In this study, 48 long-term exposed people with polychemicals (the male/female ratio is 1/3, the age from 23 to 44): such as organic and iso-organic acids: benzene, toluene and their coequals were investigated. 17 normal people not exposed with polychemicals as the control group. Results were shown following: quantity of erythrocyte was lower than control group but not significantly. Leucocytes especially neutrophils reduced significantly (p<0.001). 15/48 cases (30%) appereared lymphoblast. There is no difference in platelet between studied group and control group
Chemistry ; Diagnosis ; Erythrocytes ; Blood Platelets

CD62p expression was an important monitoring parameter for preserved platelets quality. To setup an optimized flow cytometry assay for preserved platelets based on the CD62p expression on platelets, the platelet samples were collected, 0.1 mmol/L persantine and 1.1 mmol/L EDTA were added into the modified TB S used to replace PBS dilution; the methodological evaluation were carried out. Results showed that 0.1 mmol/L persantine and 1.1 mmol/L EDTA achieved to prevent platelets activation during the test procedure. The favorable negative or positive samples were prepared for check of fluorescence antibody's quality to ensure the validity of results. CD61 was used to identify platelets for assay and improve veracity of assay. The special injector was also replaced by special big syringe needle for blood collection to reduce in vitro artifacts, and the prepared sample can be steady-going for 48 hours at 4 degrees C after fixed by 1% paraformaldehyde. It is concluded that this flow cytometry assay for CD62p positive platelets is simple and efficient.
Blood Platelets ; chemistry ; Blood Preservation ; Flow Cytometry ; methods ; Humans ; P-Selectin ; blood

To observe the change of quantity and quality of platelets preserved in a full-sealed bag, and explore the difference of platelets preserved in oscillating and static conditions at (22 +/- 2) degrees C, the platelet concentrates were prepared with a CS-3000-plus blood cell separator, the platelet counts were performed with automatic blood cell analyzer and P-selectin in supernatant of platelet concentrates was detected by ELISA. The results showed that both of platelet count and P-selectin content in the platelet concentrates had no significant difference between oscillating and static preservation condition. With prolongation of preserved time, the platelet count decreased and P-selectin content increased gradually in both preserved conditions. There was no difference in the platelet counts during 0 - 72 hours preservation in both conditions, and significant difference was seen in 96 - 120 hours preservation. It was concluded that the expired date for platelet product preserved in CS-3000-plus blood cell separator full-sealed system should be 3 days. Under the condition of (22 +/- 2) degrees C, the quality of the platelet preserved in oscillating state is not superior to static preservation.
Blood Platelets ; chemistry ; Blood Preservation ; Female ; Humans ; Male ; P-Selectin ; blood ; Platelet Count ; Time Factors

This study was aimed to establish an applicable, convenient and rapid method for platelet intracellular trehalose determination, so that the technique of trehalose loading could be optimized and used in research on freeze-drying platelets. Protein from loaded-trehalose platelets was deposited by using trichloroacetic acid, trechalose concentration in platelets was determinated by sulfuric-anthrone reaction and was analyzed by high performance liquid chromatography (HPLC). The results showed that when platelets were loaded with 1.7% of trehalose in loading solution, intracellular concentration determinated by sulfuric-anthrone reaction was 0.22% and derterminated by HPLC was 0.2%. The recovery rate of trehalose determinated by sulfuric-anthrone reaction was 100.7% and stability and repeatability of results were good. In conclusion, the method is convenient, rapid, accurate and highly sensitive for determination of platelet intracellar trehalose.
Blood Platelets ; chemistry ; Chromatography, High Pressure Liquid ; methods ; Humans ; Reproducibility of Results ; Sulfuric Acids ; chemistry ; Trehalose ; analysis

OBJECTIVETo observe the effect platelet antigen modification by mPEG-SPA with different molecular masses.

METHODSPlatelet CD42a was modified by 5 kD and 20 kD mPEG-SPA, respectively, and the fluorescence intensity of CD42a was detect by flow cytometry and the three-dimensional structure of CD42a simulated to analyze the distribution of lysine in CD42a molecule.

RESULTSAfter platelet CD42a modification by 5 kD and 20 kD mPEG-SPA, the fluorescence intensity of CD42a decreased sharply by 85.54% and 88.65%, respectively, and multiple lysine regions were identified on the surface of CD42a molecule.

CONCLUSIONBoth 5 kD and 20 kD mPEG-SPA allow useful modification of platelet CD42a, but 20 kD mPEG-SPA is more advantageous than 5 kD mPEG-SPA.

