Development and characterisation of a large diameter decellularised vascular allograft

The aims of this study were to develop a biological large diameter vascular graft by decellularisation of native human aorta to remove the immunogenic cells whilst retaining the essential biomechanical, and biochemical properties for the ultimate benefit of patients with infected synthetic grafts. Donor aortas (n = 6) were subjected to an adaptation of a propriety decellularisation process to remove the cells and acellularity assessed by histological analysis and extraction and quantification of total DNA. The biocompatibility of the acellular aortas was determined using standard contact cytotoxicity tests. Collagen and denatured collagen content of aortas was determined and immunohistochemistry was used to determine the presence of specific extracellular matrix proteins. Donor aortas (n = 6) were divided into two, with one half subject to decellularisation and the other half retained as native tissue. The native and decellularised aorta sections were then subject to uniaxial tensile testing to failure [axial and circumferential directions] and suture retention testing. The data was compared using a paired t-test. Histological evaluation showed an absence of cells in the treated aortas and retention of histoarchitecture including elastin content. The decellularised aortas had less than 15 ng mg¯¹ total DNA per dry weight (mean 94% reduction) and were biocompatible as determined by in vitro contact cytotoxicity tests. There were no gross changes in the histoarchitecture [elastin and collagen matrix] of the acellular aortas compared to native controls. The decellularisation process also reduced calcium deposits within the tissue. The uniaxial tensile and suture retention testing revealed no significant differences in the material properties (p > 0.05) of decellularised aorta. The decellularisation procedure resulted in minimal changes to the biological and biomechanical properties of the donor aortas. Acellular donor aorta has excellent potential for use as a large diameter vascular graft

Effect of corticosteroid therapy on the phagocytosis of antibody-coated platelets by human leukocytes

Abstract Patients with idiopathic thrombocytopenic purpura (ITP), a disorder in which antibody coated platelets are cleared from the circulation by phagocytic cells, are often treated with glucocorticoids. The effect of corticosteroids on the recognition and ingestion of sensitized platelets by phagocytes can be quantified in these patients and compared to changes in platelet levels. Six patients with ITP were treated with 96 mg daily of methylprednisolone for 5 days. This treatment raised their platelet count and simultaneously decreased the ability of their granulocytes to phagocytize antibody-coated platelets and C3-coated paraffin oil droplets. Corticosteroid treatment did not affect the binding of antibody to platelets or the quantity of antibody in the patients' serum. The ingestion defect was present in isolated, washed leukocytes and persisted for 3–5 days after the corticosteroids were discontinued. Granulocytes and purified monocytes obtained from patients with other medical disorders receiving corticosteroids also ingested paraffin oil droplets and opsonized platelets at a slower rate. These studies provide direct evidence that corticosteroids induce a generalized phagocytic defect and that this may be the mechanism by which corticosteroids raise the platelet count in patients with ITP.</jats:p

Platelet function in the Chediak-Higashi syndrome

Abstract Platelet function studies were performed on two patients with the Chediak-Higashi syndrome, one of whom had a history of easy bruising unrelated to thrombocytopenia. Both patients had prolonged bleeding times, abnormal platelet aggregation, and a defect of platelet storage granules, manifested by reduced platelet ADP, an increased ATP/ADP ratio, increased adenine nucleotide specific radioactivity after 3H- adenine labeling, and decreased platelet uptake of radioactive 5- hydroxytryptamine. These findings confirm preliminary data in animals with the Chediak-Higashi syndrome, provide and explanation for impaired primary hemostasis in these patients, and illustrate another disorder in which platelet storage-pool deficiency occurs.</jats:p

Effect of corticosteroid therapy on the phagocytosis of antibody-coated platelets by human leukocytes

Patients with idiopathic thrombocytopenic purpura (ITP), a disorder in which antibody coated platelets are cleared from the circulation by phagocytic cells, are often treated with glucocorticoids. The effect of corticosteroids on the recognition and ingestion of sensitized platelets by phagocytes can be quantified in these patients and compared to changes in platelet levels. Six patients with ITP were treated with 96 mg daily of methylprednisolone for 5 days. This treatment raised their platelet count and simultaneously decreased the ability of their granulocytes to phagocytize antibody-coated platelets and C3-coated paraffin oil droplets. Corticosteroid treatment did not affect the binding of antibody to platelets or the quantity of antibody in the patients' serum. The ingestion defect was present in isolated, washed leukocytes and persisted for 3–5 days after the corticosteroids were discontinued. Granulocytes and purified monocytes obtained from patients with other medical disorders receiving corticosteroids also ingested paraffin oil droplets and opsonized platelets at a slower rate. These studies provide direct evidence that corticosteroids induce a generalized phagocytic defect and that this may be the mechanism by which corticosteroids raise the platelet count in patients with ITP.</jats:p

Platelet function in the Chediak-Higashi syndrome

Platelet function studies were performed on two patients with the Chediak-Higashi syndrome, one of whom had a history of easy bruising unrelated to thrombocytopenia. Both patients had prolonged bleeding times, abnormal platelet aggregation, and a defect of platelet storage granules, manifested by reduced platelet ADP, an increased ATP/ADP ratio, increased adenine nucleotide specific radioactivity after 3H- adenine labeling, and decreased platelet uptake of radioactive 5- hydroxytryptamine. These findings confirm preliminary data in animals with the Chediak-Higashi syndrome, provide and explanation for impaired primary hemostasis in these patients, and illustrate another disorder in which platelet storage-pool deficiency occurs.</jats:p

Regulation of platelet arachidonic acid oxygenation by cyclic AMP

Abstract Intracellular cyclic adenosine monophosate (AMP) levels regulate the generation of thromboxane by platelets by inhibiting the hydrolysis of arachidonic acid from membrane phospholipids. However, there is conflicting evidence regarding the role of cyclic AMP in the control of the subsequent oxygenation of arachidonic acid by cyclooxygenase. We studoed the regulation of cyclooxygenase activity by agents that elevate platelet cyclic AMP (dibutyryl cyclic AMP and prostaglandins), measuring arachidonate-induced aggregation, O2 consumption, and malonaldehyde formation. In platelet-rich cyclic AMP. This inhibitory effect of cyclic AMP was absent in gel-filtered platelets suspended in buffer containing 0.5% albumin, and was progressively restored as plasma was added in increasing concentrations. Increasing the albumin concentration in platelet buffer suspensions likewise increased the ability of cyclic AMP to block the arachidonate-induced O2 burst and MDA production. We conclude that (1) the presence of plasma proteins is important in investigating platelet plasma milieu or at least in the presence of physiologic albumin concentrations.</jats:p