Immobilization of Heparin on the Surface of Polypropylene Non-Woven Fabric for Improvement of the Hydrophilicity and Blood Compatibility

Abstract

A polypropylene non-woven fabric (PPNWF) was exposed to oxygen plasma to produce peroxides on its surface. These peroxides were used to initiate graft polymerization of acrylic acid (AA) on the surface of PPNWF. Direct heparinization was accomplished via a reaction between heparin and PP-PAA (AA grafted PPNWF) which was activated by EDC (N-ethyl-N’-[3-(dimethylamino)propyl] carbodiimide). Indirect heparinized PPNWF was prepared by grafting poly(ethylene oxide) (PEO) on a PP-PAA surface to form PP-PAA-PEO, followed by reaction with heparin which was activated by EDC before use. The surface modified PPNWFs were characterized by attenuated total reflection Fourier transform infrared (ATR–FT-IR) spectroscopy, electron spectroscopy for chemical analysis (ESCA) and contact angle goniometry. It was found that hydrophilicity was greatly improved, as indicated by the decrease of the water contact angle from 142 to 33°. In vitro blood compatibility evaluation of modified PPNWFs, including hemolysis rate, platelet adhesion, plasma protein adsorption and activated partial thromboplastin time (APTT) was investigated. The results suggested that both heparinized PPNWFs showed lower hemolysis rates and better platelet anti-adhesion than non-heparinized controls. Furthermore, PPNWF obtained via indirect immobilization of heparin showed better hydrophilicity and blood compatibility than direct heparinization of PPNWF.     

磺化对聚醚砜膜片吸附β2-微球蛋白的影响

研究了不同磺化度的聚醚砜血液透析膜材在体外静态接触人血清时吸附去除其中的β2-微球蛋白(β2-microglobulin,β2M)的能力。采用放免法测定了膜分别在125I-β2溶液和在人血清中,在37℃孵育不同时间后对125I-β2M和β2M的吸附进行了对比分析。结果:膜材对125I-β2M的饱和吸附百分率由大到小依次是PES-SO3Na->PES-SO3Na->>PES;但在血清孵育体系中,不同材料对β2M的吸附均在30min达到最大吸附值,最后稳定的吸附量由大到小依次是PES-SO3Na->PES-SO3Na->PES。说明通过用膜吸附方式去除β2M是一种有效的方法。对PES进行磺化改性可大大提高材料对β2M的吸附去除量,而且随着磺化度增加,膜吸附β2M的量增加。本研究合成出的PES-SO3Na可能用于去除患者体内的β2M和降低、延缓透析相关淀粉样变性病的发生。     

Effects of anticoagulant, serum, and temperature on the natural killer activity of human peripheral blood mononuclear cells stored overnight.

The effects of immediate versus delayed cell separation, storage temperature, presence of serum, and type of anticoagulation on the natural killer (NK) cytotoxicity of human mononuclear cells were assessed. The NK cytotoxicity of Ficoll-Hypaque-separated peripheral blood mononuclear cells (PBMC) was tested in a 3-h chromium-51 release assay with K562 cells at various effector/target cell ratios. The NK activities of PBMC from blood anticoagulated with either heparin or EDTA and then immediately separated and assayed were not different (42.9 +/- 2.5% for heparin and 40.3 +/- 4.6% for EDTA). When these separated cells were cultured in medium with 10% fetal calf serum and stored at 4,25, or 37 degrees C for 18 h before the assay, there was a significant increase in cytotoxicity. PBMC from blood stored in heparin or EDTA for 18 h before separation had reduced NK cytotoxicity, particularly if they were kept at 37 degrees C. When separated PBMC were cultured in medium with 10% human AB serum, however, samples held at 25 and 37 degrees C decreased in cytotoxicity but samples held at 4 degrees C maintained the cytotoxicity demonstrated at the baseline level with fresh cells. We recommend that heparinized blood be used for NK assays and that the PBMC be isolated immediately and held overnight at 4 degrees C in medium with 10% AB serum if the assay must be delayed. The NK cytotoxicity under these storage conditions most closely matches the results obtained when the PBMC are isolated and tested on the same day. IF PBMC isolation must also be postponed, it is best to store the blood in heparinized tubes at 25 degrees C to prevent loss of cytotoxic function.     

