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GE-Portuguese Journal of Gastroenterology

versão impressa ISSN 2341-4545

GE Port J Gastroenterol vol.26 no.5 Lisboa out. 2019

https://doi.org/10.1159/000497388 

GUIDELINES

 

Clube Português do Pâncreas Recommendations for Chronic Pancreatitis: Etiology, Natural History, and Diagnosis (Part I)

Recomendações do Clube Português do Pâncreas sobre Pancreatite Crónica: Etiologia, História Natural e Diagnóstico (Parte I)

 

Eduardo Rodrigues-Pintoa, Ana Caldeirab, João Bruno Soaresc, Teresa Antunesd, Joana Rita Carvalhod, José Costa-Maiae, Pedro Oliveiraf, Richard Azevedob, Rodrigo Liberala, Tiago Bouça Machadoe, Vitor Magno-Pereirag, Pedro Moutinho-Ribeiroa

aGastroenterology Department, Centro Hospitalar de São João, Porto, Portugal; bGastroenterology Department, Hospital Amato Lusitano, Castelo Branco, Portugal; cGastroenterology Department, Hospital de Braga, Braga, Portugal; dGastroenterology Department, Hospital de Santa Maria, Centro Hospitalar Lisboa Norte, Lisbon, Portugal; eSurgery Department, Centro Hospitalar de São João, Porto, Portugal; fRadiology Department, Hospital de Braga, Braga, Portugal; gGastroenterology Department, Hospital Central do Funchal, Funchal, Portugal

* Corresponding author.

 

ABSTRACT

Chronic pancreatitis (CP) is a heterogeneous disease, with different causes and often a long delay between onset and full classic presentation. Clinical presentation depends on the stage of the disease. In earlier stages, recurrent episodes of acute pancreatitis are the major signs dominating clinical presentation. As the inflammatory process goes on, less acute episodes occur, and pain adopts different aspects or may even disappear. After 10–15 years from onset, functional insufficiency occurs. Then, a classic presentation with pain and pancreatic exocrine and endocrine insufficiency appears. Diagnosis remains challenging in the early stages of the disease, as its initial presentation is usually ill-defined and overlaps with other digestive disorders. Computed tomography and magnetic resonance cholangiopancreatography should be the first choice in patients with suspected CP. If the results are normal or equivocal but still there is a high suspicion of CP, the next option should be endoscopic ultrasound. Endoscopic retrograde cholangiopancreatography is mainly a therapeutic technique, and for the diagnostic purpose should only be used when all other imaging modalities and pancreatic function tests have been exhausted. Indirect tests are used to quantify the degree of insufficiency in already-established late CP. Recommendations on CP were developed by Clube Português do Pâncreas (CPP), based on literature review to answer predefined topics, subsequently discussed and approved by all members of CPP. Recommendations are separated in two parts: “chronic pancreatitis etiology, natural history, and diagnosis,” and “chronic pancreatitis medical, endoscopic, and surgical treatment.” This abstract pertains to part I.

Keywords: Chronic pancreatitis, Physiopathology, Clinical presentation, Natural history, Diagnosis

 

RESUMO

A pancreatite crónica (PC) é uma doença heterogénea, com diferentes etiologias, muitas vezes, com um longo período entre o início de sintomatologia e a apresentação clínica clássica. A clínica depende do estadio da doença, sendo que nos estadios iniciais, predominam episódios recorrentes de pancreatite aguda; com a progressão da doença, os episódios agudos tornam-se menos frequentes, e a dor adota padrões diferentes, podendo inclusive desaparecer; a insuficiência funcional desenvolve-se 10 a 15 anos após o início, assumindo-se então, a apresentação clássica com dor, insuficiência pancreática exócrina e endócrina. O diagnóstico pode ser desafiador nos estadios iniciais da doença, já que a apresentação inicial é geralmente mal definida e se sobrepõe a outros patologias gastrointestinais. A TAC e CPRM devem ser os primeiros métodos de imagem em doentes com suspeita de PC. Se os resultados forem normais ou ambíguos, a próxima opção deve ser a ecoendoscopia. A CPRE é uma técnica principalmente terapêutica, sendo que para fins de diagnóstico, deve ser reservada para quando todas os outros exames de imagem/testes de função pancreática forem inconclusivos. Testes indiretos de função pancreática devem ser usados para quantificação do grau de insuficiência pancreática em doentes com PC já estabelecida. As recomendações sobre PC foram desenvolvidas pelo Clube Português do Pâncreas (CPP), com base numa revisão da literatura para responder a questões predefinidas, posteriormente discutidos e aprovados por todos os membros do CPP. As recomendações encontram-se separadas em duas partes: “etiologia da pancreatite crónica, história natural e diagnóstico” e “tratamento médico, endoscópico e cirúrgico da pancreatite crónica.” Este resumo corresponde à parte I.

