More than 40 substances have been identified as being potentially related to CS; however, their individual contributions in triggering different carcinoid symptoms and complications, such as CHD, remain unclear 7. These substances include serotonin (5-HT), which appears to be the primary marker associated with the syndrome, as well as histamine, kallikrein, prostaglandins, and tachykinins 2. Below, we discuss the characteristics of the most common carcinoid symptoms and their related complications, which are summarized in Table 1 and Figure 1.

Figure 1.

Summary of the pathophysiology of carcinoid syndrome.

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Flushing is a subjective sensation of warmth that is accompanied by reddening of the skin anywhere on the body, especially the face, neck, and upper torso 8. In over 90% of cases, flushing is the clinical hallmark of functional NETs and is often episodic 9. Vasoactive substances, usually secreted by functioning NETs that are located distal to the portal vein or downstream of functioning hepatocytes, such as 5-HT, substance P, histamine, catecholamines, and prostaglandins, provoke flushing when they are not inactivated by hepatocytes 10,11. The release of carcinoid-related substances is usually triggered by amine-rich foods (chocolate, banana, kiwi, avocado and nuts), alcohol and an increase in adrenergic activities, such as physical exercise. Importantly, a recent retrospective study demonstrated that the use of serotoninergic antidepressants was safe to treat depressive symptoms and did not significantly worsen carcinoid symptoms 12.

While 5-HT is the proposed main causative agent of CS-associated flushing, as evidenced by elevated levels of a known 5-HT metabolite, 5-hydroxyindoleacetic acid (5-HIAA), in the 24-h urine test, there is some speculation that other peptides are involved because some characteristics of flushing differ across patients. For example, a rapid cyanotic facial and trunk flush with a mild burning sensation that lasts less than a minute is commonly associated with midgut NETs; on the other hand, foregut tumors tend to produce pruritic wheals that are reddish-brown and occur over the entire body 9. Moreover, some NET patients present flushing with low or normal levels of 5-HIAA, while patients who have high levels of urinary 5-HIAA are totally asymptomatic 13.

The prevalence of CS-associated diarrhea among NET patients with elevated urinary 5-HIAA is as high as 60-80% 14. However, this type of diarrhea is not typical but rather unspecific, usually described as intermittent and sporadic and often accompanied by mild abdominal cramping, and it may become continuous when complicated by bacterial overgrowth 14,15. This somewhat atypical course may explain the delayed diagnosis of NETs 14, which can sometimes be after many years of uncomplicated and mild symptoms that result in many patients being diagnosed with advanced incurable disease. Because 5-HT acts physiologically by stimulating intestinal motility and intestinal secretion, high levels of 5-HT could induce increased frequency of bowel movements and decrease stool consistency; this is observed clinically as patients with CS diarrhea and is described as secretory. For example, a preclinical study 16 using human intestinal mucosa that was resected during surgery for Crohn's disease showed that 5-HT induces secretion across the human ileal mucosa via the 5-HT4 subtype receptors, whereas the 5-HT2A receptor appears to mediate the gut effects of 5-HT in the human sigmoid colon 16. The most recent evidence that CS is caused by elevated 5-HT is the significant reduction in the frequency of daily bowel movements and urinary 5-HIAA levels demonstrated in the phase III placebo-controlled trial of telotristat ethyl, an oral inhibitor of 5-HT synthesis 17. Nevertheless, other substances may be cosecreted with 5-HT, causing diarrhea 18. For example, other physiological factors normally secreted by endocrine gut cells, such as histamine, kallikrein and substance P, could, if overproduced, lead to diarrhea 19. Methods to properly measure the serum levels of these substances are needed.

There are very few studies on CS-associated bronchospasm. In a retrospective study with 748 CS patients, the prevalence of bronchospasm was 15% 20. The underlying mechanism is not clear. Patients who complain about bronchospasm tend to report concurrent flushing, sneezing and dyspnea. Secretion of histamine and 5-HT by the tumor are probably linked to the mechanisms of bronchospasm.

