Moderately severe and severe acute pancreatitis : a systematic review of the outcomes in the USA and European Union-5.

BACKGROUND AND OBJECTIVES: The global incidence of hospitalisation due to acute pancreatitis (AP) has been rising in the recent decades. In the USA alone, there was a 13.2% increase between 2009 and 2012 compared with 2002-2005. There remains a lack of approved treatments to prevent disease progression, leaving many liable to developing complications that include multisystem organ failure (OF) and death. This therapeutic deficit raises questions about the scale of the current burden of illness (BOI) associated with severe forms of AP. The aim of the systematic literature review (SLR) was to assess clinical, humanistic, and economic outcomes associated with moderately severe AP (MSAP) and severe AP (SAP) in the USA and the European Union-5 (EU-5).
METHODS: Systematic searches were conducted in MEDLINE and Embase to identify studies published in English (between 2007 and 2017) that reported on the BOI of MSAP and/or SAP. Manual searches of 'grey' literature sources were also conducted.
RESULTS: The SLR identified 19 studies which indicated that 15%-20% of patients with AP progress to more severe forms of the disease, up to 10.5% of those with SAP require surgery for complications, and up to 40% die during hospitalisation. By contrast, there appears to be a lack of data on the extent to which SAP affects patients' quality of life.
CONCLUSION: The available evidence clearly demonstrates that the current management for MSAP and SAP in the USA and EU-5 does not adequately meet patients' needs. Early identification and intervention for AP is crucial, given the evidence of high rates of morbidity and an associated economic burden that is considerable. Since many patients with the condition present to hospitals at a point when multisystem OF or death is highly likely, there is a particularly urgent need for effective treatment options to prevent disease progression.

Introduction

Acute pancreatitis (AP) involves acute inflammation of the pancreas and, sometimes, adjacent tissues. The occurrence of the condition has been increasing during the last 40 years, with incidence rates ranging from 20 to 80 per 100 000 per annum and varying across countries.1 The proportion of Japan’s population, for example, diagnosed in 2011 was estimated at 49.4 per 100 000, representing a 1.8-fold increase over the previous decade.2 A lower incidence estimate of AP hospital admissions has been reported in Europe. In Scotland, the incidence of AP hospital admissions was estimated at 33.1 per 100 000 per year between 2009 and 2012.3 This, coupled with the rising global epidemiological burden of AP, helps to account for why the condition is a major consumer of healthcare resources and a significant driver of costs. AP accounted for 275 000 hospital admissions and US$2.6 billion in direct treatment costs in 2009 in the USA, where it is one of the leading gastrointestinal diseases.4

AP can rapidly progress into moderately severe AP (MSAP) or severe AP (SAP),5 and there is a lack of standard care of treatment for AP or SAP.6 Therefore, early clinical recognition of AP is crucial to managing disease progression—evidence shows that after the initial 48–72 hours, the progression of disease may be fully established, leading to multisystem organ failure (OF). Historically, however, inconsistencies in defining and categorising the severity of AP have presented a challenge in this regard and have complicated the delivery of appropriate care to patients with this potentially life-threatening condition. Against this background, the revised Atlanta classification (RAC) of AP was proposed in 20125 to address confusion and related variation in classifying AP severity. The RAC defined and classified populations into the following three groups, with persistent OF being the main determinant of severity: mild AP (when no OF or local or systemic complications are present); MSAP (when OF is present and resolves within 48 hours and/or local or systemic complications are present but without persistent OF) and SAP (when OF persists over 48 hours). This classification considers a biphasic natural course of AP, specifically, an early phase in which the presence or absence of persistent OF is determined, and a late phase in which local or systemic complications are investigated.

While the RAC has facilitated recognition of AP and early prediction of its progression to severe forms of the disease, there remain key questions about how patients with, or at risk of, SAP are best managed. Current traditional treatment for SAP, however, has been primarily conservative with more active management of disease progression being limited by the lack of globally recognised treatments. Protease inhibitors, such as gabexate mesilate, nafamostat mesilate and ulinastatin (UTI), have been recommended as treatments for AP and/or SAP in China, Japan and India7–11 but not in other countries. For example, randomised controlled trial (RCT) evidence showed that UTI was associated with a lower risk of mortality among patients with SAP compared with placebo,12–14 but not among patients with AP that was not classified as severe. No product has received such formal approval for SAP in the USA and Europe. Instead, the focus has remained mainly on the management of any known underlying conditions and the provision of supportive care (such as intravenous fluid, antibiotics, drainage therapy and enteral feeding).

The increasing incidence of AP, the potentially devastating consequences of its progression and the lack of licensed pharmacological interventions collectively raise questions about the scale of the current burden among those with the most severe disease. With such issues in mind, we conducted a systematic literature review (SLR) that aimed to provide a broad overview of the burden of illness (BOI) associated with MSAP and SAP in the USA and the European Union-5 (EU-5). A key objective of this research was to systematically collate and present relevant evidence to provide insights into the clinical challenges and outcomes specific to the most severe forms of AP.

Methods

The SLR aimed to develop an overview of the BOI associated with MSAP and SAP by creating a framework based on the following review questions:

What are the characteristics of patients diagnosed with MSAP and SAP, in terms of age, gender, aetiologies and comorbidities?

What are the incidence and prevalence of MSAP and SAP? What proportion of patients with AP presentation progresses to MSAP or SAP?

What are the clinical outcomes including mortality, morbidity and complications associated with MSAP and SAP?

What is the quality of life (QoL) of patients diagnosed with MSAP or SAP?

