SA Soft Tissue Surgery: General Surgical Principles and Basic Wound Management

Question 1

Name Halsteads 7 principles of Surgery

Answer 1

Gentle tissue handling- reduced trauma

Meticulous haemostasis- haemorrhage can obscure

Preservation of blood supply- dissect as little as possible

Strict asepsis- prevents surgical wound infections

Minimal tension- wounds under tension will heal more slowly or not at all

Accurate tissue apposition- suture tissues planes back together in same position

Obliteration of dead space

Question 2

What is the least traumatic cutting instrument?

Answer 2

Scalpel

Question 3

What are the different grips of holding a scalpel?

Answer 3

Pencil Grip

Fingertip Grip

Palm Grip

Question 4

What is the purpose of the pencil scalpel grip?

Answer 4

Used for cutting short and precicse incisions due to the small contact area of the scalpel from the anlge

Question 5

What is this grip and when it it used?

Answer 5

Fingertip grip

Blade to tissue contact is maximised making this a versatile grip used for most scalpel incisions over 3cm

Question 6

When is the palm scalpel grip used?

Answer 6

Rarely used- allows substantial force but is imprecise

Question 7

What is press cutting?

Answer 7

Using the pencul grip, apply a gradual increase in pressure in the direct motion of the blade- eg linea alba

Question 8

What is side cutting?

Answer 8

Using any grip apply pressure at 90 degrees to the direction of the motion of the blade, while other hand tenses the tissue laterally to seperate wound edges incresing cutting efficiency. Only do a single pass, to prevent jagged edges.

Question 9

What kind of scissors should be used for fine dissection and what for dissecting connective tissue and fascia?

Answer 9

Metzenbaum (top) for fine dissection

Mayo (bottom) for connective tissue and fascia

Question 10

What kind of dissection are curved scissors better for?

Answer 10

Curved scissors are better for fine dissection.

Question 11

How should you hold scissors to cut towards your dominant hand?

Answer 11

Backhand thumb-third finger tip is better

Question 12

When would this technique be used?

Answer 12

To cut across the table towards your body

use the back thumb-index finger grip

Question 13

Where along the sharp edge of scissors should you cut?

Answer 13

Use the scissor tip rather then near hinge- cutting forces highest at tip

Question 14

What are the three techniques of cutting with scissors?

Answer 14

Scissor cutting- normal- avoid complete closure of jaws

Push cutting- wrapping paper- useful for cutting sheets of tissue

Blunt dissection- insert closed blades of scissors anf then open them

Question 15

How do electrosugical instruments work?

Answer 15

Use a radiofrequency electrical current to heat tissues and destroy cells/coagulate protein

Question 16

What is the difference between monopolar electrocuautery and bipolar?

Answer 16

Monopolar electrocautery has an electrode in a hand peice and a ground plate and can both cut and coagulate

Bipolar cautery is only used for coagulation and haemostasis

Question 17

When should electrosurgery not be used?

Answer 17

If the patient is not anaesthetisesd

If there is presence of volatile/flammable gases or liquids

The ground plate for monopolar systems is not in complete contact with the animal

If the power lead is wrapped in a coil around around towel clips

The electodes are not clean

With an innapropriate power setting- keep as low as possible

Question 18

What forceps are most commonly used for handling tissues?

Answer 18

Thumb forceps

Question 19

What are the types of thumb forceps?

Answer 19

Toothed- adson, debakey

and Non-toothed

Question 20

What type of thumb forceps are these?

Answer 20

Adson forceps

Question 21

What type of thumb forceps are these?

Answer 21

DeBakey vascular forceps

Question 22

When should non-toothed thumb forceps be used?

Answer 22

When handling inanimate objects- dressings, pathology specimens

Question 23

Name the three types of tissue forceps?

Answer 23

Allis tissue forceps- jaws traumatic

Babcock forceps- slightly more delicate jaws

Doyen forceps- designed for holding and occluding lumen of bowel

Question 24

Name these forceps

Answer 24

Allic tissue forceps

Question 25

Name these forceps

Answer 25

Babcock forceps

Question 26

Name these forceps

Answer 26

Doyen Forceps

Question 27

What are the purpose of retractors?

Answer 27

Expose the surgical field with as little trauma as possible

Question 28

What retractor is this and what are they used for?

