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Query: EC:3.4.21.68 (
tissue plasminogen activator
)
11,311
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thrombolysis of embolic stroke in the rat was measured using diffusion (
DWI
)-, T2 (T2WI)-, and perfusion (PWI)-weighted magnetic resonance imaging (MRI). An embolus was placed at the origin of the middle cerebral artery (MCA) by injection of an autologous single blood clot via an intraluminal catheter placed in the intracranial segment of internal carotid artery. Rats were treated with a recombinant
tissue plasminogen activator
(rt-PA) 1 hour after embolization (n = 9) or were not treated (n = 15). Diffusion-weighted imaging, T2WI, and PWI were performed before, during, and after embolization from 1 hour to 7 days. After embolization in both rt-PA-treated and control animals, the apparent diffusion coefficient of water (ADCw) and cerebral blood flow (CBF) in the ischemic region significantly declined from the preischemic control values (P < 0.001). However, mean CBF and ADCw in the rt-PA-treated group was elevated early after administration of rt-PA compared with the untreated control group, and significant differences between the two groups were detected in CBF (24 hours after embolization, P < 0.05) and ADCw (3, 4, and 24 hours after embolization, P < 0.05). T2 values maximized at 24 (control group, P < 0.001) or 48 hours (treated group, P < 0.01) after embolization. The increase in T2 in the control group was significantly higher at 24 hours and 168 hours than in the rt-PA-treated group (P < 0.05). Significant correlations (r > or = 0.80, P < 0.05) were found between lesion volume measured 1 week after embolization and CBF and ADCw obtained 1 hour after injection of rt-PA. Within a coronal section of brain, MRI cluster analysis, which combines ADCw and T2 data maps, indicated a significant reduction (P < 0.05) in the lesion 24 hours after thrombolysis compared with nontreated animals. These data demonstrate that the values for CBF and ADCw obtained 1 hour after injection of rt-PA correlate with histologic outcome in the tissue, and that the beneficial effect of thrombolysis of an intracranial embolus by means of rt-PA is reflected in an increase of CBF and ADCw, a reduction in the increase of T2, and a reduction of the ischemic lesion size measured using MRI cluster analysis.
...
PMID:Diffusion-, T2-, and perfusion-weighted nuclear magnetic resonance imaging of middle cerebral artery embolic stroke and recombinant tissue plasminogen activator intervention in the rat. 966 6
Ischemic stroke is a major cause of mortality and morbidity in industrialized countries and is almost always caused by occlusion of a cerebral artery by a clot. As the reversibly injured brain tissue evolves into irreversible infarction within a short period of time after onset of ischemia, it is extremely important and urgent to reverse the serious consequences of brain ischemia in the hyperacute phase when the ischemic brain tissue is still salvageable. Numerous thrombolytic and potentially neuroprotective agents have been studied in stroke patients with little success as the only approved therapy is thrombolysis with recombinant
tissue plasminogen activator
(r-tPA) within 3 h of stroke onset in highly selected patients (approximately 5 to 10 % of all acute stroke patients). One major obstacle in the development of effective therapies for ischemic stroke has been the lack of versatile imaging techniques. New magnetic resonance imaging (MRI) modalities, specially diffusion- and perfusion-weighted MRI (
DWI
and PWI, respectively) have been used in experimental studies with great success for over a decade and now are gradually entering clinical use.
DWI
and PWI can detect brain ischemia in the early phase in its full extent thus ensuring a definite diagnosis, allowing for follow-up of the ischemic lesion size over time with good spatial and temporal resolution, demonstrating perfusion deficit and reperfusion and the existence and the extent of penumbra while only requiring a few minutes of imaging time.
DWI
and PWI do not just give us the correct diagnosis of ischemic stroke, but allow us to acquire in vivo lesion size before therapeutic regimen is started and monitor the therapeutic efficacy thereafter, thus overcoming the potential pretreatment bias. We used
DWI
and PWI to evaluate novel therapeutic approaches for ischemic stroke in numerous experimental studies and lately in humans. With
DWI
and PWI, we are able to determine the in vivo efficacy (or lack of efficacy) of new therapeutic regiments (both neuroprotective and thrombolytic agents, or combination therapies) in a rapid, safe, and reliable way and in a relatively small number of well-selected, well-defined, and homogeneous patients. This approach may, therefore, significantly accelerate the development of new remedies for stroke patients.
