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Wound Management

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Title: Wound Management


1
Wound Management
  • October 11, 2001
  • Gavin Greenfield and Bob Johnston

2
Objectives
  • Wound Healing
  • Wound Evaluation History, Physical examination
  • Wound Preparation
  • Wound Closure
  • Specific Wounds
  • face, scalp, eyebrow, eyelid, ear, lips,
    intraoral, puncture, fingertip and nail, foreign
    bodies, bites

3
Wound Healing
  • the primary goal of wound care is not the
    technical repair of the wound it is providing
    optimal conditions for the natural reparative
    processes of the wound to proceed
  • Richard L. Lammers (Roberts and Hedges)

4
Skin Anatomy
  • Epidermis
  • keratinized squamous epithelium
  • avascular
  • Dermis
  • dense, fibro-elastic tissue
  • highly vascular
  • cells of dermis mainly fibroblasts responsible
    for elaboration of collagen, elastin, ground
    substance
  • Subcutaneous layer (superficial fascia)
  • connects dermis to underlying tissue
  • contains variable amounts of adipose tissue

5
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6
Case 1
  • 1st year medical student comes in with laceration
    to hand. You evaluate the wound and feel it is
    appropriate for primary closure. He asks you how
    the wound will go about healing itself? What do
    you tell him to appease his curious mind?

7
Wound Healing
  • Stages
  • hemostasis
  • inflammation
  • epithelialization
  • fibroplasia
  • contraction
  • scar maturation

8
Wound Healing
  • Inflammation
  • serves to remove bacteria, foreign debris, and
    devitalized tissue a biologic debridement
  • if this stage is prolonged (from infection,
    foreign material, etc.) will get persistent
    inflammation and result in poor wound healing

9
Wound Healing
  • Epithelialization
  • in sutured wounds, surface of wound develops
    epithelial covering impermeable to water in 24-48
    hours
  • eschar and surface debris impair this process by
    inhibiting the migration of the epithelial cells

10
Wound Healing
  • Fibroplasia
  • by fourth day fibroblasts begin synthesizing
    collagen, initiating scar formation
  • characterized clinically by pebbled red tissue in
    wound base

11
Wound Healing
  • Contraction
  • movement of skin edges toward center of defect,
    primarily in direction of underlying muscle
  • everting skin edges at time of repair accounts
    for the subsequent wound contraction

12
Wound Healing
  • Scar Maturation
  • amount of scar tissue influenced by physical
    forces acting across wound
  • strength of wound increases rapidly from day
    5-17, more slowly for additional 14 days, and
    further collagen remodeling / maturation for 2
    years
  • strength of scar tissue never quite reaches that
    of unwounded skin

13
Case 2
  • Pt presents with two wounds one is sharp,
    linear laceration on L hand from a clean knife.
    While riding her bike to hospital she falls on a
    pristine, flat, clean road and lands on dorsum of
    hand producing a jagged irregular laceration.
  • Which of the two has higher chance of infection?
    Why?

14
Case 3
  • Alcoholic, diabetic street person presents with
    laceration to R forearm. He thinks he did it
    about 24 hours ago but cant remember mechanism.
    On examination small amount of soil type debris
    in wound.
  • How will you manage this case?

15
Wound Evaluation HistoryAmerican College of
Emergency Physicians Clinical policy for the
initial approach to patients presenting with
penetrating extremity trauma. Ann Emerg Med Vol
33 No. 5 May 1999
  • identify all extrinsic and intrinsic factors that
    jeopardize healing and promote infection
  • mechanism of injury
  • time of injury
  • environment in which wound occurred
  • potential contaminants, foreign bodies
  • species of animal if bite
  • pts medical problems / immune status
  • tetanus immunization status
  • handedness / vocation

16
Wound Evaluation - History
  • Risk Factors for wound infection (Singer et al.
    Risk factors for infection in patients with
    traumatic lacerations. Academic Emergency
    Medicine. July 1, 2001 8(7) 716-20)
  • older age
  • diabetes
  • laceration width
  • presence of foreign body

17
Wound Evaluation History (mechanism of injury)
  • Type of force causing wound
  • Acute traumatic wounds caused by one or
    combination of 3 forces
  • shear
  • compressive
  • tensile

