Wound Care Basics: Objective Assessment

Original Editor - Stacy Schiurring based on the course by Dana Palmer
Top Contributors - Stacy Schiurring and Jess Bell

Prepare the Patient[edit | edit source]

To review a wound care subjective assessment, please read this article.

The objective assessment includes concise and thorough documentation gathered during the physical assessment. The objective assessment of a wound may take some time. Therefore, it is important to consider the patient's position and comfort during the assessment. Ideal positioning will provide the patient both comfort and modesty while allowing the clinician full access to the treatment area.[1]

The following short video discusses principles of draping to provide patient privacy and comfort.

[2]

Old Wound Covering and Dressing Removal[edit | edit source]

When you are ready to begin your objective assessment of the wound, first note the appearance of the old dressing:

  • is it intact or missing?
  • note any drainage on the inside and outside of dressing (strike through drainage)
  • are there areas of wear on the dressing?

Wound Description[edit | edit source]

Remove the old dressing and thoroughly clean the wound with normal saline or with sterile water. The following is a guide to useful wound descriptors.[1] Remember to describe the wound so that another healthcare provider will be able to understand your documentation and follow your treatment plan.

Wound Location[edit | edit source]

  • Always use an anatomical landmark as a reference when describing the location of a wound
  • Be specific and use anatomical terms
  • Document right/left, medial/lateral, distal/proximal, and cranial/caudal
  • For larger areas, you can narrow it down by region such as the distal one-third of the medial lower leg, five centimetres proximal to the medial malleolus, or 10 centimetres distal to the lateral knee joint.[1]

Wound Shape[edit | edit source]

  • Shape can give an indication of aetiology and helps document wound changes over time
  • Possible descriptors include circular, round, oval, irregular, square, linear, punched out, or butterfly[1]

Wound Measurement[edit | edit source]

  • Wound dimensions are a significant outcome measure and are important for monitoring response to a treatment plan, and for the prognosis for the wound.
  • Measurements should be taken in centimetres or millimetres from wound edge to wound edge, and should include (1) length, (2) width, (3) surface area, and (4) depth. Volume may also be calculated, but this isn't as common unless it's a very large wound.
  • Wound measurements are typically recorded once per week, but can be taken more frequently to capture rapid changes in fast healing or deteriorating wounds.
  • Large stagnant or chronic wounds may only need to be measured every other week or monthly
  • New measurements should be taken following a change in patient status or following a surgical intervention of the wound.[1]
This table describes five methods to record wound measurements. In most environments, some combination of perpendicular, clock, or tracing methods is used. If the wound is very irregular in shape, you may want to take measurements at various locations.[1]
Method of Wound Measurement Description Advantage of Method Disadvantage of Method Examples
Clock Method
  • Imagine a clock face is placed over the wound with 12 o'clock pointing up towards the patient's head, and six o'clock pointing down towards their feet.
  • Length is measured from head to toe or 12 to six o'clock.
  • Width is measured from right to left or from three to nine o'clock.
  • Surface area = length from 12 to six multiplied by the width from three to nine o'clock.
  • To measure depth: gently place a saline-moistened cotton tip applicator into the wound at the deepest point until resistance is felt. Place a gloved finger at the skin surface, remove the swab, and measure the wound distance in centimetres from the point of your finger to the tip of the swab.
  • Patient position should be documented and used for each reassessment for consistency.
  • Quick, easy, and has good carryover between providers because the specific location of the measurements is known.
  • Works well for sacral ulcers.
  • Helpful in describing the location of tunnels, tracts, undermining, and other periwound features.
The greatest length and greatest width is not necessarily at 12 o'clock to six o'clock and three o'clock to nine o'clock, therefore it may not capture the true size of the wound.
Clock method - adapted Shutterstock.jpg
Perpendicular Method
  • Measures the wound at its longest length and then measures the widest width perpendicular to the longest length.
  • Surface area is calculated in the same way of the clock method.
  • Quick, easy, and inexpensive.
  • Has been shown to have good reliability in smaller wounds that are less than four centimetres squared.
Perpendicular method.jpg
Tracing Method
  • A clear plastic measuring guide is placed over the wound and the edges are then traced.
  • Depth, sinus tracts, and undermining need to be measured separately as described previously in the clock method.
  • Creates a depiction of the actual wound shape.
  • Works especially well for irregularly shaped wounds.
  • Patient discomfort, including discomfort from tracing.
  • Contamination of wound surfaces from the measuring guide.
  • Inaccuracy of the tracing.
Tracing Method - adapated photostock.jpg
Photography
  • Digital photography can be used to document wounds, and the photographs are easily transferred into the electronic medical records.
  • Dimension, surface area, and volume are calculated as previously described.
  • Allows for clear visualisation of the wound, shape, location, and characteristics.
  • Requires less descriptive documentation.
Facilities may not have the equipment or the capabilities for digital photography.
It is recommended to add identifiers such as patient initials and/or medical record number, area of body being photographed, date/time, and indicate orientation to head.
Planimetry
  • Calculates the surface area by manually counting grid squares from a wound tracing or computer software can calculate dimensions from digital photography.
  • Some measuring guides have one centimetre grids that can be used to calculate surface area by counting the number of grids within the tracing.
Computer planimetry is the standard method used in wound research, but is rarely used clinically due to cost and availability.
Planimetry method - adapted photostock.jpg