Blood Platelets ; chemistry ; Humans ; Molecular Weight ; Platelet Glycoprotein GPIb-IX Complex ; chemistry ; Polyethylene Glycols ; chemistry ; Succinimides ; chemistry

In order to evaluate diamond like carbon film (DLC), DLC containing Si, graphite, diamond film (DF), low temperature isotropic carbon film (LTIC) and SiC, we investigated the correlations between surface energy parameters and hemocompatibility indices such as kinetic clotting time, hemolysis and platelet consumption. An analysis of T-type correlation degree in the Grey system theory was performed. The results showed: (1) all of correlation degrees between kinetic clotting time and polar surface energy parameters were positive, but for critical surface tension, the correlation degree was negative; among five of surface energy parameters, interface tension had the highest relation degree (0.63) with kinetic clotting time, and critical surface tension (-0.43) took the second place; (2) on the contrary, all of correlation degrees between hemolysis and polar surface energy parameters were negative, but for critical surface tension, the correlation degree was positive; and that which had closer correlations with hemolysis were still interface tension (-0.43) and critical surface tension (0.29); (3) critical surface tension had the highest relation degree (0.68) with platelet consumption, and surface tension (0.32) took the second place; (4) kinetic clotting time possessed higher negative correlation degrees with hemolysis (-0.57) and platelet consumption (-0.36). These data indicate that kinetic clotting time depended on a balance between the polarity of surface and the limited humidifying of water on the surface, and that platelet consumption was based on good humidification and power polarity of surface, while hemolysis was promoted by the aid of chromatic dispersion action stemming from the surface and fully humidifying of water on the surface. There was "seesaw effect" between kinetic clotting time and hemolysis or platelet consumption, hence the hemocompatibility of carbonaceous biomaterials could be equivalently evaluated by using kinetic clotting time as an index. It has been confirmed: (1) successive occurrences, including adhesion, deformation and collection of platelets on the material surfaces as results of protein adsorption, are the major mechanism of blood coagulation of carbonaceous materials; (2) the hemocompatibility of carbonaceous biomaterials can be evaluated by using critical surface tension as an index. These findings may underpin the hemocompatibility evaluation of carbonaceous biomaterials based on surface properties.
Adsorption ; Biocompatible Materials ; chemistry ; Blood Platelets ; cytology ; Carbon ; chemistry ; Diamond ; chemistry ; Feasibility Studies ; Graphite ; chemistry ; Hemolysis ; Platelet Adhesiveness ; Surface Properties

Aged ; Aged, 80 and over ; Blood Platelets ; chemistry ; Humans ; Receptor, PAR-1 ; blood ; Receptors, Thrombin ; blood ; Renal Dialysis ; Uremia ; blood ; therapy

Chemical constituents of Leonurus japonicus were isolated and purified by a combination of various chromatographic techniques including column chromatography over silica gel, Sephadex LH-20, MCI, and Rp C18. Structures of the isolates were determined by spectroscopic analysis as 10 coumarins: bergapten (1), xanthotoxin (2), isopimpinellin (3), isogosferal (4), imperatorin (5), meransin hydrate(6), isomeranzin(7), murrayone(8) , auraptenol(9), and osthol(10). In addition to compound 9, the others were isolated from the genus Leonurus for the first time. In the in vitro assay, compounds 4 and 8 significantly inhibited the abnormal increase of platelet aggregation induced by ADP.
Blood Platelets ; drug effects ; Coumarins ; chemistry ; pharmacology ; Leonurus ; chemistry ; Platelet Aggregation ; drug effects ; Platelet Aggregation Inhibitors ; chemistry ; pharmacology

Biocompatibility is the essential property of biomaterials, which is the essence of biomaterial evaluation as well as the foundation of the design and improvement of biomaterials. Several methods were carried out to evaluate the biocompatibility of poly(L-Lactide)-b-poly(trimethylene carbonate (PLLA-b-PTMC) and poly(D,L-Lactide)-b-poly(trimethylene carbonate) (PDLLA-b-PTMC) with poly(L-Lactide) (PLLA) and poly(trimethylene carbonate) (PTMC) as control, including extract liquid experiment, directly contact experiment of materials and cells, hemolytic ratio analysis and platelet adhesion investigation. The results revealed that all the materials exhibited an acceptable cytotoxicity, and proliferation of cells on the modified materials was less than that on the PLLA but more than that on PTMC. The results of hemocompatibility experiments showed that no significant hemolysis was detected when all the materials were in use; in addition, the numbers of platelets adhered on the surface of copolymers were smaller than that on the surface of PLLA, and the degree of platelet deformation was slighter. So, the biocompatibility of copolymers is similar to that of PLLA, the biocompatibility of PLLA is not remarkably changed by modification with PTMC, but rather is improved.
Absorbable Implants ; Biocompatible Materials ; chemistry ; metabolism ; Blood Platelets ; cytology ; Hardness ; Humans ; Lactic Acid ; chemistry ; metabolism ; Materials Testing ; Polyesters ; chemistry ; metabolism ; Polymers ; chemistry ; metabolism ; Tissue Engineering ; methods

The possibility of polyoxymethylene (POM) as heart valve leaflet material was investigated by comparing the hemocompatibility with that of 316L stainless steel and low-temperature isotropic pyrolytic carbon (LTIC). Surface hydrophobicity was characterized by water contact angle measurement. Platelet adhesion, APTT/PT/TT and hemolysis rate tests were applied for evaluating hemocompatibility. The results showed that POM was hydrophobic and had a low hemolytic rate, adhesion amount and activation degree of platelets on POM surface were less than 316L stainless steel, and was similar to LTIC. This research pointed out potential application of POM as heart valve leaflets.
Biocompatible Materials ; chemistry ; Blood Platelets ; Carbon ; chemistry ; Heart Valve Prosthesis ; Heart Valves ; Humans ; Platelet Adhesiveness ; Resins, Synthetic ; chemistry ; Stainless Steel ; chemistry