Palavras-Chave: Pancreatite crónica, Fisiopatologia, Apresentação clínica, História natural, Diagnóstico

 

Introduction

Chronic pancreatitis (CP) is an inflammatory disease that causes progressive and irreversible damage to the parenchyma of the organ, leading to progressive scarring of the pancreatic tissue with consequent loss of function. Recent studies point to an increasing incidence of CP over the past decade, which probably reflects an improvement in diagnosis and changes in disease definition [1, 2]. The reported annual incidence, roughly similar in all countries, ranges from 5 to 14 cases per 100,000 individuals [1, 3–5] with a prevalence of approximately 30–50 per 100,000 individuals, being 5 times more frequent in men than in women [6].

The pathophysiology of CP is fairly complex and incompletely understood [4]. Pancreatic stellate cells, responsible for secretion of excessive amounts of extracellular matrix proteins, play a major role in pancreatic injury [7, 8]. CP is a heterogeneous disease, with different causes and often a long delay between the onset and full classic presentation. Functional consequences include recurrent or constant abdominal pain, diabetes mellitus (DM) (endocrine insufficiency), and maldigestion (exocrine insufficiency) with consequent malnutrition. Diagnosis remains challenging in the early stages of the disease, as its initial presentation is usually ill-defined and overlaps with other digestive disorders. On the other hand, later stages may present with calcification of the pancreatic parenchyma, anatomic changes of the pancreatic ducts, associated collections, vascular complications, and bile duct or duodenal lumen obstruction.

The aims of treatment include lifestyle modifications, nutrition, exocrine and endocrine pancreatic insufficiencies correction, and pain management. Other therapeutic options comprise endoscopic and surgical interventions.

This paper refers to part I of Clube Português do Pâncreas (CPP) recommendations for CP management. The recommendations were initially based on literature review to answer predefined topics, subsequently discussed and approved by all members of CPP.

Etiology and Risk Factors

Both genetic and environmental factors have been associated with CP [7]. The TIGAR-O classification proposes risk modifiers that may interact with each other to produce CP [9] (Table 1).

 

 

The association between alcohol and smoking and CP is dose-dependent [1, 7]. Chronic alcohol abuse is responsible for 40–70% of CP cases in western countries [1]. Although at least 60–80 g of ethanol/day during 5–10 years is required for CP development [1, 3], less than 10% of heavy drinkers develop alcohol-induced pancreatitis [7]. Alcohol sensitizes the pancreas to other external factors, such as smoking and diet, which, along with genetic predisposition, interact to increase alcohol toxicity [7].

Cigarette smoking, apart from being an independent risk factor, also accelerates CP disease course [7, 10] and significantly increases the risk of secondary pancreatic cancer and overall mortality [3]. The relative risk of developing CP is 3-fold higher in heavy smokers (> 1 pack/ day) [4].

Non-alcohol- and non-tobacco-associated CP accounts for 20–50% of cases in western countries [1]. Hereditary pancreatitis is a rare cause of CP (prevalence of 0.3/1,000,0000 individuals) [1], and only mutations in the PRSS1 gene (which encodes trypsin 1) appear sufficient to cause the disease [3]. The inheritance pattern is autosomal dominant with an incomplete penetrance (80%). All other identified mutations and polymorphisms should be considered as cofactors or modifiers that increase the severity of disease [3]. Mutations in SPINK1 and CTRC (involved in controlling intrapancreatic trypsin 1 activity) are strongly associated with recurrent acute and CP. Mutations in the CFTR genes are also commonly identified.

