Targeted Temperature Management Following Cardiac Arrest : In-Hospital Trends in Utilization

Narsingam et al. Int J Crit Care Emerg Med 2017, 3:026 Citation: Narsingam S, Abella BS, Grossestreuer AV, Chan PS (2017) Targeted Temperature Management Following Cardiac Arrest: In-Hospital Trends in Utilization. Int J Crit Care Emerg Med 3:026. doi. org/10.23937/2474-3674/1510026 Received: June 10, 2016: Accepted: May 13, 2017: Published: May 15, 2017 Copyright: © 2017 Narsingam S, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


Introduction
Cardiac arrest occurs commonly, with over 325,000 cases of Out-of-Hospital Cardiac Arrest (OHCA) and 200,000 cases of In-Hospital Cardiac Arrests (IHCA) occurring annually in the United States [1].Given low survival rates for both OHCA and IHCA, strategies such as post-arrest application of TTM have been developed to improve survival.TTM decreases cerebral oxygen demand and free radical formation and is thought to mitigate cerebral reperfusion injury after return of spontaneous circulation is achieved post cardiac arrest [2,3].The exact mechanism by which TTM is neuro-protectiveis believed to be through avoidance of cerebral perfusion injury.This concept was successfully tested in humans with OHCA due to Shockable rhythms such as Ventricular Fibrillation and Ventricular Tachycardia (VF/VT), wherein patients randomized to TTM were shown to have both higher rates of survival and favorable neurological outcome in two multicenter clinical trials [4,5].
Since the publication of these two landmark trials, TTM has become a standard treatment for cardiac arrest at many hospitals.However, its efficacy for Non-Shockable cardiac arrest rhythms, such as asystole and Pulseless Electrical Activity (PEA), is unclear.Some observational studies have suggested that TTM treatment in OHCA patients with Non-Shockable cardiac arrest rhythms may be ineffectual, and a recent meta-analysis reported, at best, a very small benefit but noted that almost all of the studies were of low quality evidence [6].
quired elements for each cardiac arrest patient as well as an additional 100 optional data elements.For each patient with cardiac arrest, PATH collects a variety of data on pre-, intra-and post-cardiac arrest factors.For the purpose of this paper, we were primarily interested in whether a patient received TTM treatment for IHCA vs. OHCA and for which type of underlying cardiac arrest rhythm from January 1 st , 2010 through November 30 th , 2014.

Statistical analysis
Baseline characteristics of patients treated and not treated with TTM were compared using descriptive statistics, including chi-square tests for categorical variables.Similarly, baseline characteristics of TTM-treated patients with a Shockable (VF and pulseless VT) vs. Non-Shockable (asystole and PEA) cardiac arrest rhythm were compared.
To examine trends in the proportion of patients treated with TTM with an OHCA vs. an IHCA, we first calculated the proportion of cases for each treated with TTM for each 3-month calendar year quarter over the 5-year study period.We then constructed linear regression models to assess whether the proportion of TTM-treated patients with an OHCA has increased, decreased, or remained unchanged over the 20 calendar year quarters using linear tests of trends.Similarly, to examine trends in the proportion of patients treated with TTM with a Shockable vs. Non-Shockable cardiac arrest rhythm, we calculated the proportion of TTM-treated patients in each group by calendar year quarters and assessed whether the proportion of TTM-treated patients with a Shockable cardiac arrest rhythm has increased, Similarly, whether TTM treatment improves survival for patients with IHCA-in which response times, comorbidity burden, and cardiac arrest etiology differ markedly from OHCA-has not been established, and threeobservational studies have not shown a survival benefit with TTM treatment [7][8][9].Despite this, current guidelines continue to recommend TTM in comatose cardiac arrest survivors even with Non-Shockable rhythms and IHCA based on expert consensus alone [10,11].
Given the lack of efficacy studies for TTM treatment beyond patients with OHCA due to VF/VT, it would be important to understand contemporary patterns of its use for cardiac arrest in routine practice.If the majority of treated patients have IHCA or a Non-Shockable cardiac arrest rhythm, it may suggest a need for additional clinical trials to examine treatment efficacy in these settings, especially given existing results from observational studies.Accordingly, we examined contemporary TTM treatment patterns for cardiac arrest (OHCA vs. IHCA; Shockable vs. Non-Shockable rhythms) and whether this has changed over time.

Methods
We used data from the Penn Alliance for Therapeutic Hypothermia (PATH) registry, a multicenter internet-based clinical registry that was developed to collect information for research on TTM treatment for cardiac arrest [12,13]

