Introduction

It has been recently confirmed that mortality in the intensive care units (ICUs) in Poland is higher than in other European countries [1, 2]. This problem is not associated with an inferior quality of care, as the observed mortality is lower than predicted according to well-established ICU scoring systems [3]. In many Polish hospitals, a dying patient, or one without a chance for survival, is still immediately (or eventually) transferred to the ICU. A modification to the way this part of the health care system operates is necessary as soon as possible.

There is a common belief amongst intensivists that a vast majority of patients admitted to ICUs in Poland require intubation and mechanical ventilation. There are however no data to support this and daily observations show that there are still few patients who do not require intubation and mechanical ventilation, both at the time of ICU admission and throughout the ICU stay. It is unclear how large this population is, what sort of patients is it composed of and why is it possible to avoid invasive ventilation during ICU stay in these patients. Moreover, we do not know whether avoiding invasive ventilation has a significant impact on the outcome in this group of patients.

It seems that the fraction of non-ventilated ICU patients in other countries is relatively high [46], but there is a lack of precise information on this subject in the medical literature. It may be assumed that a non-ventilated population admitted to the ICU at an early stage will benefit most from such escalation of care, requiring much less resources at a later time [7]. Therefore, pre-emptive ICU admissions contribute to the reduction in mortality and are cost-effective [8, 9]. In many Western countries, non-ventilated deteriorating patients are routinely identified at an early stage by ICU outreach teams, as a result of early warning scoring systems that are effectively operating within hospitals [1012], although the benefits of using such systems have not been fully confirmed [13]. So far, these issues have not been the concern of any scientific publication that focused on the Polish health care system. Such changes also have the potential to influence the ICU staff to better perceive the outcomes of care they are providing [14]. Exploration of these issues may pave the way to the restructuring of admissions to Polish ICUs and the consequent reduction of excessive ICU mortality.

The aim of this study was to define the non-ventilated population and identify independent variables that influence being non-intubated and not invasively ventilated in Polish ICUs.

Material and methods

This analysis was based on a multicentre study and included a population of patients hospitalized in ICUs reporting to the Silesian Registry of Intensive Care Units in the Silesian Region of Poland (representing approximately 35% of all Silesian ICUs). The Silesian ICU Registry has operated in the Silesian Region of Poland since October, 2010. Data on 20 651 hospitalizations from October, 2010 to September, 2017 (7 years) were analysed. 283 hospitalizations (1.4%) were excluded from the analysis (as assignment to the appropriate group was not possible due to deficiencies in data). Finally, overall 20 368 hospitalizations were analysed (Figure 1).

Figure 1

Distribution of patients in the analysed population

https://www.archivesofmedicalscience.com/f/fulltexts/103634/AMS-15-36367-g001_min.jpg

The Silesian ICU Registry collects information on the health burden of patients admitted to reporting ICUs, patients’ general condition on admission, causes of admissions, the treatment process and outcomes. Exhaustive description of the structure and methodology of the Silesian ICU Registry has already been described elsewhere [15]. Due to the retrospective and anonymous nature of our study, the Ethical Committee at the Medical University of Silesia in Katowice waived the need for consent of patients to participate in the study. Due to the lack of personal data in the registry, we were not able to identify individual patients; therefore in the whole text we used the word “patients”, but in fact this term stands for individual hospitalizations.

Data of 20 368 patients in the registry were analysed. All patients who did not require intubation and/or invasive ventilation both on ICU admission and throughout the ICU stay were identified and compared to the remaining population. Variables defining the patients’ condition prior to or at ICU admission and influencing further treatment were analysed. Demographic parameters, co-morbidities, severity of the condition at ICU admission, main reasons for ICU admission, treatment used and clinical outcomes were all compared.

Statistical analysis

Statistica 13.0 PL software was used for statistical analysis. Demographic data were presented using descriptive statistics and compared using Student’s t-test or the Mann-Whitney test (the choice of the test was dependent on the result of the Kolmogorov-Smirnov test). For comparison of qualitative variables, the c2 test with Yates’ correction was used. Independent preadmission variables influencing the lack of invasive ventilation at ICU admission and during the ICU stay were identified. The effect of independent variables on the outcome variable of interest was calculated by means of univariate logistic regression. Variables with a p < 0.05 were then included in the multivariate logistic regression analysis. The multivariable model was fitted using the stepwise method, where p < 0.05 was set as the inclusion and removal criterion. For the purposes of all calculations, statistical significance was accepted at the significance level of p < 0.05.