Autoimmune pancreatitis (AIP) represents 2–4% of cases of CP and encompasses two different chronic entities [11]. In type 1 AIP, patients are usually older, with a mean age at disease onset of 60–70 years [4, 7]. Involvement of other organs occurs in about 60% of patients (biliary strictures, retroperitoneal fibrosis, pseudotumors, and sialoadenitis). Many of the plasma cells and CD4+ T cells that infiltrate the pancreas express IgG4 on their surface and elevation in serum levels of IgG4 can be found in about 2/3 of patients [4]. Type 2 AIP, less frequent than type 1 and typically occurring in younger patients (40–50 years) [7], is limited to the pancreas and is not associated with an infiltration of IgG4+ cells [11].

Idiopathic CP represents 10–30% of CP cases [7] and is more common in women [4]. Interpreting idiopathic CP literature is difficult, as many patients are probably mislabeled, with possible contributions of less severe CFTR and SPINK1 gene mutations. Idiopathic CP can present in two different forms: an early onset type (appearing in the late second or third decade of life) and a late-onset form (in the sixth or seventh decade) [4]. Tropical pancreatitis, also known as fibrocalculous pancreatic diabetes, is a form of idiopathic early-onset pancreatitis mainly reported in developing countries [11].

Obstruction of the main pancreatic duct (benign or malignant causes) can also lead to CP [4]. Acquired strictures can occur after severe attacks of acute pancreatitis, trauma, duodenal wall cysts, sphincter of Oddi dysfunction [9], or as a consequence of tumor obstruction (adenocarcinoma, islet cell tumor, intraductal papillary mucinous neoplasms or ampullary neoplasms) [4]. Pancreas divisum, a common normal variant, is rarely considered a cause of CP [4]. Many patients with pancreas divisum often have coexistent genetic mutations that may contribute to CP [3].

Recurrent episodes of acute pancreatitis may also lead to the development of a chronic inflammatory response, culminating in CP. This can also occur even with just one severe attack of acute pancreatitis, usually associated with significant pancreatic necrosis and the need for surgical necrosectomy [4].

Natural History and Prognosis

CP natural history can be divided into an early phase (first 5 years of disease, characterized by acute pancreatitis episodes, pain, and hospitalizations), a middle phase (from 5 to 10 years, characterized by less acute manifestations, while morphological changes become evident), and a late phase (from approximately 10 years onwards, with acute manifestations becoming rare and symptoms of endocrine and exocrine insufficiency emerging) [12]. The progression and duration of each phase is highly variable and dependent on the etiologic factors of CP. Furthermore, the sequence of events can occur in all possible manners.

Prognosis of CP is variable and largely depends on the presence of ongoing alcohol consumption and associated cigarette smoking. Sustained alcohol intake increases mortality risk by an additional 60% [4]. The risk of pancreatic cancer in patients with chronic alcoholic pancreatitis at 10 and 20 years is 1.8 and 4%, respectively. The cumulative proportion of patients with pancreatic cancer in this population 20 years after CP diagnosis is 4% [1]. Concerning hereditary CP, the cumulative proportion of patients with pancreatic cancer is 1.5% at 20 years, 8.5% at 40 years, and 25% at 60 years after symptom onset [1]. The cause of death in patients with CP is usually related to other medical conditions associated with smoking, alcohol abuse, pancreatic cancer, and postoperative complications rather than CP itself [4]. Ten-year and 20-year survival rates in patients with CP are approximately 70 and 45%, respectively [4].

Diagnosis

Statement

Computed tomography (CT), magnetic resonance cholangiopancreatography (MRCP), and endoscopic retrograde cholangiopancreatography (ERCP) all have comparable high diagnostic accuracy in the initial diagnosis of CP [13]; endoscopic ultrasound (EUS) and ERCP outperform the other imaging techniques, while transabdominal ultrasound is the least accurate. As diagnostic sensitivity of CT and MRCP is not significantly lower than that of ERCP and EUS, and specificity is comparable, these noninvasive modalities are a likely first choice in patients with suspected CP. If the results are normal or equivocal but still there is a high suspicion of CP, the next choice should be EUS mainly due to its high accuracy in general and for early CP in particular. Due to its invasiveness and risks, ERCP should be the last choice when all other imaging modalities and pancreatic function tests have been exhausted. Equivocal results of imaging modalities should always be interpreted according to the clinical presentation and pancreatic function tests. Monitoring of symptoms and repetition of imaging modalities should also be considered (Fig. 1). Functional evaluation should be always considered as even mild-to-moderate pancreatic exocrine insufficiency (PEI) can lead to deficiencies of several nutrients and clinical implications. The fecal elastase (FE) test is most frequently used in this setting, while the 13C mixed triglyceride breath test offers an alternative. The secretin-enhanced MRCP test may also be used as an indicator of PEI but provides only semiquantitative data.

