The objective of the present study was designed to evaluate lyophilized red blood cells of the ultrastructure. Blood was drawn from healthy adult. In group 1, sample was fresh blood; in group 2, sample was added 35% glycerine, stored at -80 degrees C for 24 hours; in group 3, red blood cells stored at 4 degrees C for 5 hours, then were lyophilized for 16 hour. The sample was resuspended for measurements of count and electron microscopy study. The result showed that lyophilized red blood cells possessed relative integrated structure, red blood cell recovery was 53%. The mean diameter, optical density and integral optical density of red blood cell were 4.7 +/- 0.4, 0.14 +/- 0.03 and 1.58 +/- 0.46 in group 1; 4.6 +/- 0.7, 0.14 +/- 0.02 and 2.35 +/- 0.64 in group 2; 4.4 +/- 0.4, 0.17 +/- 0.05 and 2.35 +/- 0.46 in group 3, respectively. There was no significant difference in lyophilized and frozen group, but there was significant difference in lyophilized group and normal group. In conclusion, human red blood cells could be successfully lyophilized and possess relative integrated structure. The mean diameter, optical density and integral optical density of lyophilized red blood cells were similar to that of cryopreservation red cells.
Blood Preservation ; Erythrocytes ; ultrastructure ; Freeze Drying ; Humans

This paper introduces a new method for color blood cell image segmentation based on FCM algorithm. By transforming the original blood microscopic image to indexed image, and by doing the colormap, a fuzzy apparoach to obviating the direct clustering of image pixel values, the quantity of data processing and analysis is enormously compressed. In accordance to the inherent features of color blood cell image, the segmentation process is divided into two stages. (1)confirming the number of clusters and initial cluster centers; (2) altering the distance measuring method by the distance weighting matrix in order to improve the clustering veracity. In this way, the problem of difficult convergence of FCM algorithm is solved, the iteration time of iterative convergence is reduced, the execution time of algarithm is decreased, and the correct segmentation of the components of color blood cell image is implemented.
Algorithms ; Color ; Cytological Techniques ; methods ; Erythrocytes ; ultrastructure ; Humans ; Image Interpretation, Computer-Assisted ; Leukocytes ; ultrastructure

The atomic force microscope (AFM) with an atomic resolution is a powerful tool for biological structure. The probe is an important part that determines the resolution of AFM. Carbon nanotube is becoming an ideal AFM probe due to its unique structure physical and chemical properties. Carbon nanotube AFM probes can be made by manual assembly or chemical vapor deposition. Several proteins, nucleic acids and cells have been investigated with carbon nanotube probes. Not only the high-resolution images but also the determination of specific DNA sequence and haplotype were acquired. Carbon nanotube AFM probe will increasingly play an important role in biological studies.
Carbon ; Cells, Cultured ; Equipment Design ; Erythrocytes ; parasitology ; ultrastructure ; Microscopy, Atomic Force ; instrumentation ; Proteins ; ultrastructure ; Sequence Analysis, DNA ; methods

OBJECTIVE: To observe changes on cell membrane in blood cells after they were been electrified. METHODS: Blood were electrified for 5, 10, 20, 30 s, 1 min respectively, and Scanning electron microscope was used to detect the changes on their cell membranes. RESULTS: Pores were detected both on electrified erythrocytes and leukocytes with round or ellipse shapes. The erythrocytes often have one or more pores while the leukocytes often have more pores looked like cribble. The rates of perforated cells were increased with the prolonging time of electrification, 5 s with 6% and 1 min increased to 40%. CONCLUSIONS Alternating current can cause the cell perforating, and the rates of perforated cell were increased with the prolonging time of electrification.
Adult ; Blood Cell Count ; Cell Membrane/ultrastructure* ; Cell Membrane Permeability ; Electroporation/methods* ; Erythrocytes/ultrastructure* ; Female ; Humans ; In Vitro Techniques ; Leukocytes/ultrastructure* ; Male ; Microscopy, Electron, Scanning ; Middle Aged ; Young Adult

To study the dynamic changes of ultrastructure of erythrocytes in prolonged preservation of blood with preservative fluid containing superoxide dismutase (SOD), the whole blood samples were preserved at 4 degrees C in SOD-containing solution, the morphologic changes of erythrocyte were dynamically ob served by transmission microscopy after preservation for 42, 75 and 85 days, an d the blood samples preserved in GMA solution served as control. Three variance was applied to analyze the data with SAS software. The results showed that the metamorphotic rates of erythrocyte preserved in SOD-containing solution for 42, 75 and 85 days were lower than those of erythrocytes preserved in GMA solution. Most of metamorphotic rates of erythrocyte preserved in SOD-containing solution for 42, 75 and 85 days were correspond to those of erythrocytes preserved in GMA solution for 42 days, or even lower. It is concluded that SOD-containing preservative fluid might help to maintain the normal morphology of erythrocytes in prolonged preservation at 4 degrees C.
Blood Preservation ; Erythrocyte Deformability ; Erythrocytes ; ultrastructure ; Humans ; Microscopy, Electron ; Superoxide Dismutase ; pharmacology ; Time Factors