Results

Among 20 368 analysed patients, 3729 (18.3%) did not require intubation and invasive ventilation on ICU admission. In this group, 2496 patients (66.9%) required intubation or tracheostomy (and subsequently invasive ventilation) later during their treatment. Only 1233 (33.1%) patients did not require any of these methods for the entire period of ICU stay. Thus, patients who did not require intubation and invasive ventilation on admission, and did not require any of these methods for the entire period of ICU stay (referred to hereinafter as “non-ventilated patients”) constituted only 6.1% of the overall ICU population (Figure 1).

Non-ventilated patients were most often admitted to ICUs from medical departments (Figure 2). There were also more ICU readmissions in this population (Table I).

Table I

Medical status on ICU admission

Medical statusNon-ventilated (n = 1233)Ventilated (n = 19 135)P-value
AdmissionFirst1127 (91.4%)18 105 (94.6%)< 0.001
Second90 (7.3%)924 (4.8%)< 0.001
Another16 (1.3%)106 (0.6%)0.002
Co-morbiditiesCoronary artery disease376 (30.5%)8309 (43.4%)< 0.001
Heart failure391 (31.7%)6828 (35.7%)0.005
Arterial hypertension535 (43.4%)9719 (50.8%)< 0.001
Disseminated atherosclerosis277 (22.5%)6825 (35.7%)< 0.001
Chronic respiratory failure129 (10.5%)2319 (12.1%)0.091
Home oxygen therapy23 (1.9%)302 (1.6%)0.508
Extreme obesity68 (5.5%)1037 (5.4%)0.937
Cachexia60 (4.9%)692 (3.6%)0.029
Alcoholism72 (5.8%)1793 (9.4%)< 0.001
Diabetes274 (22.2%)4734 (24.7%)0.050
Chronic renal failure160 (13.0%)2790 (14.6%)0.131
Dialysis dependency19 (1.5%)239 (1.2%)0.449
Previous cerebral stroke70 (5.7%)1381 (7.2%)0.048
Chronic neurological disorders97 (7.9%)1502 (7.8%)0.974
Systemic autoimmune diseases36 (2.9%)188 (1.0%)< 0.001
Post-transplant1 (0.1%)40 (0.2%)0.520
Cancer120 (9.7%)1349 (7.0%)< 0.001
Pregnancy8 (0.6%)32 (0.2%)< 0.001
None160 (13.0%)1766 (9.2%)< 0.001
Figure 2

Source of ICU admission

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The comparison of basic demographic variables of non-ventilated patients with the rest of the population showed that the percentage of women in both groups was similar (44.1% vs. 41.6%, p = 0.089), but non-ventilated patients were younger (58.8 ±19.0 vs. 64.4 ±15.5 years, p < 0.001) and less likely to have additional co-morbidities. They were also more likely to be pregnant, have systemic autoimmune disease and cancer. Medical status of both groups on ICU admission is shown in Table I.

Distribution of primary reasons for ICU admission varied between groups. Cardiac arrest prior to ICU admission was uncommon among non-ventilated patients, while it was present in over a quarter of the remaining population (2.6% vs. 26.8%, p < 0.001). An opposite situation was found among other variables. A higher percentage of non-ventilated patients were admitted to the ICU following multi-organ trauma, with complications of pregnancy and due to sepsis. Other more frequent causes of ICU admissions in non-ventilated patients were poisonings and acute neurological disorders (Table II).