What is the economic burden of MSAP and SAP?

What real-world interventions are being given to patients with MSAP and SAP in the context of the lack of approved specific treatments for AP, MSAP or SAP?

Study identification

The SLR followed a prespecified review protocol (online supplementary appendix A) and was conducted in accordance with the quality standards recommended by the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) statement15 and the Cochrane Handbook for Systematic Reviews.16

Searches were conducted in MEDLINE (including MEDLINE In-Process) and Embase. Only studies that met all inclusion criteria were included. MSAP was defined as a separate AP severity entity beginning in 20125; consequently, separate searches for AP and SAP were conducted to maximise the chances of identifying relevant data on MSAP and SAP and to address the heterogeneity in how these two disease groups have been defined in the recent literature.

The separate search strategies included a combination of controlled vocabulary and free-text terms, as recommended by the Cochrane Collaboration.17 Full details of the searches are described in the online supplementary appendix A. Additionally, proceedings from the previous 3 years (2015–2017) of key conferences were also manually searched. Bibliographies of all relevant SLRs identified during the evidence search were also reviewed to identify any relevant missing publications.

Studies selection and data extraction

A three-stage screening process was applied to determine the most relevant studies as defined by the protocol. First, title and abstract screening of all unique references identified in both literature databases and grey sources was reviewed against these selection criteria. Studies that reported on multiple outcomes were cross-checked to ensure that all relevant data sources on a particular outcome were considered for inclusion.

Second, owing to the high volume of evidence retrieved, additional selection criteria were applied systematically. For AP and MSAP studies, only those published after 2012 (the year of publication of the RAC) were ultimately included. For the SAP studies, those published between 2007 and 2017 were considered for inclusion.

Finally, the full-text versions of all the publications considered relevant based on the additional criteria were assessed for their suitability for inclusion and full data extraction. All publications were reviewed by one researcher and 50% of the screening decisions were validated by a second, senior researcher. Any discrepancies were resolved by a third researcher.

Relevant data were fully extracted by one investigator using a predesigned template separated by outcome. All data was validated by a second investigator and any discrepancies were resolved by a third investigator.

Synthesis of results

During data extraction and evidence synthesis, it was noted that there was marked variation in how AP severity had been classified across included studies. This inconsistency mainly reflected differences in the time of data collection, as well as the introduction of different classification systems. Accordingly, to enable cross-study comparison and accurate presentation of outcomes by severity group, the populations included in the studies were reclassified as part of the review using the RAC 2012 criteria, where possible. If the authors had not provided such data, their definitions of various forms of AP were accepted as reported. When a study presented data for more than one severity group, these subgroup results were presented separately in the SLR for MSAP and SAP. Studies providing data on mixed-severity populations without stratification of results by severity were not included in the synthesis of results.

Results

The AP and SAP searches (electronic and conference proceedings) yielded a total of 4925 unique records, of which 1024 full-text publications were reviewed. A total of 118 unique studies presenting information on the outcomes of interest for all AP severity groups across the two searches were included (figure 1). After the reclassification of populations using the RAC 2012 criteria, 19 studies (reported in 21 publications) that included MSAP and/or SAP patient populations were identified and further considered in this SLR (figures 1 and 2). Of note, 52 of the 118 studies exclusively included patients with mild AP and 47 included mixed AP severity; those were not considered further in this SLR with the exception of one study with mixed AP severity3 which provided information on the size of the SAP population subgroup. This study3 was included in the reporting of epidemiological outcomes.

Figure 1

Preferred Reporting Items for Systematic Review and Meta-Analysis diagram of studies evaluating patients with SAP and with AP before reclassification. AP, acute pancreatitis; HRQoL, health-related quality of life; SAP, severe acute pancreatitis; SLR, systematic literature review.

Diagram of included studies evaluating patients with MSAP and SAP after reclassification. *Only studies reporting data of MSAP or SAP according to RAC 2012 are included in this manuscript. †Findings relating to AP or mixed AP/SAP studies are not summarised in this manuscript. AP, acute pancreatitis; MSAP, moderately severe acute pancreatitis; RAC, revised Atlanta classification; SAP, severe acute pancreatitis.

Six18–24 (reported in seven publications) of the 19 included studies were US based. Of the 13 EU-5 studies, five3 25–28 were conducted in the UK, three each in Germany29–31 and Italy,32–34 and one each in France35 and Spain.36 Overall, most studies were of a retrospective design (13 studies),3 21–23 25–33 were based on single-centre hospitals (13)18–22 24–26 28 29 31 33 35 36 and were principally tertiary referral units for which the reporting was exclusively on patients with SAP (10).22 23 25–31 33 The sample size of these studies varied considerably, from 2025 (in a single-centre UK study) to 2677 (for a study based on the UK national intensive care unit (ICU) database).27 Four studies19 21 24 36 (reported in five publications) presented subgroup information for patients with MSAP and these are presented separately.

Characteristics, aetiology and comorbidities of patients with MSAP and SAP

Most of the patients with MSAP and SAP in the included studies were men (51%–71.4%)21 33 and all were aged in their 50s (52.5–65.8)22 32 (tables 1 and 2). Gallstone/biliary disease and alcohol were the most common aetiological factors in both the USA and EU-5 studies. Most specifically, among the SAP studies, gallstone/biliary aetiology was present in 31%29–45%19 of patients in the USA and 33%24–61.1%34 of those in the EU-5 studies, whereas alcohol aetiology was present in 17%22–33%24 of patients in the USA and 8.4%34 in the EU-5. Although, idiopathic aetiology was not widely reported in the included studies, it still accounted for up to 20%24 (USA) and 13.6%36 (EU-5) of SAP cases. A similar trend in idiopathic aetiology was identified in the studies including patients with MSAP.19 21 24 36

Epidemiology

Given the variations in diagnosis and severity assessment criteria of AP across studies over previous decades, the rapidly evolving features of disease progression, and the fact that most studies of patients with SAP were conducted in single-centre specialist hospitals, it is difficult to derive definitive data on key aspects of the epidemiology of MSAP or SAP, particularly in the USA.