Wound edges[edit | edit source]

  • Sloped edges are desirable, they allow epithelial cells to migrate across the wound surface.
  • Even or punched-out edges are usually the result of tissue hypoxia due to peripheral arterial disease, poor cardiac output, or anaemia.
  • Uneven or serpentine edges are typically seen in venous insufficiency and are usually accompanied by oedema and periwound haemosiderin staining.
  • Epibole (rolled edges) occur when epithelial cells are unable to migrate across the wound surface. This can be caused by a lack of tissue perfusion or nutrition, the presence of bacterial biofilm, infection, hypergranulation, or repeated trauma.
  • Detached edges occur when the epithelium is detached from the subcutaneous tissue. Detached edges should be documented based on their location, using the clock as a reference. Measure the depth with a slightly saline-moistened cotton tip applicator.
    • Undermining is shelf-like
    • A sinus tract has an entrance, but no exit
    • A tunnel has an entrance and an exit[1][3]

All images provided by and used with kind permission of Dana Palmer PT.

Tissue type within the wound bed[edit | edit source]

Tissue can be described as either viable or non-viable.

  • Viable tissue is bright, shiny, bouncy, taut, and moist. Viable tissue can be either granulation tissue or epithelial tissue.
    • Granulation tissue is the new growth of small blood vessels and connective tissue. It is soft and spongy, and may bleed when touched. Granulation tissue is usually pale pink initially, and then beefy red as it is vascularised.
      • Healthy granulation tissue is bright red, shiny, granular, or bumpy, with a velvety appearance.
      • Unhealthy granulation tissue is pale or dull red due to poor vascular supply. It may also be friable and disintegrate with dressing removal or with cleansing.
      • Hypergranulation is an overgrowth of granulation tissue that rises above the level of the wound surface. It is irregular in shape and has large or swollen granules. Hypergranulation is typically due to maceration, infection, or friction on the wound bed. It must be removed for proper healing to occur.
    • Epithelial tissue is pink or red in colour and has the appearance of new skin.
  • Non-viable tissue is necrotic or dead tissue within the wound bed. It must be removed for proper healing to occur and to decrease infection risk.
    • Slough is non-viable subcutaneous tissue and by-products. It's usually yellow to tan in colour and can be mucousy or stringy. It's a result of the body breaking down dead cells and ranges from non-adherent to loosely adherent to tissue.
    • Eschar indicates deeper tissue damage. It can be black, grey, or brown. It is adherent to the wound bed and may be hard, spongy, rubbery, or leathery. Eschar is sometimes confused with scabs. A scab is a collection of dried blood cells, platelets, and serum on top of the skin surface, and the healing actually occurs beneath the scab, whereas eschar is non-viable tissue that must be removed to allow healing to occur. [1][3]

All images provided by and used with kind permission of Dana Palmer PT.

