When irrigating a wound, how would the nurse know the right amount of pressure to apply?

Open Resources for Nursing (Open RN)

Wounds should be assessed and documented at every dressing change. Wound assessment should include the following components:

• Anatomic location
• Type of wound (if known)
• Degree of tissue damage
• Wound bed
• Wound size
• Wound edges and periwound skin
• Signs of infection
• Pain[1]

These components are further discussed in the following sections.

Anatomic Location and Type of Wound

The location of the wound should be documented clearly using correct anatomical terms and numbering. This will ensure that if more than one wound is present, the correct one is being assessed and treated. Many agencies use images to facilitate communication regarding the location of wounds among the health care team. See Figure 20.16[2] for an example of facility documentation that includes images to indicate wound location.

The location of a wound also provides information about the cause and type of a wound. For example, a wound over the sacral area of an immobile patient is likely a pressure injury, and a wound near the ankle of a patient with venous insufficiency is likely a venous ulcer. For successful healing, different types of wounds require different treatments based on the cause of the wound.

Degree of Tissue Damage

It is important to continually assess the degree of tissue damage in pressure injuries because the level of damage can worsen if they are not treated appropriately. Refer to the “Staging” subsection of “Pressure Injuries” in the “Basic Concepts Related to Wounds” section for more information about tissue damage.

Wound Base

Assess the color of the wound base. Recall that healthy granulation tissue appears pink due to the new capillary formation. It is moist, painless to the touch, and may appear “bumpy.” Conversely, unhealthy granulation tissue is dark red and painful. It bleeds easily with minimal contact and may be covered with biofilm. The appearance of slough (yellow) or eschar (black) in the wound base should be documented and communicated to the health care provider because it likely will need to be removed for healing. Tunneling and undermining should also be assessed, documented, and communicated.

Type and Amount of Exudate

The color, consistency, and amount of exudate (drainage) should be assessed and documented at every dressing change. The amount of drainage from wounds is categorized as scant, small/minimal, moderate, or large/copious. Use the following descriptions to select the appropriate terms:[3]

• No exudate: The wound base is dry.
• Scant amount of exudate: The wound is moist but no measurable amount of exudate appears on the dressing.
• Minimal amount of exudate: Exudate covers less than 25% of the size of the bandage.
• Moderate amount of drainage: Wound tissue is wet, and drainage covers 25% to 75% of the size of the bandage.
• Large or copious amount of drainage: Wound tissue is filled with fluid, and exudate covers more than 75% of the bandage.[4]

The type of wound drainage should be described using medical terms such as serosanguinous, sanguineous, serous, or purulent.

• : Sanguineous exudate is fresh bleeding.[5]
• : Serous drainage is clear, thin, watery plasma. It’s normal during the inflammatory stage of wound healing, and small amounts are considered normal wound drainage.[6]
• : Serosanguineous exudate contains serous drainage with small amounts of blood present.[7]
• : Purulent exudate is thick and opaque. It can be tan, yellow, green, or brown. It is never considered normal in a wound bed, and new purulent drainage should always be reported to the health care provider.[8] See Figure 20.17[9] for an image of purulent drainage.

Wound Size

Wounds should be measured on admission and during every dressing change to evaluate for signs of healing. Accurate wound measurements are vital for monitoring wound healing. Measurements should be taken in the same manner by all clinicians to maintain consistent and accurate documentation of wound progress. This can be difficult to accomplish with oddly shaped wounds because there can be confusion about how consistently to measure them. Wounds should be described by length by width, with the length of the wound based on the head-to-toe axis. The width of a wound should be measured from side to side laterally. If a wound is deep, the deepest point of the wound should be measured to the wound surface using a sterile, cotton-tipped applicator. Many facilities use disposable, clear plastic measurement tools to measure the area of a wound healing by secondary intention. Measurements are typically documented in centimeters. See Figure 20.18[10] for an image of a wound measurement tool.

Tunneling can occur in a full-thickness wound that can lead to abscess formation. The depth of a tunneling can be measured by gently probing the tunnelled area with a sterile, cotton-tipped applicator from the wound base to the end of the tract. When probing a tunnel, it is imperative to not force the swab but only insert until resistance is felt to prevent further damage to the area. The location of the tunnel in the wound should be documented using the analogy of a clock face, with 12:00 pointing toward the patient’s head.[11]

Undermining occurs when the tissue under the wound edges becomes eroded, resulting in a pocket beneath the skin at the wound’s edge. Undermining is measured by inserting a probe under the wound edge directed almost parallel to the wound surface until resistance is felt. The amount of undermining is the distance from the probe tip to the point at which the probe is level with the wound edge. Clock terms are also used to identify the area of undermining.[12]

Wound Edges and Periwound Skin

If the wound is healing by primary intention, it should be documented if the wound edges are well-approximated (closed together) or if there are any signs of dehiscence. The skin outside the outer edges of the wound, called the skin, provides information related to wound development or healing.  For example, a venous ulcer often has excess wound drainage that macerates the periwound skin, giving it a wet, waterlogged appearance that is soft and gray white in color.[13] See Figure 20.19[14] for an image of erythematous periwound with partial dehiscence.

Signs of Infection

Wounds should be continually monitored for signs of infection. Signs of localized wound infection include (redness), (area of hardened tissue), pain, edema, purulent exudate (yellow or green drainage), and wound odor.[15] New signs of infection should be reported to the health care provider with an anticipated order for a wound culture.

Pain

The intensity of pain that a patient is experiencing with a wound should be assessed and documented. If a patient experiences pain during dressing changes, it should be managed with administration of pain medication before scheduled dressing changes. Be aware that the degree of pain may not correlate to the extent of tissue damage. For example, skin tears are often painful because the nerve endings are exposed in the dermal layer, whereas patients with severe diabetic ulcers on their feet may experience little or no pain because of existing neuropathic damage.[16]