Effects of turbulent stresses upon mechanical hemolysis: experimental and computational analysis

Experimental and computational studies were performed to elucidate the role of turbulent stresses in mechanical blood damage (hemolysis). A suspension of bovine red blood cells (RBC) was driven through a closed circulating loop by a centrifugal pump. A small capillary tube (inner diameter 1 mm and length 70 mm) was incorporated into the circulating loop via tapered connectors. The suspension of RBCs was diluted with saline to achieve an asymptotic apparent viscosity of 2.0 +/- 0.1 cP at 23 degrees C to produce turbulent flow at nominal flow rate and pressure. To study laminar flow at the identical wall shear stresses in the same capillary tube, the apparent viscosity of the RBC suspension was increased to 6.3 +/- 0.1 cP (at 23 degrees C) by addition of Dextran-40. Using various combinations of driving pressure and Dextran mediated adjustments in dynamic viscosity Reynolds numbers ranging from 300-5,000 were generated, and rates of hemolysis were measured. Pilot studies were performed to verify that the suspension media did not affect mechanical fragility of the RBCs. The results of these bench studies demonstrated that, at the same wall shear stress in a capillary tube, the level of hemolysis was significantly greater (p < 0.05) for turbulent flow as compared with laminar flow. This confirmed that turbulent stresses contribute strongly to blood mechanical trauma. Numerical predictions of hemolysis obtained by computational fluid dynamic modeling were in good agreement with these experimental data.     

共价-离子结合肝素改性对牛心包膜抗凝血性能的影响

目的在碳化二亚胺交联的去细胞牛心包膜上采用3种方式进行肝素改性,即共价键合肝素、离子结合肝素以及共价-离子联合负载肝素,比较这3种肝素化方式对牛心包膜抗凝血性能的影响,并筛选出最佳肝素化方式。方法通过溶血试验、血小板黏附实验、体外凝血测试以及复钙时间测定观察3种方式肝素化的基质抗凝血性能和血栓形成情况,以评价其血液相容性。结果综合上述4项检测的结果,共价-离子联合负载肝素改性的抗凝血性能优于共价键合肝素、离子结合肝素这2种单独负载肝素方式,溶血率〈5％,电镜照片无血小板黏附,体外生理盐水浸泡15d后,仍保持良好的抗凝血活性。结论共价-离子联合负载肝素,将离子结合肝素活性好、共价键合肝素稳定性强的优点结合起来,取长补短,使这种方式肝素改性的牛心包具有良好的血液相容性。     

Normothermic blood perfusion of isolated rabbit kidneys. II. In vitro evaluation of renal function followed by orthotopic transplantation

This study describes the use of a blood perfusion apparatus to assess the renal function of isolated kidneys. Eight fresh kidneys were obtained from healthy rabbits and perfused with blood at 36 degrees C for 2 hours. Rabbit blood was drawn and diluted to a hematocrit of 25%. The kidneys were evaluated for their capacity to support life in an autograft model. Blood and urine samples were taken at regular time intervals during kidney perfusion. Serum creatinine was measured in surviving rabbits after transplantation. Over the course of the perfusion, arterial pressure was maintained at 87.2 +/- 5.5 mm Hg. The renal blood flow (3.7 +/- 1.0 ml/min per g) and urine output (0.11 +/- 0.04 ml/min per g) were continuously monitored. Glomerular filtration rate (0.29 +/- 0.02 ml/min per g) and fractional reabsorption (FR) of sodium and glucose indicated appreciable tubular function (FR(Na) = 67.9 +/- 8.5%, FR(Glu) = 91.2 +/- 5.8%). Protein was excluded from urine at 99.8% +/- 0.1%. After transplantation, the peak creatinine was 6.8 +/- 3.2 mg/dl at 1.90 +/- 0.92 days for the seven surviving rabbits and was above 16 mg/dl for the only rabbit that died 4 days after operation. The level of free hemoglobin generated at the end of the perfusion (2.6% +/- 2.8%) was correlated with the postoperative peak creatinine (r2 = 0.84). Perfusion of seven additional kidneys by using the roller pump lead to a final hemolysis of only 0.34 +/- 0.14%. Kidneys transplanted after 2 hours of blood perfusion were able to resume normal function and support life. Hemolysis was a measurable stress factor causing delayed function of the kidney after transplantation. Introduction of a roller pump significantly reduced the hemolysis.     