Anatomical structures visible within the wound[edit | edit source]

It's important to document normal anatomical structures that are visible in the wound and to continuously monitor their health and viability. It is vital to be able to recognise tissue types for identification and debridement purposes.

  • Blood vessels are purple in colour when healthy, and black or brown in colour when unhealthy, clogged, or calcified.
  • Fat is yellow and globular when healthy and appears shrivelled, brown when unhealthy.
  • Muscle is pink or dark red, striated, firm, and resilient to pressure when healthy. It may jump or twitch when probed. When unhealthy, it appears brown, shrivelled, friable, and does not twitch.
  • Tendons are white and shiny when healthy. They are covered with a white tendon sheath. When unhealthy, the sheath will be frayed or stringy, and the tendon will become yellow or brown. Ligaments and joint capsules have a similar appearance to tendons when healthy and unhealthy.
  • Bone is beige or tan, hard and covered with a clear membrane (the periosteum) when healthy. When unhealthy, it is brown or black, and may be friable and disintegrate with palpation.

Document the percentage of tissue types, colour, and consistency seen in the wound bed. [1]

Wound drainage[edit | edit source]

When describing drainage (exudate), consider both the type and amount. Make note of drainage prior to removing dressing if there is strike through drainage on the outside of the dressing. Note drainage on the inside of the dressing before cleansing the wound. It is also important to note the amount of time since the last dressing change. Make note of any additional drainage that occurs after wound cleansing and during the wound care interventions.

There are four primary types of wound drainage and two additional types of drainage (serosanguineous and seropurulent) that are combinations of the primary types.

[1]
Drainage Type Description When to Refer or Reassess Example
Sanguineous drainage
  • Blood from surgical or acute wounds.
  • May also be seen after debridement or in patients who are prone to bleeding due to low platelet count or anticoagulant use.
  • If sanguineous drainage does not slow or stop after a few hours, if it saturates bandages every few hours, or if it starts again after stopping, can indicate fresh trauma to the wound.
  • The wound should be examined and there should be follow-up with a doctor.
Sanguineous drainage - shutterstock 1361015012.jpeg
Serous drainage
  • Watery drainage which is normal during the inflammatory phase of healing.
  • It contains proteins but no blood cells or cellular debris. It is clear or slightly yellow in colour.
If copious, can indicate trauma to the wound, chronic inflammation due to biofilm or localised infection.
Serous drainage - shutterstock 491214751.jpeg
Serosanguineous drainage
  • A mix of serous and sanguineous drainage
  • It is thin, watery, and pale pink in colour. It typically occurs early in the healing process.
If serous drainage changes to serosanguineous later in the healing process, it may indicate new trauma has occurred to the wound.
Purulent drainage
  • Purulence is made up of white blood cells, dead bacteria, and other debris
  • It is foul-smelling, thick, and is yellowish-grey, brown, or green in colour. An infection with pseudomonas bacteria will produce a characteristic green or greenish-blue colour.
  • It is almost always a sign of infection.
  • Purulent drainage in the wound can increase the inflammatory response, slow healing, and worsen pain.
Purulent drainage - shutterstock 793390267.jpeg
Seropurulent drainage Occurs when serous drainage starts to turn cloudy, yellow, or tan.
  • It is an indication that the wound is becoming colonised with bacteria.
  • Reassessment of wound plan of care is indicated.
Autolytic drainage
  • The result of liquifaction of necrotic tissue and phagocytosis of bacteria.
  • It is typically thick and milky-white to tan in colour and can resemble seropurulent drainage.
  • Often has an odour which typically does not linger after cleansing.

