Tracheostomy policy and procedure

Tracheostomy care

Tracheostomy care: An evidence-based guide

July 11, 2011

TRACHEOSTOMY CARE and tracheal suctioning are high-risk procedures. To avoid poor outcomes, nurses who perform them—whether they’re seasoned veterans or novices—must adhere to evidence-based guidelines. In fact, experienced nurses may overestimate their own trach care competence. Tracheostomy patients aren’t seen only in intensive care units. As patients with more complex conditions are admitted to hospitals, an increasing number are being housed on general nursing units. Trach patients are at high risk for airway obstruction, impaired ventilation, and infection as well as other lethal complications. Skilled bedside nursing care can prevent these complications. This article describes evidence-based guidelines for tracheostomy care, focusing on open and closed suctioning and site care.

Suctioning a trach tube

Tracheostomy care

A trach tube may have a single or double lumen; it may be cuffed or uncuffed, fenestrated (allowing speech) or unfenestrated. Each variation requires specific management. For instance, before suctioning a fenestrated tube, you must insert a plain inner tube, because a suction catheter may puncture the small opening of the fenestrated tube. (See Trach tube positioning by clicking the PDF icon above.) Regardless of the type of tube used, suctioning always involves:

Also, be sure to keep emergency equipment nearby. (See Be prepared for trach emergencies by clicking the PDF icon above.)

When to suction

Suctioning is done only for patients who can’t clear their own airways. Its timing should be tailored to each patient rather than performed on a set schedule. Start with a complete assessment. Findings that suggest the need for suctioning include increased work of breathing, changes in respiratory rate, decreased oxygen saturation, copious secretions, wheezing, and the patient’s unsuccessful attempts to clear secretions. According to one researcher, fine crackles in the lung bases indicate excessive fluid in the lungs, and wheezing patients should be assessed for a history of asthma and allergies.

Suctioning technique

Before suctioning, hyperoxygenate the patient. Ask a spontaneously breathing patient to take two to three deep breaths; then administer four to six compressions with a manual ventilator bag. With a ventilator patient, activate the hyperoxygenation button. Experts recommend using suction pressure of up to 120 mm Hg for open-system suctioning and up to 160 mm Hg for closed-system suctioning. For each session, limit suctioning to a maximum of three catheter passes. During catheter extraction, suctioning can last up to 10 seconds; allow 20 to 30 seconds between passes. For open-system suctioning, catheter size shouldn’t exceed half the inner diameter of the internal trach tube. To determine the appropriate-size French catheter, divide the internal trach tube size by two and multiply this number by three. A #12 French catheter is routinely used for closed suctioning. Premeasure the distance needed for insertion. Experts suggest 0.5 to 1 cm past the distal end of the tube for an open system, and 1 to 2 cm past the distal end for a closed system.

Liquefying secretions

The best ways to liquefy secretions are to humidify secretions and hydrate the patient. Do not use normal saline solution (NSS) or normal saline bullets routinely to loosen tracheal secretions because this practice:

Despite the potential harm caused by NSS use, one survey found that 33% of nurses and respiratory therapists still use NSS before suctioning. Other researchers have found that inhalation of nebulized fluid also is ineffective in liquefying secretions.

Evaluation

When evaluating the patient after suctioning, assess and document physiologic and psychological responses to the procedure. Convey your findings verbally during nurse-to-nurse shift report and to the interdisciplinary team during daily rounds.

Trach site care and dressing changes

Tracheostomy dressing changes promote skin integrity and help prevent infection at the stoma site and in the respiratory system. Typically, healthcare facilities have both formal and informal policies that address dressing changes, although no evidence suggests a particular schedule of dressing changes or specific supplies for secretion absorption must be used. On the other hand, the evidence does show that:

Start by assessing the stoma for infection and skin breakdown caused by flange pressure. Then clean the stoma with a gauze square or other nonfraying material moistened with NSS. Start at the 12 o’clock position of the stoma and wipe toward the 3 o’clock position. Begin again with a new gauze square at 12 o’clock and clean toward 9 o’clock. To clean the lower half of the site, start at the 3 o’clock position and clean toward 6 o’clock; then wipe from 9 o’clock to 6 o’clock, using a clean moistened gauze square for each wipe. Continue this pattern on the surrounding skin and tube flange. Avoid using a hydrogen peroxide mixture unless the site is infected, as it can impair healing. If using it on an infected site, be sure to rinse afterward with NSS.

Dressing the site

At least once per shift, apply a new dressing to the stoma site to absorb secretions and insulate the skin. After applying a skin barrier, apply either a split-drain or a foam dressing. Change a wet dressing immediately.

Securing the trach tube

Use cotton string ties or a Velcro holder to secure the trach tube. Velcro tends to be more comfortable than ties, which may cut into the patient’s neck; also, it’s easier to apply. The literature overwhelmingly recommends a two person technique when changing the securing device to prevent tube dislodgment. In the two-person technique, one person holds the trach tube in place while the other changes the securing device.

Review trach tube policy and procedures

To achieve positive outcomes in patients with trach tubes, keep abreast of best practices and develop and maintain the necessary skills. Every nurse who performs trach care needs to be familiar with facility policy and procedure on trach tube care. If your facility’s current policy and procedures don’t support evidencebased practice, consider urging colleagues and managers to conduct a patient-care study comparing different approaches to suctioning. Then follow the evidence by advocating for changes if necessary.

Selected references

Chulay M. Suctioning: endotracheal or tracheostomy tube. In: Wiegand DJ, Carlson KK, eds. AACN Procedure Manual for Critical Care. 6th ed. Philadelphia, PA: Elsevier Saunders; 2010:62-70.

Dennis-Rouse MD, Davidson JE. An evidence-based evaluation of tracheostomy care practices. Crit Care Nurs Q. 2008;31(2):150-160.

Edgtton-Winn M, Wright K. Tracheostomy: a guide to nursing care. Aust Nurs J. 2005;13(5):1-4.

Harkreader H, Hogan MA, Thobaben M. Fundamentals of Nursing: Caring and Clinical Judgment. 3rd ed. Philadelphia, PA: Saunders; 2007.

Klockare M, Dufva A, Danielsson AM, et al. Comparison between direct humidification and nebulization of the respiratory tract at mechanical ventilation: distribution of saline solution studied by gamma camera. J Clin Nurs. 2006;15(3):301-307.

Kuriakose A. Using the Synergy Model as best practice in endotracheal tube suctioning of critically ill patients. Dimens Crit Care Nurs. 2008;27(1):10-15.

Lewis SL, Dirksen SR, Heitkemper MM, Bucher L, Camera I. Medical-Surgical Nursing: Assessment and Management of Clinical Problems. 8th ed. St. Louis, MO: Mosby; 2010.

Smith-Miller C. Graduate nurses’ comfort and knowledge level regarding tracheostomy care. J Nurses Staff Dev. 2006;22(5):222-229.

Wiegand DJ, Carlson KK, eds. AACN Procedure Manual for Critical Care. 6th ed. Philadelphia, PA: Elsevier Sauders; 2010.

Betty Nance-Floyd is a clinical assistant professor at the University of North Carolina at Chapel Hill School of Nursing.