Table II

Primary reason for ICU admission

Primary reasonNon-ventilated (n = 1233)Ventilated (n = 19 135)P-value
Shock172 (13.9%)6043 (31.6%)< 0.001
Cardiac arrest32 (2.6%)5128 (26.8%)< 0.001
Postoperative287 (23.3%)5630 (29.4%)< 0.001
Multiple trauma74 (6.0%)668 (3.5%)< 0.001
Craniocerebral trauma35 (2.8%)930 (4.9%)0.002
Acute pancreatitis20 (1.6%)299 (1.6%)0.964
Obstetric complications14 (1.1%)49 (0.3%)< 0.001
Acute neurological disorders74 (6.0%)1374 (7.2%)0.133
Intoxication24 (1.9%)304 (1.6%)0.395
Severe metabolic disorders59 (4.8%)1067 (5.6%)0.265
Sepsis112 (9.1%)1272 (6.6%)0.001
Advanced monitoring834 (67.6%)10 636 (55.6%)< 0.001

The APACHE II score was calculated on ICU admission in 50.1% of non-ventilated patients and in 51.5% of patients in the remaining ICU population. The admission APACHE II score was significantly lower in non-ventilated patients (13.0 ±7.1 vs. 23.7 ±8.6 points, p < 0.001). Neurological condition expressed by the mean Glasgow Coma Scale on admission was better among non-ventilated patients: 13.7 ±2.4 vs. 6.7 ±4.1 points, p < 0.001).

During ICU stay, catecholamines and continuous renal replacement therapy were less frequently used among non-ventilated patients. Non-invasive ventilation was used more often among these patients (19.8% vs. 3.3%, p < 0.001). Comparison of various techniques used during ICU treatment in both groups is shown in Table III.

Table III

The ICU treatment

TreatmentNon-ventilated (n = 1233)Ventilated (n = 19 135)P-value
Catecholamines465 (37.7%)14 246 (74.4%)< 0.001
Tracheostomy0 (0.0%)3366 (17.6%)
Renal replacement therapy88 (7.1%)1814 (9.5%)0.007
Operation while in the ICU43 (3.5%)1795 (9.4%)< 0.001
Intra-aortic balloon pump23 (1.9%)524 (2.7%)0.081
ECMO0 (0.0%)63 (0.3%)0.080

The ICU mortality rate was much lower among non-ventilated patients than among the remaining population (7.0% vs. 46.7%, p < 0.001). The majority of patients were discharged from the ICU in good condition, in contrast to the other group (54.7% vs. 23.5%, p < 0.001). Duration of ICU stay was shorter among non-ventilated patients (5.2 ±6.1 vs. 10.8 ±15.0 days, p < 0.001 (Table IV).

Table IV

Discharge and outcome

FactorNon-ventilated (n = 1233)Ventilated (n = 19 135)P-value
General status at ICU dischargeGood675 (54.7%)4497 (23.5%)< 0.001
Average423 (34.3%)4927 (25.7%)< 0.001
Severe49 (4.0%)767 (4.0%)0.988
Death86 (7.0%)8944 (46.7%)< 0.001
Neurological status (Glasgow Outcome Score)Good825 (66.9%)5407 (28.3%)< 0.001
Moderate disability221 (17.9%)2421 (12.7%)< 0.001
Severe disability88 (7.1%)1435 (7.5%)0.680
Minimally conscious or vegetative13 (1.1%)928 (4.8%)< 0.001
Death86 (7.0%)8944 (46.7%)< 0.001
Discharge toSame hospital – other department874 (70.9%)7058 (36.9%)< 0.001
Other hospital215 (17.4%)2640 (13.8%)< 0.001
Long-term facility0 (0.0%)199 (1.0%)< 0.001
Home58 (4.7%)294 (1.5%)< 0.001
Death86 (7.0%)8944 (46.7%)< 0.001

A multivariable analysis, carried out on the basis of data presented in Tables I, II and Figure 2, indicated that the most important independent predictors for the lack of invasive ventilation at admission and during the ICU stay were: obstetric complications as the primary cause of ICU admission, presence of systemic autoimmune disease, invasive monitoring as the primary cause of ICU admission, ICU readmission and the presence of cancer. A full list of independent predictors is presented in Figure 3.

Figure 3

Independent predictors for lack of invasive ventilation in the ICU

https://www.archivesofmedicalscience.com/f/fulltexts/103634/AMS-15-36367-g003_min.jpg

Discussion

Patients with life-threatening, potentially reversible conditions constitute the group with the highest priority for ICU admission. Apart from such admissions however, there is also a large group of patients at risk of sudden deterioration, requiring intensive monitoring, but otherwise stable. Non-ventilated patients admitted to the ICU usually form a group of “pre-emptive” admissions. This makes it possible to avoid further ICU admissions of patients in critical condition, with much lower chances for survival [8, 9, 16].

