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01.12.2015 | Research | Ausgabe 1/2015 Open Access

Critical Care 1/2015

Tracheostomy procedures in the intensive care unit: an international survey

Zeitschrift:
Critical Care > Ausgabe 1/2015
Autoren:
Maria Vargas, Yuda Sutherasan, Massimo Antonelli, Iole Brunetti, Antonio Corcione, John G. Laffey, Christian Putensen, Giuseppe Servillo, Paolo Pelosi
Wichtige Hinweise

Electronic supplementary material

The online version of this article (doi:10.​1186/​s13054-015-1013-7) contains supplementary material, which is available to authorized users.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

MV and PP conceived the study, designed the study, performed statistical analysis, interpreted the data and drafted the manuscript. YS and IB participated in study design, helped to perform statistical analysis and drafted the manuscript. MA, AC, JGL, CP and GS designed the study, helped to analyze the data and participated in drafting the manuscript. All authors read and approved the final manuscript.
Abbreviations
E
Europe
ENT
ear-nose-throat
ESICM
European Society of Intensive Care Medicine
ETT
endotracheal tube
LMA
laryngeal mask airway
OE
outside Europe
OR
operation room
PDT
percutaneous dilatational tracheostomy
SSDT
single-step dilation tracheostomy
ST
surgical tracheostomy

Introduction

Percutaneous dilatational tracheostomy (PDT) is one of the most frequent procedures performed in the intensive care unit (ICU) [ 1]. PDT may add potential benefit to clinical management of critically ill patients by increasing patients’ comfort, reducing the need for sedation, facilitating the weaning process and hastening ICU discharge [ 2]. Despite this, no clinical guidelines have been developed to delineate the best practice for this invasive and potentially risky procedure [ 3]. Recently the use of a customized checklist, adapted from the World Health Organization surgical safety checklist, has been suggested to improve the safety of PDT [ 4]. However, the utility of this checklist has not been demonstrated. To date, no study has investigated the tracheostomy practice at a multinational level. This is the first international survey aiming to evaluate the daily practice of PDT according to different settings, operators, types, timing, indications, procedural features, sedation and ventilation protocols, and intra-procedural, early and late complications. This survey may show a proof of concept that an international daily shared clinical practice on PDT techniques is possible.

Materials and methods

The European Critical Care Research Network (ECCRN) of the European Society of Intensive Care Medicine (ESICM) endorsed this survey. Ethical approval for this study was not requested because this was a voluntary survey and no individual patient data were collected.
The questionnaire (Additional file 1) included 31 questions organized in two main sections, analyzing: 1) the profile of respondents and 2) the settings, operators, type, timing, indication, procedural features, sedation and ventilation protocol, and intra-procedural, early and late complications of PDT. The questionnaire was validated by a local panel of experts in intensive care and then underwent the peer review process by the ESICM Research Committee. After the acceptance by the ESICM Research Committee, the survey was carried out from May to October 2013, and was accessible from the ESICM website in the ‘survey of the month’ section. All ESICM members were alerted by email and invited to complete the survey via the ESICM research updates. All the data collected from the questionnaires were analyzed anonymously.
Submitted questionnaires were excluded from analysis if the respondents completed section II only. Failure to answer to one or more questions in section II was not a reason for exclusion.
The data were evaluated as total distribution of answers and then divided according to the geographical area of respondents within Europe (E) and outside Europe (OE) by using descriptive statistics. Data have been reported as counts and percentages. The effects of geographical location on PDT practices were analyzed using the chi-squared ( X 2) test for categorical variables or univariate analysis of variance (ANOVA) for continuous variables. Data have been weighted for the total number of participating intensive care units in and outside Europe, to perform tests of statistical significance. The p value was set at 0.05. Statistical analysis was performed using SPSS, version 20.0.