Cytocompatibility and hemocompatibility of a novel chitosan-alginate gel system

Two chitosan-alginate gel systems in the form of membranes were produced and evaluated. The first membrane was produced by a novel gel system formed after blending N-(methylsulfonic acid) chitosan with ammonium alginate (CAG1) and the second was an N-(methylsulfonic acid) chitosan-sodium alginate blend cross-linked with glutaraldehyde and calcium chloride (CAG2). The cytocompatibility and hemocompatibility of the gels were examined by assessing the cell viability of 3T3 Swiss mouse fibroblasts, whole blood hemolysis, and platelet activation. Cell viability was not significantly different by exposure to these gels compared to the controls. Both gel types had minimal effect on hemolysis of whole heparinized rabbit blood after 1-h exposure. Further platelet activation by the surfaces was also minimal. These results indicate that these novel gels merit further investigation for blood contact applications.     

Enhanced biocompatibility and antibacterial property of polyurethane materials modified with citric acid and chitosan

Citric acid (CA) and chitosan (CS) were covalently immobilized on polyurethane (PU) materials to improve the biocompatibility and antibacterial property. The polyurethane pre-polymer with isocyanate group was synthesized by one pot method, and then grafted with citric acid, followed by blending with polyethersulfone (PES) to prepare the blend membrane by phase-inversion method so that chitosan can be grafted from the membrane via esterification and acylation reactions eventually. The native and modified membranes were characterized by attenuated total reflectance-Fourier transform infrared spectroscope, X-ray photoelectron spectroscopy, scanning electron microscopy, water contact angle measurement, and tensile strength test. Protein adsorption, platelet adhesion, hemolysis assay, activated partial thromboplastin time, prothrombin time, thrombin time, and adsorption of Ca²⁺ were executed to evaluate the blood compatibility of the membranes decorated by CA and CS. Particularly, the antibacterial activities on the modified membranes were evaluated based on a vitro antibacterial test. It could be concluded that the modified membrane had good anticoagulant property and antibacterial property.     

Comparison of polyamide and polypropylene membranes for plasma separation

Plasma separation experiments were made with polyamide experimental prototype hollow-fiber plasma filters with surface areas between 0.025 m2 and 0.1090 m2 using bovine blood collected in acid citrate dextrose (ACD). The maximum filtration velocity rose with the wall shear rate gamma w as gamma w 0.72 +/- 0.02 and decreased with the length of fiber L as L-0.41 with a correlation coefficient of 0.97 +/- 0.02. The results were similar to those with polypropylene fibers. We also investigated the occurrence of hemolysis as a function of shear rate and transmembrane pressure. The free hemoglobin concentration of filtered plasma was checked using a U.V. spectrophotometer. It was concluded that polyamide membrane filters can be safely used for plasma separation from blood.     

磺化聚醚砜对光敏剂-亚甲蓝的吸附去除研究Ⅰ．磺化聚醚砜的制备及其对水中亚甲蓝的吸附

采用气体三氧化硫法制备了磺化聚醚砜，并对其进行了表征。比较了聚醚砜和磺化聚醚砜两种吸附柱对水中亚甲蓝的吸附效果，并考察了不同流速和离子强度等条件对磺化聚醚砜吸附柱吸附和脱附亚甲蓝性能的影响。结果表明，磺化聚醚砜对亚甲蓝的吸附效果明显优于聚醚砜；磺化聚醚砜吸附柱在水溶液中对亚甲蓝的吸附去除能力明显大于在生理盐水中的情况，而脱附则是用生理盐水效果更好。     