 

 

The diagnosis of CP is based on clinical history, imaging modalities, and pancreatic function testing. Due to the insufficient correlation of these three diagnostic pillars, they should be used in a complementary way.

Clinical presentation depends on the stage of the disease. While in earlier stages, recurrent episodes of acute pancreatitis predominate, as the inflammatory process goes on, less acute episodes occur and pain adopts different aspects or may even disappear (burnout theory) [14]. After 10–15 years from onset, functional insufficiency occurs (exocrine and endocrine), and pain is very prevalent [15].

Even though pain is the dominant symptom, around 20% of the patients may be completely asymptomatic [16]. Abdominal pain is mediated by mononuclear cell inflammation and infiltration, fibrosis, protein plugs, calcifications, and ductal changes. Later stages are frequently associated with complications in and around the pancreas (biliary obstruction, vascular thrombosis), which, by themselves, are also pain promoters.

PEI is clinically evident only when 90% of the function is lost, which is classically related to the large functional reserve of the pancreas [17, 18]. Clinically, steatorrhea is the most prominent symptom of PEI; however, loose and greasy voluminous stool appearance is present only in overt steatorrhea, as slight to moderate elevation of fecal fat content may be completely unnoticed. Lipid malabsorption is more evident and precedes for years the overt malabsorption of proteins and carbohydrates [19]. Malabsorption of fat-soluble vitamins may occur, but clinical symptomatic vitamin deficiency is rare [20]. The absorption of calcium, magnesium, and essential fatty acids is also impaired, and significant bone loss may be present [17]. Another late-onset complication of PEI is the appearance of cardiovascular events [21], due to malabsorption of fatty acids and amino acids, leading to reduced plasma levels of high-density lipoprotein C and A (atherogenesis protectors) [22]. As a result of exocrine insufficiency, weight loss is expected anytime. Nutritional status evaluation is of major importance and helps to assess the impact of PEI in patients not only by the time of diagnosis but also monitoring disease development and the efficacy of treatment.

Overt DM usually occurs late in CP. Around 60–75% of CP patients and up to 90% of calcifying CP patients have DM, and those with alcohol intake will develop insulin insufficiency earlier [15]. DM may also be the first manifestation of painless forms of pancreatitis (20%) [23]. As fibrosis increases, islet cell injury with beta-cell mass reduction leads to impairment of insulin secretion [24]. As type 1 DM, CP-related diabetes (type 3) usually requires insulin therapy. However, the major difference between them is the simultaneous decrease in alpha cells that occurs in type 3 DM, leading to glucagon impairment and, therefore, increased risk of hypoglycemia, both spontaneous and treatment related [25, 26]. Type 3 DM has the same diagnostic criteria as type 1 or 2: fasting plasma glucose ≥126 mg/dL (at least 8 h fasting), oral glucose tolerance test at 2 h ≥200 mg/dL or HbA1c ≥6.5%. Treatment with insulin is the standard of care, even though metformin may sometimes be used as a first approach in patients with a high ratio insulin/C-peptide, HbA1c ≤7%, high body mass index, and family history of DM.

Functional Tests

PEI can be defined as an inadequate pancreatic enzyme activity due to insufficient enzyme production, insufficient enzyme activation, or early enzyme degradation. In order to assess pancreatic function, direct and indirect methods exist. In cases of CP clinical suspicion, a functional evaluation should be performed because even mild-to-moderate PEI (“compensated PEI”) can disturb the digestive process and lead to deficiencies of several nutrients and clinical implications [20]. Direct tests estimate the products released in pancreatic secretion (bicarbonate and enzymes), while indirect tests evaluate the pancreatic function through the presence or quantification of pancreatic enzymes in serum and stool or by the presence of labelled carbon dioxide (CO2) in exhaled air [20].