Results

Study respondents

Responses were received from 429 physicians from 59 countries (Europe 73.6 %, Asia 15.8 %, America 9.1 %, Africa 1.0 %, Australia 0.5 %) (Additional file 2). According to our entry criteria, 281 satisfactorily completed questionnaires from 52 countries (Europe 75.0 %, Asia 16.4 %, America 7.5 %, Africa 0.7 %, Australia 0.4 %) were included in the final analysis. Of the satisfactorily completed questionnaires, 75 % (n = 208) came from E while 25 % (n = 73) were from OE.
Table  1 shows the baseline characteristics of study respondents. The main specialty area was intensive care in 71.9 % of respondents (n = 202) followed by anesthesiology (22.4 %, n = 61). Public hospitals (45.6 %, n = 128) and university hospitals (42.7 %, n = 120) were the institutions most involved in the responses from E but not from OE (E vs OE: X 2 = 52.573, p = 0.000). The type of ICU involved in responses was mixed ICUs (73.3 %, n = 206) followed by surgical ICUs (11 %, n = 31) from E but not OE, where medical ICUs (17.8 %, n = 13) followed mixed ICUs (71.2 %, n = 52) (E vs OE: X 2 = 23.108, p = 0.000). The majority of respondents worked in an ICU with 6–10 beds (35.9 %, n = 101) in E but not OE, where the majority of responses came from ICU with more than 21 beds (28.8 %, n = 21) (E vs OE: X 2=14.942, p = 0.011). The most frequent number of patients admitted to study ICUs annually was between 301 and 600 (34.9 %, n = 98) in E and OE (E 34.1 %, OE 37 %, E vs OE: X 2 = 2.517, p = 0.472). Physicians in E performed two tracheostomy techniques more frequently, while in OE they performed one technique more frequently (E 52.4 %, n = 109; OE 49.3 %, n = 36; X 2 = 19.708, p = 0.001).
Table 1
Baseline characteristics of study respondents
 
Response rate
Statistics
Total
Europe
Outside Europe
 
Valid respondents
281 (100 %)
208/281 (74 %)
73/281 (26 %)
-
Main specialty area
       
 - Intensive care
202/281 (71.9 %)
147/208 (70.7 %)
55/73 (75.3 %)
 
 - Anesthesiology
63/281 (22.4 %)
51/208 (24.5 %)
12/73 (16.4 %)
 
 - Pulmonology
5/281 (1.8 %)
3/208 (1.4 %)
2/73 (2.7 %)
X 2 = 10.810
 - Cardiology
2/281 (0.7 %)
0
2/73 (2.7 %)
P = 0.094
 - Neurology
1/281 (0.4 %)
1/208 (0.5 %)
0
 
 - Surgery
2/281 (0.7 %)
1/208 (0.5 %)
1/73 (1.4 %)
 
 - Other
6/281 (2.1 %)
3/208 (1.4 %)
1/73 (1.4 %)
 
Type of institution
       
 - Public hospital
128/281 (45.6 %)
105/208 (50.5 %)
23/73 (31.5 %)
X 2 = 52.573
 - Private hospital
33/281 (11.7 %)
9/208 (4.3 %)
24/73 (32.9 %)
P = 0.000
 - University hospital
120/281 (42.7 %)
94/208 (45.2 %)
26/73 (35.6 %)
 
Type of intensive care
       
 - Cardiac
9/281 (3.2 %)
8/208 (3.8 %)
1/73 (3.8 %)
 
 - Mixed
206/281 (73.3 %)
154/208 (74 %)
52/73 (71.2 %)
X 2 = 23.108
 - Medical
22/281 (7.8 %)
9/208 (4.3 %)
13/73 (17.8 %)
P = 0.000
 - Neurological
13/281 (4.6 %)
12/208 (5.8 %)
1/73 (1.4 %)
 
 - Surgical
31/281 (11 %)
25/208 (12 %)
6/73 (8.2 %)
 
Number of ICU beds
       
 - ≤ 5
8/281 (2.8 %)
7/208 (3.4 %)
1/73 (1.4 %)
 
 - 6−10
101/281 (35.9 %)
84/208 (40.4 %)
17/73 (23.3 %)
X 2 = 14.942
 - 11−15
61/281 (21.7 %)
44/208 (21.2 %)
17/73 (23.3 %)
P = 0.011
 - 16−20
49/281 (17.4 %)
32/208 (15.4 %)
17/73 (23.3 %)
 
 - ≥21
62/281 (22.1 %)
41/208 (19.7 %)
21/73 (28.8 %)
 
Number of patients/years admitted in ICU
       
 - ≤300
39/281 (13.9 %)
31/208 (14.9 %)
8/73 (11 %)
X 2 = 2.517
 - 301−600
98/281 (34.9 %)
71/208 (34.1 %)
27/73 (37 %)
P = 0.472
 - 601−999
63/281 (22.4 %)
44/208 (21.2 %)
19/73 (26 %)
 