Mechanical properties and biological evaluation of buffalo horn material were examined in this study. The effects of sampling position of buffalo horn on mechanical properties were investigated with uniaxial tension and micron indentation tests. Meanwhile, the variation of element contents in different parts of buffalo horn was determined with elemental analysis, and the microstructure of the horn was measured with scanning electron microscopy. In addition, biological evaluation of buffalo horn was studied with hemolytic test, erythrocyte morphology, platelet and erythrocyte count, and implantation into mouse. Results showed that the buffalo horn had good mechanical properties and mechanical characteristic values of it gradually increased along with the growth direction of the horn, which may be closely related to its microstructure and element content of C, N, and S in different parts of the buffalo horn. On the other hand, because the buffalo horn does not have toxicity, it therefore does not cause hemolysis of erythrocyte and has a good affinity with it. Buffalo horn has good histocompatibility but meanwhile it may induce the platelet adhesion and aggregation. Even so, it does not continue to rise to induce a large number of platelet to aggregate with resulting blood clotting. Therefore, the buffalo horn material has been proved to possess good blood compatibility according to the preliminary evaluation.
Animals ; Biocompatible Materials ; Biomechanical Phenomena ; Buffaloes ; Erythrocytes ; Horns ; chemistry ; ultrastructure ; Mice ; Microscopy, Electron, Scanning

The study was aimed to investigate the ultranstructural feature and diagnostic criteria of congenital dyserythropoietic anemia-type I (CDA-type I). Nucleated red cells in bone marrow from two patients with CDA-type I were analyzed by transmission electron microscopy (TEM). The results indicated that the erythropoietic/granulopoietic ratio was markedly increased with megaloblastic morphology in all stage of erythrocyte. Most proerythroblast showed of irregular nuclei, while the Swiss-cheese-appearance of the heterochromatin was usually found in basophilic and polychromatic erythroblast. About half of orthochromatic erythroblast illustrated karyolysis and karyorrhexis. Some orthochromatic erythroblast exhibited karyolysis and plasmolysis simultaneously. The inter-nuclear chromatin bridge between separated erythroblasts was seldom found by TEM. The nuclear membrane and rough endoplasmic reticulum were destructed at all stage of erythrocytes in different degree. In conclusion, the megaloblastic erythrosis was the main characteristic of CDA-type I, and then nuclear membrane disruption in polychromatic erythroblast and karyolysis or karyorrhexis in orthochromatic erythroblast. The universal breakdown of cytoplasm membranous system was fundamental pathogenesis of CDA-type I.
Anemia, Dyserythropoietic, Congenital ; blood ; pathology ; Bone Marrow Examination ; Erythroblasts ; ultrastructure ; Erythrocytes ; ultrastructure ; Female ; Humans ; Infant ; Iron ; blood ; Male ; Microscopy, Electron, Transmission

The effect of four alkylating agents (MMS, EMs, DMN, DEM), under various con centrations on mouse bone marrow erythrocytes, were studied by means of the micronucleus test. The results obtained were as follows: 1) The lethal doses on mice were MMS = 130 mg/kg/bw, EMS = 300 mg/kg/bw, DMN = 50 mg/kg/bw and DEN = 70 mg/kg/bw. 2) Micronuclei were easily seen and in different controls the micronulei were found a little over 0.1%. 3) The dose-effect relationship was obtained. In the MMS and EMS treated groups, incidences of micronulei were 0.45 to 2.56% and 0.4 to 2.1% respectively. 4) In the DMN and DEN treated groups, incidences varied between 0.15 to 0.90 % and 0.2 to 1.02% respectively. 5) Four alkylating agents were compared and discussed with respect to micro nucleus production from chromosomal aberrations.
Animal ; Bone Marrow/ultrastructure ; Carcinogens/pharmacology* ; Cell Nucleus/drug effects* ; Chromosome Aberrations* ; Erythrocytes/ultrastructure ; Female ; Mesylates/pharmacology* ; Mice ; Mutagens/pharmacology ; Nitrosamines/pharmacology*

No abstract available.
Birth Weight ; Erythrocytes/ultrastructure ; Gestational Age ; Human ; Infant, Newborn* ; Infant, Premature* ; Prospective Studies ; Reticuloendothelial System/physiology* ; Spleen/physiology*

To study effect of vitrification state of protective solutions on recovery of red blood cells after lyophilization, four protective solutions composed of isotonic buffers containing 7% DMSO (v/v) and 20%, 30%, 40% or 50% polyvinylpyrrolidone (PVP) (w/v) were adopted. Vitrification state of protective solutions was examined first when white ice crystal appeared in any protective solution during freezing or thawing, if the used solution was not a vitrification solution. Red blood cells were lyophilized in MINILYO45 freeze-dryer after washing, mixing with protective solutions and prefreezing. After lyophilization, the samples were quickly rehydrated by 37 degrees C rehydration solution. The results showed that in vitrification and devitrification experiments, white ice crystal appeared in solution of 20% PVP + 7% DMSO and 30% PVP + 7% DMSO during freezing and thawing; vitrification appeared in solution of 40% PVP + 7% DMSO during freezing, but devitrification appeared during thawing; vitrification appeared in solution of 50% PVP + 7% DMSO during freezing and thawing. After rehydration, the recoveries of red blood cells and hemoglobin in 40% PVP + 7% DMSO group were (81.36 +/- 14.94)% and (77.54 +/- 12.86)%, which were significantly higher than that in 20% PVP + 7% DMSO, 30% PVP + 7% DMSO and 50% PVP + 7% DMSO groups (P < 0.01). The concentration of free hemoglobin in 40% PVP + 7% DMSO group was also significantly lower than that in other three groups (P < 0.01). With increase of PVP concentration in protective solutions, vitrification state and protective effect of these solutions also increased; when concentration of PVP in protective solution was 40% though it was not a vitrification solution, the effect of lyophilization was the best; but when concentration of PVP further increased to 50%, though it was a vitrification solution, the effect decreased. It is concluded that excessive vitrification state could not benefit lyophilization of red blood cells.
Cryoprotective Agents ; pharmacology ; Dimethyl Sulfoxide ; pharmacology ; Dose-Response Relationship, Drug ; Erythrocytes ; cytology ; drug effects ; ultrastructure ; Freeze Drying ; methods ; Humans ; Microscopy, Electron ; Povidone ; pharmacology