Effects of acute haemorrhagic hypotension during pregnancy and lactation in conscious goats

Effects of acute, short-lasting haemorrhage have been studied in six goats. The experiments were made 55 +/- 3 days (mid-pregnancy = MP), and 24 +/- 2 days (late pregnancy = LP) before parturition, in lactation weeks 3-8, and in the non-pregnant, non-lactating (= control) period. The room temperature was kept at 20 +/- 1 degrees C, except during one experimental series in lactating goats, which was performed at +30 degrees C. Approximately the same volume of blood had been removed in all periods, when the mean arterial blood pressure (MAP) fell. At this moment bleeding was stopped. The volume loss, calculated as per cent of total blood volume, was significantly smaller during pregnancy and lactation than in the control period. The fastest heart rate, both at rest and during haemorrhage, was observed in LP goats. The respiratory frequency of the LP goats increased markedly in response to haemorrhage, but the most rapid respiratory rate was observed in lactating goats bled at the room temperature +30 degrees C. The increase in plasma vasopressin (AVP) concentration coincided with the fall in MAP. The AVP rise seen during late pregnancy was significantly higher than in all the other periods. The plasma noradrenaline (NA) concentration increased by about five times in LP goats, but did not change significantly in the other periods. Plasma renin activity did not rise, with the exception of a small increase in lactating goats bled at +30 degrees C. The plasma aldosterone concentration rose, but there was no difference between periods.(ABSTRACT TRUNCATED AT 250 WORDS)     

用表面界面性能评价生物碳素材料血液相容性的可行性研究

以类金刚石薄膜(DLC)、含硅DLC、石墨、金刚石薄膜(DF)、低温各向同性碳(LTIC)和碳化硅为材料样本,用T型关联度法对其动态凝血时间、血小板消耗率、溶血率和表面能量参数等数据进行了灰色关联分析。结果显示:(1)动态凝血时间与亲水性的表面能量参数呈正相关,与临界表面张力呈负相关,其中与界面张力的关联度最大(0.63),其次为临界表面张力(-0.43);(2)与动态凝血时间的情形刚好相反,溶血率与亲水性的表面能量参数呈负相关,而与临界表面张力呈正相关,对溶血率影响较大的仍然是界面张力(-0.43)和临界表面张力(0.29);(3)与血小板消耗率关联最大的是临界表面张力(0.68),其次为表面张力(0.32);(4)动态凝血时间与血小板消耗率、溶血率之间有较大的负关联度。结果表明:动态凝血时间取决于其表面亲水性和有限润湿的平衡,血小板消耗的基础是材料表面良好的润湿与亲水性,而材料表面的疏水作用和充分的润湿则成为溶血的推动力量;动态凝血时间与溶血率和血小板消耗率之间具有“跷跷板效应”,因而可等效地用动态凝血时间评价生物碳素材料的血液相容性。证实:以血浆蛋白吸附为先导的血小板黏附、变形而致血栓形成,是生物碳素材料的主要凝血机制;可以临界表面张力为指标评价其血液相容性。本研究为用表面界面性能评价生物碳素材料的血液相容性提供了理论依据。     

Improved blood compatibility and decreased VSMC proliferation of surface-modified metal grafted with sulfonated PEG or heparin