Answer 28

Finger held retractors- used for thin or delicate tissue planes

Question 29

What are hand held retractors used for?

Answer 29

Used for retraction thicker or more robust tissue planes

Question 30

What is the name of this retractor and what is it used for?

Answer 30

Balfour retractors

Used for abdominal wall retraction, especially in larger animals and for working in the cranial abdomen- central blade can be used to lift the xiphoid process and improve exposure

Question 31

What is the name of of these retractors?

Answer 31

Gossett retractor- used for abdominal retraction

Question 32

What is the name and functions of these retractors?

Answer 32

Finochietto rib retractors

Used to seperate the ribs for intercostal thoractomy or the divided halves of the sternum for median sternotomy

Question 33

What is the name and function of these retractors?

Answer 33

Gelpi retractors

Used to seperate tissues in various locations, the tips are quite sharp so use with caution around delicate structures

Question 34

Why is suction useful during surgery?

Answer 34

It is the most effective way of removing large volumes of fluid from the wound.

Question 35

What are the names and function of these suction tips?

Answer 35

Top- Frazier-ferguson

Good for fine work and removint haemorrhage during dissection

Middle- Yankauer

Good for removing large volumes of fluid from body cavities

Bottom- Poole

Good for removing fluid from body cavities and doesn’t block easily

Question 36

What are the complications of improper tissue handling?

Answer 36

• Tissue ischaemia with subsequent delayed healing or necrosis leading to wound dishiscence, incisional hernias etc
• Dead space leading to seroma and abscess formation
• Wound contamination leading to infection
• Increased postoperative pain
• Poorer cosmetic results

Question 37

What is suture material selected based upon?

Answer 37

• Tensile strength
• Structure of the suture
• Chemical composition of the suture
• Local wound conditions
• Wound healing rate

Question 38

What is tensile strength and how do you decide what tensile strength to use?

Answer 38

This is proportional to the diameter of the suture

Use suture with a tensile strength equal to the strength of the tissue

Question 39

How is metric and USP suture diameter calculated?

Answer 39

Metric- diameter of a suture to tenths of a mm

USP- suture size in arbituary units based on diameter of suture in thousands of an inch

Question 40

What is the ideal structure of suture material?

Answer 40

Easy to handle

low tissue drag

resistance to contamination

good knot security

Question 41

What is the difference between monofilament and multifilament sutures?

Answer 41

Monofilament is a single strand of material

Multifilament is multiple strands of suture braided or twisted together

Question 42

What are the advantages and disadvantages of monofilament sutures?

Answer 42

Advantages

• Little tissue drag
• Withstand contaminatino

Disadvantages

• Prone to damage from handling equipment- breakage
• High degree of memory- gives worse knot security

Question 43

What are the advantages and disadvantages of multifilament suture?

Answer 43

Advantages

• Easier to handle from less memory
• Better knot security

Disadvantages

• Increased tissue drag
• Increased chance of contamination
• Capillary action

Question 44

What is the differecne between absorbable and non-absorbable sutures and when would both be used?

Answer 44

Absorbable

• Lose tensile strentgh within 60 days

Non-absorbable

• Retain their strength for more then 60 days
• Used for skin, some hernias, ligament and tendon repairs

Question 45

What are synthetic and natural absorbable sutures?

Answer 45

Synthetic are made from synthetic polymers and are broken down by hydrolysis

Natural is made from animal or plant material and are broken down by enzymatic degradation causing inflammation and more tissue reaction

Question 46

What suture should be used in contaminated/infected wounds and why?

Answer 46

Least amount possible of synthetic monofilament

Multifilament may habour bacteria and synthetic gives the least amount of tissue reaction

Question 47

What suture material should be used for visceral wounds and connective tissues/fascia and why?

Answer 47

Visceral wounds- absorbable as gain tensile strength to support itself after 14-21 days

Connective tissues/facsia- non-absorbable or slowly absorbable as ther heal more slowly

Question 48

What are the generic features of all needles and what differences affect choice?

Answer 48

Most stainless steel- strong, withstands corrosion and doesn’t harbour bacteria

Needle choice-

long enough to reach both sides

Appropriate diameter for suture

Question 49

What are the two ways needles are attached to suture?

Answer 49

Swaged on- attached during manufacture- less traumatic (new and sharp)

Eyed needles- re-usable, cheap, need to thread a needle

Question 50

What are the two shapes of needles?

