Biological and thrombolytic properties of proenzyme and active forms of human urokinase--IV. Variability in fibrinolytic response of plasma of several mammalian species

The fibrinolytic and fibrinogenolytic properties of recombinant pro-urokinase (Rec-pro-UK) and recombinant urokinase (Rec-UK) were compared with those of natural urokinase (Nat-UK) and of tissue-type plasminogen activator (t-PA) in an in vitro system consisting of 125I-labeled autologous plasma clots immersed in plasma of humans, five primate species, dogs, rabbits and pigs. With each of the four plasminogen activators, a dose-dependent clot lysis was observed, the degree of which differed, however, very markedly from one species to the other. At a concentration of 100 IU/ml of urokinase extensive plasma clot lysis was obtained in plasma of man, Macaca mulatta, Macaca fascicularis and Macaca radiata, while the plasma clots of Papio cynocephalus, Papio anubis and rabbit, dog and pig were much more resistant to lysis. No significant differences in the extent of lysis were observed between Rec-pro-UK and Rec-UK nor between Rec-UK and Nat-UK. Comparable degrees of lysis were obtained with t-PA at 3- to 5-fold lower concentrations. Lysis with Rec-UK or Nat-UK was always associated with extensive activation of the fibrinolytic system in plasma, evidenced by fibrinogen breakdown and plasminogen activation and alpha 2-antiplasmin consumption. With t-PA, extensive clot lysis was obtained in the absence of fibrinolytic activation in the plasma. With Rec-pro-UK the response was intermediate; at high concentrations (200 IU/ml) extensive lysis in the reactive species was associated with fibrinogen consumption, while at intermediate concentrations (50-100 IU/ml) significant clot lysis was obtained in the reactive species in the absence of marked activation of the fibrinolytic system in the plasma.     

In vitro studies on the fibrinolytic, thrombolytic and fibrinogenolytic properties of a tissue plasminogen activator from guinea pig keratocytes

The fibrinolytic and thrombolytic properties of a tissue plasminogen activator (tPA) purified from the conditioned medium of an established guinea pig keratocyte (GPK) cell line were investigated in in vitro systems and compared with urokinase. Using the fibrin clot lysis assay, GPK activator appears to be similar to human melanoma tPA and not to human urokinase. GPK activator also caused negligible fibrinogen breakdown, when incubated with human plasma at 37 degrees C over 23 hr. Urokinase on the other hand caused significant fibrinogenolysis, under similar conditions. Comparison of the lysis of plasma clots by GPK activator and human urokinase have shown that GPK activator was a much more effective fibrinolytic agent than urokinase, especially at lower concentrations (less than 50 IU/ml). Studies on the thrombolytic effect of GPK activator on the lysis of aged and cross-linked whole human blood clots and plasma clots hanging in artificially circulating human plasma suggest that GPK activator can lyse both these types of clots equally well. The lysis is dose dependent, attaining complete lysis within 3-6 hr with the concentration of GPK activator in the range of 1-5 micrograms/ml plasma. It is concluded that GPK activator has a higher fibrinolytic and thrombolytic activity and lower fibrinogenolytic activity than urokinase.     

Lysing patterns of retracted blood clots with diffusion or bulk flow transport of plasma with urokinase into clots--a magnetic resonance imaging study in vitro.

