Prevention of post-endoscopic retrograde cholangiopancreatography pancreatitis with rectal non-steroidal anti-inflammatory drugs
Article information
Abstract
Acute pancreatitis is the most common and feared adverse event associated with performance of endoscopic retrograde cholangiopancreatography (ERCP). Unremitting effort has been made for over 40 years to minimize the frequency and severity of this complication. Recently, the use of rectal non-steroidal anti-inflammatory drugs (NSAIDs) have opened a new era for its prevention. This review focuses on the role of NSAIDs in pancreatitis, the pharmacokinetics of these agents, and summarizes the results of clinical trials with rectal NSAIDs alone and combination regimens in the prevention of post-ERCP pancreatitis.
INTRODUCTION
Acute pancreatitis is the most common and arguably most feared adverse event related with endoscopic retrograde cholangiopancreatography (ERCP) [1,2]. The frequency of post-ERCP pancreatitis (PEP) has been reported to be 3.4% to 6.0% in average-risk groups [3,4] and 8% to 13.1% in high-risk groups [4,5], resulting in significant morbidity and mortality [6,7].
Since 1977, when clinical trials using aprotinin [8] and calcitonin [9] were reported, more than 35 pharmacologic agents have been evaluated for the prevention of PEP, with several different mechanisms of action. However, most of those pharmacologic agents have shown no consistent benefit or questionable efficacy for PEP prevention.
Recently, rectally administered non-steroidal anti-inflammatory drugs (NSAIDs; indomethacin and diclofenac) were determined to be potentially effective in the prevention of PEP in both low- and high-risk patients [10-13] and ultimately a landmark trial in high-risk patients showed a 46% relative risk (RR) reduction of PEP with rectally administered indomethacin [5]. However, the preventive effect of rectal NSAIDs on PEP is suboptimal since PEP continues to occur with rectal NSAIDs in certain patients. Therefore, novel trials with a combination of rectal NSAIDs and other pharmacologic agents have been conducted.
In this review, the role of NSAIDs in pancreatitis, pharmacokinetics of rectal NSAIDs, and results of clinical trials with rectal NSAIDs alone and combination regimens in PEP prevention will be reviewed and summarized.
PATHOPHYSIOLOGY OF PEP
The causes of PEP are multi-factorial. Both patientand procedure-related factors induce various inciting events that may cause mechanical obstruction from edematous trauma of the pancreatic sphincter, increase pancreatic ductal pressure or stimulate spasm of the sphincter of Oddi. These inciting events finally lead to a common vicious inflammatory cycle of inappropriate activation of pancreatic enzymes and auto-digestion [14].
ROLE OF NSAIDs IN PANCREATITIS
An inducible form of cyclooxygenase-2 (COX-2) has been implicated as an important proinflammatory mediator [15]. COX-2 is up-regulated in response to a variety of pro-inflammatory stimuli including interleukin 1, tumor necrosis factor α, and bacterial lipopolysaccharide [16-18]. COX-2 mRNA and protein levels are increased during experimental pancreatitis [19]. Inhibition of COX-2 by either pharmacologic inhibition or selective genetic deletion markedly attenuated the severity of acute pancreatitis in animal models, suggesting that COX-2 plays as an important pro-inflammatory regulator of the severity of pancreatitis [19].
The hypothetical mechanism of COX-2 inhibition in ameliorating experimental pancreatitis may involve two distinct pathways [20]. The direct effect of COX-2 inhibition is the reduction in prostaglandin synthesis, which promotes edema formation and vascular changes, in pancreas and serum [21-23]. COX-2 inhibition may also suppress the activation of transcription factor nuclear factor κB (NF-κB), which plays an important role in proinflammatory cytokine expression [22,24]. However, some experimental studies failed to demonstrate inhibition of the NF-κB activation with the COX2 inhibitor (celecoxib) [22]. Two human case-control studies evaluated the association with oral COX-2 inhibitors and other NSAIDs including diclofenac and indomethacin [25,26]. The adjusted odds ratios (ORs) for acute pancreatitis were 1.4 (95% confidence interval [CI], 1.0 to 2.0) to 5.62 (95% CI, 3.33 to 9.45) for current COX2 selective inhibitor (celecoxib), and 3.6 (95% CI, 3.33 to 9.45) for indomethacin and 5.0 (95% CI, 3.33 to 9.45) for diclofenac, respectively, compared with controls. These data suggest that the cumulative or simultaneous use of COX-2 inhibitors and NSAIDs may increase the risk of acute pancreatitis.
