T. Kamiya scite author profile

T. Kamiya

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26Citation Statements Received

44Citation Statements Given

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Adsorption of Anaphylatoxins and Platelet-Specific Proteins by Filtration of Platelet Concentrates with a Polyester Leukocyte Reduction Filter

Shimizu¹,

Uchigiri²,

Mizuno³

et al. 1994

Vox Sanguinis

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Anaphylatoxins generated during storage of platelet concentrates (PCs) may potentially have side effects on platelet transfusion. We evaluated the anaphy- latoxin-scavenging abilities of white blood cell reduction filters. Among the commercially available filters for PCs, one made with polyester fiber (PL50) dramatically adsorbed C3a and C4a anaphylatoxins to the respective mean level of 1,721-208 ng/ml and 1,240-141 ng/ml in 3-day-old PCs. C3a and C4a were measured as the native and des Arg form of each complement by radioimmunoassay. C3a and C4a anaphylatoxins in the supernatant plasma fraction from 3-day-old PC again decreased from 1,136 to 114 ng/ml and from 1,086 to 65 ng/ml, respectively. The filter also adsorbed 85% of platelet factor 4 (PF4) and 31% of β-thromboglobulin (β-TG), which had been released from platelets into the plasma during storage. The plasma levels of adhesive proteins such as fibronectin, fibrinogen, and von Willebrand factor, and plasma lactate dehydrogenase activity did not decrease after filtration. Another polyester filter (PL5A), on the other hand, significantly increased C3a and C4a levels with filtration. In addition, there was no PF4 adsorption ability during the filtration. The filters for red cells (RC50, BPF4, and R500A) had no anaphyla- toxin adsorption capabilities. The observed specific adsorption of anaphylatoxins might be attributed to the electrostatic force between the positively charged anaphylatoxins with high pi and the possibly negatively charged filter membranes. Since PF4 and ß-TG have positively charged moieties in the C-terminal position, the same adsorption mechanism might operate. We have obtained a useful scavenging filter for the evaluation of side effects of anaphylatoxins on patients who received old PCs.

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A Novel Second-Generation Polyolefin Container for Storage of Single-Donor Apheresis Platelets

Shimizu¹,

Kouketsu²,

Kamiya³

et al. 1989

Vox Sanguinis

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A non-blow-molded LE-2 polyolefin (PO) container was developed to store single-donor apheresis platelet concentrates (PCs) processed by the Haemonetics Plasma Collecting System (PCS) at 22°C for over 1 day. We molded PO containers with heat-sealing of light-weight polymer alloy films with a thickness of 0.25 mm. The film was made of polymer blends consisting of polypropylene, styrene ethylene butylene styrene-block copolymer, and ehtylene ethylacrylate copolymer. The PO container with enough strength and flexibility in routine practice has 2 and 1.6 times higher oxygen and carbon dioxide gas transfer properties than standard polyvinyl chloride (PVC) plastic containers. PCs (1-1.9x10^11 platelets) processed from 450ml platelet-rich plasma were stored in 0.6-liter PO containers at 22°C with flatbed agitation for up to 6 days. The pH of PCs was well maintained at the mean values of 7.0 in PO containers after 6 days in the well-oxygenated condition. The energy metabolism of stored platelets was determined. Oxygen consumption rates of platelets stored in PO containers averaged 1.5 nmol/min/10^9 platelets. The rates of glucose consumption and lactate production were 0.4 and 0.8 nmol/min/10^11 platelets, respectively. The rates of adenosine triphosphate (ATP) generation of platelets, 9.7 nmol/min/109 platelets, in PO containers did not differ from those in the PVC containers. Aggregation responses to adenosine diphosphate and hypotonic shock response of platelets were better maintained in PO containers. The morphological changes into sphere forms with projections and the appearance of unclassified forms were more frequently observed in PO than in PVC containers. Single-donor apheresis platelet products collected by the PCS system may be stored in a new 0.6-liter PO container for over 5 days under acceptable conditions.

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T. Kamiya

Adsorption of Anaphylatoxins and Platelet-Specific Proteins by Filtration of Platelet Concentrates with a Polyester Leukocyte Reduction Filter

A Novel Second-Generation Polyolefin Container for Storage of Single-Donor Apheresis Platelets

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