18
Wound Evaluation History (mechanism of injury)
  • Shear Forces
  • produced by sharp objects that cut through the
    skin
  • amount of energy required to cut skin with sharp
    object is low therefore little energy directed to
    surrounding tissue with minimal cell damage
  • results in lower risk of infection and problems
    with wound healing because remaining tissue is
    not devitalized

19
Wound Evaluation History (mechanism of injury)
  • Compressive and Tensile Forces
  • compressive forces produced when blunt object
    impacts the skin at right angles (wounds tend to
    be stellate or complex with ragged/shredded
    edges)
  • tensile forces produced when a blunt object
    impacts skin at oblique angles (wounds tend to be
    triangular or produce a flap)
  • compared to shear forces much more energy
    deposited with high amounts applied to area
    around wound
  • results in devitalization of surrounding tissue
    with higher incidence of wound infection

20
Wound Evaluation History (mechanism of injury)
  • Shear vs. Compressive / Tensile Forces
  • Infection
  • with compressive / tensile forces the critical
    number of bacteria needed to produce infection is
    much lower (100,000 organisms per gram of
    tissue)
  • with shear forces the number of bacteria needed
    to produce infection is much higher 10,000,000
    organisms per gram of tissue

21
Wound Evaluation History (time of injury)
  • golden period refers to time after injury that
    wound can be safely closed without increased risk
    of infection
  • delay in wound cleaning is most important
    variable
  • contrary to popular belief not a fixed number of
    hours
  • there is little change in wound infection rates
    in most areas of the body for up to 19 hours
    after a variety of traumatic injuries, and
    infection rates of simple wounds involving the
    head are essentially unaffected by the interval
    between injury and repair
  • Berk et al. Evaluation of the golden period
    for wound repair 204 cases from a third world
    emergency department. Ann Emerg Med 17496, 1988

22
Wound Evaluation History (time of injury)
  • accelerated growth phase of bacteria starts at 3
    hours post wound

23
Timing of Closure
  • primary, delayed primary, secondary
  • decision to close a laceration is multifactorial
  • base decision on wound history, physical
    examination, host factors
  • Revisit Case 3

24
Wound Evaluation Physical Examination
  • Examine for
  • amount of tissue destruction
  • degree of contamination
  • damage to underlying structures
  • Wounds may be classified into 6 categories
  • lacerations
  • abrasions
  • crush wounds
  • avulsion wounds
  • puncture wounds
  • combination wounds

25
Wound Evaluation Physical Examination
  • Lacerations
  • if caused by shear force little tissue damage at
    wound edge and margins are sharp and wound
    appears tidy
  • if caused by compressive or tensile forces, more
    force is required to produce the laceration and
    therefore more tissue trauma often appear
    jagged, contused

26
Wound Evaluation Physical Examination
  • Abrasions
  • results from forces applied in opposite
    directions (e.g. skin grinding against road
    surface)

27
Wound Evaluation Physical Examination
  • Crush Wounds
  • caused by impact of an object against tissue,
    especially over a bony surface, which compresses
    the tissue
  • at higher risk for subsequent compartment syndrome

28
Wound Evaluation Physical Examination
  • Avulsions
  • wounds in which a portion of tissue is completely
    separated from its base and is either lost or
    left with a narrow base of attachment

29
Wound Evaluation Physical Examination
  • Puncture Wounds
  • wounds with a small opening and whose depth
    cannot be visualized
  • Combination Wounds

30
Wound Evaluation Physical Examination
  • Amount of tissue destruction / devitalized tissue

31
Wound Evaluation Physical Examination
  • Degree of Contamination
  • bacteria and foreign material
  • primary determinants of wound infection are the
    amount of bacteria and dead tissue remaining in
    wound
  • the presence of undetected reactive foreign
    bodies in sutured wounds almost guarantees
    infection

32
Wound Evaluation Physical Examination
  • Underlying Structures
  • nerves, vessels, tendons, bones, joints

33
Wound Evaluation Physical Examination
  • Wound Location
  • has considerable importance in the risk of
    infection
  • high endogenous bacterial counts in hairy scalp,
    forehead, axilla, groin, foreskin of penis,
    vagina, mouth, nails
  • wounds in areas of high vascularity more easily
    resist infection (scalp, face)

34
Delayed Primary Closure
  • wound preparation (debridement, cleansing, etc.),
    dress with saline soaked fine mesh gauze, follow
    up in 72-96 hours for debridement, repeat
    cleansing and closure if no evidence of infection

