No abstract available.
Blood Coagulation Factors* ; Plasma*

No abstract available.
Blood Coagulation Factors* ; Fibrinogen*

No abstract available.
Blood Coagulation Factors* ; Fibrinogen*

Studying retrospectively 117 cases of atherosclerosis in the Hospital of Hematology and Blood Transfusion in Ho Chi Minh city showed that: atherosclerosis is very common in elderly and the form of calcified plaque accounts for highest rate. Atherosclerosis is usually associated with other pathological status such as CHA, blood lipid disorder, diabetes and obesity
Blood Coagulation Factors ; Arteriosclerosis ; Blood

OBJECTIVE: To compare the plasma components of frozen plasma (FP) and fresh frozen plasma (FFP). METHODS: Twenty samples of FP and 20 samples of FFP from Beijing Red Cross Blood Center were randomly selected. Immediately after plasma melting, 12 plasma components including coagulation factor, fibrinolytic system and anticoagulation protein were detected, including activated partial thromboplastin time (APTT), prothrombin time (PT), coagulation factor Ⅷ (FⅧ) activity, coagulation factor Ⅴ (FⅤ) activity, fibrinogen(FIB) level, ADAMTS-13 activity, von Willebrand factor(vWF) activity, D-dimer (D-dimer, DD), fibrin degradation products (FDP), antithrombin (AT), protein C (PC), and protein S (PS). All these coagulation components between the two types of plasma were compared and analyzed. RESULTS: Compared with FFP, APTT in FP was significantly prolonged(t=3.428, P<0.01), and PT was also significantly prolonged(z=-2.140, P<0.05), and FⅧ activity was decreased (t=-3.372, P<0.01), but all in the reference range, and PS activity was decreased(t=-2.458，P＜0.05), there was no statistical difference in the other part between two types of plasma(P>0.05). CONCLUSION FP can substitute FFP in the treatment of some diseases, although it is lack of some coagulation factors and anticoagulation protein.
Beijing ; Blood Coagulation ; Blood Coagulation Factors ; Blood Coagulation Tests ; Humans ; Plasma

Hemophilia is a hereditary hemorrhagic disease induced by synthesis reducing of clotting factors or functional defect because of genetic mutations, Its treatment methods include traditional replacement therapy and new types of gene therapy. Replacement therapy is to reduce the bleeding complication and prevent the loss of function through the infusion exogenous recombinant coagulation factor, and gene therapy is to import the gene that exogenous code clotting factor into the patients' body by gene transfer technology, and express the treatment level of clotting factors to achieve the purpose of the permanent cure hemophilia. The various factors which affecting effects of the hemophilia's gene therapy include carrier factors, target cell factors, the timing of treatment, immune response caused by carrier. This review summarizes briefly the research progress of the factors affecting the gene therapy for hemophilia.
Blood Coagulation Factors ; Genetic Therapy ; Hemophilia A ; Humans

Objective To provide reference indexes and theoretical basis for age estimation of blood pools by investigating the entire drying process and monitoring the change of morphology and mass. Methods Four 15 mL blood pool samples were prepared on the clean ceramic plate. The change of morphology and mass of blood pools in a closed dark environment with a temperature of （20.0±0.5） ℃ and a humidity of 35%-45% were dynamically observed from 0 h to 60 h. Images of the blood pools were recorded by digital camera. The area of blood pools was calculated by MATLAB R2014b, the length of cracks was measured by Image J and the statistical analysis was performed by SPSS 16.0. Results By summarizing and analyzing, the drying of blood pools was divided into five stages： coagulation （0-4.5 h）, gelation （>4.5-20.0 h）, gel-solid mixing （>20.0-37.0 h）, solid （>37.0-40.0 h） and final desiccation （>40.0-45.0 h）. From 0 to 45 h, the mass of the blood pools decreased linearly with time, and the decrease was not obvious from 45.0 to 60.0 h. The standardized mass （y₂） showed strong correlation with the time （x） y₂=0.018 2 x+0.271 4（R²=0.967 9）. The area change rate of blood pools, the distance that the edge of blood pools moved, the average length of radical cracks had little correlation with the time that passed. Conclusion The overall morphological characteristics of blood pools show a certain regularity with the time and the standardized indexes established provide a reference for the age estimation of blood pools.
Blood Coagulation ; Humidity ; Temperature ; Time Factors

Humans ; Blood Coagulation Factors/therapeutic use*

Twenty male patients with Korean hemorrhagic fever were evaluated with thrombelastography (TEG) to assess the changes in coagulation system, and the results were compared with those of conventional coagulation tests. Procoagulant activity in the plasma was determined by comparing the reaction time "r" of the normal plasma and that of the mixture of equal parts of the normal plasma and the patient's plasma. The TEG was found to be a useful measure of the changes in the coagulation profile, and provided instant accurate assessment of the patient's hemostatic function. Presence of the procoagulant activity was demonstrated in the plasma of the patients and indicated occurrence of active intravascular coagulation during the early stage of the disease.
Adult ; Blood Coagulation ; Blood Coagulation Factors/*analysis ; Hemorrhagic Fever with Renal Syndrome/*blood ; Humans ; Male ; *Thrombelastography

Thawing fresh frozen plasma(FFP) by waterbath(WB) requires about 30 minutes, which is too slow in emergency situations and carries the risk of bacterial contamination of FFP. To solve these problems, a new thawing method using a microwave oven(MWO) has been developed. Twenty units of equally divided plasma from 10 units of plasma were frozen, stored at -55 degrees C, and thawed in parallel using microwave oven or waterbath. Coagulation factors, plasma proteins and thawing time were measured. Except for antithrombin III(MWO: 85.2+/-6.94%, WB : 90.8+/-9.14%, p<0.05), no significant differences were observed in the 18 other coagulation parameters and the plasma proteins studied. Mean thawing time by MWO was 5.9 minutes per 1 unit, 10.4 minutes per 2 units and 12.5 minutes per 3 units; by WB, it was 19.0, 20.0 and 22.0 minutes, respectively. In conclusion, FFP can be thawed faster using a microwave oven than using 37 degrees C waterbath and the thawed plasma proteins were generally equivalent to those of FFP thawed by waterbath.
Blood Coagulation Factors ; Blood Proteins ; Emergencies ; Microwaves* ; Plasma*