WHY ONLY RECTAL NSAIDs ARE EFFECTIVE FOR PEP
Indomethacin and diclofenac follow linear pharmacokinetics. Plasma concentration and area under the curve are proportional to the dose administered, whereas half-life (T ½) and plasma and renal clearance are not dose-dependent. Indomethacin and diclofenac are both rapidly absorbed from the gastrointestinal tract and following oral administration have virtually 90% to 100% bioavailability, with peak plasma concentrations following a single dose occurring between one and 1.5 hours in the fasting state [27-29]. In contrast, peak plasma concentration of indomethacin occurred 40 minutes after intramuscular injection and 60 minutes after rectal suppository. The bioavailability after rectal suppository was about 80% [30,31].
Oral (two doses given 6 hours apart) [32,33] and intramuscular administration [34] of diclofenac have not shown a protective effect on PEP. Why are these methods of administration not effective in PEP prevention when the bioavailability is more than 90% in both instances? Diclofenac undergoes first-pass metabolism (a phenomenon of drug metabolism whereby the concentration of a drug is greatly reduced before it reaches the systemic circulation) with only 50% to 60% of the drug reaching the systemic circulation as intact diclofenac [29,35]. In contrast, as indomethacin is not subject to significant first-pass metabolism, oral indomethacin potentially may exert a preventive effect on PEP.
What is the specific mechanism by which rectal indomethacin demonstrates its preventive effect on PEP? Peak plasma concentration is achieved in 90 minutes after rectal indomethacin, but this peak plasma concentration is sustained for more than 2 hours and decreases slowly, compared to intravascular and intramuscular administration (Fig. 1) [31]. Based on the previous reports that have demonstrated a consistent beneficial effect of rectal indomethacin on the prevention of PEP, this sustained plasma concentration may play a key role in the prevention of PEP. The correlation between its preventive effect and high sustained plasma concentration needs to be further evaluated by measuring the plasma concentration at various time points after rectal indomethacin in clinical practice. Potentially, the veiled hypothetical mechanism for prevention of PEP may be further elucidated. Furthermore, these pharmacokinetic data may guide the design of new studies with indomethacin and PEP prevention.
ADMINISTRATION AND TIMING OF RECTAL NSAIDs
Rectal NSAIDs have been administered at different time points in previous clinical trials according to the optimal pharmacokinetics of rectal NSAIDs assumed by the individual researchers, varying from 5 hours before ERCP to immediately after ERCP.
In two meta-analyses, the optimal timing of administration of rectal NSAIDs was evaluated [36,37]. The first meta-analysis showed that rectal NSAIDs administered before ERCP lowered the risk of PEP with statistical significance (RR, 0.48; 95% CI, 0.29 to 0.78; p = 0.003) [36]. In contrast, the second meta-analysis showed the efficacy of rectal indomethacin or diclofenac for PEP prevention did not differ whether the NSAIDs were administered before or after ERCP (RR, 0.54; 95% CI, 0.42 to 0.70; p = 0.99) [37].
In a recent trial of 162 patients, double dose rectal indomethacin (200 mg) was administered as 100 mg at 4.5 hours before and 100 mg immediately after ERCP and compared with a single 100 mg dose given immediately after ERCP [38]. In the 42 patients deemed to be at high risk for pancreatitis, there was no significant reduction in PEP with the double dose (single dose 9.5%, n = 2; double dose 4.8%, n = 1; p = 0.24).
Considering the peak plasma concentration of indomethacin is 90 minutes after rectal administration, and no benefit of early administration (i.e., 4 hours) pre-ERCP, we believe that the optimal timing for rectal NSAID administration might be 90 minutes before starting the ERCP, but further study is warranted.
OVERALL PROPHYLACTIC EFFECT
The frequency of PEP before the widespread administration of rectal NSAIDs (in 2012) was reported to be 9.7% (95% CI, 8.6% to 10.7%) in a meta-analysis of randomized placebo-controlled trials (RCT) [7]. The frequency of PEP among 10,591 patients from 94 non-risk stratified RCTs was 8.5% (95% CI, 7.4% to 9.5%). In 22 RCTs (with 2,345 patients) where risk stratification was performed, the frequency of PEP in high-risk patients was 14.7% (95% CI, 11.8% to 17.7%). In addition, the frequency of moderate and severe PEP in the high-risk subgroup was reported to be 3.9% (95% CI, 2.6% to 5.3%) and 0.8% (95% CI, 0.3% to 1.2%), respectively.