35
Skin Preparation
  • prevents transfer of bacteria into wound from
    instruments, suture needles, gloved fingers
  • use whatever (no research suggest one better than
    another)
  • important to distinguish between skin preparation
    and wound cleansing

36
Wound Cleansing (not skin preparation)
  • Soaking
  • of little value and may actually increase
    bacterial counts (Lammers, Fourre, Callaham et
    al. Effect of poviodine-iodine and saline soaking
    on bacterial counts in acute, traumatic
    contaminated wounds. Ann Emerg Med 19 709, 1990)

37
Wound Cleansing (not skin preparation)
  • Mechanical Scrubbing
  • gentle scrubbing may be useful in wounds older
    than 3-4 hours (a glycoprotein matrix enters
    wound and may protect it from further attempts to
    lower bacterial counts with irrigation)
  • Debridement of devitalized tissue paramount to
    reducing risk of infection
  • Scalpel excision of wound margins can be used in
    grossly contaminated wounds

38
Wound Cleansing (not skin preparation)
  • Irrigation
  • Equipment?
  • 35 cc syringe with 18 G needle produces about 7-8
    psi
  • Solution?
  • NS or 1 poviodine-iodine solution (ie. diluted
    Betadine) (Dire and Walsh A comparison of wound
    irrigation solutions used in the emergency
    department. Ann Emerg Med 1990 19704-708)
  • infection rate in poviodine arm was lower than
    saline arm but not statistically significant
    (4.3 vs 6.9)
  • Hydrogen peroxide kills fibroblasts and occludes
    microvasculature, chlorhexadine toxic to tissue
    defenses, detergents contained in scrub solutions
    cause tissue damage in wounds
  • How much? (all expert opinion no clinical
    trials)
  • minimum of 100-300 cc with continued irrigation
    until all visible particles removed
  • 50-100 cc per cm of wound length
  • if irrigation alone is ineffective in removing
    contaminants from a wound, the wound should be
    lightly scrubbed

39
Prophylactic Antibiotics - Topical
  • Ointments
  • reduce formation of crust which could inhibit
    epithelialization
  • prevent dressing from adhering to wound
  • routine use encourages pt inspection of wound
  • one randomized, double blind clinical trial
    demonstrated reduced infection rate
  • Dire et al. Prospective evaluation of topical
    antibiotics for preventing infections in
    uncomplicated soft-tissue wounds repaired in the
    ED. Acad Emerg Med 24, 1995

40
Prophylactic Antibiotics - Systemic
  • no role for routine antibiotic use for most
    wounds (Cumming et al. Antibiotics to prevent
    infection of simple wounds A meta-analysis of
    randomized studies. Am J Emerg Med 13396, 1995)
  • specific wounds contaminated with debris, feces,
    saliva punctures, bites, extensive tissue
    destruction, wounds in avascular areas, oral
    lacerations, wounds involving joint spaces,
    tendons, or bones presence of impaired host
    defenses

41
Wound Closure - Sutures
  • Classification nonabsorbable vs absorbable
  • Size (according to diameter) 6-0 face, 5-0,4-0
    trunk and extremities, 3-0 scalp, sole of foot

42
Wound Closure Sutures - Nonabsorbable
  • Natural or Synthetic / Monofilament or
    Multifilament
  • natural incite tissue reactivity (therefore
    increase risk of infection, synthetic less so)
  • monofilament have less pliability and knot
    security than multifilament but multifilament
    increase risk of wound infection
  • Natural multifilament - silk
  • easiest to handle but poses greatest risk of
    infection because of tissue reactivity (it is
    both a natural suture and multifilament)
  • Synthetic monofilament nylon (Ethilon),
    polypropylene (Prolene), polybutester (Novafil)
  • Synthetic multifilament nylon, polyester
    (Mersilene)

43
Wound Closure Sutures - Absorbable
  • Natural (collagen) or Synthetic (polymers)
  • Natural plain gut and chromic gut
  • plain gut loses tensile strength the quickest
    (half life 5-7 days) produces marked tissue
    reactivity generally used only for oral mucosal
    closures (because heal so quickly)
  • chromic gut absorbed less rapidly than plain gut
    but faster than synthetics (half life 10-14
    days) less tissue reactivity than plain gut
    because of chromic coating useful in situations
    where suture removal may be difficult

