section name header

Purpose

Nursing Procedure 6.15

Provides a noninvasive method for monitoring the oxygen saturation of arterial blood

Equipment

Assessment

Assessment should focus on the following:

Nursing Diagnoses

Nursing diagnoses may include the following:

Outcome Id

Outcome Identification and Planning

Desired Outcomes navigator

Sample desired outcomes include the following:

Special Considerations in Planning and Implementation

Pediatric navigator

For children, choose an appropriate-sized sensor.

Geriatric navigator

Be sensitive to probe placement in elderly clients: Avoid tension on the probe site, and be careful when applying tape to dry, thin skin.

Home Health navigator

Pulse oximetry monitoring has mostly replaced home arterial blood gas measurement.

Image_Transcultural Transcultural navigator

Keloids may be present on the earlobes of clients of African descent and may not allow accurate SaO2 readings. These ropelike scars result from an exaggerated wound-healing process after ear piercing.

Delegation navigator

Pulse oximetry measurement can be performed by unlicensed assistive personnel.

[Outline]

Implementation

ActionRationale
1Perform hand hygiene and organize equipment.Reduces microorganism transfer; promotes efficiency
2Explain procedure to client (if conscious).Reduces anxiety; promotes cooperation
3Plug in oximeter and choose sensor. Sensor types may vary according to the client’s weight and site considerations. If using a disposable sensor, attach sensor to cable.Enhances accuracy of results
4Prepare site. Use alcohol wipe to cleanse site gently. Remove nail polish or acrylic nails, if needed, if a finger is being used as the monitoring site.Ensures site is clean and dry; nail polish and acrylic nails can interfere with pulse oximetry readings
5Check capillary refill and pulse proximal to the chosen site.Reduces risk of inaccurate readings due to compromised peripheral circulation caused by a probe that is applied too tightly or by poor circulation due to medications or other conditions
6Assess the alignment of the light-emitting diodes (LEDs) and the photo detector (light-receiving sensor). These sensors should be directly opposite each other (Fig. 6.25).Ensures proper alignment of sensors to yield an accurate SaO2 reading
7Turn the pulse oximeter to the ON position. DISPOSABLE SENSORS NEED TO BE ATTACHED TO THE CLIENT CABLE BEFORE TURNING THE PULSE OXIMETER ON.Allows LEDs to transmit red and infrared light through the tissue so that the receiving sensor (photodetector) will measure the amount of oxygenated hemoglobin (which absorbs more infrared light) and deoxygenated hemoglobin (which absorbs more red light); the pulse oximeter will compute the SaO2 using these data
8Listen for a beep and note waveform or bar of light on front of pulse oximeter.Indicates that the pulse oximeter has detected a pulse (beep) and displays the strength of the pulse (light or waveform changes); a weak pulse may not yield an accurate SaO2 reading.
9Check alarm limits. Reset if necessary. Make sure that both high and low alarms are on before leaving the client’s room. Alarm limits for both high and low SaO2 and high and low pulse rates are preset by the manufacturer but can be easily reset in response to doctor’s orders.Identifies the need for possible intervention
10Tell the client that common position changes may trigger the alarm, such as bending the elbow or gripping the side rails or other objects.Promotes participation in care, thus decreasing anxiety
11Relocate finger sensor at least every 4 hr. Relocate spring tension sensor at least every 2 hr.Prevents tissue necrosis
12Check adhesive sensors at least every shift.Reduces risk of irritation from adhesive

Evaluation

Were desired outcomes achieved? Examples of evaluation include

Documentation

The following should be noted on the client's record: