The relationship of red cell membrane lipid content to red cell morphology and survival in patients with liver disease

A thorny matter: Spur cell anemia

Spur cell anemia (SCA) is an acquired form of non-autoimmune hemolytic anemia that occurs in advanced liver disease. It is characterized by the presence of acanthocytes or spur cells, spiculated erythrocytes whose shortened life span causes anemia that is unresponsive to transfusion. SCA has been regarded as a rare condition with an ominous prognosis for which the only known cure is liver transplantation, but recent prospective studies have demonstrated the existence of a milder form of SCA in which there are smaller numbers of acanthocytes, but which is nevertheless associated with hemolysis and poor outcomes. This form of SCA appears to be considerably more common than the severe classical variant. The conventional understanding of the pathogenesis of SCA is that abnormalities of lipid metabolism are the primary event driving the formation of spur cells. However, the studies that underpin this theory are based on small numbers of patients with heterogeneous clinical features and inconsistent use of nomenclature for dysmorphic red blood cells. In this review, we discuss the evolution of the current understanding of SCA and therapeutic strategies that have been employed based on this understanding. Our goal is to raise awareness of this understudied condition that has significant implications for patient outcomes. Furthermore, we highlight the need for rigorous, contemporary research into the underlying cause or causes of SCA in order to develop an effective therapy for this disorder.

Cholesterol and Phospholipid Distribution Pattern in the Erythrocyte Membrane of Patients with Hepatitis C and Severe Fibrosis, before and after Treatment with Direct Antiviral Agents: A pilot Study

Objectives: Hepatitis C virus requires and induces changes in liver lipidome for its life cycle. In addition, alterations in plasma and erythrocyte lipidome are observed during a range of chronic liver diseases. Methods: A total of six subjects (three males and three females) were included in our study. All subjects were HCV positive according to virus RNA detection. Erythrocyte ghosts were prepared from blood and collected upon diagnosis and also at the end of the treatment with Direct Antiviral Agents (DAA). Lipids were extracted from the erythrocyte ghosts, and cholesterol and phospholipids were analyzed by thin layer chromatography. A semi-quantitative estimation of cholesterol (CHOL), phosphatidylethanolamine (PE), phosphatidylinositol (PI), phosphatidylserine (PS), phosphatidylcholine (PC) and sphingomyelin (SM) was performed by densitometric analysis of the chromatographs. Results: After the antiviral treatment, PE percentage decreased, whereas the PC/PE and CHOL/PE ratio increased significantly. There were also other weaker differences for CHOL, PI, PS, PC and SM. Before DAA there was a very weak correlation between ALT and PC/PE ratio. In contrast, there was a steep negative correlation between these two parameters after DAA. Conclusion: Red blood cell lipid composition and especially the PC/PE ratio could be a candidate real time biological marker for inflammation resolution during hepatitis C treatment.

Perfusion vs. oxygen delivery in transfusion with "fresh" and "old" red blood cells: the experimental evidence

We review the experimental evidence showing systemic and microvascular effects of blood transfusions instituted to support the organism in extreme hemodilution and hemorrhagic shock, focusing on the use of fresh vs. stored blood as a variable. The question: "What does a blood transfusion remedy?" was analyzed in experimental models addressing systemic and microvascular effects showing that oxygen delivery is not the only function that must be addressed. In extreme hemodilution and hemorrhagic shock blood transfusions simultaneously restore blood viscosity and oxygen carrying capacity, the former being critically needed for re-establishing a functional mechanical environment of the microcirculation, necessary for obtaining adequate capillary blood perfusion. Increased oxygen affinity due to 2,3 DPG depletion is shown to have either no effect or a positive oxygenation effect, when the transfused red blood cells (RBCs) do not cause additional flow impairment due to structural malfunctions including increased rigidity and release of hemoglobin. It is concluded that fresh RBCs are shown to be superior to stored RBCs in transfusion, however increased oxygen affinity may be a positive factor in hemorrhagic shock resuscitation. Although experimental studies seldom reproduce emergency and clinical conditions, nonetheless they serve to explore fundamental physiological mechanisms in the microcirculation that cannot be directly studied in humans.

