Local inflammatory reaction and microcirculation disturbance are the early manifestations of acute pancreatitis (AP). Studies have shown that early and reasonable fluid resuscitation of patients with AP can reduce related complications and prevent the deterioration to severe acute pancreatitis (SAP). Traditional isotonic crystalloid (such as Ringer solution) is considered to be a safe and reliable resuscitation solution, but too much and too fast infusion in the early stage of shock will increase the risk of complications such as tissue edema and abdominal compartment syndrome (ACS). Many scholars have found that hypertonic saline resuscitation solution has the advantages of reducing tissue and organ edema, rapidly restoring hemodynamics, inhibiting oxidative stress and inflammatory signal transduction, thereby improving the prognosis of AP patients and reducing the incidence of SAP and mortality. This article summarizes the mechanisms of hypertonic saline in the resuscitation treatment of AP patients in recent years, in order to provide reference for the clinical application and research of AP patients.
Humans ; Pancreatitis ; Acute Disease ; Resuscitation ; Inflammation ; Crystalloid Solutions ; Saline Solution, Hypertonic

Fluid resuscitation is an essential intervention in critically ill patients, and its ultimate goal is to restore tissue perfusion. Critical illnesses are often accompanied by glycocalyx degradation caused by inflammatory reactions, hypoperfusion, shock, and so forth, leading to disturbed microcirculatory perfusion and organ dysfunction. Therefore, maintaining or even restoring the glycocalyx integrity may be of high priority in the therapeutic strategy. Like drugs, however, different resuscitation fluids may have beneficial or harmful effects on the integrity of the glycocalyx. The purpose of this article is to review the effects of different resuscitation fluids on the glycocalyx. Many animal studies have shown that normal saline might be associated with glycocalyx degradation, but clinical studies have not confirmed this finding. Hydroxyethyl starch (HES), rather than other synthetic colloids, may restore the glycocalyx. However, the use of HES also leads to serious adverse events such as acute kidney injury and bleeding tendencies. Some studies have suggested that albumin may restore the glycocalyx, whereas others have suggested that balanced crystalloids might aggravate glycocalyx degradation. Notably, most studies did not correct the effects of the infusion rate or fluid volume; therefore, the results of using balanced crystalloids remain unclear. Moreover, mainly animal studies have suggested that plasma may protect and restore glycocalyx integrity, and this still requires confirmation by high-quality clinical studies.
Animals ; Colloids ; Crystalloid Solutions/therapeutic use* ; Fluid Therapy ; Glycocalyx ; Humans ; Hydroxyethyl Starch Derivatives ; Isotonic Solutions ; Microcirculation ; Resuscitation

PURPOSE: The measurement of heart rate variability (HRV) is a non-invasive method to analyze the balance of the autonomic nervous system. The aim of this study was to compare the changes of HRV and base deficit (BD) during the treatment of trauma patients. METHODS: Forty-three trauma patients with a low injury severity scores (ISS < 24) and negative base excess on admission were included in this study. Based on the BD changes, patients were divided into three groups: 'end pointed' group (n = 13), patients' BDs instantly cleared after primary hydration; 'needs further resuscitation' group (n = 21), patients' BDs did not reach the end point and thus required further hydration or packed red blood cells transfusion; and 'hydration minimal change' group (n = 9), patients' BDs lower than 2.5 mmol/L at the onset of admission and thereafter had minimal change (near normal range). The changes in HRV during fluid resuscitation were detected and compared to BD changes in their arterial blood gases. All data were analysed using the SPSS software Version 15.0. Repeated measures ANOVA was used to determine the changes in HRV, heart rate, blood pressure, and BD among groups. RESULTS: A significant reverse correlation was found between the BD ratio and the HRV ratio (r = -0.562; p = 0.01). The HRV of patients with aggravated BDs after fluid resuscitation was decreased. There was an increase in HRV at the time of BD clearance. A decrease in HRV after primary crystalloid hydration bore a significant connection with the need for an ICU (p = 0.021) and transfusion of packed red blood cells (p < 0.001). CONCLUSION Increase in HRV may be a new non-invasive index for the end point of resuscitation in trauma patients.
Adolescent ; Adult ; Aged ; Autonomic Nervous System ; physiopathology ; Crystalloid Solutions ; administration & dosage ; Fluid Therapy ; Heart Rate ; Humans ; Injury Severity Score ; Middle Aged ; Resuscitation ; methods ; Wounds and Injuries ; diagnosis ; physiopathology ; Young Adult