In our review, only one EU-5 study3 reported on the incidence of patients with SAP who required critical care admission (data collected between 2009–2012 and found this to be 5.9/100 000 per year (table 3). Another study from Italy reported that the proportion of AP patients progressing into SAP to be 14.2%.34

Table 3

Proportion of patients who progressed to MSAP or SAP among those who had presented with AP symptoms at hospital admission

Author, year; country	Study design and setting	Study population	Sample size (patients with AP symptoms)	MSAP cases		SAP cases
				Number	Proportion	Number	Proportion (%)
USA studies
Single-centre hospital
Bhat et al, 200718; USA	Prospective cohort; hospital	Consecutive patients with AP admitted to a single hospital within 48 hours of onset of symptoms between June 2003 and January 2005	91	NR	NR	19*a	20.9
Koutroumpakis et al, 201719; Koutroumpakis et al, 201420; USA	Prospective cohort; hospital	Patients with AP enrolled at single centre from 2003 to 2014	400	94	23.5%	98	24.5
Kwong et al, 201621; USA	Retrospective cohort; secondary care	Consecutive patients admitted with AP to single institution from November 2010 to December 2013	514	65	13%	15*b	3
Talukdar et al, 201224; USA	Prospective cohort study; three hospitals	Consecutive patients with AP presented at a single institution between June 2004 and August 2005	137	27	19.7%	15*c	10.9
EU-5 studies
Single-centre hospital
Gonzelez et al, 201125; UK	Retrospective study of prospective data; tertiary referral centre	Patients admitted with AP to tertiary referral centre between January 2008 and December 2009	127	NR	NR	32*c	25.2
Multicentre hospital
De Rai et al, 201034; Italy	Prospective cohort; 56 centres	National sample of patients with AP admitted to hospital between July 2002 and December 2011	1173	NR	NR	167*c	14.2
Mole et al, 201633; UK†	Retrospective cohort; 16 health boards	National sample of patients admitted to hospital for AP between April 2009 and March 2012	2053	NR	NR	390*d	19
ICU setting
Harrison et al, 200727; UK	Retrospective cohort; general critical care units	ICNARC coding	219 468	NR	NR	2677	1.2

Only studies with unselected populations for specific characteristics or comorbidities are presented.

*Severity assessment criteria: (a) APACHE II and Ranson score, (b) RAC, 2012, (c) Atlanta classification, 1992, (d) clinical presentation.

†Study providing information on the size of the subgroup with SAP populations among all those who presented with AP, included for the reporting of epidemiological outcomes.

AP, acute pancreatitis; APACHE, Acute Physiology And Chronic Health Evaluation; EU-5, European Union-5; ICNARC, Intensive Care National Audit and Research Centre; ICU, intensive care unit; MSAP, moderately severe acute pancreatitis; NR, not reported; RAC, revised Atlantic classification; SAP, severe acute pancreatitis; UK, United Kingdom; USA, United States of America.

Mortality

Overall, mortality and morbidity increased with disease severity across the studies (tables 4 and 5). Results from four studies19 21 24 36 presenting within-study comparisons of outcomes by AP severity group provide more reliable estimates of differences using a relatively homogeneous population (in terms of the study setting, years of data collection, AP severity classification systems) compared with cross-study comparisons. In three of these studies, the risk of death for patients with MSAP was 0%19 24 36 compared with 21%–40%19 24 for patients with SAP. A similar pattern regarding SAP mortality was found across the other 14 studies,18 22 23 25–35 with the risk ranging from 13.6%27 to 41.9%27; EU-5 estimates on mortality were higher for SAP than US estimates (41.9%).27 However, the available EU-5 estimates on SAP mortality need to be viewed with caution because of the lack of reported information to allow reclassification of patients according to the RAC 2012 criteria.

The longer term mortality for patients with SAP (4 years postdischarge) was 12.3% as reported by one study.32

Morbidity and complications

A total of 15 studies (11 from the EU-5 and four from the USA) reported outcomes relating to morbidity or complications associated with either MSAP (four studies)19 21 24 36 or SAP (13 studies)18–20 24 25 27 29–36 (table 4). Reported high morbidity across studies included severe systemic inflammatory response syndrome (SIRS; estimated to occur in 65% of US patients with SAP19; no data reported for patients with SAP in the EU-5), multisystem OF (US studies: 47.4%–60%18 19; EU-5 studies: generally 25%–36.4%,31 36 with one small study (n=35)35 reporting a significantly lower occurrence of 4.2% among patients with SAP) and admission to critical care (US studies: 80%–93%, EU-5 studies: 60.7%).19 24 35 Limited evidence was found for the proportion of patients with SAP with infected pancreatic necrosis (IPN; 21.1%–32%)18 19 in the USA or those needing surgery due to pancreatic necrosis (PN; 4.8%–10.5%)27 34 in the EU-5.