Non-ventilated patients constitute a poorly defined population in the ICU. It is not clear what the overall percentage of these patients is. A brief review of the literature indicates that in this respect, observed differences between different countries and various healthcare systems may be enormous [1, 5, 1720]. One should remember, however, that the observed differences may be primarily associated with significant differences in the position and structure of ICUs in different countries [3, 4, 18].

There are many studies that describe the typical surgical population admitted routinely to the ICU postoperatively [20]. Results from such studies should not be compared to the results from this study, as they describe completely different populations. It has to be remembered that our study describes a highly selected population with numerous comorbidities, admitted to the general ICU in life-threatening conditions.

In many developed countries, the concept of having rapid response teams (RRT) or ICU outreach teams in place is becoming increasingly popular. Bannard-Smith et al. analysed data from 51 acute hospitals across Australia, the USA and Western Europe and found that among patients requiring review by the RRT, one in ten died within 24 h, one in four required ICU admission, and one in four had new limitation of therapy implemented [16]. This means that approximately 25% of patients identified by hospital early warning systems require an admission to the ICU and non-ventilated ICU patients might often be recruited from this group. In Poland, however, the concept of rapid response teams has not yet been adopted [17]. It is therefore not surprising that the percentage of non-ventilated patients in our study was low.

Would it then be safe to say that there are more non-ventilated ICU patients in Western countries in comparison with Poland? It is extremely difficult to answer this question. There has been no research published focusing on this particular subject; therefore, to make comparisons, we decided to analyse data describing ICU treatment due to various reasons [2124].

In the analysis of 334 238 admissions to general ICUs in Japan, invasive ventilation was used only in 23.3% of patients [22]. Harrison et al. [24] presented data on 129 647 admissions to 128 adult general ICUs in the UK. No data on ventilated or non-ventilated patients were given, but the average APACHE II score of all patients was only 16.5 points, so it was much closer to the mean APACHE II score of our non-ventilated patients (13.0 points) than to the mean score of our ventilated patients (23.7 points).

In a multicentre, prospective, cohort study, 773 adult patients were admitted to 45 ICUs over a two-month period in Brazil [21]. Only subjects requiring respiratory support for more than 24 h during the first 48 hours of ICU stay were included. Overall, 5573 of 7465 patients were excluded, so it may be assumed that approximately 75% of patients admitted to Brazilian ICUs were non-ventilated and remained non-ventilated for the first 24 h of their ICU stay. These figures are much higher compared to our data. The rate of comorbidities and overall ICU mortality rates in ventilated patients in Brazil were however quite similar to our ICU population (34% and 42%, respectively) [21].

We therefore tried to find any information available (given in a direct and indirect form) enabling us to assess the percentage of these patients in other studies. However, this was difficult, as studies available in the literature (from various countries) did not aim to describe the epidemiology of this issue. Information on the percentage of non-ventilated patients in the ICUs in different countries was eventually found only in a small number of studies and was variable: 43% [5], 56% [20], 61–79% [4], 75% [21] and 77% [22].

Vincent et al. compared patients with acute respiratory failure requiring and not requiring mechanical ventilation [19]. Patients requiring mechanical ventilation were older, more commonly with infections. Similarly to our invasively ventilated population, the length of ICU stay was also longer and the ICU mortality rate was more than double [19]. There were similar trends in the study by Franca et al. [5]. In our study, non-ventilated patients were also younger and were in a better general condition in comparison to the remaining ICU population.

Interestingly, among our non-ventilated patients we found a higher fraction of patients readmitted to the ICU (8.6% vs. 5.4%, p < 0.001). This is surprising, as a more severe course and worse outcomes should generally be expected in this group [11]. This low trigger for readmissions may be related to the fact that patients discharged from Polish ICUs are treated with special attention following their transfer to the general or surgical wards. A high ICU mortality rate amongst those patients, that the staff are aware of, may be influencing decisions about readmission to the ICU.