Although the technique of coronary stenting has remarkably improved long-term results in recent years, (sub)acute thrombosis and late restenosis still remain problems to be solved. Metallic surfaces were regarded as thrombogenic, due to their positive surface charges, and stenosis resulted from the activation and proliferation of vascular smooth muscle cells (VSMCs). In this study, a unique surface modification method for metallic surfaces was studied using a self-assembled monolayer (SAM) technique. The method included the deposition of thin gold layers, the chemisorption of disulfides containing functional groups, and the subsequent coupling of PEG derivatives or heparin utilizing the functional groups of the disulfides. All the reactions were confirmed by ATR-FTIR and XPS. The surface modified with sulfonated PEG (Au-S-PEG-SO3) or heparinized PEG (Au-S-PEG-Hep) exhibited decreased static contact angles and therefore increased hydrophilicity to a great extent, which resulted from the coupling of PEG and the ionic groups attached. In vitro fibrinogen adsorption and platelet adhesion onto the Au-S-PEG-SO3 or Au-S-PEG-Hep surfaces decreased to a great extent, indicating enhanced blood compatibility. This decreased interaction of the modified surfaces should be attributed to the non-adhesive property of PEG and the synergistic effect of sulfonated PEG. The effect of the surface modification on the adhesion and proliferation of VSMCs was also investigated. The modified Au-S-PEG-SO3 or Au-S-PEG-Hep surfaces also exhibited decreased adhesion of VSMCs, while the deposited gold layer itself was effective. The enhanced blood compatibility and the decreased adhesion of VSMCs on the modified metallic surfaces may help to decrease thrombus formation and suppress restenosis. It would therefore be very useful to apply these modified surfaces to stents for improved functions. A long-term in vivo study using animal models is currently under way.     

The effect of water temperature on the hormonal response to prolonged swimming.

The relationship between thermoreception, hormonal secretion and muscular activity was studied. 6 men swam 60 min in 21, 27 and 33 degrees C water at a speed requiring 68% of VO2 max (determined in 27 degrees C water). Rectal temperature increased in 33 degrees C (1.3 +/- 0.2 degrees C, mean and S.E.) and 27 degrees C (0.7+/- 0.1 degrees C) expts. but decreased in 21 degrees C expts. (0.8 +/- 0.3 degrees C). Changes in esophageal and muscle temperatures parallelled changes in rectal temperature. Plasma noradrenaline was higher in 33 degrees C than in 27 degrees C expts. and growth hormone, cortisol and glucagon concentrations increased in 27 degrees C and 33 degrees C expts. only. Insulin concentrations were uniformly depressed during swimming at the different water temperatures. In 21 degrees C expts. noradrenaline and adrenaline concentrations were higher than in 27 degrees C expts. VO2, carbohydrate combustion and peak lactate were slightly lower in 33 degrees C expts. Plasma glucose decreased slightly and FFA and glycerol concentrations increased identically in all expts. Heart rate increased continuously during swimming in 27 degrees C and 33 degrees C expts., but not in 21 degrees C expts. In conclusion the rise in body temperatures normally observed during exercise enhances the exercise induced increases in the plasma concentrations of noradrenaline, cortisol, growth hormone and glucagon. Decreased body temperatures may elicit catecholamine secretion as a direct consequence of thermoreception. Shivering may account for previously observed decreases in insulin secretion during cold stress but not for increases in cortisol and growth hormone.     

Effects of immersion water temperature on whole-body fluid distribution in humans

AIM: In this study, we quantified acute changes in the intracellular and extracellular fluid compartments during upright neutral- and cold-water immersion. We hypothesized that, during short-term cold immersion, fluid shifts would be wholly restricted to the extracellular space. METHODS: Seven males were immersed 30 days apart: control (33.3 degrees SD 0.6 degrees C); and cold (18.1 degrees SD 0.3 degrees C). Posture was controlled for 4 h prior to a 60-min seated immersion. RESULTS: Significant reductions in terminal oesophageal (36.9 degrees +/- 0.1 degrees -36.3 degrees +/- 0.1 degrees C) and mean skin temperatures (30.3 degrees +/- 0.3 degrees -23.0 degrees +/- 0.3 degrees C) were observed during the cold, but not the control immersion. Both immersions elicited a reduction in intracellular fluid [20.17 +/- 6.02 mL kg(-1) (control) vs. 22.72 +/- 9.90 mL kg(-1)], while total body water (TBW) remained stable. However, significant plasma volume (PV) divergence was apparent between the trials at 60 min [12.5 +/- 1.0% (control) vs. 6.1 +/- 3.1%; P < 0.05], along with a significant haemodilution in the control state (P < 0.05). Plasma atrial natriuretic peptide concentration increased from 18.0 +/- 1.6 to 58.7 +/- 15.1 ng L(-1) (P < 0.05) during cold immersion, consistent with its role in PV regulation. We observed that, regardless of the direction of the PV change, both upright immersions elicited reductions in intracellular fluid. CONCLUSION: These observations have two implications. First, one cannot assume that PV changes reflect those of the entire extracellular compartment. Second, since immersion also increases interstitial fluid pressure, fluid leaving the interstitium must have been rapidly replaced by intracellular water.     