44
Wound Closure Sutures - Absorbable
  • Synthetic Multifilament polyglycolic acid
    (Dexon), polyglactin 910 (Vicryl)
  • most commonly used in emerg for sq layers
  • Synthetic Monofilament - polyglyconate (Maxon),
    polydioxanone (PDS II)
  • Remember presence of any suture material in a
    wound increases risk of infection subcutaneous
    sutures have highest risk

45
Wound Closure - Staples
  • lower tissue reactivity than even the least
    reactive suture material
  • get less accurate closure with higher chance of
    malapposition of wound edges and development of
    scar
  • generally reserved for sites where scar is less
    of an issue (hairy scalp)
  • Kanegaye et al. Comparison of skin stapling
    devices and standard sutures for pediatric scalp
    laceration A randomized study of cost and time
    benefits. J Pediatr 130808, 1997

46
Wound Closure - Tapes
  • useful for flat, dry, nonmobile surfaces where
    wounds fit together with no tension ie
    superficial, straight laceration under little
    tension
  • more resistant to infection than sutured wounds
  • adherence of tapes improved with use of benzoin
    to skin surface
  • recommend not getting wet but
  • should stay in place as long as equivalent suture
    and will spontaneously detach as underlying
    epithelium exfoliates

47
Wound Closure Tissue Adhesives
(2-octylcyanoacrylate)
  • closes wounds by forming an adhesive layer on top
    of intact epithelium, which holds edges together
  • cause inflammatory reaction within wounds
  • Useful
  • edges less than 5 mm apart, clean, sharp edges,
    clean nonmobile areas, laceration less than 5 cm
    in length
  • Not useful
  • wounds near eye, on mucous membranes or mucosal
    surfaces, wet wounds or those exposed to body
    fluids, or in areas with dense hair, wounds under
    significant tension

48
Wound Closure Tissue Adhesives
(2-octylcyanoacrylate)
  • Literature
  • in selected lacerations produces cosmetic
    appearance that is comparable with standard
    suture closure
  • Singer et al. Prospective, randomized, controlled
    trial of tissue adhesive (2-octylcyanoacrylate)
    vs. standard wound closure techniques for
    laceration repair. Acad Emerg Med 1998 594-99
  • Quinn et al. A randomized trial comparing
    octylcyanoacrylate tissue adhesive and sutures in
    the management of laceration. JAMA
    19972771527-1530
  • Quinn et al. Tissue adhesive versus suture wound
    repair at 1 year Randomized clinical trial
    correlating early, 3 month, and 1 year cosmetic
    outcome. Ann Emerg Med 199832645-649
  • Maw et al. A prospective comparison of
    octylcyanoacrylate tissue adhesive and suture for
    the closure of head and neck incisions. J
    Otolaryngol 19972626-30
  • may be useful for wounds under higher skin
    tension
  • Saxena Octylcyanoacrylate tissue adhesive in the
    repair of pediatric extremity lacerations. Am
    Surg 1999 May65(5)470-2
  • in above study they looked at 32 children with
    high skin tension lacerations (hand, feet, over
    joints). Following closure splints were applied
    to restrict movement

49
Wound Closure Tissue Adhesives
(2-octylcyanoacrylate)
  • Application
  • hold wound edges together with tissue forceps
    (???), lightly wipe applicator tip over area
    starting at least 5 mm from edge of wound in
    direction of long axis of wound (some authors
    support perpendicular application), 3-4 thin
    layers, hold wound edges together for 60 s post
    application
  • avoid ointments and dressings

50
Wound Closure Tissue Adhesives
(2-octylcyanoacrylate)
  • Tips
  • avoid latex gloves use vinyl gloves
  • avoid plastic instruments (ie. tissue forceps)
  • if enters wound needs to be wet sponged
    immediately
  • use antibiotic ointment for removal of hardened
    Dermabond in wound

51
Specific Wounds Face
  • high vascularity therefore low incidence of
    infection
  • debride minimally to preserve normal facial
    contours
  • be more aggressive with layered closure

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53
Specific Wounds - Forehead
  • unrepaired muscle layers more likely to produce
    scars
  • be liberal with deeper sutures in wounds under
    tension
  • reapproximate skin tension lines and hairline
    precisely

54
Case 7
  • 8 month old boy presents with 2 days progressive
    lethargy with weakness L side of body. 1 month
    ago was bitten on scalp by dog. What has
    happened and how?