 - ≥1000
81/281 (28.8 %)
62/208 (29.8 %)
19/7 (26 %)
 
Different techniques performed
       
 - one
99/281 (35.2 %)
63/208 (30.3 %)
36/73 (49.3 %)
 
 - two
14/281 (49.8 %)
109/208 (52.4 %)
31/73 (42.5 %)
X 2 = 19.708
 - three
31/281 (11 %)
26/208 (12.5 %)
5/73 (6.8 %)
P = 0.001
 - four
7/281 (2.5 %)
7/208 (3.4 %)
0
 
 - five
2/281 (0.7 %)
2/208 (1 %)
0
 
 - six
2/281 (0.7 %)
1/208 (0.5 %)
1/73 (1.4 %)
 

Tracheostomy

The total number of tracheostomies performed by the respondents was 17,894, with 74 % (n = 13,220) in E and 26 % (n = 4,764) in OE. Figure  1 shows the distribution of different tracheostomies. The most frequently performed tracheostomy procedure was the single-step dilation tracheostomy (SSDT) (41.6 %, n = 7,442) followed by surgical tracheostomy (ST) (24.1 %, n = 4,345). The most frequently performed tracheostomy procedure in E was the SSDT (46.6 %, n = 6,160) while OE it was the ST (36.4 %, n = 1,733).

Informed consent

Informed patient/substitute decision-maker consent for tracheostomy was obtained in 61.2 % (n = 172) of participating ICUs. The informed consent was obtained more frequently OE than in E (informed consent obtained: OE 87.7 %, n = 64; E 51.9 %, n = 108; informed consent not obtained: OE 12.3 %, n = 9; E 48.1 %, n = 100; X 2 = 49.332, p = 0.000).

Percutaneous dilatational tracheostomy (PDT)

Table  2 describes the variations in approach to the performance of PDT in ICUs across the world. PDT in the ICU was more often performed by (one or more) intensivists (74 %, n = 208). The most frequent indication for PDT was prolonged mechanical ventilation (53.7, 151) followed by difficult or prolonged weaning 24.2 %, n = 68). The most frequent timing of PDT was between 7 and 15 days (54.4 %, n = 153). The majority of respondents used volume control ventilation during PDT (42.3 %, n = 119) insertion. Almost 80 % of respondents administered a combination of sedation, analgesia, and neuromuscular blockade to patients undergoing PDT insertion. Propofol was the most commonly used sedative overall (85.4 %, n = 240), with 92.3 % (n = 192) in E and 65.8 % (n = 48) OE. Fentanyl and remifentanil were the most used analgesic drugs overall, while fentanyl and morphine were the most used OE. Cis-atracurium and rocuronium were the neuromuscular blocking agents most used overall and in E, while atracurium and vecuronium were the most used OE. Local anesthesia was provided by 64.9 % (n = 179) of respondents. Bronchoscopy during PDT was used more frequently overall (69.2 %, n = 180); its use was more frequent in European ICUs than OE. Bronchoscopy during PDT was most often performed through the endotracheal tube (ETT) in place (86.9 %, n = 232), followed by the replacement of a larger ETT (6 %, n = 16) or laryngeal mask airway (LMA) 6 %, n = 16). The most used bronchoscope had a diameter of 5 mm overall (39.1 %, n = 86) and in E (42.9 %, n = 72) and 6 mm OE (38.5 %, n = 20). The bronchoscope was chosen more frequently according to the availability in the ICU (63.8 %, n = 143). Neck ultrasound was used more frequently in situations where other neck structures were considered to be at increased risk of injury (68.6 %, n = 81). A cuffed tube was the most frequently chosen tracheostomy tube at the end of the procedure (45.9 %, n = 118).
Table 2
Procedural features of percutaneous dilatational tracheostomy performed in the intensive care unit
 
Response rate
Statistics
 
Total
Europe
Outside Europe
 
Who performed PDT in ICU
       
 - One or more intensivists
208/281 (74 %)
166/208 (79.8 %)
42/73 (57.5 %)
 
 - Intensivist with ENT specialists
16/281 (5.7 %)
10/208 (4.8 %)
6/73 (8.2 %)
 
 - Intensivist with general surgeon
6/281 (2.1 %)
1/208 (0.5 %)
5/73 (6.8 %)
X 2 = 51.732
 - Intensivist with other surgeon
8/281 (2.8 %)
5/208 (2.4 %)
3/73 (4.1 %)
P = 0.000
 - Anesthesiologist
18/281 (6.4 %)
17/208 8.2 %)
1/73 (1.4 %)
 