Antagonistic effects upon cutaneous circulation of muscular exercise and exposure to a high ambient temperature

Measurements were made in man of heart rate (Fc), arterial blood pressure (Pa), cutaneous blood flow (Z) (by plethysmography of the hand) as well as variation sin venous volume (deltaV) in the course of muscular exercise of 70 Watts intensity corresponding from 48% to 60% of the maximal oxygen consumtion of the subjects. These exercises were carried out at ambient temperatures of 22 degrees and 29 degrees C. for 8 min. In every case, an initial lowering of the Q and deltaV followed by a progressive climb was found. The average maximal reduction in output was virtually identical at 22 degrees and 29 degrees C (4.10 +/- 2.05 and 4.00 +/- 2.31 ml/min. 100 cm3). But the average maximal fall in volume turned out to be less at 29 degrees C (0.30 +/- 0.40 ml/100 cm3) than at 22 degrees C (0.60 +/- 0.60 ml/100 cm3). The resistive sector of cutaneous circulation conserves the same vasomotor capacities at the two ambient temperatures studied; the cutaneous capacitive sector shows lower reactivity at the higher ambient temperature. This would suggest that diminished venous return may be partially responsible for poor tolerance to exercise in warm climates.     

Hemodialysis using a valveless pulsatile blood pump

Research on pulsatile blood pumps for extracorporeal life support has been widely performed because of the proven advantageous effects of blood pulsation. However, studies on the use of pulsatile blood pumps for hemodialysis are limited, although available evidence demonstrates that pulsatile blood flow has a positive influence on dialysis outcome. Therefore, the authors designed a new pulsatile pump, which is characterized by minimal-occlusion of blood-containing tubing, no requirement for valves, and no blood flow regurgitation. In-vitro hemolysis tests were conducted using fresh bovine blood, and the normalized index of hemolysis was adopted to compare blood traumas induced by the devised pulsatile pump and a conventional roller pump. In addition, experimental hemodialyses with a canine renal failure model were performed using the devised pump. Normalized index of hemolysis levels obtained was much smaller for the devised pulse pump (45 +/- 21 mg/100 L) than for the roller pump (103 +/- 10 mg/100 L), and no technical problems were encountered during dialysis sessions. Blood and dialysate flow rates were maintained at predetermined values and molecular removal was satisfactory. Postdialysis urea and creatinine reduction ratios were 61.8% +/- 10.6% and 57.4% +/- 9.0%, respectively. Pulsatile flow has usually been generated using pulsatile devices containing valves, but the valves cause concern in terms of the clinical applications of these devices. However, the described pulsatile pump does not require valves, and yet no blood flow regurgitation was observed.     

Beta-endorphin and adrenocorticotropin response to supramaximal treadmill exercise in trained and untrained males

The response of plasma beta-endorphin (beta-EP) and adrenocorticotropin (ACTH) was studied in seven well-trained (T) young endurance athletes and seven untrained (UT) age- and weight-matched males during treadmill exercise. Subjects ran continuously for 7 min at 60% VO2max, 3 min at 100% VO2max and 2 min at 110% VO2max. Arterialized blood was obtained periodically from a cannulated heated (41 degrees C) hand vein. Plasma beta-EP was measured by radio-immunoassay (RIA) which incorporated an antibody that did not cross-react (less than 1.5%) with beta-lipotropin. Plasma beta-EP was similar between groups at rest (T = 4.3 +/- 0.8 fmol ml-1, mean +/- SE, UT = 3.3 +/- 0.6 fmol ml-1) and did not change at the 60% VO2max stage. Beta-endorphin significantly increased at 100% VO2max with both groups responding similarly. A further increase occurred at 110% VO2max (T = 10.8 + 2.0 and UT = 6.6 + 1.0 fmol ml-1, P less than 0.05 for between group differences). This between group difference persisted 1 min after exercise when the highest beta-EP levels were reached (T = 18.7 +/- 4.7 and UT = 12.8 +/- 3.1 fmol ml-1, P less than 0.05). Plasma ACTH responses were similar to beta-EP with the highest values (T = 61.5 +/- 7.2, UT = 45.7 +/- 6.8 fmol ml-1, P less than 0.05 for between group differences) occurring at 1 min post-exercise. A positive correlation, r = 0.85, P less than 0.05, was found between beta-EP and ACTH using the 1 min post-exercise values. The enhanced response of beta-EP and ACTH in T may indicate a training-induced adaptation which increases the response capacity to extreme levels of stress.     