In an analysis of 24 prospective RCTs using rectal NSAIDs for PEP prevention, the frequency of PEP among 7,798 patients who were administered with rectal NSAIDs was 6.3% (95% CI, 5.7% to 6.8%) (unpublished extracted data). The frequency of PEP among 5,431 average-risk patients from 17 RCTs was 5.7% (95% CI, 5.1% to 6.3%). The frequency of PEP among 1,661 highrisk patients from seven RCTs was 7.2% (95% CI, 5.9% to 8.4%). Among all 7,798 patients, the rate of moderate-to-severe PEP was 1.3% (95% CI, 1.0% to 1.5%) (Table 1). Rectal NSAIDs significantly reduced the frequency of PEP with a RR of 0.53 (95% CI, 0.44 to 0.63; p < 0.001) according to a meta-analysis of 21 RCTs with 6,134 patients [39].
PROPHYLACTIC EFFECT ACCORDING TO RISK STRATIFICATION
Although the prophylactic effect of rectal indomethacin on PEP was seen in high-risk patients in a landmark study [5], controversies in prophylactic effect remain as to whether the same benefit is seen across patient risk stratification. Specially, are rectal NSAIDs indicated for PEP prophylaxis in low-risk patients?
In an RCT of 449 consecutive patients, a single 100 mg dose of rectal indomethacin during ERCP did not prevent PEP. However, approximately 70% of the enrolled patients were at average risk for developing PEP [40]. Pancreatitis occurred in 16 of 223 patients (7.2%) in the indomethacin group and 11 of 226 (4.9%) in the placebo group (p = 0.33). In contrast, a retrospective cohort study of 4,017 patients, including low-risk patients (mostly those with malignant biliary obstruction), showed that post-procedural rectal indomethacin administration was associated with a significant decrease in the absolute rate and severity of PEP [3]. The overall frequency of PEP was reduced from 4.7% to 2.0% (OR, 0.35; 95% CI, 0.24 to 0.51; p < 0.001) and moderate-to-severe PEP from 2.7% to 0.6% (OR, 0.17; 95% CI, 0.09 to 0.32; p < 0.001).
Two meta-analyses have addressed the question whether there is a difference in prevention of PEP with rectal NSAIDs when evaluating average-risk and high-risk patients [37,41]. In one meta-analysis, rectal indomethacin was found to be protective against PEP in high-risk patients (RR, 0.43; 95% CI, 0.28 to 0.65; p < 0.001) but not average-risk patients (RR, 0.74; 95% CI, 0.52 to 1.07; p = 0.115) [41]. The other meta-analysis showed that the efficacy of diclofenac or indomethacin was significant both in the high-risk group (RR, 0.53; 95% CI, 0.29 to 0.97; p = 0.038) and the average-risk group (RR, 0.63; 95% CI, 0.46 to 0.86; p = 0.003). The difference between the high-risk and average-risk patients was not significant (p = 0.69). The number needed to treat was 13 in the high-risk group and 27 in the average-risk group [37].
DOSE OF RECTAL NSAIDs: LOW VS. SINGLE VS. DOUBLE DOSE
The majority of published clinical trials to date have been conducted with a single 100 mg dose of rectal indomethacin or diclofenac.
A trial from Japan evaluated the efficacy of low-dose (50 mg) rectal diclofenac [42]. The frequency of PEP was significantly lower with the low-dose rectal diclofenac than the control group (3.9% [2/51] vs. 18.9% [10/53], p = 0.017). In this trial, dose reduction to 25 mg was performed in patients weighing < 50 kg. There was no significant difference in the frequency of PEP between the 25 and 50 mg groups as well (9% [2/22] vs. 0% [0/29], p = 0.101). Considering a lower mean body weight of this Japanese population, low-dose 50 mg of rectal NSAID may be effective for PEP prevention in similar patient populations.
Recently, two randomized clinical trials with dose escalation of rectal indomethacin to 200 mg were reported [38,43]. It was hypothesized that a higher dose might be superior to the existing standard 100 mg dose in PEP prevention. Split dose administration was performed in both studies: to minimize the potential for adverse events of the higher dose in one study [38], and to potentially lead to a higher peak serum concentration and a more sustained impact on the inflammatory cascade in the second study [43]. In the first trial from Taiwan, which evaluated predominantly average-risk patients, the double dose group received an initial 100 mg about 4 to 5 hours before ERCP and an additional 100 mg immediately after ERCP [38]. In the second trial, a multicenter trial from USA which evaluated only patients who were considered to be at high-risk for the development of PEP, the high-dose group received an initial 150 mg at the end of the ERCP, followed by an additional 50 mg 4 hours after the procedure [43]. In both studies, dose escalation of rectal indomethacin to 200 mg did not confer any additional reduction in PEP.