Terminology used to describe amount of drainage:

[1]
Dressing Wound bed Drainage during treatment
None Dry Dry None
Scant
  • Trace amount on inside of current dressing.
  • Less than 25% of the dressing has visible drainage.
Moist None
Minimal
  • Small amount of drainage is visible only on the inner side of the dressing.
  • Approximately 25 to 50% of the dressing has visible drainage.
Moist There may be some drainage on dressing removal, but no drainage occurs during treatment.
Moderate
  • Drainage is visible on both the inside and in small amounts on the outer side of the dressing.
  • Approximately 50 to 75% of the dressing has visible drainage.
Wet Some drainage is visible in the wound bed after dressing removal, as well as some drainage occuring during treatment.
Heavy
  • Drainage is visible on both the inner and outer sides of the dressing.
  • More than 75% of the dressing has visible drainage.
Very wet Drainage is visible immediately upon dressing removal, and continues throughout treatment.
Copious
  • Drainage is not contained by the dressing.
  • The dressing is completely saturated with drainage.
Filled with fluid and saturated
  • Drainage continues throughout treatment.
  • Requires continuous cleansing, suctioning, or interventions to reduce bleeding.

Wound Odour[edit | edit source]

  • Almost all wounds have some odour on dressing removal. Odour does not automatically suggest infection.
  • Odour is concerning if the smell lingers after dressing removal and wound cleansing.
  • Document the odour of the wound and not the odour from the topical agent, dressing, or the dressing by-product.
    • For example: if Dakin's solution was used, there will be a smell like bleach, if Burrow's solution was used, it may smell like vinegar, povidone-iodine (betadine) will smell like iodine. Hydrocolloid dressings will have a distinctive smell as a result of the chemical reaction from autolytic debridement.[1]

Periwound Skin[edit | edit source]

Periwound skin is the area around a wound that may be affected by "wound-related factors and/or underlying pathology" according to LeBlanc et al.[4]

Periwound assessment should include the following:[1]

  • Trophic changes: changes in skin texture, changes in nail beds, loss of hair, shiny skin
  • Skin discolouration:
    • Haemosiderin deposits are commonly seen in venous insufficiency
    • White spots called atrophie blanche are commonly seen with arterial disease
    • A haematoma (purple ecchymosis) points to possibility of deep tissue destruction
    • You may also see redness, darkening, purple spots, or other pigment changes that should be documented
  • Maceration is softening of tissue caused by excessive moisture. This tissue appears white due to a loss of pigmentation, and it is often soft and soggy
  • Induration is abnormal firmness of tissue with margins and sometimes has an orange peel appearance
  • Hydration or turgor
  • Hyperkeratosis (callus)
  • Oedema:
    • Delays healing
    • Is a normal response seen in the inflammatory phase
    • Other causes could include: (1) dependent position, (2) venous insufficiency, (3) renal failure, or (4) right-sided congestive heart failure
    • Pitting oedema is assessed by pressing your finger into the skin for five seconds and then releasing your finger. If the indentation stays, it's termed pitting oedema. Pitting oedema is often seen in congestive heart failure, venous insufficiency, and with DVTs
    • Non-pitting oedema is stretched skin that is shiny and hard and is often seen in lymphoedema or angioedema

Please see the following 1-minute video for a demonstration of the assessment pitting oedema.

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Blood flow[edit | edit source]

  • Palpate the posterior tibial pulse and the dorsalis pedis pulse, document the presence and quality
  • If possible, perform the ankle brachial index and document the result[1]
Palpating posterior tibial pulse
Palpating dorsalis pedis pulse

Sensation[edit | edit source]

Infection[edit | edit source]

  • When assessing for infection, utilise the acronym IFEE: induration, fever, erythema, and (o)edema.
  • Key characteristics of infection include (1) streaks of redness, (2) increased warmth, (3) intense pain, (4) significant oedema, (5) exudate changes from serous to purulent, and (6) a strong odour.
  • Systemic characteristic of infection include (1) fever greater than 38.3 degrees Celsius (101 degrees Fahrenheit), (2) chills, (3) lethargy, (4) restlessness, and (5) confusion.
  • Reddened skin with streaks leading away from the wound may mean cellulitis or necrotising fasciitis, an infection of the surrounding tissues that can be life and limb threatening. Necrotising fasciitis requires immediate emergency medicine consultation.[1]


If an infection is suspected, a swab culture may be ordered. And in most practice environments, a wound care therapist can perform a swab culture.