Fresh retracted clots are known to be poorly lysable by fibrinolytic agents. We have studied whether lysis of retracted clots could be enhanced by bulk transport in comparison to pure diffusion of plasma containing urokinase (400 IU/ml) into the clots. Cylindrical retracted blood clots were occlusively glued by a polyester into plastic tubes and put in contact with plasma through the clot bases. One group of clots (perfused clots, n = 10) was placed under a pressure difference of 6 kPa (60 cm H2O) which resulted in an average plasma flow of 0.97 +/- 0.34 microliters/min through the clot during the first hour. Another group of clots (non-perfused clots, n = 10) was incubated in the lytic plasma without a pressure difference. Clot sizes were measured during lysis by magnetic resonance imaging (MRI). Channels representing lysed areas penetrated into perfused clots with a velocity of 5.4 +/- 1.6 mm/h (n = 10), whereas the boundaries of non-perfused clots subsided with a velocity of less than 0.1 mm/h. Eight of the 10 perfused clots were recanalized after 8 h and the sizes of the perfused group were reduced to 64.0 +/- 10.7% of the initial values. The relative sizes of non-perfused clots after 8 h remained significantly higher: 95.0 +/- 1.3%, p < 0.005. In a separate experiment good agreement was obtained between the measured clot sizes by MRI and the residual radioactivity of 125I-fibrin in the clot.(ABSTRACT TRUNCATED AT 250 WORDS)     

Systemic fibrinolytic activity and inhibitor levels during treatment of deep vein thrombosis with urokinase and streptokinase

In a prospective, randomized trial 33 patients with deep vein thrombosis were treated either with 2,200 or 1,100 IU/kg/h urokinase or with 100,000 IU/h streptokinase for at least 6 days. While streptokinase was given continuously, urokinase was administered intermittently (12 hr urokinase alternating with 12 hr heparin). Urokinase treatment resulted in a dose-dependent fibrinolytic state with shortening of the euglobulin clot lysis time, easily demonstrable amidolytic activity and moderate decrease of plasminogen. At the end of each urokinase-free interval the fibrinolytic activity had mostly faded, but was reproducibly elicited again by each new urokinase administration. Streptokinase immediately evoked the customary, intense fibrinolytic state, which progressively tapered off as plasminogen fell to 1% of its pretreatment concentration. In all treatment groups alpha-2-antiplasmin dropped to approximately 40% of its initial value during the first 12 hr with a further decrease to about 20% after 6 days. alpha-2-macroglobulin fell only moderately with either urokinase regimen, whereas it decreased progressively to 45% under streptokinase. While the fibrinolytic activity decreased under streptokinase over the 6-day infusion period, it appeared to increase with each successive urokinase infusion particularly with 1100 IU/kg/h. Thus the final euglobulin clot lysis times and the final fibrinogen concentrations were similar in all three treatment groups on the sixth day.     

Influence of exogenous and endogenous tissue-type plasminogen activator on the lysability of clots in a plasma milieu in vitro

The fibrinolytic potential of tissue-type plasminogen activator (t-PA) either incorporated in a clot (endogenous) or added to the surrounding plasma (exogenous), was studied in an in vitro system consisting of 125I-labeled human plasma clots (200 microliters) immersed in human plasma (2 ml). Clot lysis was measured as a function of endogenous t-PA concentration (in the absence of added exogenous t-PA), as a function of exogenous t-PA concentration (without added endogenous t-PA) and as a function of the same concentration of both endogenous and exogenous t-PA. Equivalent clot lysis was obtained with a 2 to 4 times lower concentration of endogenous t-PA as compared to exogenous t-PA, corresponding to a 20 to 40 times smaller total amount of endogenous versus exogenous t-PA. Fifty percent lysis in 5 hrs was obtained with about 5 IU/ml of endogenous t-PA or with 10 IU/ml of exogenous t-PA. The presence of both exogenous (10 IU/ml) and endogenous (5 IU/ml) t-PA resulted in 50 percent lysis in 1.5 hrs, indicating that t-PA incorporated in a thrombus contributes significantly to its lysis by exogenous t-PA. Similar results were obtained with plasma obtained after 10 min of venous occlusion in seven healthy subjects. Spontaneous clot lysis within 5 hrs was only observed with post-occlusion clots in pre- or post- occlusion plasma in two subjects in whom the t-PA level rose to 10-15 IU t-PA/ml. In the five other subjects with post-occlusion t-PA levels below 2 IU/ml, no clot lysis was observed within 24 hrs. The influence of the fast-acting inhibitor of t-PA on clot lysability by endogenous or exogenous t-PA was investigated by immersing clots prepared from normal or inhibitor-rich plasma (endogenous inhibitor) in normal or inhibitor-rich plasma (exogenous inhibitor). Exogenous t-PA inhibitor efficiently neutralizes clot lysis by both exogenous and endogenous t-PA. Endogenous t-PA inhibitor, however, efficiently neutralizes endogenous t-PA but has little influence on clot lysis by exogenous t-PA. These findings indicate that t-PA inhibitor is not concentrated into a clot and that t-PA inhibitor in plasma efficiently neutralizes t-PA incorporated in a clot. alpha 2-Antiplasmin depleted plasma clots were more susceptible to lysis by both endogenous and exogenous t-PA than normal clots.(ABSTRACT TRUNCATED AT 400 WORDS)     