Table 4

Summary of clinical outcomes: complications and mortality

	IPN(n studies; range)	Surgery due to pancreatic necrosis	Pancreatic pseudocysts	Other long-term outcomes of surviving patients	Hospital mortality	Long-term mortality
USA
MSAP (as defined by the authors; two studies)	1 (9%)	NR	NR	NR	1 (0%)	NR
SAP (as defined by the authors; four studies)	3 (21.1%–32%)	NR	NR	NR	4 (21%–40%)	NR
EU-5
MSAP (as defined by the authors; one study)	1 (10%)	1 (16.7%)	1 (0%)	NR	1 (0%)	NR
SAP (as defined by the authors; 11 studies)	7 (4.8%–11.4%)Outlier: 40%	4 (4.8%–10.5%)Outlier: 25%	1 (2.3%)	2 (4.1%–93%)	12 (17.8%% –41.9%)Outlier: 5%	Mean follow-up 49 months1 (12.3%)

EU-5, European Union-5; IPN, infected pancreatic necrosis; MSAP, moderately severe acute pancreatitis; NR, not reported; SAP, severe acute pancreatitis; USA, United States of America.

Although the morbidity of MSAP was not found to be as high as in patients with SAP, limited evidence (mainly from US studies) showed that the condition was often still associated with poor outcomes. For instance, 48%19 had SIRS, 26.1%21 had OF and up to 23%21 were admitted to the ICU. Similarly, since some studies did not provide sufficient information to allow reclassification of patients according to RAC 2012, estimates from the EU-5 studies should be interpreted with caution.

Humanistic outcomes

Limited evidence was identified on the humanistic burden of SAP from one US retrospective study22 and no studies reporting on such outcomes were identified for MSAP. The US retrospective study22 included surviving patients with SAP who required ICU admission (at a median of 42 months follow-up) and showed that QoL (as measured by the 36-item Short Form survey) appeared to be acceptable compared with that of their healthy peers.

Economic outcomes

Twenty-three studies (12 from the USA and 11 from the EU-5)19 22 24–27 29 30 33 36–48 reporting on economic outcomes related to SAP and MSAP were identified in this review. One study in patients with SAP reported the mean inpatient costs of US$136 730 per patient (cost year not reported (NR)) for those who were transferred to the ICU and did not survive, compared with US$88 434 for those who did survive.22

In the USA, patients with MSAP stayed in the hospital for a range of 624–1219 days; this duration was much shorter than for those with SAP (16.5–40 days).22 This wide span for the SAP group reflects differences in severity classification and the type of complications involved. More specifically, patients with longer hospital stays were those with the most severe forms of disease. This included patients with peri-PN or PN, IPN (15–21 days in hospital)38 45 compared with those without these complications: (4 days)44; multisystem OF (19–30 days),42 compared with those without (7–9 days)); isolated renal or pulmonary failure (24.7 and 28.8 days, respectively)37 and those requiring admission to the ICU (38–40 days).22

In general, studies from the USA evaluating ICU length of stay (LOS) reported similar results: 2.5–4 days19 24 for MSAP and 4.5–14 days19 24 for SAP. The one exception was one a retrospective study involving patients with SAP in which those who survived hospital admission for AP had an ICU LOS of 15 days and those who did not stayed in the ICU for 28 days.22 This reflects the variations in disease severity and the associated number of complications across studies.

There was a similar trend in the length of ICU stay across the EU-5 studies (MSAP: 7.6 days (study not systematically identified)36 and SAP: 3.827–28.4 days; both studies not systematically identified).36 In patients with SAP, most studies reported hospital LOS ranging from 21 to 51 days (all studies not systematically identified).25 29 30 47 48 More specifically, patients with ≥100 mL extrapancreatic necrosis volumes and those rated as severe on the CT severity index had the highest hospital LOS (39.2 and 59.8 days, respectively; study not systematically identified).46 However, a few studies reported shorter LOS in patients who survived admission to the ICU (15 days),27 presurgery patients for IPN (12.6 days)33 and patients admitted to the ICU in a tertiary referral centre (4 days; study not systematically identified).26

Need for interventions for patients with MSAP and SAP

In US studies, the proportion of patients with MSAP given supportive interventions currently available for AP (eg, nutritional support, drainage, mechanical ventilation (MV)) was 3.7224–51%19; however, as expected, the proportion was higher for those with SAP (47%–90%).19 21

The use of supportive interventions in the EU-5 studies followed the same trend as the USA, with patients with SAP being more likely to require different interventions (such as MV, vasoactive support, percutaneous or transgastric drainage or renal replacement therapy (5%–94.7%)26 36 compared with patients with MSAP (0%–16.7%).36 Among patients with SAP, those who required such interventions most frequently were those with PN (89.5%)30 and those who developed complications during admission to the ICU (81.8%–94.7%).36 However, no significant differences were found in surgery rates between studies of patients with SAP (5%–26.7%)25 26 and studies of patients with mixed AP/SAP (data not presented).

Discussion

To our knowledge, this SLR provides a unique overview of the BOI associated with severe forms of AP, spanning epidemiological, clinical, humanistic and economic outcomes. It surpasses the scope of previous overviews on AP by taking an in-depth look at the BOI associated with MSAP and SAP, as defined by the RAC. In doing so, the results of this SLR not only highlight the high burden associated with SAP and with most outcomes for MSAP but also underline the key differences in the outlook of the two conditions.

Evidence on the clinical and economic consequences of these more severe forms of AP showcases their significant additional burden. Studies including patients with SAP typically reported a much higher proportion of patients experiencing adverse clinical outcomes compared with patients with MSAP, even though there was wide variation in the results primarily due to the heterogeneous patient populations across studies. This also holds true for other outcomes including comorbidities and complications, economic burden and the use of interventions targeting complications or supportive care; these trends were generally similar in the USA and the EU-5.

The data clearly demonstrates that despite recent advances in standardising how severe forms of AP are recognised and classified, many patients progress to SAP, a condition that is often fatal. That this remains common, even in industrialised countries with sophisticated healthcare systems, accentuates how little clinicians can currently offer patients to prevent or effectively manage such disease progression. The lack of such targeted treatment is likely to represent an ever-growing problem given current epidemiology trends towards more common global occurrence of AP.

Strength and limitations

The major strength of this study is the systematic approach of identification and collection of the most relevant evidence to facilitate cross-study comparisons. This was achieved by reclassifying patients based on severity criteria using the most recent international classification tool (RAC 2012). However, because of the variations in diagnosis criteria and severity assessment of AP across studies, some that did not report data on persistent OF (single or multiple, lasting for ≥48 hours) could not be reclassified using the RAC 2012. It is possible there was an under-reporting of the occurrence of SAP or complications related to SAP in those studies. On the other hand, for SAP studies (as defined by the authors) published before 2012, there could be an overestimation of the occurrence of SAP because their categorisation of this condition may have included some patients who would now be classified as having MSAP according to RAC 2012 criteria. The assessment of the extent to which such underestimation or overestimation occurred was beyond the scope of the review.

This study was also limited by scarce data on outcomes for MSAP, which is not surprising given that this severity category was only created in 2012 by the RAC. Further research is needed to determine to what extent some of the aggressive interventions commonly used for patients with SAP (such as surgeries, drainage, renal replacement therapy and catheterisation) are necessary for patients with MSAP which will result to limiting complications related to these interventions and hospital treatment costs.

There is also only limited evidence on key epidemiological features of AP because of the lack of data on the true population prevalence of MSAP and SAP in this study. It is key to identify the proportion of patients who initially appear with a mild form and later progress to more serious forms of disease (MSAP, SAP) to investigate the epidemiology of AP. This is particularly important for identifying the population size for potential targeted preventive interventions, potential transfer to the ICU for specialist treatment and active interventions. Ideally, a prospective-based, multicentre study which follows patients who present with AP symptoms and further develop severe forms of the disease will provide data with more generalisable results for the MSAP and AP population size. However, data in the literature was scarce.

There was insufficient data assessing economic burden—only limited evidence was found on the inpatient costs for patients with SAP who were transferred to the ICU, and no data were found for patients with MSAP. Similarly, the evidence was sparse on the humanistic consequences of SAP, a crucial requirement for understanding the impact of the condition on patients and carers.

Lastly, given the variations across studies in terms of setting, baseline patient characteristics and diagnostic/disease severity criteria, meta-analyses of the results were not possible.

Conclusion

Early and accurate classification of the severity of AP is crucial for managing the disease and preventing its progression. Evidence shows that after the initial 48–72 hours, the progression of AP to SAP may be fully established and multisystem OF may be inevitable. Despite the advances in scoring systems to more accurately recognise AP severity, more than 15%–20% of patients with AP will develop SAP and up to 40% of this subgroup will die as a result. This and other aspects of the BOI associated with SAP, and to a lesser extent, MSAP highlight the limitations of current therapy, particularly the lack of approved interventions that target disease progression.

Table 1

Summary of patient characteristics among MSAP and SAP populations

Study population	Age (mean):n studies, range	Gender: malen studies, range	Aetiology of pancreatitis*n studies, range					Severity score at critical care admission†n studies, range			Duration of symptom since admission
			Alcohol	Biliary as reported	Gallstone as reported	Overall biliary	Idiopathic	APACHE II	Ranson	BISAP
USA
MSAP (three studies)	Three studies: 51–58‡	Three studies: 47%–52%	Three studies: 18%–22%	One study: 31%	Two studies: 35%–44%	31%–44%	Three studies: 17%–26%	One study: 9	NR	NR	NR
SAP (six studies)	Six studies: 46–62‡	Four studies: 46%–60%	Four studies: 17%–33%	Three studies: 31%–45%	Two studies: 40%–44%	31%–45%	Three studies: 13%–20%	Three studies: 11–13.9	One study: 4.8	NR	NR
EU-5
MSAP (one study)	One study: 57	One study: 58.3%	One study:16.7%	NR	One study: 41.7%	41.7%	One study:8.3%	One study: 6.13	One study: 1.78	NR	NR
SAP (12 studies)	Eleven studies: 54–66	Eleven studies: 45%–71%	Nine studies: 8.4%Outlier: 40%	Seven studies: 33%–61.1%	Three studies:44.6%–50%	33%–61.1%	Three studies: 3%–13.6%	Four studies: 7.24–17	Three studies: 1.86–3.8	NR	NR

*Other less common aetiologies reported across studies were summarised narratively only.

†Other less common severity assessment tools and their scores were summarised narratively only.

‡Median value.

APACHE, Acute Physiology and Chronic Health Evaluation; BISAP, Bedside Index of Severity in Acute Pancreatitis; EU-5, European Union-5; MSAP, moderately severe acute pancreatitis; NR, not reported; SAP, severe acute pancreatitis; USA, United States of America.