Answer 50

Straight- used near the body surface or skin held in fingers

Curved needles- used for most suturing and are especially useful for narrow and deep wounds

Question 51

What is the difference between round bodied and cutting needles?

Answer 51

Round have sharp point that pierces and spreads tissue without cutting. Used for suturing easly penetrated tissue

Cutting needles have two or three sharp cutting edges designes for use in difficult to penetrate tissues

Question 52

Name these three types of cutting needles based on the followign descriptions:

• Cutting edge along inner (concave) side of the needle. This may cause the suture material to cut out towards edges of incision
• Have cutting edge alonf outer (convex) side making the needle stronger and suture less likely to cut out
• Combination- used for dense/tough fibrous tissue (tendon) and for some cardiovascular procedures

Answer 52

1- Conventional cutting needles

2- Reverse cutting needle

3- Taper cut needle

Question 53

What are the differences between the three types of needle holders?

Answer 53

Mayo-hagar

• No scissor blade with ratchet

Olsen-hegar

• Scissor blade with ratches

Gillies

• No ratchet arms are different lengths

Question 54

How short should ends of suture be cut?

Answer 54

Cut the ends of the suture as short as possible without compromising the knot

3mm synthetic sutures

6mm surgical gut

1cm at skin to facilitate removal

Question 55

How many throws are required for a safe knot?

Answer 55

Question 56

What are the three suture patterns and what effect do they have on tissue alignment?

Answer 56

Appositional- brindh the wound edges into direct contact and are the most widley used type of suture

Inverting- turn the wound edges inwards

Everting- turns wound edges outwards

Question 57

What are the advantages and disadvantages of interupted sutures?

Answer 57

Adv-
Easily placed and removed
allow adjustment of tension across a wound
More fail tolerany than continuous

Disadvantages-
Less economic on suture material

Question 58

What is a vertical matress suture useful for?

Answer 58

It can help to relieve minor tension and is usually alternated with simple interupted, vertical removed 3-4 days post op.

Question 59

What are the advantages of continuous horizontal?

Answer 59

No sutures to remove in fractious pets

No sutures passing through the skin to cause irritation or track infection into the wound

Minimal scar formation

Question 60

What difference is there between simple continuous and ford interlocking?

Answer 60

Each loop through the skin is partially locked allowing greater security if the suture breaks- can be fiddly to remove

Question 61

What suture pattern is commonly used for subcutaneous tissue and why?

Answer 61

Simple continuous or continuous horizontal mattress pattern

Decrease tension across the wound before skin sutures are replaced- reduce dead space and approximate skin edges

Question 62

What suture pattern is used to close the skin?

Answer 62

Simple interupted, cruciate matress or continuous.

Spacing depends on direction of the skin tension lines and thickness of skin but generally 5-10mm appart

Question 63

How can staples be more or less expensive then using suture?

Answer 63

Can be more expensive as they cost more then suture material

But if closing larger wounds it can be cost effective

Question 64

When are staples not suitable?

Answer 64

Wounds that are under tension

Wounds with complicated geometry/uneven edges

Less then 4-6mm depth of tissue seperating them from bone or viscera

Question 65

When are circular and linear stapling devices mainly used?

Answer 65

Most commonly for hepatic and pulmonary lobectomies and closure of stomach of bowel

Question 66

How long does it take for cyanoacrylate adhesives to polymerise?

Answer 66

In the presence of moisture- less than 60 seconds (often less then 15)

Question 67

When are cyanoacrylates useful?

Answer 67

Useful for repairing small skin wounds

Useful if suture removal will be difficult

Question 68

What are the disadvantages of tissue adhesives?

Answer 68

Low strength

Adhere poorly to moist surfaces

Not suitable for use on mucous membranes, larger wounds or wounds under tension

Question 69

Why should tissue adhesives not enter wounds?

Answer 69

Cyanoacrylates may cause chronic inflammation and wound infection or granuloma formation

Question 70

What do these terms mean?:

• tomy
• ectomy
• centesis
• pexy

Answer 70

-tomy
to incise into

-ectomy
to remove or excercise

-centesis
introduction of needle into cavity to aspirate fluir or gas for diagnostic or therapeutic purposes

-pexy
surgical fixation

Question 71

What do these terms mean?:

• rraphy
• stomy
• desis
• plasty

Answer 71

-rraphy
act of suturing

-stomy
Surgically creating an openning

-desis
secure fixation by surgical methods

-plasty
surgical shaping or moulding of a structure

Question 72

What are the 6 phases of wound healing?