We found that a significantly higher percentage of non-ventilated patients were admitted to the ICU due to obstetric complications, multi-organ trauma, sepsis, poisonings and acute neurological disorders. In a systematic review published in 2010 by Pollock et al., pregnant or postpartum women accounted for 0.4–16.0% of ICU admissions [25]. In Poland, these percentages were significantly lower. Admitting a pregnant woman to the ICU in Poland is extremely rare (0.2% of analysed hospitalizations); therefore the trigger for ICU admission was probably very low and there might have been more pre-emptive admissions in this group. This resulted in a higher percentage of non-ventilated patients in this cohort.

It is worth paying attention to the fact that patients admitted to the ICU following cardiac arrest were also rarely found in the non-ventilated group, while among the remaining patients they constituted over a quarter of the population (2.6% vs. 26.8%, p < 0.001). Cardiac arrest is a common cause of ICU admissions worldwide and our results are comparable to those observed in the literature in this regard. In Western Europe, for example, this percentage is 35% [26], and in the developed Far East countries it is about 25% [23]. Cardiac arrest usually occurs shortly before ICU admission, and therefore probably the percentage of non-ventilated patients in this group was significantly low.

The non-ventilated patients who died in the ICU form a mysterious group in our registry. Such a scenario applied only to 0.4% of our general ICU population. It is possible that these are the few patients who were admitted to the ICU in a terminal condition with formal or informal do-not-resuscitate orders. There might be however also a substantial number of such patients among survivors in the non-ventilation arm of our study. Unfortunately, we are not able to identify those patients, as such information was not available in our registry. Wilson et al. analysed 27 studies evaluating 2020 patients with do-not-intubate orders [27]. He found that the pooled survival of such patients was 56% at hospital discharge and 32% at one year. He also pointed out that there were no studies to date evaluating quality of dying in non-survivors with do-not-intubate orders. It may be particularly interesting to explore this issue in Poland, as the official Polish Society of Anaesthesiology and Intensive Therapy guidelines on futile therapy published in 2014 [28] are still being ignored by many intensivists due to uncertainty regarding the legal consequences and/or pressure from other departments and the hospital administration [3].

Independent variables influencing being non-ventilated in the ICU in Poland were: obstetric complications as the primary cause of ICU admission, presence of systemic autoimmune disease, invasive monitoring as the primary cause of ICU admission, ICU readmission and the presence of cancer. All these identified variables clearly indicate that being non-ventilated in Poland is simply associated with a lower (e.g. earlier) “trigger” for ICU admission. Conclusions that may be drawn from this fact are more than obvious and are reliable. This is important, as univariate analyses carried out retrospectively, using large databases, sometimes yield unexpected results and should be always confirmed by multivariate analysis with the identification of independent variables [29].

When discussing issues regarding the care provided in Polish ICUs, organisational aspects also have to be taken into account. In a recent retrospective study performed by Weigl et al., the authors aimed to identify variables associated with ICU survival, with a focus on their structure. In this impressive, nationwide, big-data study, 48 282 adult ICU patients treated in 347 Polish ICUs were analysed [1]. Structural variables associated with ICU survival in the multiple logistic regression analysis were the tertiary level of care and higher annual ICU patient volume. The authors hypothesized that a potential reason for this survival benefit may be the mandatory nurse-to-patient ratio of at least 1 : 2.

Our study has several important limitations. One of them undoubtedly is the incomplete representativeness of the sample (not all Silesian ICUs report to the Silesian ICU Registry). Another limitation is the lack of clear definitions for some concepts used during the early years of the registry. Comparison of groups would also be more objective with the aim of propensity score analysis, although it would radically limit the sample size [30]. The strengths of the study, however, are the large population sample, a relatively broad representation of intensive care units (variously profiled) and a low number of patients excluded due to incomplete data.

In conclusion, characteristics of patients who are not invasively ventilated at admission and throughout the whole ICU stay contribute to the fact that there is a greater chance of a favourable outcome in this population. In particular, this applies to patients readmitted to the ICU, admitted to the ICU due to obstetric complications or for invasive monitoring, and to patients with autoimmune disease or cancer.

On the basis of the data presented it can also be confirmed that ICU mortality in Poland is high, but this is due to a serious systemic error in the structure of ICU admissions. Correction of this error requires profound administrative and educational changes. Increasing the number of patients who have both a high potential for favourable outcome and might benefit most from ICU admission is undoubtedly a step in the right direction.