A carcinoid crisis is a serious and potentially life-threatening exacerbation of CS due to the release of large amounts of amines in the circulation. Carcinoid crisis is characterized by hypotension, arrhythmias, tachycardia, flushing and bronchospasm, and it can be lethal. Carcinoid crisis can occur spontaneously, but it is more common after stressful procedures such as anesthesia, surgery or radiologic interventions. While prophylactic use of short-acting somatostatin analogues has been suggested and widely used to prevent carcinoid crisis that could be induced by invasive procedures, some patients still experience uncontrolled carcinoid symptoms 2,21. Recently, Massimino et al. 22 reported that a 500-μg bolus of octreotide acetate administered preoperatively was insufficient to prevent intraoperative carcinoid crisis. In contrast, Woltering et al. 23 observed that only 3.4% of CS patients experienced intraoperative crisis using continuous infusion of IV octreotide acetate preoperatively. Given the life-threatening consequences of carcinoid crisis, we recommend that prophylactic and intraoperative octreotide be administered to all patients with CS and/or elevated urinary 5-HIAA levels when they are treated with invasive interventions such as hepatic embolization and liver biopsy as well as during surgical procedures 24.

It has been estimated that extreme tryptophan deprivation can lead to an 87% to 97% reduction in the levels of 5-HT synthesized in the brain 26. Russo et al. 27 demonstrated lower tryptophan serum levels in CS patients. Pasieka et al. 28 compared 36 CS patients with 20 healthy controls through self-report cognitive questionnaires and a battery of six standardized neurocognitive tests. They demonstrated that patients with CS presented greater cognitive dysfunction than healthy controls. Supporting the concept that CS induces neurocognitive dysfunction through tryptophan depletion, studies with drugs that inhibit 5-HT synthesis have reported associated depressive symptoms. In 1967, Engelman et al. 29 tested para-chlorophenylalanine, a drug that inhibits tryptophan hydroxylase (TPH), which is the enzyme involved in 5-HT synthesis, in patients with CS. While the investigators observed reduced levels of 5-HIAA and CS symptom improvement, they described severe neurological adverse effects, including major depression, and the clinical development of this drug was halted. Recently, in the phase III placebo-controlled trial TELESTAR 30 with telotristat ethyl, patients who received 500 mg of telotristat three times per day (TID) reported more depressive symptoms (15.6% of patients taking telotristat versus 6.7% of patients taking the placebo) than those who were treated with 250 mg TID or placebo. Longer duration of treatment with telotristat ethyl and more studies with a larger number of patients are necessary to properly evaluate the neurological effects of this drug.

However, it is not possible to infer direct and exclusive causality between tryptophan depletion and neurological impairment given that the cancer itself may lead to emotional stress that could affect cognition; other tumor-secreted substances and malnourishment resulting from uncontrolled diarrhea could also contribute to neurological/cognitive dysfunction. Longitudinal studies with control groups of healthy and nonfunctioning NET patients could better evaluate whether and to what extent neurocognitive dysfunction occurs in patients with CS.

Pellagra is a clinical condition caused by niacin deficiency (vitamin B3) characterized by dermatitis, diarrhea and dementia in severe cases. The actual prevalence of pellagra in patients with CS is unknown, although some studies have reported that approximately 5% of CS patients experience pellagra 31. Fortunately, pellagra is rarely seen after the incorporation of somatostatin analogues into the therapeutic arsenal for NET treatment. However, in developing countries, somatostatin analogues are not available in the public systems, such as in the public health system of Brazil. In such settings, it is not uncommon to see CS patients presenting with long-term uncontrolled symptoms, including intense skin pruritus resulting from pellagra. Figure 2 demonstrates a patient with pellagra and niacin deficiency due to long-term CS that was not adequately controlled due to lack of adherence to somatostatin analogues.

Figure 2.

Patient with pellagra, in whom we observed dry skin and scratches from intense itching.

