Effects of enteral nutrition on pro-inflammatory factors and intestinal barrier function in patients with acute severe pancreatitis

Introduction

Acute pancreatitis (AP) has got numerous diverse aetiologies, although about 80% of all cases are due to either alcohol or gallstones. The frequency of diverse aetiologies fluctuates evidently in different countries. Alcohol is the contributing factor in about 70% of the cases, and the occurrence of AP associates with the amount of alcohol usage in Finland. Since the aetiology of AP is difficult and complex, the two utmost common reasons are biliary region illnesses and extreme alcohol intake. ¹ Investigational readings propose that the prognosis for AP rests on the degree of pancreatic necrosis and the severity of multi-system organ failure caused by the systemic inflammatory reaction. This recommends a convoluted equilibrium among local tissue injury with pro-inflammatory of cytokine and a systemic anti-inflammatory comeback that limits the unsuitable program of pro-inflammatory mediators inside the circulation. The precarious actors of this collaboration comprise the pro-inflammatory cytokines: tumor necrosis factor alpha (TNFα), interleukin-1β (IL-1β), interleukin-6 (IL-6) and interleukin-8 (IL-8), and platelet-activating factor. ²

C-reactive protein is the typical and standard intended for serum marker valuation in prognosis and rigorousness in severe acute pancreatitis (SAP). Other indicators include IL-6, polymorphonuclear elastase, and trypsinogen-activation peptide. Hence, regardless of wide research in the current decade, not any method of cure has been established which could effectively develop the consequence of SAP. IL-6 motivates the production of acute phase proteins, C-reactive protein and procalcitonin, inside the liver. Emergent confirmation has pointed to inflection of the patient’s immune system in tactical therapeutic improvement by justifying the inflammatory response and harshness of AP. ² Formerly, IL-6 was considered as a pro-inflammatory cytokine. Though, few years ago, it was exposed to action mainly as an anti-inflammatory cytokine for instance stops synthesis of IL-1β and TNFα.

SAP is one of the most common acute and severe cases in clinic. It is very dangerous, develops very rapidly, and always involves multi-organs with a mortality rate of 30% to 40%. Research data showed that the ineffective rate of SAP treatment (excluding cure rate plus death rate) was 43.5%. ³ In the development of SAP, the immune system is stimulated by a variety of factors resulting in systemic, specific, and nonspecific inflammation, thereby releasing inflammatory mediators that cause a disequilibrium between pro-inflammatory factors and anti-inflammatory factors in vivo, thus resulting in “Waterfall Pattern” cascade reaction and giving rise to systemic inflammatory response syndrome (SIRS). In the body during SAP, there occur super high metabolic and stress reactions characterized by gluconeogenesis, enhanced lipid mobilization, and protein decomposition. So patients are gradually suffering negative nitrogen balance, malnutrition, and immune function decline with rising rates of infection and mortality. Studies have shown that immune dysfunction plays an important role in the development of multiple organ dysfunction syndrome and other infectious complications in patients with SAP. ⁴ Nutritional support is an important scheme for the treatment of SAP, including enteral nutrition and parenteral nutrition. Proper nutritional support can not only improve the nutritional status of patients but also enhance the immune function, reduce complications, and promote the rehabilitation in patients. Both parenteral nutrition and enteral nutrition are having a certain influence on the nutritional improvement of severe patients, but the two schemes have their own advantages and disadvantages. ⁵ Therefore, this study analyzed the effects of early enteral nutrition and parenteral nutrition on serum pro-inflammatory cytokines of IL-1β, IL-6, and TNFα, and on intestinal barrier function in patients with SAP.

Data and methods

Statistical analysis

The analysis was conducted on SPSS 21 software. Student’s t-test was used for the assessment of the measurement data and the count data (χ² test); P value less than 0.05 (P < 0.05) suggested the significant difference between the values.

Results

Comparison of rates of complications, the times of blood amylase and urine amylase recovery, and time of hospitalization

In EN group, the time of blood amylase recovery was 5.67 ± 1.12 days, the time of urine amylase recovery was 14.78 ± 1.78 days, while the hospitalization time was 16.09 ± 1.64 days. All these values were significantly low (P < 0.05) than PN group values, as shown in Table 1.

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Table 1.

Comparison of nutrition indexes, the times of serum amylase and urine amylase recovery as well as the time of hospitalization between the two groups (n = 70 in each group).

Group	Blood amylase recovery time (days)	Urine amylase recovery time (days)	Hospitalization time (days)	TP (g/L)		ALB (g/L)
				Before treatment	After treatment	Before treatment	After treatment
EN	5.67 ± 1.12	14.78 ± 1.78	16.09 ± 1.64	40.21 ± 4.2	64.46 ± 3.8	14.78 ± 1.06	27.19 ± 1.56
PN	8.82 ± 2.06	19.64 ± 2.13	27.16 ± 4.25	40.65 ± 5.0	53.78 ± 2.9	14.93 ± 1.08	22.17 ± 2.01
t	5.093	6.804	7.125	0.679	4.653	0.831	5.145
P	0.024	0.016	0.013	0.203	0.032	0.195	0.028

TP: total protein; ALB: albumin; EN: enteral nutrition group PN: parenteral nutritional group.

The incidence rates of pancreatic necrosis and pancreatic abscess in EN group were 28.57% and 11.43%, respectively, which were found significantly lesser than those in PN group (P < 0.05). Similarly, there was no significant difference found between the two groups in pancreatic pseudocyst, respiratory failure, renal failure as well as mortality rate, as shown in Table 1.