Results
Between January 2010 and November 2014, a total of 1,874 patients who had a cardiac arrest were enrolled in the PATH registry irrespective of whether TTM was instituted.Of these, 976 patients (52.1%) from 26 hospitals were treated with TTM as part of post-cardiac arrest care (Figure 1).All patients were treated with a target temperature between 32 °C-34 °C.Overall, patients of younger age, male sex, with an Out-of-Hospital cardiac arrest, a cardiac arrest etiology, and an unwitnessed arrest were more likely to be treated with TTM (Table 1).Moreover, TTM patients were more likely to decreased, or remained unchanged over time using linear regression models.Finally, we evaluated whether the proportion of TTM-treated patients with an OHCA due to a Shockable cardiac arrest rhythm-the indication for which TTM has been shown to be efficacious in randomized trials-has increased over time using similar analyses.
All analyses were performed using SAS (Version 9.3, Cary, N.C.) and evaluated at a 2-sided significance level of 0.05.Requirement for informed consent was waived by the institutional review board at Saint Luke's Hospital, as the study used de-identified patient data.Over 20 calendar quarters between 2010 and 2014, there was a mild increase in the proportion of TTM cases with an OHCA.
trend (P for trend of 0.05) toward greater use of TTM in patients with OHCA (Figure 2), with the proportion gradually increasing from about 75% in the early quarters to over 80% in the later quarters.In contrast, the proportion of patients receiving TTM for a Non-Shockable cardiac arrest rhythm remained unchanged over time (P for trend of 0.35) (Figure 3).Lastly, among the 921 TTM-treated patients with a Known cardiac arrest rhythm, TTM was initiated for an OHCA due to a Shockable cardiac arrest rhythm-the setting in w hich TTM has been studied in randomized trials-in only 37.9% (349/921) of treated patients, althoughthis proportion has increased over time from 30.6% in the earlier quarters to over 45.2% in the later quarters (P for trend of 0.04) (Figure 4).