 - ENT specialists
15/281 (5.3 %)
7/208 (3.4 %)
8/73 (11 %)
 
 - General surgeon
7/281 (2.5 %)
1/208 (0.5 %)
6/73 (8.2 %)
 
 - Another surgeon
3/281 (1.1 %)
1/208 (0.5 %)
2/73 (2.7 %)
 
Most frequent indication
       
 - Prolonged mechanical ventilation
151/281 (53.7 %)
107/208(51.4 %)
44/73 (60.3 %)
 
 - Difficult/prolonged weaning
68/281 (24.2 %)
55/208 (26.4 %)
13/73 (17.8 %)
X 2 = 9.039
 - Neurocritical disease (medical, disease, surgical or trauma involving the neurologic system)
41/281 (14.6 %)
32/208 (15.4 %)
9/73 (12.3 %)
P = 0.171
 - Inability to perform airway protection
12/281 (4.3 %)
8/208 (3.8 %)
4/73 (5.5 %)
 
 - Inability to cough and swallow
5/281 (1.8 %)
4/208 (1.9 %)
1/73 (1.4 %)
 
 - Improvement of patient respiratory mechanics
3/281 (1.1 %)
1/208 (0.5 %)
2/73 (2.7 %)
 
 - Copious secretions
1/281 (0.4 %)
1/208 (0.5 %)
0
 
Most frequent timing
       
 - <7days
55/281 (19.6 %)
47/208 (22.1 %)
9/73 (12.3 %)
 
 - 7–15 days
153/281 (54.4 %)
108/208 (51.9 %)
45/73 (61.6 %)
X 2 = 9.707
 - 15–21 days
58/281 (20.6 %)
43/208 (20.7 %)
15/73 (20.5 %)
P = 0.046
 - 21–30 days
11/281 (3.9 %)
7/208 (3.4 %)
4/73 (5.5 %)
 
 - >30 days
4/281 (1.4 %)
4/208 (1.9 %)
0
Mechanical ventilation mostly used
       
 - Volume control ventilation
119/281 (42.3 %)
84/208 (40.4 %)
35/73 (47.9 %)
 
 - Pressure control ventilation
102/281 (36.3)
75/208 (36.1 %)
27/73 (37 %)
 
 - Minute volume/adaptive support ventilation
13/281 (4.6 %)
12/208 (5.8 %)
1/73 (1.4 %)
X 2 = 15.504
 - Bi-level airway pressure
34/281 (12.1 %)
30/208 (14.4 %)
4/73 (5.5 %)
P = 0.004
 - Other
13/281 (4.6 %)
7/208 (3.4 %)
6/73 (8.2 %)
Sedation-analgesia-neuromuscular blocking protocol provided
       
 - Yes
221/278 (79.5 %)
163/207 (78.7 %)
58/71 (81.7 %)
X 2 = 0.456
 - No
57/278 (20.5 %)
44/207 (21.3 %)
13/71 (18.3 %)
P = 0.500
Local anesthesia provided
       
 - Yes
179/276 (64.9 %)
124/206 (60.2 %)
55/70 (78.6 %)
X 2 = 12.859
 - No
97/276 (35.1 %)
82/206 (39.8 %)
15/70 (21.4 %)
P = 0.000
Bronchoscopy used during PDT
       
 - Yes
180/260 (69.2 %)
153/194 (78.9 %)
39/66 (59.1 %)
X 2 = 48.827
 - No
80/260 (30.8 %)
41/194 (21.1 %)
27/66 (40.9 %)
P = 0.000
Bronchoscopy during PDT performed
       
 - Through ETT in place
232/267 (86.9 %)
176/201(87.6 %)
56/66 (84.8 %)
 
 - Replacement with larger ETT
16/267 (6 %)
12/201 (6 %)
4/66 (6.1 %)
X 2 = 0.807
 - Replacement with smaller ETT
3/267 (1.1 %)
2/201 (1 %)
1/66 (1.5 %)
P = 0.848
 - Through LMA
16/267 (6 %)
11/201 (5.5 %)
5/66 (7.6 %)
 
 - Diameter of bronchoscope used
       
 - 3–4 mm
40/220 (18.2 %)
34/169 (20.2 %)
6/52 (11.5 %)
 
