballistic) : compressed air

Question 7

Delivery of f-ESWT VS r-ESWT

Answer 7

F-ESWT : small and precise locations

R-ESWT: unfocused larger locations

(NOTE: this is due to how they were produced)
(Ex: R-ESWT produced pneumatically)
(Ex: look at picture for f-ESWT production)

Question 8

Which device delivers high energy / low energy?

Answer 8

F-ESWT: high energy

R-ESWT: low energy

Question 9

Discuss the rationale for ESWT usage

Provide examples

Answer 9

ESWT is:
- safer
- noninvasive
- good alternative to surgical interventions

Example:
- lithotripsy (f-ESWT)
- orthotripsy (f-ESWT & r-ESWT)

Question 10

What is lithotripsy used for?

What type of shock wave is involved ?

Answer 10

To break kidney and ureteral stones

F-ESWT

Question 11

What is orthotripsy used for?

What type of shock wave is involved ?

Answer 11

Stimulates healing process of tendons and bones for chronic and recalcitrant tendinopathies and delayed or nonunion fractures

F-ESWT & R-ESWT

Question 12

Penetration depth of f-ESWT and r-ESWT

Answer 12

F-ESWT : deep (more than 5 cm)

R-ESWT : superficial (less than 5 cm)

Question 13

Localization method of f-ESWT and r-ESWT

Answer 13

F-ESWT: image guiding systems (ultrasound, fluoroscopy, X-rays)

R-ESWT (palpation/ manual localization using pistol-like applicator)

Question 14

Waveforms are characterized by two phases . What are they ?

Answer 14

Compressive phase
Tensile phase

Question 15

Compressive and Tensile phases and Time courses
in F-ESWT vs R-ESWT

Answer 15

F-ESWT :
- HIGHER compressive and tensile pressures
- SHORTER time courses

R-ESWT:
- LOWER compressive and tensile pressures
- LONGER time courses

Question 16

Reading compressive vs tensile pressure on graph

Answer 16

Compressive pressure:
- Positive pressure (P+): pressure during positive compressive phase
- Positive peak pressure (Pp+): maximum +ve peak pressure

Tensile pressure:
- Negative pressure (P-): pressure during negative tensile phase
- Negative peak pressure (Pp-): maximum -ve peak pressure

Question 17

Units for compressive and tensile pressures

Answer 17

Megapascal (Mpa) or Bar

10 bar = 1 Mpa

Question 18

Describe the amplitudes of P+ and P-

Answer 18

Amplitude of P- = 10% of amplitude of P+

Question 19

Compare compressive pressures for f-ESWT and r-ESWT

Answer 19

F-ESWT can reach compressive pressure 120x larger than r-ESWT

Question 20

What is rise time?

What is pulse duration ?

Compare the rise time and pulse duration for f-ESWT and r-ESWT

Answer 20

Rise time (RT):
- Time interval during which P+ rises from baseline to peak value

Pulse duration (PD):
- Time interval between the beginning and ending of the compressive phase

F-ESWT PD: <0.5 μs
R-ESWT PD: <500 μs

Question 21

The mechanical/acoustic energy contained in a shock wave is expressed in what unit?

Answer 21

Millijoules (mJ)

Question 22

What is energy flux density EFD

How is it calculated

What is the unit of EFD

Classification of EFD levels

Answer 22

• A measure of shock wave energy concentration or density
• The amount of mechanical acoustic energy per unit area per shock

EFD = Energy / Area

Unit: mJ/mm²

Can be classified as: low, medium, high

Question 23

Compare EFDs between f-ESWT and r-ESWT

Answer 23

F-ESWT have larger EFDs than r-ESWT because:
- they contain more energy (E ⬆️ )
- distributed over smaller area (A ⬇️ )

Question 24

Calculations of EFDs is suitable for ___________ and do not accurately represent _________

Answer 24

F-ESWT
R-ESWT

(NOTE: more accurate representation of r-ESWT is to report pressure level in bar or Mpa)

Question 25

Range of number of shocks per treatment

Answer 25

Generally may range between 1000 to 4000

Question 26

Range of shock frequency

Answer 26

Between 4-5 Hz ( use lower if painful)

Or

15-20 Hz when using radial

Question 27

Number of treatments

Answer 27

Between 1 and 4

Question 28

Difference between applicators for f-ESWT and r-ESWT

Answer 28

F-ESWT applicators:
- larger and more difficult to manipulate

R-ESWT applicators:
- smaller and easier to manipulate

Question 29

Why do we need coupling media

What are the coupling media for f-ESWT and r-ESWT

Answer 29

A coupling medium is required for mechanical energy, created by the shockwaves, to be transmitted and absorbed by soft tissue
(Maximizes acoustic transmission)

F-ESWT :
- Adjustable dome membranes that are filled with either gas, water, gel
- local analgesics to minimize pain during therapy but may reduce therapeutic effectiveness

R-ESWT :
Standard aqua-sonic gel

Question 30

Compare the propagation of f-ESWT and r-ESWT

Answer 30

F-ESWT : focused (convergent) - smaller, deeper areas

R-ESWT: radial (divergent) - larger, superficial areas

Question 31

Therapeutic effects

Answer 31

Question 32

Indication of ESWT

Answer 32

Shoulder, elbow, Achilles, and patellar tendinopathies
Shoulder calcific tendinitis
Plantar fasciopathy
Chronic heel pain
Nonunion and delayed-union bone fracture
Osteonecrosis

Question 33

Contraindications of ESWT (hint: 7)

Answer 33

Gas-filled tissues i.e lung & intestines (severe tissue damage)

Uterus (disrupts fetal development)

Electronic implant (interference)

Blood coagulation therapy (bleeding)

Acute injury (increases inflammation)

Large vessel and nerve (damage sensitive tissue)

Epiphyseal plate (alters normal bone growth)

Question 34

Risks of ESWT and why?

Answer 34

Pain
Swelling
Discoloration
Bruising

Repetitive pressure impacts cause local tissue microvascular damages that may trigger these risks.