The role of endogenous versus exogenous tPA on edema formation in murine ICH

To minimize the neurotoxic injury by clot-derived substances after intracerebral hemorrhage (ICH) on the surrounding brain tissue, minimally invasive neurosurgical protocols have evolved evacuating the hematoma by stereotaxic injection of a fibrinolytic agent such as recombinant tissue plasminogen activator (rtPA), followed by aspiration of the lysed clot. However, the possible contribution of the presence of exogenous tPA itself to the toxic effects of hematoma-derived factors complicates the rationale and efficacy of this therapeutic approach. To clarify the role of exogenous rtPA on edema development, we examined the extent of edema formation in a murine model of collagenase-induced ICH, which included tPA-deficient (tPA-/-) and wild-type (wt) mice. In 16 (7 tPA-/- and 9 wt mice) out of 32 mice, 1 mg/kg rtPA was injected into the hematoma 5 h after ICH induction followed by aspiration of the liquefied clot 20 min later. In the control group (8 tPA-/- and 8 wt mice), only collagenase was injected. The edema volume was quantified using SPOT software on Luxol Fast Blue and Cresyl violet-stained cross-sections 24 h, 3, and 7 days post surgery. Twenty-four hours after ICH induction, tPA-/- mice had a significantly smaller edema volume (P< 0.01), even when rtPA was administered. Between days 3 and 7 after ICH, exogenous rtPA exerts its edema-promoting effect irrespective of the underlying genotype and exhibits an extensive microglial activation adjacent to the clot. In conclusion, the role of the endogenous tPA appears to be limited to the early phase of edema formation, whereas exogenous rtPA is edema-promoting between days 3 and 7 after ICH.     

尿激酶溶凝时效性和量效性的体外研究

目的探讨不同剂量尿激酶溶解体外血凝块的效果,寻找最佳溶凝时间和用药剂量,为临床上合理应用尿激酶溶解液化颅内血肿提供实验依据。方法参照临床常见的高血压脑内血肿出血量,取180例健康志愿者静脉血60m1,加尿激酶0．5、1、2、5、10及15万U,测量加药后1、2、3、4、5、6h的溶凝效果,分析尿激酶最佳溶凝时间和用药剂量。结果尿激酶溶凝作用随时间延长逐渐降低,不同尿激酶剂量在加药后1、2、3、4h均有显著性差异（P〈0．05）;4h后无明显差异（P〉0．05）。各时间点,0．5、1、2万U尿激酶无显著性差异（P〉O．05）,5、10及15万U元显著性差异（P〉0．05）,但0、5、1、2万U和5、10、15万u间均有显著性差异（P〈0．05）。结论本研究提示尿激酶溶凝最佳作用时间为4h,尿激酶首次最佳用量为1万U／10ml。     

Dependence of blood clot lysis on the mode of transport of urokinase into the clot--a magnetic resonance imaging study in vitro