Answer 72

Lag or inflammatory phase

Repair phase-
Connective tissue repair
Wound contraction
Epithelilisation

Remodelling phase

Question 73

How long does the lag/inflammatory phase last and what happens?

Answer 73

Lasts 1-5 days

Immediate response to injury is haemostasis

Neutrophils- attracted to wound by chemotaxis- degrade necrotic tissue and control infection by destroying bacteria

Monocytes enter differentiate into macrophages- remove degenerate neutrophils, necrotic tissue and debris by phagocytosis and secrete growth factors

Heat, pain, redness and swelling

Question 74

How long does the repair phase last and what are the three overlapping parts?

Answer 74

Lasts 6-16 days

Connective Tissue Repair

Wound contraction

Epithelialisation

Question 75

What happens during the connective tissue repair phase?

Answer 75

• Mesenchymal cells in the wound edges differentiate into fibroblasts
• Inflammatory cells remove necrotis tissue and debris
• New fibroblasts move into wound and create collagenous ECM
• Angiogenesis (capillary ingrowth)
• 7-14d after injury the collagen stabilises- fibroblasts undergo apoptosis and some new capillaries
• Results in granulation tissue- scar

Question 76

What happens during the wound contraction of the repair phase?

Answer 76

• Begins 5-9 days post injury
• Exact mechanism unclear
• Specialised myofibroblasts containing actin-containing microfilaments appear to proliferate
• Attach to wound matrix and each other and contract
• Contraction continues till wound edges meet or equal tension or rest of skin

Question 77

What happens during epitheliazation phase of repair phase?

Answer 77

• Partial thickness wounds occurs straight away
• Full thickness requires adequate granulation tissue so 4-5 days late
• Epithelial cells from wound edges and any remaining hair follicles migrate across the wound until they form a monolayer
• Proliferation begins 1-2 days later
• Epithelial layer becomes firmly attached to underlying dermis and stratifies

Question 78

What happens during the remodelling phase and when does it occur?

Answer 78

Starts 14-16 days post-wounding and lasts 2 weeks to months

• Collagen content and strength of wound increase rapidly first 14-16 days then remodelling begins
• Cellular content of granulation tissue reduces and the collagen bundle reorganizes by thickening, cross linking and reorientating along the lines of tension
• Scar will never be as strong as original tissue- 20% in first 3 weeks, reach 70-80%

Question 79

What local factors affect wound healing?

Answer 79

Wound perfusion- dividing cells within the healing wound require O2, shock/hypotension/arterial occlusion due to pain slow the healing

Tissue viability- devitialised/necrotic tissue prolong inflammatory phase and delay

Wound fluid accumulation- haematomas or seromas slow healing by physically seperating the tissues and put pressure reducing perfusion

Infection- prolongs inflammatory phase, reduces chemotaxis, increases tissue damage

Mechanical factors- tension, motion and pressure

Question 80

What happens in skeletal muscle is sarcolemma is grossly disrupted or significant muscle mass lost?

Answer 80

Repair occurs by fibrous union between the ends of the muscle strands

Question 81

What systemic factors affect wound healing?

Answer 81

Immunosupression

Neoplasia

Question 82

What is required for successfull healing of intestinal wounds?

Answer 82

Avoiding infection, preservation of blood supply and avoiding tension are critical to healing

Collagenase activity in the wound causes a reduction in wound strength

Question 83

What happens when a nerve is severed?

Answer 83

The severed ends retract
Cell body swells
Nucleus becomes eccentrically-placed and distal portion of axon undergoes wallerian degeneration

Within 48 hours sprouts from proximal axon attempt to grow down the distal endoneural tube- can be blocked so may split to supply 2 endoneural tubes

Question 84

What differs about epithelium, endothelium and mesothelium wound regeneration?

Answer 84

Similar mechanisms- rate of healing differs

Question 85

What is special about liver regeneration?

Answer 85

Can regenerate 70-80% of volume in 6 weeks by proliferation and hypertrophy

Question 86

What is the 6-8 hour golden period?

Answer 86

Wounds can be closed with minimal intervention because bacteria introduced would take 6 hours to adhere to tissues

Now considered less important- many factors affect the speed (number, tissue, trauma)

Question 87

What are the 2 main ways wounds are categorised?