Table 2

Patient characteristics—studies in patients with MSAP or SAP

Author, year; country	Study design; setting (data period)	Diagnostic criteria	Severity assessment criteria	Sample size	Agemean (SD); median* (IQR)	Aetiology of pancreatitis (>5%)	Severity score at admission
USA studies: MSAP
Kwong et al, 201621; USA	Retrospective cohort; secondary care 2010–2013	ACG criteria	RAC, 2012	514 (for all severity groups)	55.5 (18.6) (for all severity groups)	For all severity groups:Gallstones: 35%Alcohol: 18%Idiopathic: 17%Post-ERCP: 14%HTG: 3%Pancreatic cancer: 3%Hypercalcaemia: 1%Other: 9%	NR
US studies: MSAP and SAP
Koutroumpakis et al, 201719; USA	Retrospective cohort; tertiary centre 2004–2014	ACG criteria	MAP: absence of any systemic or local complicationsMoAP: some of the following: TOF Exacerbation of baseline comorbidities Local complications including PN and PPN SAP: RAC, 2012	Total: 400Mild AP: 208MSAP: 94SAP: 98	Total: 52 (19)Mild AP: 51 (19)MSAP: 51 (19)SAP: 54 (17)	Total/AP/MSAP/SAPBiliary: 39%/39%/31%/45%Alcoholic: 14%/9%/18%/18%Idiopathic: 20%/21%/23%/13%HTG: 7%/3%/11%/12%Post-ERCP: 14%/19%/12%/4%	NR
Talukdar et al, 201224; USA	Prospective cohort; three hospitals 2004–2005	ACG criteria	MAP: no OF or local complicationsMSAP: local complications but no POFSAP: POF with/without local complications	MAP: 95MSAP: 27SAP: 15	MAP: 54* (39–70)MSAP: 58* (41.5–70)SAP: 62* (50–83)	MAP/MSAP/SAPGallstone: 41%/44%/40%Alcohol: 13%/22%/33%HTG: 6%/0%Hypercalcemia: 2%/0%After ERCP: 12%/4%Idiopathic: 20%/26%/20%	APACHE IIMAP: 6* (3–9)SIRSMAP: 1* (0–2)APACHE IIMSAP: 9* (4.5–10)SAP: 12* (12–15)SIRSMSAP: 1* (0.5–2.5)SAP: 2* (0–3)
US studies: SAP
Bhat et al, 200718; USA	Prospective cohort; hospital 2003–2005	ACG criteria	APACHE II and Ranson score	MAP: 72SAP: 19	MAP: 50 (SE: 2.36; range: 15–89)SAP: 52.5 (SE: 4.6; range: 22–90)	MAPBiliary: 34.7%After ERCP: 23.6%Idiopathic: 18%Alcohol: 9.7%HTG: 5.5%Drugs: 4.1%Tumours: 4.1%SAPBiliary: 31.5%After ERCP: 15.8%Idiopathic: 15.8%Alcohol: 26.3%HTG: 5.2%Drugs: 5.2%Tumours: 0%	APACHE IIMAP: 6.3 (SE: 0.4; range: 3–9.6)Ranson scoreMAP: 0.9 (SE: 0.1; range 0–2)APACHE IISAP: 13.9 (SE: 1.1; range: 9–19)Ranson scoreSAP: 4.8 (SE: 0.5; range: 3–8)
Mutch et al, 201123; USA	Retrospective cohort; seven hospitals (2008)	NR	LOS, type of nutrition ordered, and multiple complications	24	46* (IQR NR)	NR	NR
Soran et al, 200022; USA	Retrospective cohort; secondary care 1992–1996	NR	APACHE II score	52	52.5 (range: 22–89)	Gallstones: 44%Alcoholic: 17%Other: 39%	APACHE II scoreTotal: 11 (6)Survivors: 10 (6)Non-survivors: 16 (4)Difference between groups, p<0.01
EU-5 studies: MSAP and SAP
Pintado et al, 2016 36 ; Spain	Prospective cohort; 14-bed medical and surgical ICU 2010–2014	ACG criteria	APACHE II score, Balthazar criteria, RAC, 2012, Ranson score, and SOFA score	MSAP: 12SAP: 44	MSAP: 57.08 (20.64)SAP: 63.59 (14.18)	MSAPGallstones: 41.7%Alcohol: 16.7%Idiopathic: 8.3%After ERCP: (8.3%After surgery: 16.7%HTG: 8.3%Others: 0%SAPGallstones: 50.0%Alcohol: 11.4%Idiopathic: 13.6%After ERCP: 9.1%After surgery: 4.5%HTG: 2.3%Others: 9.1%	Ranson scoreMSAP: 1.78SAP: 1.86APACHE IIMSAP: 6.13SAP: 7.24SOFAMSAP: 10.48SAP: 3.85
EU-5 studies: SAP
Castoldi et al, 201332; Italy	Retrospective cohort; 35 hospitals (NR)	NR	Atlanta Classification, 1992	631	All patients: 65.8 (18.4)	Biliary: 69.6%Alcoholic: 5.7%Others: 7.8%Unknown: 17.0%	NR
Cinquepalmi et al, 200633; Italy	Retrospective cohort; hospital 1990–2005	NR	APACHE II score, Ranson score, and Sepsis score	35	55 (11)	Biliary: 57.1%Iatrogenic: 14.3%Alcoholic: 20%Idiopathic: 8.6%	Ranson: 3.8 (1.7)APACHE II: 12.0 (3.4)Sepsis: 17.7 (4.1)
De Rai et al 34 (2010); Italy	Prospective cohort; 56 centres 2001–2003	ACG criteria	Atlanta Classification, 1992	MAP: 1006SAP: 167	NR	MAPBiliary: 802/1,006 (79.7%)SAPBiliary: 102/167 (61.1%)Alcohol: 14/167 (8.4%)Unknown: 37/167 (22.2%)Other: 14/167 (8.4%)	SAP Glasgow Score: 4
Gomercic et al 35 (2016); France	Prospective cohort; hospital 2010–2012	Atlanta Classification	NR	Complicated AP: 36Uncomplicated AP: 35	Complicated AP: 53.1Uncomplicated AP: 53.5	Complicated APAlcoholic: 47.2%Biliary: 38.8%Other: 13.8%Uncomplicated APAlcoholic: 25.7%Biliary: 45.7%Other: 28.5%	NR
Gonzelez et al 25 (2011); UK	Retrospective study of prospective data; tertiary referral centre 2008–2009	ACG criteria	Atlanta Classification, 1992	20	53.5* (36–81)	Gallstones: 45%Alcohol: 55%	NR
Hall et al 26 (2013); UK	Retrospective cohort; tertiary referral centre 2003–2011	2004 consensus guidelines	APACHE II score	101	60* (50–73)	Gallstones: 44.6%Alcohol: 29.7%Drugs: 1%Other: 9.9%Idiopathic: 3.0%Unknown: 11.9%	APACHE II: 16* (12–21)
Harrison, 200727; UK	Retrospective cohort; general CC units 1995–2003	ICNARC coding	Admission reason: AP, CP or infective pancreatitis	2677	63* (48–74)	NR	Acute Physiology Score: 13* (9–17)APACHE II score: 17* (13–22)
Heiss et al, 201129; Germany	Retrospective cohort; tertiary referral single-centre 1992–2004	Atlanta Classification, 1992	Atlanta Classification, 1992	80	57* (NR)	Alcohol abuse: 40%Biliary: 33%Other: 27%	Median (range):CTSI: 6 (4–10)Modified CTSI: 8 (4–10)Balthazar score: 4 (3–4)
Patel, 201528; UK	Retrospective cohort; hospital 2007–2010	NR	NR	75	66 (17.5)	NR	NR
Rasch et al, 201630; Germany	Retrospective cohort; seven tertiary referral centre and three secondary hospitals 2008–2014	ICD-10-CM	NR	220	58* (range: 18–88; IQR 46–70)	Biliary: 41.4%Alcoholic: 29.1%Iatrogenic: 13.6%Drug induced: 2.7%HTG: 1.8%	NR
Wittau et al, 201031; Germany	Retrospective cohort; tertiary care hospital 1992–1997; 2001–2006	ICD-9-CM, ICD-10-CM	NR	1992–1997 (group 1): 1212001–2006 (group 2): 49	Group 1: 54.5* (7–87)Group 2: 54* (17–79)	Group 1:Alcohol: 47%Biliary: 43%Post-ERCP: 7%Others: 3%Group 2:Alcohol: 41%Biliary: 32%Post-ERCP: 20%Others: 6%	Ranson score:Group 1: 4.4 (0.10)Group 2: 2.5 (0.6)