Magnetic resonance imaging was employed to study the dependence of clot lysing patterns on two different modes of transport of urokinase into whole blood clots. In one group of clots (nonperfused clots, n1 = 10), access of urokinase to the fibrin network was possible by diffusion only, whereas in the other group (perfused clots, n2 = 10) bulk flow of plasma containing urokinase was instituted through occlusive clots by a pressure difference of 3.7 kPa (37 cm H2O) across 3 cm long clots with a diameter of 4 mm. It was determined separately that this pressure difference resulted in a volume flow rate of 5.05 +/- 2.4 x 10(-2) ml/min through occlusive clots. Perfused clots diminished in size significantly in comparison to nonperfused ones already after 20 min (p less than 0.005). Linear regression analysis of two-dimensional clot sizes measured by MRI showed that the rate of lysis was more than 50-times faster in the perfused group in comparison to the nonperfused group. It was concluded that penetration of the thrombolytic agent into clots by perfusion is much more effective than by diffusion. Our results might have some implications for understanding the differences in lysis of arterial and venous thrombi.     

Fibrinolysis and aspiration of experimental intracerebral hematoma reduces the volume of ischemic brain in rats

Abstract

The hypothesis was tested in rats that brain ischemia by an intracerebral hematoma can be ameliorated by fibrinolysis and aspiration of the hematoma. Intraparenchymal blood clots were generated by the injection of 50μI of autologous blood into the right caudate nucleus in two portions seven minutes apart. Thirty or 120 min later 12 fil recombinant tissue plasminogen activator (rtPA) or 0.9% NaCI were injected and after 30 min the resolved hematoma was aspirated. Six hours later cerebral blood flow (CBF) was determined by 14C-iodoantipyrine autoradiography. Tissue volumes of CBF < 10 ml 1 00 g^–1 min-1 and CBF < 30 ml g"1 min’1 were determined. Clot and lesion volume were quantified histologically from serial sections stained for succinate-dehydrogenase (SDH) activity. In rtPA-treated rats the major part of the hematoma could be evacuated 30 min as well as 120 min after production of the clot. The volume of ischemic brain (CBF < 10) was significantly reduced fp<0.05) in the rtPA group compared to saline- treated and control groups irrespective of the time of treatment. In contrast, no difference was found between the control group and the experimental groups when the volumes of brain tissue surrounding the lesion were compared which had values of CBF<30 ml lOOgmin^–1. In a rat model of intracerebral hemorrhage, treatment by local fibrinolysis followed by aspiration of the hematoma is effective in reducing the volume of ischemic brain tissue and of the remaining clot volume. [Neurol Res 1999; 21: 517–523]     

Turbulent axially directed flow of plasma containing rt-PA promotes thrombolysis of non-occlusive whole blood clots in vitro

The rate of thrombolysis markedly decreases after a thrombosed vessel is partly recanalized and the remaining clot poses serious risk for rethrombosis. We studied in vitro how thrombolysis depends on penetration of plasma containing thrombolytic agents - 0.2 micro g/ml rt-PA or 250 IU/ml streptokinase (SK) - and the magnetic resonance contrast agent Gd-DTPA (at 1 mmol/l) into non-occlusive clots under conditions of fast (turbulent) or slow (laminar) axially directed flow. Cylindrical non-retracted (fresh) or retracted (aged) whole blood clots were pierced lengthways and connected to a perfusion system. Dynamical spin-echo MRI was used for measuring the penetration of labeled plasma into clots and for assessing the remaining clot size. In both types of clots fast flow enhanced the penetration of Gd-DTPA-labeled plasma into clots in comparison to slow flow. In non-retracted clots, lysis with rt-PA and to a lesser extent also lysis with SK followed the path of plasma penetration into clots. After 40 minutes of fast axially directed flow rt-PA resulted in almost complete lysis and SK left only about a third of the clot undissolved, whereas with slow flow lysis was much slower (undissolved clot: 86 +/- 5 % with rt-PA and 95 +/- 1 % with SK). In retracted clots, substantial lysis was possible only with rt-PA and rapid flow (53 +/- 28% of the clot undissolved after 60 min), whereas the use of SK or slow flow precluded meaningful lysis. We conclude that rapid (turbulent) axially directed flow of plasma along non-occlusive blood clots causes forceful exchange of serum inside the clot with outer plasma which enhances both fibrin-specific and non-fibrin-specific lysis of fresh clots. Dissolution of non-occlusive retracted (aged) clots occurs only under fibrin-specific conditions combined with adequate transport of rt-PA into clots.     