Even though the direct test secretin-pancreozymin test is considered the gold standard for diagnosis of PEI (sensitivity and specificity > 90%), it has been progressively abandoned, as it is an invasive, time consuming, nonstandardized, and expensive method [27]. The endoscopic secretin/pancreatic function test is a variant of the previous secretin test, avoiding problems associated with the standard test, having also a high sensitivity for detecting PEI [28].

Compared to direct tests, indirect tests of pancreatic exocrine function are less sensitive and specific but cheaper and easier to administer [29]. The basis of indirect tests is to detect alterations due to loss of pancreatic exocrine function. They are best used to quantify the degree of insufficiency in already-established late CP [30] and generally should be accompanied by cross-sectional CT or magnetic resonance imaging to rule out malignancy [31].

Urine tests are rarely used as they have been replaced by the FE and direct tests which have better specificity and sensitivity [29]. Blood tests to evaluate PEI consist of the measurement of serum immunoreactive trypsinogen [29] and have been validated for PEI assessment in the context of cystic fibrosis [32].

Stool Tests

Although the 3-day fecal fat test is considered the gold standard to diagnose steatorrhea (92% of sensibility), it has only 42% specificity for PEI, as it does not distinguish between pancreatic and nonpancreatic causes of PEI [33].

Elastase is a pancreatic-specific protease, which is not degraded by the intestine, and has a 5–6 times higher concentration in stool compared to pancreatic secretion [34]. A low FE concentration of < 200 μg/g suggests PEI, whereas < 100 μg/g suggests severe PEI [30]. Classic false-positive FE measurements (low levels) occur in small bowel bacterial overgrowth and watery stool. Classic false-negative serum trypsin measurements (normal/high levels) occur when performed in the setting of acute pancreatic inflammation [31]. Its sensitivity and specificity range, respectively, from 0 to 63% and 80 to 95% in mild-tomoderate PEI and from 77 to 100% and 76 to 100% in moderate-to-severe PEI [35]. Fecal chymotrypsin is no longer employed because the FE test has more sensitivity and specificity [29].

Microscopic examination of stools for fat droplets works just as a screening test that can be performed before additional tests, in order to detect fat globules.

Breath Tests

Radiolabeled carbon breath tests samples are taken before and after a test meal containing 13C-labeled substrate. The most widely used test is the 13C-labeled mixed triglyceride breath test [25]. It involves the ingestion of 250 mg of 2-octanoyl (1–13C)-1.3 distearoyl glycerol (Euriso-top, Saint-Aubin, France) with 16 g of fat. This substrate is digested by lipase, releasing 13C-labeled octanoic acid, which is then absorbed and metabolized to form 13CO2, ultimately released in expired breath. Breath samples are collected at 15 min intervals for 6 h [36]. It might be an accurate and alternative method to the quantitative fecal fat test to assess the effect of enzyme therapy on fat digestion and the correction of fat malabsorption during therapy [29]. Its limitations are its poor sensibility in the absence of steatorrhea and inability to differentiate between pancreatic and nonpancreatic causes of fat malabsorption [29].

Imaging Modalities

Imaging modalities are indispensable for the diagnosis of CP and its complications. Diagnosis of CP by imaging modalities relies on changes in morphology of the pancreas, easily detected in advanced CP, but hardly recognized in early disease [31, 37, 38].

Computed Tomography

The classical CT findings in CP are dilatation of the pancreatic duct, pancreatic calcifications, and parenchymal atrophy. The main pancreatic duct is classically beaded and irregular; however, the main duct may also be regularly contoured. CT is considered the most appropriate method for identifying pancreatic calcifications. Nevertheless, very small calcifications may be obscured by pancreatic parenchymal contrast enhancement, and thus pancreatic CT should include a non-contrast-enhanced phase. Additionally, while pancreatic atrophy is visualized in a large proportion of patients with CP, this is not a specific finding and can also be seen with normal aging.