ACG criteria required the presence of at least two of the following three factors: (1) abdominal pain characteristic of AP; (2) serum amylase and/or lipase levels three or more times ULN; (3) CT findings characteristic of AP.

* Median value

ACG, American College of Gastroenterology; AP, acute pancreatitis; APACHE, Acute Physiology And Chronic Health Evaluation; CC, coronary care; CP, chronic pancreatitis; CTSI, computed tomography severity index; ECRP, endoscopic retrograde cholangiopancreatography; EU-5, European Union-5; HTG, hypertriglyceridaemia; ICD-9-CM, International Classification of Disease, Ninth Revision, Clinical Modification; ICM-10-CM, International Classification of Disease, Tenth Revision, Clinical Modification; ICNARC, Intensive Care National Audit and Research Centre; ICU, intensive care unit; IQR, interquartile range; LOS, length of stay; MAP, mild acute pancreatitis; MSAP, moderately severe acute pancreatitis; MoAP, moderate acute pancreatitis; NR, not reported; OF, organ failure; PN, pancreatic necrosis; POF, partial organ failure; PPN, peripancreatic necrosis; RAC, revised Atlanta classification; SAP, severe acute pancreatitis; SD, standard deviation; SE, standard error; SIRS, systemic inflammatory response syndrome; SOFA, Sequential Organ Failure Assessment; TOF, total organ failure; UK, United Kingdom; USA, United States of America.