Specific fibrinolytic properties of different molecular forms of pro-urokinase from a monkey kidney cell culture

The specific fibrinolytic properties of both high molecular weight (55 kd) and low molecular weight (30 kd) pro-urokinase from a monkey kidney cell culture were evaluated in a plasma clot lysis system and compared with those of human urokinase. The system was composed of a radiolabelled plasma clot immersed in plasma containing the fibrinolytic agent. On unit base, 55 kd pro-urokinase was approximately 1.5 times more effective in lysing the clot than 30 kd pro-urokinase and equally effective as urokinase. In contrast to urokinase, both pro-urokinase forms induced clot lysis without degrading fibrinogen in the surrounding plasma. However, a considerable activation of the fibrinolytic system in the plasma occurred as a large amount of ₂-antiplasmin was consumed, indicating that pro-urokinase was not fully fibrin-specific. Quenching antibodies against tissue-type plasminogen activator (t-PA) added to the plasma clot lysis system retarded but did not prevent pro-urokinase-induced clot lysis. This indicated that not only was t-PA in plasma involved in the activation of pro-urokinase (probably via plasmin), but that an additional mechanism also existed.     

Studies on the specific fibrinolytic effect of human extrinsic (tissue-type) plasminogen activator in human blood and in various animal species in vitro

Human extrinsic (tissue-type) plasminogen activator (EPA) was highly purified from the culture fluid of a human melanoma cell line, both as a one-chain or as a two-chain molecule. Its specific fibrinolytic effect on human whole blood clots or plasma clots with different degrees of fibrin crosslinking was evaluated in an in vitro system, composed of a 125I-fibrin labeled clot, hanging in circulating human plasma. After infusion of EPA (30 IU per ml over 3 hrs), non-crosslinked clots lysed more extensively (75-100 percent in 5 hrs) than totally-crosslinked clots (50-65 percent), and no difference was found between one-chain or two-chain EPA. The extent of lysis of totally-crosslinked human or animal plasma clots hanging in autologous plasma induced by EPA varied markedly form one species ot the other. When 90 IU of EPA were infused over 3 hrs, crosslinked human plasma clots dissolved for over 95 percent within 5 hrs. Under comparable conditions, the degree of lysis was 80 percent in primate plasma (cynomolgus fascicularis), 60 percent in cat and rabbit plasma, 30 percent in dog plasma and only 10 percent in rat plasma. Systemic activation of the fibrinolytic system in the circulating plasmas was minor and dose-dependent in all species, but complete fibrinogen breakdown was not observed in any species following infusion of up to 90 IU EPA per ml plasma. It is concluded that the human system is more susceptible to EPA induced fibrinolysis than the other animal systems which were investigated, and that even totally-crosslinked clots can be lysed after infusion of EPA.     

Absence of synergism between tissue-type plasminogen activator (t-PA), single-chain urokinase-type plasminogen activator (scu-PA) and urokinase on clot lysis in a plasma milieu in vitro