Comparison of levels of pro-inflammatory factors

Before treatment, the pro-inflammatory levels of both the groups were same and no significant difference (P > 0.05) was found between the two groups. After treatment, the values of TNFα, IL-1β, and IL-6 in EN group were greatly reduced and statistically showed significant reduction than PN group values (P < 0.05), as shown in Table 2.

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Table 2.

Comparison of levels of pro-inflammatory factors between the two groups (n = 70 in each group).

Group	TNFα (ng/L)		IL-1β (ng/L)		IL-6 (ng/L)
	Before treatment	After treatment	Before treatment	After treatment	Before treatment	After treatment
EN	378.35 ± 35.23	29.21 ± 3.85	201.57 ± 25.73	31.16 ± 1.95	257.94 ± 32.08	36.09 ± 9.44
PN	377.15 ± 34.96	50.16 ± 3.22	200.19 ± 24.15	53.68 ± 2.04	257.06 ± 34.17	62.38 ± 9.15
t	0.903	5.074	0.663	6.032	0.185	5.792
P	0.176	0.028	0.108	0.024	0.194	0.132

TNFα: tumor necrosis factor alpha; IL-1β: interleukin-1β; IL-6: interleukin-6, EN: enteral nutrition group; PN: parenteral nutritional group.

Comparison of nutrition indexes

Before treatment, the levels of TP and ALB of both groups were same and no significant difference (P > 0.05) was found, while after treatment, the levels of TP and ALB in EN group showed significant elevation than PN group (P < 0.05), as shown in Table 3.

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Table 3.

Comparison of rates of complications and mortality between the two groups (n = 70 in each group).

Group	Pancreatic necrosis		Pancreatic abscess		Pancreatic pseudocyst		Respiratory failure		Renal failure		Mortality
	Case	(%)	Case	(%)	Case	(%)	Case	(%)	Case	(%)	Case	(%)
EN	20	28.57	8	11.43	20	28.57	16	22.86	13	18.57	10	14.29
PN	58	82.86	24	34.29	21	30.00	17	24.29	15	21.43	12	17.14
χ2	6.642		6.094		0.872		0.944		0.832		0.325
P	0.016		0.018		0.067		0.078		0.065		0.094

EN: enteral nutrition group; PN: parenteral nutritional group.

Discussion

The patients with SAP are in a high catabolism state at the early stage. It requires a larger amount of energy; the insufficient supply of nutrition may lead to serious metabolic dysfunction. Nutritional support plays an important role in the comprehensive treatment of SAP. According to the developmental stages of the disease, there are different ways of nutritional support. ⁶ Parenteral nutrition is one of the main nutrition treatments for SAP, but its long duration may easily cause catheter-related infection, intestinal mucosal damage, and systemic metabolic stress syndrome, plus high medical costs, seriously affecting the prognosis in AP patients. As an alternative therapy for parenteral nutrition, enteral nutrition enables to keep the integrity of intestine in SAP patients, improve blood perfusion as well as gastrointestinal motility, and protect immune function as well as intestinal barrier.^7,8

Recently, prediction of SAP is found to be a clinical assessment at admission and for the period of the treatment. ⁹ The detection of the genotypes of critical inflammatory mediators can be valuable for screening population of AP patients at great risk of severe infections in order to enable the administration of early interventions to expand their prognosis. ¹⁰

The results of this study showed that the times of blood amylase, urine amylase recovery, and hospitalization time in EN group were significantly lower than those in PN group, and the levels of TP and ALB were significantly higher in EN group than in PN group, indicating that enteral nutrition therapy is significantly better than parenteral nutrition support in improving the disease condition and nutrition status of SAP patients. The pathogenesis of SAP is very complex, in which over-inflammatory response plays an important role in the progression of the disease. Our findings similar to many other studies have confirmed that the activation and great release of pro-inflammatory cytokines is the initiating factor of severe inflammation in the early stage of SAP, which will aggravate the systemic inflammatory response and becomes the main cause of death in patients with SAP.^11,12 The pro-inflammatory factors such as IL-1β, IL-6, and TNFα were activated and released into the blood followed by reaching various organs through blood circulation which can further induce inflammatory cells like macrophages to release a large number of inflammation mediators, leading to dysfunction of multiple organs. TNFα is the rapidly increasing pro-inflammatory factor in the earliest stage of SAP development. As the initiating factor of inflammatory response, it can induce production of such pro-inflammatory factors as IL-1β, IL-6, and IL-18, and is also an important factor leading to disorder of pancreas and extra pancreatic organs. ⁸ In the early stage of SAP, IL-1β induces pancreatic organ dysfunction mainly through activation of neutrophil chemotaxis and migration, and gives rise to release of pro-inflammatory factors such as IL-6, thereby aggravating the degree of inflammatory reaction. It has been revealed that IL-6 is mainly produced by macrophages and endothelial cells, and that it not only induced and secreted by other inflammatory cytokines but also facilitated positive feedback to further secretion of pro-inflammatory factors like TNFα, thus closely related with the progression of the disease. ¹² The results of this study showed that after treatment, the levels of TNFα, IL-1β, and IL-6 in EN group were significantly lesser than those in PN group, suggesting that enteral nutrition can help to reduce the extent of systemic inflammatory response in SAP patients. ¹³

This research found that the levels of d-lactate, DAO, and L/M ratio, the permeability of intestinal mucosa as well as the incidence of complications were all significantly reduced in patients with enteral nutrition treatment. In conclusion, enteral nutrition had more significant effects in the treatment of SAP by significantly reducing the degree of immune inflammation and intestinal mucosal permeability, improving the intestinal flora balance, and maintaining intestinal barrier function, thus worthy of clinical application and spreading.