Discussion
In a contemporary multi-site registry of cardiac arrests treated with TTM, we found that TTM was instituted in 52% of patients during post-resuscitation care and that the majority were patients with OHCA.However, the majority of treated patients did not have a Shockable cardiac arrest rhythm of VF or VT, and only 38% of patients treated with TTM had an OHCA due to a Shockable rhythm.Moreover, although a greater proportion of TTM-treated patients have had an OHCA due to VF/VT over the 5-year study period this proportion of treated patients with documented efficacy by clinical trials have a Shockable cardiac arrest rhythm than non-TTM patients.
Among the 976 patients treated with TTM, 398 (40.8%) had a Shockable cardiac arrest rhythm of VF or VT whereas 523 (53.6%) had a Non-Shockable cardiac arrest rhythm of asystole or PEA and 55 (5.6%) had an Unknown cardiac arrest rhythm.Four in five TTM-treated patients (785/976 [80.4%]) had an OHCA whereas 191 (19.6%) had an IHCA.Table 2 summarizes several factors related to TTM treatment.The average duration of TTM treatment was 23.7 ± 9.3 hours, and the mean duration of re-warming was 13.4 ± 6.6 hours.Overall, 398 (40.8%) of the TTM-treated patients survived to hospital discharge, and 309 (31.7%) survived to discharge with favorable neurological status (i.e., a cerebral performance category score of 1 or 2).
Over 20 calendar year quarters, there was a mild Over 20 calendar quarters between 2010 and 2014, there was no change in the proportion of TTM cases for cardiac arrests due to non-shockable cardiac arrest rhythms (asystole or pulseless electrical activity), and non-shockable rhythms continued to comprise the majority of TTM cases for cardiac arrest.
Abbreviation: PEA: Pulseless Electrical Activity.TTM patients (31%) vs. 17 TTM-treated patients (24%; P = NS) [7] and Nichol, et al. found no difference in rates of favorable neurological survival between 214 TTM-treated patients (18.7%) vs. 8102 non-TTM patients (20.1%), even after propensity score risk adjustment [8].More recently, in the largest study, to date, of the association of TTM for IHCA, Chan, et al. found no survival benefit (and potentially harm) with TTM among 1524 treated patients compared with 3714 non-TTM-treated patients [9].As a result, efficacy and comparative effectiveness data for the benefit of TTM treatment for IHCA remains lacking.
Randomized trials supporting TTM treatment in patients with Non-Shockable cardiac arrest rhythms of asystole or PEA have been similarly lacking.There have been a number of observational studies which have compared outcomes with TTM treatment among patients with Non-Shockable cardiac-arrest rhythms.Although earlier smaller studies reported improved outcomes, larger studies have not found that TTM treatment was associated with improved survival outcomes among patients with Non-Shockable cardiac arrest rhythms.For instance, Don, et al. found no difference in survival with TTMtreatment among patients with OHCA due to a Non-Shockable rhythm (odds ratio, 1.17, 95% confidence interval, 0.66-2.05)[16].A recent meta-analysis of 12 observational studies of TTM treatment in patients with Non-Shockable cardiac arrests found only a remained less than half of all TTM-treated patients.Collectively, our findings provide important insights into which cardiac arrest patient populations are being treated with TTM in routine care.
The 2002 publication of two landmark clinical trials for TTM treatment ushered in a dynamic new treatment that is expected to have improved survival and neurological outcomes for patients with OHCA due to VF [4,5].In routine practice, however, there appears to have been significant expansion of TTM treatment to other settings, such as Non-Shockable cardiac arrest rhythms and IHCA.This is underscored by recent guideline recommendations to consider use of TTM in these settings [10,11].However, for IHCA, hospital response times in initiating cardiopulmonary resuscitation are likely more rapid than from bystanders during OHCA, the advantages of initiatingTTM treatment in the In-Hospital setting to reduce reperfusion injury due to prolonged brain anoxia may differ as compared with the Out-of-Hospital setting.To date, randomized trials of TTM for IHCA in adults do not exist but a recent trial of TTM in children for IHCA found no difference in In-Hospital and 1 year survival between those managed with TTM to 32 to 34 Celsius vs. a control group which focused on avoidance for fever [15].Additionally, observational studies, though limited, have not found a consistent benefit of TTM for patients with IHCA.Kory, et al. found no difference in rates of survival to discharge between 16 non- any observational study would be able to control for significant indication bias, which can only be addressed in the context of a randomized clinical trial.
In conclusion, we found that, although TTM continues to be used primarily in patients with OHCA, only 2 in 5 patients treated with TTM had an OHCA due to VF/VTthe indication for which TTM has been rigorously evaluated.Although the proportion of TTM-treated patients with this proven indication has modestly increased over the years, this indication still comprises less than half of all patients treated with TTM in contemporary practice.As the majority of cardiac arrest patients treated with TTM have either an IHCA or a Non-Shockable cardiac arrest rhythm for which the benefit of TTM treatment remains unclear, there remains a critical need to rigorously evaluate the clinical efficacy of TTM in these clinical settings.The existence of national registries may provide a unique opportunity to conduct pragmatic trials of TTM in these other cardiac arrest settings.small non-significantdifference in rates of poor neurological outcome in a random-effects model (pooled OR, 0.95 [0.90-1.01])[6].Importantly, the authors assessed most studies were of low quality (e.g., small sample size and/or pre-vs.post-design with poor case-mix adjustment) and had significant potential for bias.Since that meta-analysis, a large study of 1145 OHCA patients found that TTM was associated with better neurological survival only in patients with Shockable rhythms but not in patients with Non-Shockable rhythms (OR, 0.71 [0.37-1.36]),while a different prospective study found no benefit with TTM treatment in 387 patients at hospital discharge (Hazard Ratio, 0.98 [0.53-1.50)or at 90-day follow-up (P = 0.82) [17,18].Finally, Chan, et al. found that TTM was not beneficial and potentially harmful for patients with IHCA due to a Non-Shockable cardiac arrest rhythm [9].
In the absence of randomized trials, observational studies can sometimes provide insights to support a treatment's use outside the studied indication, especially since randomized trials are resource-intensive and may not always be practical.Prior observational studies of TTM, however, have not provided solid confirmation of benefit with TTM treatment for either IHCA or cardiac arrests due to Non-Shockable cardiac arrest rhythms.Current resuscitation guidelines do recommend TTM in all comatose survivors, but this is based on expert consensus.However, since TTM is not without cost or adverse effects, there is a critical need for prospective randomized trials to establish its clinical efficacy for asystole and PEA rhythms and IHCA, in light of the observational evidence and the one recent trial for pediatric IHCA.Since large national cardiac arrest registries for OHCA and IHCA already exist, it would be reasonable to leverage existing data collection infrastructure to conduct pragmatic trials of TTM.Given that more than 3 in 5 patients treated with TTM after cardiac arrest have indications not studied in randomized trials and without definitive support from observational studies, national registries provide a unique opportunity to prospectively study the clinical efficacy of TTM treatment for Non-Shockable cardiac arrest rhythms in both the In-Hospital and Out-of-Hospital setting.
Our study should be interpreted in the context of the following limitations.The PATH registry reflects contemporary TTM treatment for post-resuscitation care across 26 centers.Although these centers represent a diverse group of hospitals, patterns of TTM treatment may differ among hospitals not participating within the PATH registry.Second, we did not compare outcomes between patients treated and not treated with TTM.This is, in part, because we did not have an adequately large sample size to compare outcomes between treated and untreated patients and as comparative outcomes are outside the scope of this study.Nonetheless, even if we had a large study sample, it is unlikely that

.
Established in 2010 by investigators at the University of Pennsylvania, participating U.S. hospitals collect data on patients resuscitated from IHCA and OHCA using Utstein style definitions, with a focus on post-resuscitation care, including information on TTM use[14].Member institutions submit data on 30 re-

Figure 3 :
Figure 3: Trends in the proportion of TTM cases due to a non-shockable cardiac arrest rhythm.

Figure 4 :
Figure 4: Trends in the proportion of TTM cases for OHCA due to a shockable cardiac arrest rhythm.Over 20 calendar quarters between 2010 and 2014, there was a mild increase in the proportion of TTM cases with an OHCA due to VF or pulseless VT-the indication in which TTM has been shown to improve survival outcomes in randomized trials.Abbreviations: OHCA: Out-of-Hospital Cardiac Arrest; VF: Ventricular Fibrillation; VT: Pulseless Ventricular Tachycardia.

Table 1 :
Baseline characteristics of patients treated and not treated with TTM within the path registry.

Table 2 :
Summary of TTM treatment and outcomes.
* (%) 309 (31.7) *Favorable neurological survival was defined as survival to discharge with a cerebral performance category score of 1 or 2, indicating no more than moderate neurological disability.