A potential synergic effect of tissue-type plasminogen activator (t-PA), single-chain urokinase-type plasminogen activator (scu-PA) or urokinase on clot lysis was investigated in a whole human plasma system in vitro. The system consisted of a human plasma clot labeled with 125I-fibrinogen, immersed in citrated whole human plasma, to which the thrombolytic agents were added. Clot lysis was quantitated by measurement of released 125I, and activation of the fibrinolytic system in the surrounding plasma by measurements of fibrinogen and alpha 2-antiplasmin. t-PA, scu-PA and urokinase induced a dose-dependent and time-dependent clot lysis; 50 percent lysis after 2 h was obtained with 5 nM t-PA, 20 nM scu-PA and 12 nM urokinase. At these concentrations no significant activation of the fibrinolytic system in the plasma was observed with t-PA and scu-PA, whereas urokinase caused significant alpha 2-antiplasmin consumption and concomitant fibrinogen degradation. The shape of the dose-response curves was different; t-PA and urokinase showed a log linear dose-response whereas that of scu-PA was sigmoidal. Combinations of t-PA and scu-PA, of t-PA and urokinase or of scu-PA and urokinase at thrombolytic doses of each showed no synergism for thrombolysis. Fifty percent clot lysis in 2 h was obtained at total concentrations of the combined agents of 5 to 15 nM with molar ratios ranging from 1:4 to 4:1.(ABSTRACT TRUNCATED AT 250 WORDS)     

Induction of a sustained fibrinolytic response by BRL 26921 in vitro

The role of thrombus-binding in the fibrinolytic response to the acylated streptokinase.plasminogen activator complex, BRL 26921, has been examined using human plasma clots, radiolabelled with 125I-fibrin, in vitro. When clots were briefly exposed to BRL 26921, washed and returned to homologous plasma, lysis continued for up to 3 hours and attained approximately 25% of that lysis achieved by incubating with BRL 26921 for 5 hours. This continuing lysis was potentiated by return of exposed clots to alpha 2-antiplasmin-depleted plasma, or buffer and is attributed to an initial uptake of BRL 26921 rather than the binding of exogenous plasmin that was observed for streptokinase and high concentrations of urokinase. The sustained lysis is not explained by transfer of loosely-associated surface material or by dissociation of agent from the clot with reuptake from a dilute systemic pool. The response can be attributed, at least in part, to specific fibrin binding, mediated by kringles 1-4, for a low-molecular weight plasminogen (Val442) variant was less active.     

Two-step targeting of urokinase to plasma clot provides efficient fibrinolysis

Two-step targeting of urokinase to a model thrombus (human plasma clot) has been examined in vitro. To this purpose a covalent conjugate of vector antibodies to fibrinogen with monoclonal non-inhibiting antibody to urokinase was obtained using cross-linking agent disuccinimidilsuberate. After pretreatment with the conjugate clot acquired affinity for urokinase, which alters the character of fibrinolysis. Pretreatment with the conjugate resulted in at least 10-fold decrease in dose of urokinase needed for effective clot lysis (from 150 IU/ml for intact clot to 10-15 IU/ml for pretreated one). This variant of urokinase targeting provides effective clot lysis without fibrinogenolysis in plasma.     

Stimulation of the plasma fibrinolytic activity in rats by the prostacyclin analogue CG 4203

In anesthetized rats the intravenous infusion (15-120 min) of the prostacyclin analogue CG 4203 (0.215-2.15 micrograms.kg-1.min-1) resulted in a time and dose dependent shortening of the ex vivo euglobulin clot lysis time (ECLT). This effect that appeared to be significant already in the non-hypotensive dose range of CG 4203, was still existing at 2 hours after cessation of the infusion. The phosphodiesterase inhibitor theophylline (4.64 mg.kg-1 i.v.) potentiated the ECLT shortening effect of CG 4203. Even the highest dose of CG 4203 did not change the plasma fibrinogen levels. In contrast to low molecular weight urokinase (100 PU/ml) CG 4203 (10 microM) did not shorten the in vitro lysis of preformed euglobulin clots from untreated rats nor did it reduce the 125J-fibrin content of human thrombi in the Chandler loop system. From these results it is concluded that intravenously infused CG 4203 increases the plasma fibrinolytic activity in rats by a c-AMP dependent mechanism, probably by release of plasminogen activator. Direct urokinase like activation of plasminogen does not occur with CG 4203. The relevance of this activity is discussed with respect to the CG 4203 treatment of occlusive vascular diseases.     