55
Specific Wounds - Scalp
  • 5 layers
  • can bleed
  • shaving increases risk of infection clip hair or
    use ointment to mat it down
  • check for disruption of galea and repair if
    present (either single or layered closure)
  • subaponeurotic (subgaleal) loose connective
    tissue contains emissary veins that communicate
    with intra-cranial venous sinuses
  • subgaleal hematomas can become infected and
    infection can be transmitted intra-cranially via
    emissary veins

56
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57
Specific Wounds - Eyebrow
  • minimal if any debridement if needed angle
    scalpel parallel to direction of hair shafts to
    minimize damage to hair follicles and resulting
    alopecia
  • never shave eyebrows
  • use edges to serve as landmarks for
    reapproximation

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59
Specific Wounds - Eyelids
  • Layers (out to in) skin, subcutaneous tissue,
    muscle (orbicularis oculi and levator palpebrae
    in upper eyelid), supporting tissue (forward
    continuation of sub-galeal aponeurotic layer of
    scalp), tarsal plate (dense fibroelastic plate),
    conjunctiva
  • with any eyelid laceration ensure no penetrating
    globe injury

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61
Specific Wounds - Eyelids
  • When to repair
  • superficial use 6-0 or 7-0 nonabsorbable
    synthetic, small bites
  • When to refer
  • lacerations involving inner surface of lid
  • lacerations involving lid margins (imperfect
    closure results in ectropion or entropion)
  • lacerations involving lacrimal duct (clue is
    laceration of lower lid medial to punctum)
  • lacerations associated with ptosis (levator
    injury)
  • lacerations extending into tarsal plate

62
Specific Wounds - Ears
  • Anatomy
  • auricle (pinna) modified horn shaped structure
    composed of elastic cartilage covered by skin
    converges onto the external auditory meatus
    (canal)
  • earlobe
  • with blunt forces ensure no ruptured TM
  • examine closely for subchondral hematoma
  • absolutely have to avoid persistent hematoma
  • need perfect hemostasis to prevent formation of
    hematoma
  • if present consider plastics or ENT referral

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64
Specific Wounds - Ears
  • gaping through and through lacerations require 3
    layer closure
  • 1st one or two sutures will approximate
    cartilage edges, include anterior and posterior
    perichondrium in suture
  • 2nd approximate posterior skin
  • 3rd anterior surface of ear using landmarks
    joined point to point
  • all repaired ears should be enclosed with
    compression dressing

65
Specific Wounds - Nose
  • Anatomy
  • separated into two halves by the septum
    (cartilaginous structure)
  • tip formed by two C-shaped alar cartilages
    covered directly by skin
  • Exposed cartilage increases risk of infection and
    therefore needs to be covered
  • Nasal trauma can result in septal hematoma
  • can lead to permanent thickening of the septum
    with subsequent airway obstruction
  • pressure from a septal hematoma may cause
    necrosis and subsequent erosion / rupture of
    septum
  • aspirate with 18G needle or horizontal incision
    at base nasal packing following drainage will
    prevent reaccumulation

66
Specific Wounds - Lips
  • Anatomy
  • skin, vermilion border, vermilion, oral mucosa
  • obicularis oris
  • Always inspect intraoral and mucosal lip wounds
    for foreign bodies esp. teeth and teeth
    fragments
  • Lacerations through vermilion border
  • use traction to the lips place first stitch at
    vermilion border need perfect alignment
  • then repair obicularis oris
  • then repair skin and remainder of lip

67
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69
Specific Wounds - Lips
  • Through and through lacerations
  • 3 layer closure 1st mucosal layer with
    rapidly absorbable suture 2nd orbicularis
    oris 3rd skin

70
Specific Wounds IntraoralArmstrong.
Lacerations of the Mouth. Emergency Medicine
Clinics of North America Vol 18, No 3 August 2000
  • Irrigation as per normal
  • lacerations of buccal mucosa and gingiva heal
    without repair of wound edges not widely
    separated
  • Small (lt2cm) intraoral lacerations need not be
    repaired
  • Close bigger lacerations and lacerations with
    flaps that fall between chewing surfaces with
    absorbable sutures (plain gut, chromic gut or
    synthetic absorbables)