Answer 87

Degree of contamination- based on number of bacteria present in the wound

Aeitiology- cause of a wound determined the likely amount of tissue trauma and contamination

Question 88

What are the different classes of degree of contamination?

Answer 88

Clean- elective surgical wounds not entering the respiratory, urogenital or GI tract with no breaks in asepsis

Clean-contaminated- surgical wounds involving resp, urogenital, gastrointestinal without minor significant contamination

Contaminated- fresh traumatic wounds less then 4-6 hours old, surgical wounds of resp, uro, GI with significant contamination, surgery with inflammation, major break in asepsis

Dirty- traumatic wounds oler then 4-6 hours, contaminated with foreign material, perforation of a hollow viscus, surgery in presence of abscessation

Question 89

What are the 7 classes of aetiology classed wounds?

Answer 89

Abrasion- partial thickness wound with loss of epidermis and part of dermis

Avulsion- tearing of tissue from its attachments

Degloving- low-velocity avulsion of skin due to rotational forces

Incision- sharp trauma resulting in a smooth-edged wound with minimal tissue trauma

Laceration- sharp trauma resulting in an irregular wound with tearing of tissue and trauma of underlying tissue

Puncture wound- penetratoin of sharp object, often minimal superficial damage with substantial damage to deeper structures, can carry risk to organ systems

Burns

Question 90

What is the basic treatment plan of wounds?

Answer 90

Convert a wound into a clean or clean-contaminated wound if possible and then close

If this cannot be achieved the wound is managed as an open wound

Question 91

How should the wound be prepared?

Answer 91

• Take swabs for bacteriology before cleaning the wound
• Prevent further contamination by covering with sterile, water soluble ointment or swabs soaked in saline
• Clip a large area around the wound- start at edges and work away
• Prepare skin around the wound with surgical scrub- do not allow contact to wound

Question 92

What is hydrodynamic debridment often called and how is it done?

Answer 92

Lavage

Aims

• Decrease bacteria​
• Remove debris
• Prevent further contamination
• Prevent transformation of acute clean or contaminated wounds into infected
• Convert contaminated or clean-contaminated wounds to suitable for primary closure
• In grossly contaminated wounds, copious lavage with tap water
• Otherwise perform pressure irrigation with large volumes of isotonic solution- 8psi optimum
• Antiseptics can be added to final not detergents

Question 94

What does hydromechanical debridment use and what does it do?

Answer 94

Amorphus hydrogel dressings- intrasite gel

Promotes hydration
Autolysis of necrotic tissue
Absorb sloughing tissue
Promote a moist wound site
Prevent eschar formation
Bacteriostatic

Question 95

What should be done for hydromechanical debridment for wounds containing necrotic tissue?

What sould be done for wounds with lots of exudate?

Answer 95

Cover the hydrogel with a non-adherent semi-occlusive primary dressing layer or an adherent primary layer

This will absorb the hydrogel and act similar to a wet-dry dretting

Lots of exudate:

Cover with hydrocellular foam dressing that will not absorb gel, remove the gel when changing the dressing with lavage, change 1-3 days depending on exudate amount, infected change daily

Question 96

When is surgical debridment used?

Answer 96

Wounds with extensive tissue trauma or large amount of debris

Question 97

How is surgical debridment done?

Answer 97

Evaluate viability of tissues based on colour, puls and bleeding
If it can’t due to oedema wait 48-72 hours
Remove all devitalised tissues and foreign material
Preserve muscles, tendons, nerves and blood
Lavage again

Question 98

What are the treatment plans for the following after debridment:

• Clean/clean contamination
• Contaminated
• Contaminated to dirty
• Unsuitable for closure

Answer 98

• Clean/clean contaminates- primary closure- immediate suture closure without tension
• Contaminated- delayed primary closure- closure 1-5 days after wounding, before granulation bed formation, lavage wile open
• Contaminated to dirty- secondary closure- closure >5 days after injury, exise wound, granulation tissue margin and epitheliliased edges then close
• Wounds unsuitable- second intention healing- no closure- healing by granulation, epithelialisation and contraction

Question 99

What is the primary larer of open wound managment?

Answer 99

Determinds the dressing’s functin- should be in contact with wound surface to prevent tissue maceration

Question 100

What are the types of primary laters and when are they indicated?