A recombinant antibody-targeted plasminogen activator with high affinity for activated platelets increases thrombolytic potency in vitro and in vivo

To increase thrombolytic specificity of urokinase (uPA), we engineered a recombinant chimeric plasminogen activator SZ51Hu-scuPA, which consists of a humanized monoclonal antibody (SZ-51Hu) specifically against P-selectin on activated human platelet and a single-chain urokinase (scuPA). The cDNA, encoding scuPA amino acids 1-411, was inserted in 5' end to 3' end orientation immediately after the CH3 of SZ-51Hu heavy-chain sequence in the expression vector alphaLys30. The resulting construct alphaLys30-SZ51VH/Hu-scuPA was used to transfect into SP2/0 murine myeloma cell line, which was pretransfected with SZ51Hu light chain. The fusion protein SZ51Hu-scuPA was expressed at 5 mg/L in the supernatant of cell culture. The fusion protein purified by affinity chromatography had a molecular weight of 160 kDa with fibrinolytic activity of 39,000 IU/mg and its affinity to activated human platelet was 67% of the parent murine mAb SZ-51. The thrombolytic property of the fusion protein was first characterized in an in vitro system, which consists of a 125I-fibrin-labeled human plasma clot containing different concentrations of human platelets suspended in citrated human plasma. Fifty percent lysis was reached with SZ51Hu-scuPA in 1 hour at a concentration of 20 IU/mL or in 2 hours at a concentration of 10 IU/ mL, which was much faster than uPA at the same concentration. The maximal lysis of the clots by SZ51Hu-scuPA was 4.1 to 8.4 times more potent than that by uPA. The fusion protein was further characterized in the hamster pulmonary embolism model with clots prepared from fresh platelet-rich human plasma containing 125I-labeled fibrinogen. The thrombolytic activity of SZ51-scuPA was 3.9 times more potent than that of uPA at 2,000 IU/kg in this model. Almost no significant fibrinogen breakdown was observed either in vitro and in vivo.     

Correlation between progressive adsorption of plasminogen to blood clots and their sensitivity to lysis

The binding of plasminogen to preformed human plasma clots immersed in citrated human plasma was measured and correlated with the sensitivity of these clots to lysis with recombinant tissue-type plasminogen activator (rt-PA), recombinant single-chain urokinase-type plasminogen activator (rscu-PA) or two chain urokinase-type plasminogen activator (tcu-PA, urokinase). When 0.15 ml plasma clots were compressed mechanically to about 1% of their original weight, and immersed in 0.15 ml plasma, 131I-labeled native plasminogen (Glu-plasminogen) adsorbed progressively from the plasma milieu onto the clot; binding was 3 +/- 1% (n = 10) after 1 h, 7 +/- 1% after 12 h and 12 +/- 1% after 48 h. This was associated with an increased sensitivity of the clot to lysis; 50% clot lysis in 4 h was obtained with 65 +/- 5 ng/ml (n = 3) rt-PA before and 30 +/- 5 ng/ml (n = 3) after 48 h preincubation in plasma (p less than 0.01), with corresponding values of 660 +/- 55 ng/ml (n = 3) and 280 +/- 25 ng/ml (n = 3) for rscu-PA, (p less than 0.01), and 800 +/- 85 ng/ml (n = 3) and 270 +/- 35 ng/ml (n = 3) for urokinase (p less than 0.01). Additional binding of plasminogen and increased sensitivity to lysis were reduced or abolished when the clot was preincubated in plasminogen-depleted or in t-PA-depleted plasma, or when 20 mM 6-aminohexanoic acid or 2,000 KIU/ml aprotinin were added.(ABSTRACT TRUNCATED AT 250 WORDS)     

Frameless stereotactic aspiration and thrombolysis of spontaneous intracerebral hemorrhage