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73
Specific Wounds Finger tip and nail injuries
  • Anatomy
  • eponychium, lunula, nail root, nail, hyponychium,
    germinal matrix, nail bed (matrix)
  • finger tip injuries are defined as occurring
    distal to the insertion of the flexor and
    extensor tendons at the level of the lunula
  • classified as Zone I, II, III

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76
Specific Wounds Finger tip and nail injuries
  • Tip injuries with skin and pulp tissue loss only
    (no exposed bone)
  • if less than 1 square cm can treat conservatively
    with serial dressing changes alone (wound heals
    by secondary intention)
  • if severed skin tip available can use as full
    thickness graft amputated tissue is debrided,
    de-fatted, then sutured in place
  • if greater than 1 square cm can consider using
    split or full thickness graft from distant site
    vs conservative management

77
Specific Wounds Finger tip and nail injuries
  • Tip injuries with exposed bone
  • if bony protuberance lt 0.5 cm and soft tissue
    defect less than 1 square cm trim back bone with
    rongeuer and consider leaving wound open to heal
    by secondary intention with serial dressing
    changes
  • if wound dorsal obliquely angulated can treat
    with bone shortening followed by primary closure
    of wound using adjacent volar tissue
  • amputations in a transverse or volar obliquely
    angulated often require referral for
    sophisticated flaps

78
Specific Wounds Finger tip and nail injuries
  • Nail Growth
  • germinal matrix produces bulk of nail plate
  • sterile matrix produces a layer of cells that is
    added to the under surface of the growing nail
  • if nail bed injury results in scarring of sterile
    matrix will get a poorly adherent nail with
    ridging cosmetically not appealing
  • takes 4 months for a new nail to reach hyponychium

79
Specific Wounds Finger tip and nail injuries
  • Injuries to nail and surrounding structures
  • nail bed injured when force directed to dorsum of
    nail crushing nail bed against underlying tuft of
    distal phalanx
  • Subungual hematoma
  • tradition deems that if occupies more than 50 of
    nail bed area, remove nail and repair associated
    nail bed laceration
  • Two prospective studies found simple trephination
    produced good results (Seaberg et al. Treatment
    of subungual hematomas with nail trephination A
    prospective study Am J Emerg Med 9209, 1991.
    Meek et al. Subungual hematomas is simple
    trephining enough? J Accid Emerg Med 15269,
    1998)
  • Roberts and Hedges suggest that if nail adherent
    do not routinely remove nail to search for bed
    laceration
  • remove nail and fix bed lacerations if nail
    partly avulsed or loose, or if there are deep
    lacerations that involve the nailbed
  • replace avulsed nail after bed repair and suture
    in place

80
Case 4
  • 16 year old healthy male playing tennis steps on
    a nail that punctures bottom of shoe and
    punctures sole of foot.
  • How will you approach and manage this pt?

81
Specific Wounds Puncture WoundsReference Up
To Date 2000
  • usually due to nails
  • deeper the penetration, higher the incidence of
    infection
  • wounds in area of MTP joints penetrate deeper
    because this is weight bearing area
  • increased risk of infection with wounds to
    forefoot or shoe wearing at time of puncture

82
Specific Wounds Puncture Wounds
  • Microbiology
  • partly dependent on environmental location
  • Staph aureus, beta-hemolytic streptococci (GAS),
    gram negatives
  • pseudomonas common with wounds through shoes

83
Specific Wounds Puncture Wounds
  • Evaluation
  • routine wound evaluation as previously discussed
  • have low threshold for x-rays, especially re
    presence of foreign body

84
Specific Wounds Puncture Wounds
  • Initial Management
  • no prospective trials in literature
  • Tetanus
  • foreign body removal
  • surface scrubbing
  • questionable role for irrigation
  • probably no role for coring, probing
  • rest, foot elevation

85
Specific Wounds Puncture Wounds
  • Antibiotics
  • no prospective, randomized trials
  • consider wound and host factors

86
Case 5
  • Pt working in lumbar yard and walks by piece of
    wound catches leg on it and ends up puncturing
    lower leg with piece of wood. He feels
    something is in there.
  • Manage

87
Soft Tissue Foreign Bodies
  • foreign bodies promote infection, prolong
    inflammatory phase of healing and result in poor
    wound healing
  • infections resulting from foreign bodies are
    typically resistant to antibiotics
  • every wound has a potential foreign body
  • listen to pts if they think something in there
  • all wounds require deliberate and careful
    exploration