Increased hepatic iron and cirrhosis: no evidence for an adverse effect on patient outcome following liver transplantation

It has been suggested that preexisting severe hepatic iron overload may adversely affect outcome after liver transplantation. The pathogenesis of iron overload in cirrhosis in the absence of hemochromatosis gene (HFE) mutations is poorly understood. The relationships between liver disease severity and etiology, degree of hepatic iron overload, and post-liver transplantation outcome were studied in 282 consecutive adult patients with cirrhosis. Thirty-seven percent of patients had stainable hepatic iron. Increased hepatic iron concentration was significantly associated with more severe liver disease (P<.001), male sex (P = .05), the presence of spur cell anemia (P<.0001), and hepatocellular liver disease (P<.0001). The HFE mutations were uncommon in patients with increased hepatic iron stores. Increased hepatic iron concentration was not associated with greater utilization of resources or a lower survival after liver transplantation. Child-Pugh score at the time of liver transplantation was the only independent variable affecting patient survival (P = .0008). In summary, our data suggest that the severity of the liver disease rather than hepatic iron concentration is the most important determinant of outcome after liver transplantation and that, in general, increasing hepatic iron concentration in cirrhosis is a surrogate marker of the severity of the underlying liver disease.

Resolution of spur cell anemia with liver transplantation: a case report and review of the literature

Spur cell anemia is an acquired hemolytic anemia, characterized by an increased percentage of abnormally shaped erythrocytes that are known as acanthocytes. The erythrocytes have numerous spicules irregularly distributed over the cell surface. Spur cell anemia has been described to occur in several conditions, including cirrhosis. We present an unusual case of a young patient with hemochromatosis, alcohol abuse, decompensated cirrhosis, and spur cell anemia who had a spontaneous resolution of the spur cell anemia after orthotopic liver transplantation. This finding suggests that the diseased liver may contribute to transformation of the erythrocyte to the spur cell.

Erythrocyte echinocytosis in liver disease. Role of abnormal plasma high density lipoproteins

Echinocytes were frequently found in patients with liver disease when their blood was examined in wet films, but rarely detected in dried, stained smears. When normal erythrocytes (discocytes) were incubated with physiologic concentrations of the abnormal high density lipoproteins (HDL) from some jaundiced patients, echinocytosis developed within seconds. Other plasma fractions were not echinocytogenic. There was a close correlation between the number of echinocytes found in vivo and the ability of the corresponding HDL to induce discocyte-echinocyte transformation. On incubation with normal HDL, echinocytes generated in vitro rapidly reverted to a normal shape, and echinocytes from patients showed a similar trend. Echinocytosis occurred without change in membrane cholesterol content, as did its reversal, and was not caused by membrane uptake of lysolecithin or bile acids. Abnormal, echinocytogenic HDL showed saturable binding to approximately 5,000 sites per normal erythrocyte with an association constant of 10(8) M-1. Nonechinocytogenic patient HDL and normal HDL showed only nonsaturable binding. Several minor components of electrophoretically separated erythrocyte membrane proteins bound the abnormal HDL; pretreatment of the cells with trypsin or pronase reduced or eliminated binding. Echinocytosis by abnormal HDL required receptor occupancy, rather than transfer of constituents to or from the membrane, because cells reversibly prefixed in the discoid shape by wheat germ agglutinin, and then exposed to abnormal HDL, did not become echinocytes when the HDL and lectin were successively removed. Binding did not cause dephosphorylation of spectrin. We conclude that the echinocytes of liver disease are generated from discocytes by abnormal HDL, and we infer that the shape change is mediated by cell-surface receptors for abnormal HDL molecules.

Carbohydrate content of human red cell membrane in patients with cirrhosis of the liver

The protein and carbohydrate contents of red cell membranes from 12 patients with liver cirrhosis were compared to those from 12 normal donors. Protein content was significantly higher and surface sialic acid and neutral hexoses were similar, whereas surface fucose and hexosamine were significantly lower in the cirrhotic red cells. The role of these membrane modifications is discussed.

Haemolysis in liver disease: relationship to erythrocyte membrane function, serum bilirubin concentration and plasma electrolyte disturbances

The pathogenesis of the mild to moderate haemolysis that is almost universal in patients with liver disease was investigated to determine if it was related to dysfunction of the red blood cell (RBC) membrane resulting from abnormalities in plasma electrolyte, urea or bilirubin concentrations. Thirty-nine patients with various forms of liver disease were investigated as well as six with miscellaneous diseases associated with plasma electrolyte disturbance. RBC membrane permeability was measured by the rate of 22Na influx. The results showed that the shortened RBC survival in liver disease is not related to morphological changes in the RBC or altered membrane integrity as measured by osmotic fragility, mechanical fragility, autohaemolysis, membrane ATP and membrane permeability.