 - 5 mm
86/220 (39.1 %)
72/169 (42.9 %)
14/52 (26.9 %)
X 2 = 17.268
 - 6 mm
65/220 (29.5 %)
45/169 (26.8 %)
20/52 (38.5 %)
P = 0.001
 - 7 mm
29/220 (13.2 %)
17/169 (10.1 %)
12/52 (23.1 %)
 
 - ≥8 mm
0
0
0
 
Bronchoscope was chosen
       
 - According to availability in ICU
143/224 (63.8 %)
110/171 (64.3 %)
33/53 (62.3 %)
 
 - According the size of ETT in place
51/224 (22.8 %)
37/171 (21.6 %)
14/53 (26.4 %)
X 2 = 1.051
 - Always with the smallest diameter
30/224 (13.4 %)
24/171 (14 %)
6/53 (11.3 %)
P = 0.591
 - Randomly without assessment
0
0
0
Neck ultrasound for PDT used
       
 - To guide needle, dilator and cannula placement
25/118 (21.2 %)
18/95 (18.9 %)
7/23 (30.4 %)
X 2 = 5.966
 - In suspected at-risk structure
81/118 (68.6 %)
69/95 (72.6 %)
12/23 (52.2 %)
P = 0.051
 - Both together
127118 (10.2 %)
8/95 (8.4 %)
4/23 (17.4 %)
 
Tracheostomy tube used
       
 - Cuffed
118/257 (45.9 %)
89/194 (45.9 %)
29/63 (46 %)
 
 - Cuffed with inner cannula
94/257 (36.6 %)
75/194 (38.7 %)
19/63 (30.2 %)
X 2 = 6.568
 - Both
43/257 (16.7 %)
28/194 (14.4 %)
15/63 (23.8 %)
P = 0.087
 - Other
2/257 (0.8 %)
2/194 (1 %)
0
 
PDT percutaneous dilatational tracheostomy, ENT ear-nose-throat, ETT endotracheal tube, LMA laryngeal mask airway

Surgical tracheostomy

Table  3 describes the use of surgical tracheostomy (ST) in the ICU. STs were performed more frequently in the critically ill in ICU (59.1 %, n = 166), with only 15.6 % undergoing ST in the operation room (OR). In the OR, ST was performed more frequently by ear-nose-throat (ENT) specialists (59.7 %, n = 165) followed by general surgeons (14.9 %, n = 42). ST was more often reserved for patients who were deemed to be at higher risk of difficult PDT insertion (70.1 %, n = 187).
Table 3
Response rate for the subgroup of surgical tracheostomies
 
Response rate
Statistics
 
Total
Europe
Outside Europe
 
Where ST was performed
       
 - ICU
106/281 (37.7 %)
74/208 (35.6 %)
32/73 (43.8 %)
X 2 = 3.220
 - Operating room
166/281 (59.1 %)
128/208 (61.5 %)
38/73 (52.1 %)
P = 0.200
 - Other
9/281 (3.2 %)
6/208 (2.9 %)
3/73 (4.1 %)
Critically ill patients receiving Tracheostomy in operating room
2797 (15.6 %)*
2022 (15.2 %)
775 (16.2 %)
P = 0.642
Who performed ST in operating room
       
 - Anesthesiologist
2/281 (0.7 %)
2/208 (1 %)
0
 
 - Intensivist
7/281 (2.5 %)
6/208 (3 %)
1/73 (1.4 %)
 
 - ENT specialist
165/281 (58.7 %)
113/208 (56.8 %)
52/73 (73.2 %)
 
 - General surgeon
42/281 (14.9 %)
29/208 (14.6 %)
13/73 (18.3 %)
X 2 = 28.302
 - Thoracic surgeon
17/281 (6 %)
15/208 (7.5 %)
2/73 (2.8 %)
P = 0.000
 - Plastic surgeon
1/281 (0.4 %)
0
1/73 (1.4 %)
 
 - Maxillofacial surgeon
28/281 (10 %)
26/208 (13.1 %)
2/73 (2.8 %)
 
 - Other
8/281 (2.8 %)
8/208 (4 %)
0
 
Why ST was chosen
       
 - Insufficient expertise in PDT
22/281 (7.8 %)
9/208 (4.3 %)
13/73 (17.8 %)
 