CT is especially helpful in identifying complications of CP, including pseudocysts, portosplenic venous thrombosis, collaterals and arterial pseudoaneurysms, and pancreatico-pleural fistulas [31, 37, 38]. CT may also be useful in the differential diagnosis between mass-forming pancreatitis and pancreatic cancer [20]. Features that favor CP are intraductal or parenchymal calcifications, lack of obstructing mass, irregular dilatation of the pancreatic duct, and relatively limited atrophy of the gland. The presence of a “duct-penetrating” sign (dilated duct or branches which penetrate an apparent mass) favors CP. Features favoring cancer include pancreatic duct dilatation with associated mass at the site of obstruction, atrophy of the pancreas, vascular invasion, and metastases. CT is considered by many as the best initial imaging test in the workup for CP since it is widely accessible, allows for comprehensive detailed evaluation of the pancreas, and it is especially useful in detecting changes seen in advanced disease and complications of CP. Moreover, it can quickly assess extrapancreatic pathology that may explain various presentations mimicking CP. It has, however, two important limitations, namely the evaluation of pancreatic ductal anatomy and the initial parenchymal changes for CP early diagnosis; it also poses the risk of radiation.

Magnetic Resonance Imaging with Cholangiopancreatography

MRCP is highly sensitive and specific in diagnosing CP by evaluating both parenchymal and ductal changes, especially in patients with more advanced CP [31, 37, 38]. Parenchymal changes that are visualized include pancreatic atrophy, depressed T1 signal, irregular contour of head or body, heterogeneous parenchyma, and delayed enhancement of the pancreas after gadolinium administration. Ductal changes include intraductal filling defects often indicative of calculi, main pancreatic duct dilation, side branch dilation, and irregular duct contour. While there are no standardized criteria for diagnosing CP with the use of MRCP, the Cambridge classification for ERCP may be adapted (Table 2) [31, 37, 38]. This classification may also be helpful in interpreting and grading the findings of other imaging modalities, namely transabdominal ultrasound and CT.

 

 

Secretin-enhanced MRCP has been shown to ameliorate sensitivity in early CP [39, 40]. Besides enhancing visualization of the main pancreatic duct and abnormal side branches compared to conventional MRCP (increasing the overall sensitivity for the detection of ductal changes of CP) [41], it also estimates exocrine function (through evaluation of pancreatic duct compliance and pancreatic duct flow rate) which correlates well with the severity of pancreatitis [40].

MRCP has a high sensitivity and specificity in the differential diagnosis of pancreatic masses [42]. This is largely based on the same findings described for CT, especially the “duct-penetrating” sign. However, this does not apply when a carcinoma develops in the presence of CP. In this case, like with all imaging modalities, the sensitivity and specificity is significantly reduced and inferior to that documented for EUS-guided tissue acquisition.

Endoscopic Ultrasound

Due to its superior spatial resolution, EUS is considered the most sensitive imaging technique for the diagnosis of CP, mainly during the early stages of the disease. EUS evaluates both parenchymal and ductal changes of CP. A total of 9 EUS criteria (4 parenchymal and 5 ductal) have been proposed by the International Working Group in the diagnosis of CP (Table 3) [43]. Currently, there is no optimal cut-off for establishing a EUS diagnosis of CP, even though a minimum of 5 criteria are often required [31, 38, 39, 44]. The presence of 5 or more findings provides a definitive diagnosis of CP, whereas 2 or less findings effectively rule out this disease. Patients with 3–4 criteria have an indeterminate diagnosis and should be thoroughly worked up further with pancreatic function testing. The 9 criteria have been linked to distinct histological changes noted from specimens collected after EUS evaluation [45]. Given the lack of standardization across EUS interpretation in the context of CP, the Rosemont criteria were developed [46]; however, this classification is more complex and does not improve the diagnostic value of the standard criteria.