88
Soft Tissue Foreign Bodies
  • Radio-opaque
  • metal, aluminum, bone, teeth, glass, certain
    plastics, gravel, sand
  • obtain x-rays with underpenetrated soft-tissue
    technique
  • Radio-lucent
  • organic material like wood, thorns, cactus
    spines, some fish bones, most plastics
  • sometimes indirect evidence of presence
    (radiolucent filling defect when object is less
    dense than surrounding tissue)

89
Soft Tissue Foreign Bodies
  • if wound caused by radio-opaque material and no
    foreign body found on exploration or plain films
    end search otherwise
  • CT
  • Ultrasound
  • MRI

90
Soft Tissue Foreign Bodies
  • Not all need to be removed
  • Indications for foreign body removal
  • Potential for inflammation or infection
  • Toxicity
  • Functional and cosmetic problems
  • Potential for later injury

91
Case 6
  • 25 year old female piano player presents with 8
    cm curvilinear laceration to dorsum of dominant
    hand from a dog bite.

92
Specific Wounds - Bites
  • Epidemiology
  • 60-90 dog bites, cats 1-15, rodents 1-7, other
    species less than 2
  • Dog Bites
  • jaws can exert force but teeth not sharp
  • results in relatively superficial crush injuries
  • face and scalp most common site in children
  • incidence of infection 5-10
  • infection rate on face 1-5

93
Specific Wounds - Bites
  • Cat Bites
  • typical bite is a puncture wound
  • possess long, slender, pointed teeth
  • overall infection rate about 14 (80 according
    to 2001 Sanford Guide) 28-80 in NEJM article

94
Specific Wounds - Bites
  • Microbiology of dog and cat bites (Talan et al.
    Bacteriologic Analysis of Infected Dog and Cat
    Bites. NEJM January 14, 1999)
  • almost always polymicrobial
  • aerobes, anaerobes
  • Pasteurella canis most common isolate in dog
    bites
  • Pasteurella multocida most common isolate in cat
    bites
  • authors suggest that if antibiotics prescribed a
    beta lactam antibiotic combined with a beta
    lactamase inhibitor would be appropriate choice
    for prophylaxis

95
Specific Wounds - Bites
  • Dog Bite Management (Cummings. Antibiotics to
    prevent infection in patients with dog bite
    wounds a meta-analysis of randomized trials.
    Ann Emerg Med 199423)
  • face, scalp, trunk solid support for primary
    closure
  • ?distal extremities look at wound and patient
    factors can probably primarily suture all dog
    bite wounds
  • prophylactic antibiotics only in high risk wounds
    (hands, wound / patient factors)

96
Specific Wounds Bites
  • Cat Bite Management
  • puncture wounds should be left open
  • primary closure on face and scalp only
  • consider delayed primary closure in other
    locations
  • consider prophylactic antibiotics in all cases

97
Specific Wounds Human Bites
  • Epidemiology
  • 60-75 hands and upper extremities
  • Microbiology
  • polymicrobial
  • mixed gram positive, gram negative, aerobic,
    anaerobic
  • eikenella corrodens
  • Hepatitis B
  • Complications of human bites most commonly occur
    in hand wounds

98
Specific Wounds Human Bites
  • Management
  • routine wound evaluation and care
  • non-hand wounds can be closed primarily
  • hand wounds need to be left open to heal by
    secondary intention or delayed primary closure
  • routine prophylactic antibiotics in hand wounds
    only

99
Objectives
  • Wound Healing
  • Wound Evaluation History, Physical examination
  • Wound Preparation
  • Wound Closure
  • Specific Wounds
  • face, scalp, eyebrow, eyelid, ear, lips,
    intraoral, puncture, fingertip and nail, foreign
    bodies, bites

100
Take Home Points
  • Evaluate wound and patient factors when
    determining closure, risk of infection,
    antibiotics, etc. infection is enemy
  • Lacerations caused by compressive/tensile forces
    result in more complications than lacerations
    caused by knife cut (shear forces)
  • golden period is not fixed and dependent on
    many variables
  • V-Y plasty for fingertip amputations
  • re bites routine antibiotics for all cat bites
    and dog and human bites to hand
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