 - Reserved for patients with predicted difficult PDT
187/281 (70.1 %)
153/208 (73.6 %)
44/73 (60.3 %)
X 2 = 20.207
 - Predicted need for prolonged tracheostomy
23/281 (8.2 %)
19/208 (9.1 %)
4/73 (5.5 %)
P = 0.000
 - Other
39/281 (13.9 %)
27/208 (13 %)
12/73 (16.4 %)
 
*Percentage calculated from total number of tracheostomies performed. ST surgical tracheostomy, ENT ear-nose-throat, PDT percutaneous dilatational tracheostomy

Complications

The most frequent intra-procedural and early complications in E and OE was bleeding controlled by compression at 31.7 % (n = 89) followed by ETT puncture 20.2 % (n = 52). Bleeding requiring exploration was reported to be the most frequent late complication (33.1 %, n = 85). Table  4 shows the intra-procedural, early and late complications.
Table 4
Intraprocedural, early and late complications
 
Response rate
Statistics
 
Total
Europe
Outside Europe
 
Most frequent intraprocedural complication
       
 - Puncture posterior tracheal wall
2/257 (0.8 %)
2/194 (1 %)
0
 
 - Puncture ETT
52/257 (20.2 %)
47/194 (24.2 %)
5/63 (7.9 %)
 
 - Accidental extubation
17/257 (6.6 %)
15/194 (7.7 %)
2/63 (3.2 %)
 
 - Difficult cannula placement
47/257 (18.3 %)
34/194 (17.5 %)
13/63 (20.6 %)
 
 - Stoma not adequate
6/257 (2.3 %)
1/194 (0.5 %)
5/63 (7.9 %)
X 2 = 36.296
 - False passage
4/257 (1.6 %)
2/194 (1 %)
2/63 (3.2 %)
P = 0.000
 - Convert the procedure
4/257 (1.6 %)
2/194 (1 %)
2/63 (3.2 %)
 
 - Bleeding controlled by compression
89/257 (31.7 %)
63/194 (32.5 %)
26/63 (41.3 %)
 
 - Bleeding requiring exploration
1/257 (0.4 %)
1/194 (0.5 %)
0
 
 - Desaturation (<90 %)
16/257 (6.2 %)
11/194 (5.7 %)
5/63 (7.9 %)
 
 - Pneumothorax
0
0
0
 
 - Emphysema
1/257 (0.4 %)
1/194 (0.5 %)
0
 
 - Other
18/257 (7 %)
15/194 (7.7 %)
3/63 (4.8 %)
 
Most frequent early complication
       
 - Puncture posterior tracheal wall
1/257 (0.4 %)
1/194 (0.5 %)
0
 
 - Puncture ETT
16/257 (6.2 %)
14/194 (7.2 %)
2/63 (3.2 %)
 
 - Accidental extubation
3/257 (1.2 %)
3/194 (1.5 %)
0
 
 - Difficult cannula placement
13/257 (5.1 %)
10/194 (5.2 %)
3/63 (4.8 %)
 
 - Stoma not adequate
2/257 (0.8 %)
0
2/63 (3.2 %)
X 2 = 37.981
 - False passage
2/257 (0.8 %)
2/194 (1 %)
0
P = 0.000
 - Convert the procedure
2/257 (0.8 %)
2/194 (1 %)
0
 
 - Bleeding controlled by compression
163/257 (63.4 %)
114/194 (58.8 %)
49/63 (77.8 %)
 
 - Bleeding requiring exploration
9/257 (3.5 %)
9/194 (4.6 %)
0
 
 - Desaturation (<90 %)
11/257 (4.3 %)
10/194 (5.2 %)
1/63 (1.6 %)
 
 - Pneumothorax
1/257 (0.4 %)
1/194 (0.5 %)
0
 
 - Emphysema
8/257 (3.1 %)
4/194 (2.1 %)
4/63 (6.3 %)
 
 - Other
26/257 (10.1 %)
24/194 (12.4 %)
2/63 (3.2 %)
 
Most frequent late complication
       
 - Bleeding controlled by compression
44/257 (17.1 %)
35/194 (18 %)
9/63 (14.3 %)
 
 - Bleeding requiring exploration
15/257 (5.8 %)
13/194 (6.7 %)
2/63 (3.2 %)
X 2 = 3.555
 - Stoma infection/inflammation
85/257 (33.1 %)
61/194 (31.4)
24/63 (38.1 %)
P = 0.470
 - Cannula extraction/malpositioning
54/257 (21 %)
40/194 (20.6 %)
14/63 (22.2 %)
 