In vitro hemocompatibility of albumin-heparin multilayer coatings on polyethersulfone prepared by the layer-by-layer technique

Polyethersulfone foils (PES)--a unique material for blood purification membranes--were coated with a multilayer assembly of heparin (unfractionated or high anticoagulant activity fraction heparin) and albumin (albumin-heparin coatings), or with a multilayer of albumin (albumin coating), using the layer-by-layer technique. The coatings combine advantages of albumin (reduction of nonspecific interactions) and heparin (specific interactions with blood coagulation proteins). The differences between the two heparins, while significant for their biological activity, had only a minor effect on the multilayer assembly with albumin monitored in situ by reflection infrared spectroscopy (FTIR MIRS). Uncoated as well as modified PES surfaces were evaluated using an in vitro assay with freshly drawn, slightly heparinized (1.5 IU heparin/mL) human whole blood. The blood was circulated with a roller pump over the sample surfaces in shear flow across rectangular slit channels ( app. 6 mL/min and 120 s(-1)) for 1.5 h at 37 degrees C. All coatings effectively reduced platelet adhesion and activation according to the PF4 release. The activation of coagulation evaluated as TAT generation was significantly lowered for the coating composed of albumin and high activity heparin. A further beneficial effect of the heparin containing coatings was reduced complement activation as determined by different complement fragments.     

Improved blood compatibility and decreased VSMC proliferation of surface-modified metal grafted with sulfonated PEG or heparin

Although the technique of coronary stenting has remarkably improved long-term results in recent years, (sub)acute thrombosis and late restenosis still remain problems to be solved. Metallic surfaces were regarded as thrombogenic, due to their positive surface charges, and stenosis resulted from the activation and proliferation of vascular smooth muscle cells (VSMCs). In this study, a unique surface modification method for metallic surfaces was studied using a self-assembled monolayer (SAM) technique. The method included the deposition of thin gold layers, the chemisorption of disulfides containing functional groups, and the subsequent coupling of PEG derivatives or heparin utilizing the functional groups of the disulfides. All the reactions were confirmed by ATR-FTIR and XPS. The surface modified with sulfonated PEG (Au-S-PEG-SO₃) or heparinized PEG (Au-S-PEG-Hep) exhibited decreased static contact angles and therefore increased hydrophilicity to a great extent, which resulted from the coupling of PEG and the ionic groups attached. In vitro fibrinogen adsorption and platelet adhesion onto the Au-S-PEG-SO₃ or Au-S-PEG-Hep surfaces decreased to a great extent, indicating enhanced blood compatibility. This decreased interaction of the modified surfaces should be attributed to the non-adhesive property of PEG and the synergistic effect of sulfonated PEG. The effect of the surface modification on the adhesion and proliferation of VSMCs was also investigated. The modified Au-S-PEG-SO₃ or Au-S-PEG-Hep surfaces also exhibited decreased adhesion of VSMCs, while the deposited gold layer itself was effective. The enhanced blood compatibility and the decreased adhesion of VSMCs on the modified metallic surfaces may help to decrease thrombus formation and suppress restenosis. It would therefore be very useful to apply these modified surfaces to stents for improved functions. A long-term in vivo study using animal models is currently under way.