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CHD is part of the CS spectrum and is associated with high mortality and morbidity 2. Its incidence varies, ranging from 19% to 60% 1, depending on the patient population, access to somatostatin analogues, definition of CHD and methods used for diagnosis 1,2. CHD is characterized by deposition of fibrous tissues on the valves primarily affecting the right heart chambers, particularly the tricuspid valve, because circulating 5-HT is inactivated in the lungs 32. Therefore, left valve involvement is rare and is usually associated with a higher risk of interatrial shunt that may be present in these patients due to overload of the right atrium.

The exact mechanism underlying the development of CHD remains unclear. However, there is strong evidence for the role of 5-HT in the fibrogenesis and stimulation of fibroblast growth in CHD 2. Several studies have shown that urinary levels of 5-HIAA were significantly higher in patients with CHD than in those without this condition 1,33. There are seven classes of 5-HT receptors, and 5-HT2B is the receptor in the cardiovascular system that may be involved in fibrogenesis 34. The following evidence points to an important role of 5-HT in the development of CHD: serotonergic drugs (fenfluramine, pergolide, cabergoline, and ergotamine by-products) have been shown to cause valve fibrosis similar to that observed with CHD 35; in vitro studies have shown the mitogenic action of 5-HT in fibroblasts, smooth muscle cells, and endothelial cells 36,37; studies with animals exposed to high levels of IV 5-HT showed that they developed cardiac valve dysfunction 38–40; and lastly, it has been demonstrated in animal models that hyperexpression of 5-HT2B receptors in the heart leads to cardiac hypertrophy because of increased deposition and remodeling of the extracellular matrix 41, whereas deletion of 5-HT2B leads to ventricular dilation and incomplete development of the heart 42. Therefore, activation of the 5-HT2B receptor triggers distinct intracellular signaling pathways, which in turn may result in a stronger inflammatory response and release of cytokines including TNF-alpha 43, activation of the MAPK 44 signaling pathway and hyperexpression of TGF-beta 45, all converging to cardiac fibrosis.

Despite the strong evidence of 5-HT involvement in the development of CHD, a significant proportion of patients with elevated plasma levels of 5-HT do not develop this condition 46, which suggests that there are other biochemical or genetic mechanisms involved. For example, other potential contributing factors are bradykinins, tachykinins, activin A and tissue growth factor (CTGF). Bradykinins 46 are associated with endocardium injury that results in fibrosis as a response mechanism of the endocardium 46. In addition, tachykinins have been described as endocardial fibroblast pro-proliferative agents that induce plaque formation. Activin A is a cytokine and a member of the TGF-beta superfamily with fibrogenic properties, and its expression has been demonstrated in fibrotic plaques of patients with CHD 47. Hyperexpression of CTGF and TGF-beta1 mRNA in intestinal NETs, which together promote the overproduction of collagen and fibrosis, has been described by Kidd et al. 48,49; the overexpression of TGF-beta1 50 is also stimulated by 5-HT2B receptors, mostly found in the heart.

Beyond tumor-related risk factors for CHD, clinical features may be associated with the onset of CHD among CS patients. In a case-control study of 42 NET patients with or without CHD but all with elevated urinary 5-HIAA levels that was conducted by our group, we found that 38% (95% confidence interval: 23 to 54%) presented with CHD, defined as at least moderate tricuspid valve regurgitation 51. In our study, a concurrent or prior diagnosis of cardiovascular comorbidities was associated with CHD [odds ratio 6.58 (1.09; 39.78), p=0.040]. Patients with cardiovascular diseases often present endothelial dysfunction, marked by chronic endothelial inflammation and abnormalities in platelet aggregation function, and it is possible that CHD patients have a higher concentration of 5-HT in platelets in the heart, leading to cardiac fibrosis through activation of 5-HT2B receptors 52.

While the initial disease of CHD is usually asymptomatic, symptoms of right heart failure, such as peripheral edema, abdominal discomfort and indigestion, early satiety and cachexia, appear during the course of its evolution. As the condition worsens, fatigue, dyspnea upon exertion, jugular swelling, and ascites are observed. If these symptoms are not treated, progression of the manifestations leads to death from heart failure.