Answer 100

Adherent dressings- Adhere to wound because fibrinous material, granulation tissue or proteinaceous exudate penetrates and dries
Slow healing by removing surface cells and growth factors, often painful removal and can cause tissue maceration

Non-adherent dressings- indicated for most wounds

Question 101

What factors determind the type of non-adherent dressing to use?

Answer 101

• What you want the dressing to do- a hydrogel for debriding necrotic tissue, no gel if you want to speed up granulation tissue formation
• How much exudate the wound is producing- non-adherent allow drainage to intermediate layer but retain sufficicent moisture to prevent desication
• Is the wound infected- change the dressing at least once a day as bacteria will multiply in moisture layer, remove and lavage

Question 102

Name 9 non-adherent dressings

Answer 102

• Calcium alginate
• Fenestrated polyester film dressings
• Hydrocellular foam dressings
• Hydrocolloid dressings
• Polyethylene/polyurethane film dressings
• Petrolatum-impregnated gause
• Hyperosmolar agents
• Maggots
• Silver dressings

Question 103

What do caclium alginate dressings do?

Answer 103

Absorb exudate and water on contact with wound surface forming non-adherent gel.

Extremely absorbent, can be left for upto 7 days on non-infected wounds.

Enhance autolytic debridment

Indicated for full or partial thickness wounds at any stage of healing with moderate to heavy exudation

Question 104

What do fenestrated polyester film dressings do?

Answer 104

e.g melolin, telfa pads, release pads

Polyester film stops dressing adhering to tissues

Mainly used for protecting wounds with an intact epithelial surface e.g surgical wounds closed primarily

Question 105

What do hydrocellular foam dressings do?

Answer 105

e.g ellevyn

These are extremely absorbent but do not transmit liquids to the secondary layer

Widely used and available in a variety of forms

Especially good on ulcers

Question 106

What do hydrocolloid dressings do?

Answer 106

e.g Granuflex, tegasorb

Composed mainly of cellulose that absorbs moisture and exudate, becomes a gel, creates a barrier to bacteria

Promotes autolytic debridment

Can handle a wide ranfe of exudate volumes

Question 107

What do polyethene/polyurethane film dressings do?

Answer 107

e.g opsite flexigrid, tegaderm

Non-absorbent but some pass water vapour into secondary layer

Typically left on longer than more absorbent or permeable dressings

Indicated for protection of wounds with an intact epitithelial surface (sutured, cathether)

Question 108

What do petrolatum-impregnated gauze dressings do?

Answer 108

May slow epithelialisation so contraindicated for wounds in the later stages of repair

Non-absorbent and hydrophobic due to petrolatum gel

Mainly used for protecting wounds with an intact surface but fragile epidermis

Question 109

What do hyperosmolar agent dressings do?

Answer 109

Commercial manuka honey dressings and home-made sugar dressings are hyperosmolar and dehydrate bacteria, impairing their growth

Honey may contain inhibitory substances like hydrogen peroxide and inhibins and its low pH reduces bacterial growth

Question 110

What do maggots do in dressings?

Answer 110

Larvae of Lucilia sericata are sometimes used for wound debridment

Gettinf the containment dressing to stay in place can be difficult

Preventing patient interference can also be hard

May become more useful as antibacterial resitance increases

Question 112

What do silver dressings do?

Answer 112

Release bactericidal silver ions into the wound

Question 113

What is the purpose of the secondary layer in open wound managment?

Answer 113

Draws away and absorbs excess fluid, keepinf the primary layer in contact with the wound

Obliterates dead space by providing pressure and protects the wound by padding, supporting and immobilizing it.

Splints may be included in this layer

Types include: cast padding, absorbent pads, cotton wool

If the intermediate layer is not thick enough it may become saturated and need replacing.

Question 114

What is the purpose of the tertiary layer in open wound managment?

Answer 114

Secures the rest of the dressing, provides some pressure and supports and keeps the other layers clean.

If dressing is too lose it may slip and cause maceration if the primary layer loses contact with the wound, if too tight may compromise circulation

Question 115

How is too greater pressure avoided from the teritary outer later?

Answer 115

Use a thick enough secondary layer

Even distribution of tension

Estimating pressure with a finger placed underneath the bandage

Monitoring the patient after the bandage has been applied