Improving Decannulation and Swallowing Function: A Comprehensive, Multidisciplinary Approach to Post-Tracheostomy Care

Discussion

This study is the largest to our knowledge demonstrating that a multidisciplinary tracheostomy service can improve the rate of tracheostomy decannulation and tolerance of oral diet. Others have demonstrated improved time to decannulation only. Speed et al¹⁸ performed a meta-analysis demonstrating a reduction of total in situ tracheostomy time. This study included 7 articles, all scoring low on internal validity and 2 scoring low for external validity. All studies were inadequately powered, yet 2 studies still reported statistically significant results. The largest study from that analysis by Tobin et al²⁴ noticed an increase in the rate of decannulation over the study period but could only speculate that this may be due to “a more proactive approach to decannulation.” Two small studies not included in the meta-analysis demonstrated similar improvements in reducing time to decannulation following implementation of a multidisciplinary tracheostomy team but again failed to report an improvement in the percentage of subjects decannulated.^25,26

Suboptimal post-ICU tracheostomy care has been implicated and underscored by Mondup et al⁷ in a Danish survey highlighting inadequate post-ICU tracheostomy management; with only 9% reported daily follow-up, none reported having decannulation guidelines, and only 10% delivered education to floor nurses.^7,27 A similar survey of 228 ICUs in the United Kingdom found that only 32% had written protocols for routine tracheostomy follow-up outside the ICU.²⁸ These results mirrored similar problems faced by our institution with substantial improvement being made simply by implementing a tracheostomy team. Additionally, our study addresses in detail a majority of the concerns of post-ICU tracheostomy care as described by Mondup.⁷ These details include a defined service line, standardized post-tracheostomy care, a dedicated surgical intensivist, and monthly meetings to unify all the caregivers, provide a platform to discuss new issues, review and streamline necessary equipment, and create new standards of care, such as the postoperative care bundle.

Although many bundles or guidelines are adopted into clinical practice, adherence can often be poor.^29,30 An essential factor in the implementation of our post-tracheostomy care bundle was the empowerment of a small subset of respiratory and speech therapists with physician oversight to track, follow, and provide care for all hospitalized patients with tracheostomy. Barriers to progress were easily identified, and the intensivist-supported rounding process enabled the team to address each concern individually. Likewise, the interdisciplinary approach to protocol development and interprofessional communication, focusing on identification and correction of impediments to progress, appeared to be key.³¹ Of note, the tracheostomy service and post-tracheostomy care bundle process required no additional funding and minimal time obligation. Providers in respiratory therapy and speech language pathology were carefully selected for their motivation and commitment to the goals of the project and were vital to the success of the program.

Oral intake significantly improved following implementation of the tracheostomy service yet continued to improve after the post-tracheostomy care bundle when compared with both baseline and the effects of the tracheostomy service alone. Although not considered in our study, an earlier tracheostomy change may be an important factor in the initiation of oral intake. Fisher et al³² suggest that early tracheostomy change before day 7 is associated with earlier oral intake and speaking valve use. Although Fisher's groups appeared to be equally matched, criteria to meet early or late tracheostomy changes were not disclosed. Also, a potential selection bias was that only 38 of 130 subjects underwent early tracheostomy change. Nonetheless, this study suggests that certain patients could tolerate diet advancement more rapidly. In our protocol, tracheostomy changes occurred as needed based on the speech language pathologist recommendations and according to our tracheostomy decannulation and change guidelines. Thus, a critical step involved our speech language pathologist early in the post-tracheostomy period and considered all subjects for advancement and challenged those who met the criteria for diet regardless of tracheostomy days or tracheostomy change status. Counterintuitively, early involvement of speech language pathologist may be extremely valuable to this cohort. Freeman-Sanderson et al³³ retrospectively audited 140 subjects with tracheostomy and found that speech language pathologist consults occurred on average 14 d following tracheostomy, and oral diet resumed an average of 15 d after tracheostomy, which may suggest a delay in treatment and underutilization of speech language pathologist resources. In our study, tolerance of oral diet improved as the number of speech consultations increased and as more subjects received early (within 2 d) speech language pathologist consultations.

There were significant differences in APACHE and SOFA scores between all groups. The APACHE scores were performed on admission to the ICU, with SOFA scores calculated at the time of the tracheostomy consult. Both scores were highest in the baseline group, significantly lower in the tracheostomy service group, and then significantly higher again in the post-tracheostomy care bundle group. This could have affected our results because the post-tracheostomy care bundle group had significantly lower severity of illness scores on admission and at time of tracheostomy. In addition, ventilator stay was not significantly shorter in the post-tracheostomy care bundle group compared with the tracheostomy service alone group. This difference may be attributed to a stronger subject on admission and at tracheostomy. The logistic regression analysis was not able to show any correlation with severity of illness or ventilator stay in predicting decannulation. This emphasizes that the design of the post-tracheostomy care bundle was successful in improving quality of care after tracheostomy.

Our study had multiple limitations. First, direct quality of life measures were not collected. The literature does report a reduced quality of life following tracheostomy; one can only infer that removing the tracheostomy tube and improving oral intake would improve quality of life. Other factors important for future investigation, although not analyzed in our study, include time to best diet and cost of care. The potential for cost reduction or return on investment may be realized through decreased tracheostomy-related appliances (tracheostomy tubes, inner cannulas, suction catheters, dressings, tracheostomy ties, oxygen), potential for earlier discharge, reduction in tube feeding materials, and reduction in additional nursing and respiratory care. In addition, subjects were grouped into broad categories based on consulting services; however, specific indications or diagnoses for tracheostomy were not compared, which could have had an effect on outcomes.