Table 5

Clinical outcomes: studies in patients with MSAP or SAP

Author, year; country	Study design; setting (data period)	SIRS (%)	SSOF or MSOF (%)	TOF or POF (%)	Admission to CC (%)	IPN (%)	Surgery due to PN (%)	Pancreatic pseudocysts (%)	Other long-term outcomes of surviving patients (%)	Mortality (%)
USA studies: MSAP
Koutroumpakis et al, 2017,19 Koutroumpakis et al, 201420; USA	Prospective cohort; hospital2003 to 2014	SIRS on admission: 48%SIRS at 48 hours: 41%	NR	TOF: 100%	23%	9%	NR	NR	NR	0%
Kwong et al, 201621; USA	Retrospective cohort; secondary careNovember 2010 to December 2013	Day 1/Day 2Score 1: 23/29%Score 2: 29/26%Score 3: 23%Score 4: 13/6%	26.1%	TOF: 26.1%	23%	NR	NR	NR	NR	NR
Talukdar et al, 201224; USA	Prospective cohort study; three hospitalsJune 2004 and August 2005	NR	NR	NR	15%	NR	NR	NR	NR	0%
USA studies: SAP
Bhat et al, 200718; USA	Prospective cohort; hospitalJune 2003 and January 2005	NR	SSOF: 31.6% (6/19)MSOF: 47.4% (9/19)	NR	NR	PN: 21.1%	NR	NR	NR	32%
Koutroumpakis et al, 2017,19 Koutroumpakis et al, 201420; USA	Prospective cohort; hospital2003 to 2014	SIRS on admission: 65%SIRS at 48 hours: 77%	SSOF: 40%MSOF: 60%	100%	93%	IPN: 32%PN: 68%	NR	NR	NR	21%
Mutch et al, 201123; USA	Retrospective cohort; seven hospitals (2008)	NR	NR	NR	NR	NR	NR	NR	NR	NR
Soran et al, 200022; USA	Retrospective cohort; secondary care 1992–1996	NR	NR	NR	NR	NR	NR	NR	NR	NR
Talukdar et al, 201224; USA	Prospective cohort study; three hospitalsJune 2004 and August 2005	NR	SSOF: 47%MSOF: 53%Renal failure: 80%Respiratory failure: 67%Circulatory failure: 13%	POF at presentation: 7%POF during hospital stay: 93%	80%	NR	NR	NR	NR	40%
EU-5 studies: MSAP
Pintado et al, 201636; Spain	Prospective cohort; 14-bed medical and surgical ICU 2010–2014	NR	MOF at ICU admission: 0%MOF during ICU stay: 8.3%	NR	NR	10%	16.7%	0%	NR	0%
EU-5 studies: SAP
Castoldi et al, 201332; Italy	Retrospective cohort; 35 hospitals (NR)	NR	NR	NR	NR	NR	NR	NR	Relapse to mild AP cases: 13.7%Relapse to severe AP: 8.2%:Recovery time: mean 53.4 (SD 41.1) daysDiabetes: 4.1%	Long-term (follow-up mean 49 (SD 10.7) months: 12.3%
Cinquepalmi et al, 200633; Italy	Retrospective cohort; hospital 1990–2005	NR	NR	NR	NR	100% (selection criterion for the study)	100% (selection criterion for the study)	NR	NR	22%
De Rai et al, 201034; Italy	Prospective cohort; 56 centresJuly 2002 and December 2011	NR	NR	NR	NR	4.8%	4.8%	NR	NR	19.16%
Gomercic et al, 201635; France	Prospective cohort; hospital 2010–2012	NR	Identified the first 48 hours after pain onset: cute respiratory distress syndrome: 12.7% Acute renal failure: 1.4%MOF: 4.2%	NR	Identified the first 48 hours after pain onset: 69.4% Identified the first 36 hours after pain onset: 60.7%	NR	NR	NR	NR	NR
Gonzelez et al, 201125; UK	Retrospective study of prospective data; tertiary referral centreJanuary 2008 and December 2009	NR	NR	NR	NR	40%	NR	NR	NR	5%
Hall et al, 201326; UK	Retrospective cohort; tertiary referral centre 2003–2011	NR	NR	NR	NR	NR	NR	NR	NR	17.8%
Harrison et al, 200727; UK	Retrospective cohort; general critical care units					NR	Emergency surgery: 10.5%Elective surgery: 5.3%	NR	NR	CC unit mortality: 30.6%Ultimate hospital mortality: 41.9%Primary reason for admission:AP: 42.5%Infective pancreatitis: 48%Non-surgical: 44.3%
Heiss et al, 201129; Germany	Retrospective cohort; tertiary referral single-centre 1992–2004	NR	NR	NR	81%	Necrosis of the pancreatic head: 68%parts of the pancreas that exhibited areas of necrosis:0 parts: 9%one part: 29%two parts: 23%All three parts: 40%	Surgical and percutaneous necrosectomy: 25% and 22.5%	NR	Extrapancreatic complications: 94%	Overall: 34%Among those with multiple organ dysfunction: 89%Among those with all 3 areas of necrosis: 38%Among those with the presence of distal fluid collections: 46%Absence of distal fluid collections: 42%
Patel, 201528; UK	Retrospective cohort; hospital 2007–2010					NR	NR	NR	NR	37%
Pintado et al, 201636; Spain	Prospective cohort; 14-bed medical and surgical ICU 2010–2014	NR	MOF at ICU admission: 36.4%MOF during ICU stay: 86.4	POF: 100%	NR	11.4%	NR	2.3%	NR	29.5%
Rasch et al, 201630; Germany	Retrospective cohort; seven tertiary referral centres and three secondary hospitals 2008–2014	NR	NR	Persistent dysfunction: 21.8%	NR	72.7%	13.6%	NR	NR	13.6%
Wittau et al, 201031; Germany	Retrospective cohort; tertiary care hospital 1992–1997; 2001–2006	NR	MOF:Group 1: 36%Group 2: 25%	NR	NR	Group 1: 40%Group 2: 69%	NR	NR	NR	Group 1: 28%Group 2: 14%

ACG criteria required the presence of at least two of the following three factors: (1) abdominal pain characteristic of AP; (2) serum amylase and/or lipase levels three or more times ULN; (3) CT findings characteristic of AP.

ACG, American College of Gastroenterology; AP, acute pancreatitis; CC, coronary care; EU-5, European Union-5; ICU, intensive care unit; IPN, infected pancreatic necrosis; MOF, multiple organ failure; MSAP, moderately severe acute pancreatitis; MSOF, multisystem organ failure; NR, not reported; PN, pancreatic necrosis; POF, partial organ failure; SAP, severe acute pancreatitis; SD, standard deviation; SIRS, systemic inflammatory response syndrome; SSOF, single system organ failure; TOF, total organ failure; UK, United Kingdom; ULN, upper limit of normal; USA, United States of America.