COMBINATION WITH OTHER PHARMACOLOGICAL AGENTS
Administration of a rectal NSAID at ERCP has led to a significant reduction in frequency and severity of PEP, particularly in high-risk patients. While this discovery has been a major breakthrough in ERCP, PEP remains a significant concern, and cases of severe PEP continue to occur, albeit at a reduced rate. Clearly, the only foolproof method to prevent PEP is to not proceed with the procedure. Additional study is needed to further lower PEP rates. In addition to studies evaluating a higher dose of the NSAID (i.e., double dose) as described above [38,43], trials with combination rectal NSAIDS and other strategies or pharmacologic agents including intravenous fluids [44-46], intravenous somatostatin [47], sublingual isosorbide dinitrate [48,49], and intraduodenal epinephrine spray [50-52] have been reported (Table 2).
One trial evaluated the preventive efficacy for PEP with the combination of rectal diclofenac and intravenous somatostatin [47]. With this combination, the frequency of PEP significantly decreased compared with placebo (12/255 [4.7%] vs. 27/260 [10.4 %], p = 0.015). This benefit was confined to those patients considered to be at high-risk for PEP (11/188 [5.8%] vs. 25/203 [12.3%], p = 0.027), with no benefit noted in the low-risk group (1/67 [1.5%] vs. 2/57 [3.5%], p = 0.594). While it would be of interest to know the PEP rates of patients who received either diclofenac or somatostatin (but not both) in this patient population, in order to better assess the efficacy of the combination therapy, no patient received single drug therapy in this study.
There were three trials that evaluated with combination of rectal NSAIDs and aggressive intravenous hydration of normal saline [44] and lactated Ringer’s solution [45,46]. Three trials consistently showed that the frequency of PEP was significantly lower with the combination of rectal NSAIDs and aggressive hydration compared with placebo (0% to 6% vs. 2.7% to 21%).
Two clinical trials evaluated the preventive efficacy for PEP with the combination of rectal NSAIDs and sublingual isosorbide dinitrate [48,49]. Both trials showed that the frequency of PEP was significantly lower with the combination therapy compared with rectal NSAIDs alone (6.7% vs. 15.3% [48] and 5.6% vs. 9.5% [49]).
Three clinical trials were conducted with the combination of rectal indomethacin and topical epinephrine sprayed on the major papilla, based on the results of a previous network meta-analysis [50-53]. In the first trial, the frequency of PEP was significantly lower with the combination regimen compared with rectal indomethacin alone (0% vs. 9%) [50]. However, in the subsequent two large-scale trials, the frequency of PEP with the combination regimen was not significantly different compared with rectal indomethacin alone (6.7% to 8.5% vs. 5.3% to 6.4%) [51,52]. Overall, there does not appear to be any additional benefit to epinephrine spray with reduction in PEP in patients receiving rectal indomethacin [54].
ADDITIONAL PANCREATIC DUCT STENT
Several randomized, controlled trials and meta-analyses have proven a significant reduction in frequency and severity of PEP with prophylactic pancreatic duct stent placement [55,56]. However, indomethacin significantly reduced the risk of PEP regardless of pancreatic duct stent placement (among patients with a pancreatic stent, from 16.1% to 9.7%; patients without a pancreatic stent, from 20.6% to 6.3%) [5]. In addition, a network meta-analysis has shown that rectal NSAIDs alone are superior to pancreatic duct stents in preventing PEP with a pooled odd ratio of 0.48 (95% CI, 0.26 to 0.87) [57].
Considering the increased technical demands of pancreatic duct stent placement (familiarity with smaller caliber guidewires, ansa pancreatica anatomy, etc.) even when performed by experienced endoscopists, further study is needed to clarify whether additional pancreatic duct stent placement may be recommended in certain situations (e.g., unintentional cannulation of the pancreatic duct in biliary cases). An ongoing clinical trial will clarify the additional prophylactic role of a pancreatic duct stent in high-risk patients [58].
SUGGESTED RECOMMENDATIONS
Current literature clearly demonstrates a reduction in PEP with rectal NSAIDs in high-risk patients, with a benefit in average- or low-risk patients less clear. However, given the relatively low cost, ease of administration and safety profile of rectal NSAIDs, it is reasonable to administer rectal NSAIDs to all patients undergoing ERCP. Furthermore, aggressive intravenous fluid administration should be provided. An additional second (or third) agent such as sublingual nitrate or intravenous somatostatin could be considered for high-risk patients.
CONCLUSIONS
Rectal NSAIDs have definitely opened a new era for the prevention of PEP. However, further studies to decrease its incidence and to attenuate the severity are warranted.
Notes
No potential conflict of interest relevant to this article was reported.