  • Use the Levine technique when performing a swab culture (see additional resources for more information)
  • Do not culture eschar, slough, or other non-viable tissue; this will result in a false positive culture from the bacteria present in the non-viable tissue.[1]

Joint Biomechanical Function[edit | edit source]

For the joints proximal and distal to the wound:[1]

  • Passive and active range of motion
  • Manual muscle testing
  • Reflex testing of the involved extremity to assess for a neuropathy

Wound Classification[edit | edit source]

Wounds can be classified in several different categories:[1]

  • Acute or chronic. Chronic wounds are wounds that have not finished the proliferative phase at the end of four weeks.
  • Wounds are also classified based on depth, and different wound types have different classification systems.
    1. One way to classify depth is superficial, superficial partial thickness, deep partial thickness, and full thickness.
    2. Neuropathic ulcers can be staged using Wagner’s Classification.[7]
    3. Another common way to classify depth is based on the Bates-Jensen Wound Assessment Tool.[8]
    4. Pressure injuries or pressure ulcers are staged using a system developed by the National Pressure Injury Advisory Panel.

Common characteristics of leg ulcers for classification[1]

It is not uncommon to have wounds that are a combination of these types.[1]
Common cause Pain Common location and appearance Example
Arterial ulcers Arteriosclerosis Very painful
  • Located on the distal lower extremity, usually the lateral lower leg or on the toes
  • Have a regular pale wound base
Image used with kind permission of Dana Palmer PT
Venous ulcers Venous insufficiency Mild
  • Located in the medial leg or gaiter area
  • Wounds are shallow and have a pink or red wound base with irregular edges
Image used with kind permission of Dana Palmer PT
Neuropathic ulcers Diabetes None due to neuropathy, however occasionally there will be pain sensations in the limb that is unrelated to the wound.
  • Located on the plantar surface of the foot
  • Often presents as a callus
Image used with kind permission of Dana Palmer PT
  • To review information about arterial and venous ulcers, please read this article.
  • To review information about neuropathic ulcers, please read this article.

Resources[edit | edit source]

  • 'Please view the following optional 7-minute video for a discussion of the steps of wound swab culture collection via the Levine technique (starts at time 2:40), plus an overview of setup and documentation.

[9]

References[edit | edit source]

  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.14 1.15 1.16 1.17 1.18 1.19 1.20 Palmer, D. Integumentary Physiotherapy Programme. Basic Wound Assessment. Physioplus. 2023.
  2. YouTube. Principles of Draping Patients for Physical Exams. Available from: https://www.youtube.com/watch?v=Q6oCdxISRCE&t=85s [last accessed 13 Feb 2023]
  3. 3.0 3.1 Moura CD, Dowsett C, Bain K, Bain M. Advancing practice in holistic wound management: a consensus-based call to action. Wounds International. 2020;11(4):70-5.
  4. LeBlanc K, Beeckman D, Campbell K et al (2021) Best practice recommendations for prevention and management of periwound skin complications.
  5. YouTube. Pitting Edema | Vivo Phys. Available from: https://www.youtube.com/watch?v=adkrWQ8sWFU [last accessed 13 Feb 2023]
  6. Castellano VK, Jackson RL, Zabala ME. Contact mechanics modeling of the Semmes‐Weinstein monofilament on the plantar surface of the foot. Int J Foot Ankle. 2021;5(2):055.
  7. Shah P, Inturi R, Anne D, Jadhav D, Viswambharan V, Khadilkar R, Dnyanmote A, Shahi S. Wagner's classification as a tool for treating diabetic foot ulcers: Our observations at a suburban teaching hospital. Cureus. 2022 Jan 22;14(1).
  8. Bates‐Jensen BM, McCreath HE, Harputlu D, Patlan A. Reliability of the Bates‐Jensen wound assessment tool for pressure injury assessment: The pressure ulcer detection study. Wound Repair and Regeneration. 2019 Jul;27(4):386-95.
  9. YouTube. Wound Culture | Wound swab for culture and sensitivity | How to collect wound culture. Available from: https://www.youtube.com/watch?v=zDuxe0AH3Ac [last accessed 07/March/2023]