 

 

Like other imaging modalities, EUS is also able to detect multiple complications of CP, in particular pancreatic cancer. Although there is no clear consensus on whether and how to conduct pancreatic cancer screening in CP, many centers recommend the use of EUS, based on its ability to identify small pancreatic masses, even though this ability is reduced in the presence of CP. EUS-guided tissue acquisition is an essential tool in the differential diagnosis between mass-forming CP and pancreatic cancer [39]. In fact, EUS-guided tissue acquisition is considered the most reliable procedure for detecting pancreatic malignancy in patients with or without CP, although in CP the sensitivity decreases from 80–95 to 50–75% [39]. There is also a probability of false negatives (5–10%), and thus in patients with suspected operable pancreatic cancer in imaging modalities, surgery is recommended even without prior cytological confirmation. New EUS imaging techniques, such as elastography (E-EUS) and contrast-enhanced harmonic EUS (CEH-EUS) have also been proposed to increase the accuracy of EUS in the differential diagnosis between mass-forming CP and pancreatic cancer, not only by allowing better morphological characterization of the mass, but also by directing EUS-guided tissue acquisition. Although two recent meta-analyses [44, 45] have demonstrated that CEH-EUS and E-EUS are reliable techniques for the characterization of solid pancreatic masses, most studies were unicentric and included low numbers of patients with CP [47, 48]. Several computer-aided diagnosis methods for E-EUS and CEH-EUS may reduce various biases and increase the accuracy of EUS in this setting, but their role in the characterization of solid pancreatic lesions in patients with CP is still unclear.

Endoscopic Retrograde Cholangiopancreatography

Nowadays, the use of ERCP in the management of CP is typically limited to therapeutic interventions. Historically, specific findings described in CP by a retrograde pancreatogram obtained during ERCP include the main pancreatic duct caliber and contour, clear definitions of its side branches, intraductal filling defects, strictures, and cavity formation. Although ERCP is sensitive for detection of changes in the pancreatic duct, there are several drawbacks when it is used for the diagnosis of CP. Like EUS, it is operator-dependent and prone to interobserver variability. It does not provide assessment of the classic parenchymal CP changes. Moreover, it is the most invasive diagnostic modality and carries postprocedural risks, most notably, post-ERCP pancreatitis. Finally, other potential confounders to interpretation of pancreatograms include age-related ductal changes and postacute pancreatitis ductal changes which are indistinguishable from ductal changes related to CP. For these reasons, ERCP should be used for diagnosing CP only when all other imaging modalities have been exhausted.

Conclusion

CP is a heterogeneous disease, with different causes and often a long delay between onset and full classic presentation. Clinical presentation depends on the stage of the disease. In earlier stages, recurrent episodes of acute pancreatitis are the major signs dominating clinical presentation. As the inflammatory process goes on, less acute episodes occur and pain adopts different aspects or may even disappear. After 10–15 years from onset, functional insufficiency occurs. Then, a classic presentation with pain and pancreatic exocrine and endocrine insufficiency appears. Diagnosis remains challenging in the early stages of the disease, as its initial presentation is usually illdefined and overlaps with other digestive disorders. CT and MRCP should be the first choice in patients with suspected CP. If the results are normal or equivocal but still there is a high suspicion of CP, the next choice should be EUS, with or without tissue acquisition. ERCP should be the last choice when all other imaging modalities and pancreatic function tests have been exhausted. Indirect tests may have a role in CP differential diagnosis, but their major indication is to quantify the degree of insufficiency in already-established late CP.

 

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Disclosure Statement

All authors disclose no personal conflicts of interest or financial relationships relevant to this publication.

Funding Sources

This study has not received any funding.

 

* Corresponding author.

Pedro Moutinho-Ribeiro, MD

Gastroenterology Department, Centro Hospitalar São João

Al. Prof. Hernâni Monteiro

PT–4200-319 Porto (Portugal)

E-Mail pmoutinhoribeiro@gmail.com

 

Received: December 14, 2018; Accepted after revision: January 31, 2019

 

Author Contributions

Richard Azevedo and Ana Caldeira were responsible for literature review regarding etiology, natural history, and diagnosis; Teresa Antunes and Joana Rita Carvalho were responsible for literature review regarding clinical diagnosis and functional tests; João Bruno Soares and Pedro Oliveira were responsible for literature review regarding imaging modalities; Vítor Magno-Pereira and Pedro Moutinho-Ribeiro were responsible for literature review regarding medical treatment; Rodrigo Liberal and Eduardo Rodrigues-Pinto were responsible for literature review regarding endoscopic treatment; Tiago Bouça Machado and José Costa-Maia were responsible for literature review regarding surgical treatment. Results were discussed in two meetings of Clube Português do Pâncreas and approved by all members. All authors critically reviewed and approved the final manuscript.

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