Introduction: To test the feasibility and safety of a minimally invasive technique, we report our experience in treating spontaneous intracerebral hemorrhage (ICH) patients by using frameless stereotactic clot aspiration-thrombolysis and its effects on their 30-day survival. We compared the observed cohort mortality with its predicted 30-day ICH mortality, by using previously validated methods. Methods: Selection criteria were diagnosis of hypertensive ICH ≥35 cc, reduced level of consciousness, and no brainstem compression. Frameless stereotactic puncture/clot aspiration followed by intraclot external catheter placement was performed. Two milligrams of recombinant tissue plasminogen activator (rtPA) was administered q12 hours until ICH volume ≤10 cc, or the catheter fenestrations were no longer in continuity with the clot. Results: Fifteen patients were treated, mean age was 60.7 years. Hemorrhage locations included basal ganglia (13), thalamic (1), and lobar (1); mean systolic blood pressure; and admission ICH volumes were 229.3 mmHg and 59.1 cc, respectively. Median time from ictus to clot aspiration/thrombolysis was 1 (range 0–3) day. Mean hematoma volume was reduced to 17% of pretreatment size. Complications were ventriculitis (6.6%) and clot enlargement (13.3%). Two patients were dead at 30 days. Median Glasgow Coma Scale (GCS) scores were 10.5 (4–15) at admission and 11.0 (3–15) at discharge. By using the most conservative estimate for analysis, probability of observing two or fewer deaths among 15 patients with an overall probability of dying calculated at 0.33 was p = 0.079. Conclusions: In this selected cohort of patients with ICH, stereotactic aspiration and thrombolytic washout seemed to be feasible and to have a trend towards improved 30-day survival, when using their predicted mortality data as “historical control.” Complications did not exceed expected incidence rates. Based on the experience presented here as well as previous similar reports, a larger, randomized study addressing dose escalation, patient selection, and best therapeutic window is needed.     

No Exacerbation of Perihematomal Edema with Intraventricular Tissue Plasminogen Activator in Patients with Spontaneous Intraventricular Hemorrhage

Introduction

In severe spontaneous intraventricular hemorrhage (IVH), intraventricular (IVR) administration of tissue plasminogen activator (rtPA) clears blood from the ventricles more rapidly than with external ventricular drainage (EVD) alone. However, experimental studies suggest tPA may be neurotoxic in compromised brain tissue and may exacerbate perihematomal edema.

Methods

We used computerized volumetrics to assess change in intracerebral hemorrhage (ICH), IVH, ventricular, and perihematomal edema (PHE) volumes at 2–4 (T1) and 5–9 (T2) days following diagnostic CT scans (T0) of 24 patients (12 tPA-treated; 12 controls) with IVH requiring EVD. Controls from a hospital registry were matched by IVH and ICH volume to tPA-treated patients who came from a multicenter trial involving 52 patients with IVH.

Results

There were no significant differences between matched pairs in admission ICH and IVH volumes. IVR tPA resulted in more rapid clearance of IVH as determined by T2–T0 decrease in median IVH volume (tPA: ?18.7 cc, iqr 14.9; control:?6.9 cc, iqr 6.4; P = 0.002). Median ratios of PHE to ICH volume were not significantly different in control versus tPA-treated patients at T1 and T2 [control:tPA = 0.55:0.56 (T1); P = 0.84 and 0.81:0.71 (T2); P = 1.00]. Total ventricular volume was significantly larger in the control group at T2 (mean: 57.57 ± 10.32 vs. tPA: 24.80 ± 2.67 cc; P = 0.01). Bacterial ventriculitis was more frequent in the control group (5 vs. 1 episodes; P = 0.06) as was shunt dependence (4 vs. 0 cases; P = 0.03).

Conclusions

For case matched large IVH with small ICH volume, IVR tPA enhances lysis of intraventricular blood clots and has no significant impact on PHE.