Mesenteric fibrosis (MF) is another complication of uncontrolled CS. At least some signs of MF occur in approximately 50% of CS patients 53, g consequent to a fibrotic and desmoplastic reaction around metastatic mesenteric lymph nodes. MF is a pathognomonic radiological sign of midgut NET, which can be observed on computerized tomography and nuclear magnetic resonance images 54–56. MF is usually detected radiologically and may have the appearance of a mesenteric mass with the opacity of soft tissue radiating outward in a “wheel spoke” appearance 53. MF can lead to ischemia of vessels and intestinal obstruction. This vascular ischemia can lead to bowel congestion and result in decreased absorption of nutrients and can also cause ascites and more severe cases of mesenteric ischemia. Another rare complication of MF is ureteral obstruction, which may cause renal failure 54.

5-HT secreted by NETs appears to play a central role in MF. A recent study demonstrated a significant association of MF with elevated urinary 5-HIAA levels, suggesting a potential causal relationship 54. Another study with 52 patients with midgut NETs demonstrated that elevated platelet 5-HT is associated with the presence of a mesenteric mass 57.

Another substance that may be involved in pathophysiology of MF is TGF-beta, which may play a critical role in fibrogenesis due to its known ability to stimulate collagen synthesis 58.

The diagnosis of CS requires the combination of carcinoid symptoms and evidence of elevated levels of 5-HIAA in a 24-h urine sample. The sensitivity and specificity of this test for CS are higher than 90% in patients with characteristic symptoms 59. However, clinicians should be aware of false positive findings that could be due to the use of serotoninergic drugs (antidepressants, tramadol, acetaminophen, salicylates, L-DOPA) and patients' consumption of foods rich in 5-HT. Therefore, to increase the accuracy of the diagnosis, it is advisable to avoid using serotonergic drugs and avoid foods such as banana, kiwi, avocado, pineapple, nuts, coffee, etc., for 2 days before and during the 24-h urine collection.

The diagnosis of CHD is performed by transthoracic echocardiography, which shows valve thickening with retraction and reduction in the mobility of the tricuspid valve in patients with CS 2,24. Nuclear magnetic resonance imaging of the heart also allows analysis of ventricular anatomy and function, thereby contributing to a better assessment of valvular changes when the echocardiogram is not conclusive 32. NT-proBNP, a marker of heart failure, is a useful serum biomarker in the screening of heart disease in patients with CS.

MF is diagnosed with an abdominal imaging exam (usually tomography or NMR) that shows at least a spiculated mass with attenuation in the soft tissue range, with fibrotic bands that radiate outward from the mesenteric fat tissue with a star pattern around a metastatic lymph node 56. Figure 3 shows a typical case of MF secondary to CS from midgut NET.

Figure 3.

CT showing a characteristic image of mesenteric fibrosis.

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The main pillar of treatment for CS is the use of somatostatin analogues, such as octreotide and lanreotide. Approximately 80% of well-differentiated tumors express somatostatin receptors in the NET cell surface 60. Octreotide and lanreotide bind to somatostatin receptors and inhibit the secretion of several hormones and vasoactive substances, thus improving flushing and diarrhea symptoms in over 80% patients with CS 61. Octreotide in its depot form is called Octreotide LAR and can be administered intramuscularly at a dose of 20 to 30 mg every 4 weeks. Lanreotide is administered subcutaneously at a dose of 120 mg every 4 weeks. The Brazilian Consensus of NETs considers octreotide and lanreotide to be similarly safe and effective in the antitumor and symptomatic treatment of well-differentiated gastroenteropancreatic NETs 24. In addition, phase III placebo-controlled trials 62,63 have also demonstrated that these agents provide antiproliferative effects, prolonging progression-free survival.

Unfortunately, all patients experience symptomatic progression of CS after a median of several months to years. In this scenario, several therapeutic options have been successfully tested and are discussed below.