 - Other
59/257 (23 %)
45/194 (23.2 %)
14/63 (22.2 %)
 

Discussion

This is the first international survey investigating the current spectrum of clinical practice in tracheostomy insertion in critically ill patients. In this investigation we found that single-step dilatational tracheostomy was the most frequent PDT approach used in the ICU. Intensive care physicians mainly performed PDT for prolonged mechanical ventilation. Consistent with this, the most popular timing for tracheostomy was between 7 and 15 days after ICU admission. Volume control mechanical ventilation, sedation-analgesia-neuromuscular blocking agents, local anesthesia and fiber optic bronchoscope were most frequently used during the procedure. ST was also frequently performed in critically ill patients. In this survey ST was mainly performed in the ICU by ENT specialists and was often chosen in cases where PDT was predicted to be difficult. In regard to complication arising from tracheostomy, our findings suggest that bleeding controlled by compression and stoma infection/inflammation were the most common intra-procedural and late complications, respectively. There was considerable variability in regard to practices surrounding informed consent for tracheostomy in critically ill patients, with informed consent for PDT obtained in only 60 % of cases.
This is the first survey investigating the international clinical practice for PDT in critically ill patients, because previous surveys have been national investigations performed in European countries [ 512]. In addition, none of the previous surveys reported information about PDT performed outside Europe. In this survey 26 % of respondents came from outside Europe. This allows us to evaluate the differences between tracheostomy performed in and outside Europe. Outside Europe: 1) the most used tracheostomy was the ST performed in the ICU with more involvement of ENT specialists; 2) informed consent for tracheostomy was obtained more than in Europe; 3) the intensivists more frequently performed one PDT, compared to at least two or more in Europe; 4) PDT was performed less in the first 7 days of admission; 5) a fiber optic bronchoscope was used less often, and a diameter >6 mm was used; 5) ST was chosen for patients with predicted difficulties for PDT but also where there was insufficient expertise in performing PDT; and 6) ETT puncture occurred less frequently as intra-procedural complications and there was increased incidence of subcutaneous emphysema among early complications.
In line with previous surveys, SSDT was the most popular technique in Europe and was mostly performed by intensivists [ 57]. Surprisingly, ST was the most popular tracheotomy technique outside Europe, and was mainly performed by ENT specialists. PDT and ST were easily performed, with a faster learning curve [ 5]. PDT is a safe alternative to ST [ 13]. However, ENT specialists and general surgeons preferred performing ST in the OR compared to PDT at the bedside [ 14]. The percutaneous approach was also a skill in the training of intensive care physicians, whereas surgeons largely performed open tracheostomies [ 15]. We think that the preference, background and training of physicians were responsible for the choice of the tracheostomy technique in critically ill patients. Indeed in this survey, ST was chosen more frequently outside Europe because of the insufficient expertise in performing PDT.
In our survey, prolonged mechanical ventilation followed by difficult weaning were frequent indications for PDT. This result was in line with previous surveys and reports in the literature. Tracheostomy in the ICU was typically indicated when patients were unlikely to undergo successful extubation [ 16]. In this case, the risk of tracheostomy outweighed the risk of prolonged translaryngeal intubation [ 16]. The most frequent timing of PDT insertion in this international survey was reported as 7–15 days; this is in line with previous national surveys [ 512]. Recent trials did not report any improvement in mortality after 30 days comparing early (<4 days) and late (>10 days) tracheostomy [ 17] or onset of pneumonia with the cutoff between early and late tracheostomy at 13 days. In our opinion the timing of PDT should be individualized according to patients’ needs.
Volume control ventilation was the most used in and outside Europe. We found increased use of manual ventilation outside Europe during the procedure. Sedation, analgesia and neuromuscular blocking protocols were mostly used in and outside Europe in line with the previous Italian survey [ 5]. Interestingly, local anesthesia was more frequently provided outside Europe, probably due to the high incidence of ST. However, the use of general anesthesia with local anesthesia or of local anesthesia alone differed in and outside Europe according to the type of physician performing the tracheostomy. Bronchoscopy during PDT was used more in Europe than outside Europe. The frequent use of bronchoscopy in Europe should be linked to more PDT being performed. PDT is a blind technique for obtaining a surgical airway [ 18], therefore the use of bronchoscopy may add more safety to this procedure [ 19]. Bronchoscopy outside Europe was used by 59 % of respondents, probably due to ST being used more frequently. ST is an open procedure with direct visualization of procedural steps [ 20]. In this case use of the bronchoscope may be avoided. In Europe the respondents chose a bronchoscope with small diameters compared with those chosen outside Europe. Minimizing the diameter of the bronchoscope during PDT may reduce airway obstruction and hypercarbia or hypoxia [ 21, 22]. However, a new tool for PDT has been recently proposed [ 23], which allows bronchoscopy without compromising ventilation. In recent years, the role of bronchoscopy in PDT has been questioned and the use of neck ultrasound has been suggested [ 18]. However, in this survey the neck ultrasound was used more frequently in situations where other neck structures were considered to be at increased risk of injury.
Bleeding controlled by compression and ETT puncture were the most common intra-procedural and early complications found in Europe, while there was a lower incidence of ETT puncture outside Europe. Bleeding and airway complications were the main complications related to PDT [ 24]. Outside Europe respondents reported lower ETT puncture rates, likely because of the higher incidence of open ST, allowing direct visualization of the overall procedure.
Informed consent for PDT was obtained in 60 % of cases and it was obtained more frequently outside Europe. Indeed, informed consent before invasive and surgical procedures has become standard practice in many medical institutions [ 25]. In a national survey on informed consent for tracheostomy in Italy we found that informed consent for this procedure was provided by 65 % of patients undergoing tracheostomy [ 26]. The practice of obtaining informed consent varied in different countries according to national legislation, history, culture, and religion [ 27]. Tracheostomy is an elective procedure committing the patients to a prolonged period of recovery from critical illness. The choice of performing tracheostomy in critically ill patients should be carefully discussed by ICU physicians and then with patients or the patients’ families.
There appears to be considerable variability in tracheostomy practices in critically ill patients. For European tracheostomy, our survey documented a general agreement with respect to the indications, complications and procedural steps for PDT and ST. The common methodology of practice is similar to published protocols, such as the recent national Danish guideline for percutaneous tracheostomy in the ICU [ 28]. Outside of Europe, such respondents constituted approximately one third of participants and their responses were heterogeneous and frequently country-specific, illustrating that there are different styles of practice in international clinical practice. The results of our survey may be an initial step towards promoting a unified international practice guideline for tracheostomy in the ICU.

Limitations

This study suffers from some potential limitations. We found many differences between respondents in Europe and outside Europe in the baseline characteristics of the type of institution, type of intensive care, number of ICU beds and different techniques performed. We also performed statistical analysis according to the type of intensive care, type of institution and different techniques performed, but the results did not change. Respondents from outside Europe represented only one third of participants. For this reason we have added weighting for the total number of respondents in Europe and outside Europe to perform tests of statistical significance. The respondents outside Europe were heterogeneous, varying between different countries. This survey was the first to look at the international practice of tracheostomy. We were unable to further investigate other aspects of clinical practice, such as the use of ultrasound and/or LMA, in order to avoid too lengthy a survey.

Conclusions

PDT is used worldwide in critically ill patients, without clinical guidelines to suggest the best practice [ 3]. This survey represents the first snapshot of PDT international clinical practice. This first global picture of current practices in regard to tracheostomy insertion demonstrates considerable international variation in practice, suggesting a need for greater standardization of approaches to tracheostomy.

Key messages

  • Percutaneous dilatational tracheostomy is one of the most frequent procedure performed in the intensive care unit
  • Percutaneous dilatational tracheostomy is used worldwide in critically ill patients, without clinical guidelines to suggest the best practice
  • This survey represents the first global picture of current practices in performing tracheostomy
  • This survey demonstrates considerable international variation in practice, suggesting a need for greater standardization of approaches to tracheostomy insertion

Acknowledgements

The authors sincerely thank the European Critical Care Research Network, Dr Richard Beale - Chair research Committee at the European Society of Intensive Care Medicine and Dr Guy M Francois - Research at the European Society of Intensive Care Medicine. The European Society of Intensive Care Medicine supported this research and funded the data collection.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

MV and PP conceived the study, designed the study, performed statistical analysis, interpreted the data and drafted the manuscript. YS and IB participated in study design, helped to perform statistical analysis and drafted the manuscript. MA, AC, JGL, CP and GS designed the study, helped to analyze the data and participated in drafting the manuscript. All authors read and approved the final manuscript.
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