...
PMID:The role of diffusion- and perfusion-weighted magnetic resonance imaging in drug development for ischemic stroke: from laboratory to clinics. 1532 Aug 14
In this prospective MRI study, we evaluated the impact of the site of occlusion on multiple baseline perfusion parameters and subsequent recanalization in 49 stroke patients who were given intravenous
tissue plasminogen activator
(
tPA
). Pretreatment magnetic resonance angiography (MRA) revealed an arterial occlusion in 47 patients: (1) internal carotid artery (ICA) + M1 middle cerebral artery (MCA) occlusion (n=12); (2) M1 MCA occlusion (n=19); (3) M2 MCA, distal branches of the MCA and anterior cerebral artery (ACA) occlusion (n=16). Patients with ICA occlusion had significantly larger
DWI
, PWI and mismatch lesion volume on pretreatment MRI compared to patients with other sites of occlusion. The differences in cerebral blood flow (CBF) and peak height were significantly higher in patients with ICA occlusion compared to patients with other sites of occlusion (P=0.03 and P=0.04, respectively). Day 1 MRA showed recanalization in 28 patients (60%). The rate of recanalization was significantly different depending on the site of occlusion: 33% in ICA + M1 MCA occlusion, 63% in M1 MCA occlusion and 81% in either M2 MCA, distal branches of the MCA or ACA occlusion (P=0.002). Our data suggest that CBF and peak height are the most relevant MRI parameters to assess the severity of hemodynamic impairment in regard to the site of occlusion.
...
PMID:Influence of the site of arterial occlusion on multiple baseline hemodynamic MRI parameters and post-thrombolytic recanalization in acute stroke. 1551 29
The use of blood biomarkers is getting increasingly popular in the field of cerebrovascular diseases, since biomarkers might aid physicians in several steps of stroke evaluation. We will discuss whether stroke diagnosis might be possible using some specific brain biomarkers and if this approach will permit rapid referral of stroke patients to hospitals with acute treatments such as tissue plasminogen activator (t-PA) available. Although thrombolytic therapy in acute stroke is effective since it accelerates clot lyses and earlier restoration of blood flow, up to 40-50% of treated patients do not recanalize or do it too late, and between 6 and 15% suffer hemorrhagic transformations with high death rates. In the context of the neurovascular unit,
t-PA
may degrade extracellular matrix integrity and increase risks of neurovascular cell death, blood-brain barrier leakage, edema and hemorrhage. In humans, biomarkers such as matrix metalloproteinase-9 (MMP-9) or fibronectin, which might be used to select patients at higher risk of hemorrhagic transformation, and high plasminogen activator inhibitor-1 (PAI-1) interfering with
tPA
-induced recanalization, thus predicting clot-lyses resistance and poor outcome, have been recently identified. Moreover, high levels of MMP-9 and MMP-13 are involved in
DWI
lesion growth in spite of thrombolytic therapy suggesting its ultra-early role in brain injury. Other biomarkers such as C-reactive protein may accurately predict stroke mortality following reperfusion therapies. Finally, we will also show that genetic background of stroke patients may condition plasma levels of some of these biomarkers and influence therapeutic response in
t-PA
-treated patients.
...
PMID:Stroke biomarkers: Can they help us to guide stroke thrombolysis? 1747 98
A thrombolytic agent, recombinant
tissue plasminogen activator
(rt-PA), was recently approved in Japan for use on patients within 3 hrs of the onset of cerebral infarction. In order to salvage cerebral tissue after an ischemic insult, it is crucial to detect the ischemic lesion before it becomes irreversible and to detect the core and penumbra areas of the lesion for guidance in selecting the suitable therapy. In this symposium we discuss the detection of ischemic lesions using plain CT, perfusion CT, and MRI. In the section on plain CT, we present a typical case with early CT signs. In the section on perfusion CT, we report on the feasibility and limitation of the technique for the diagnosis of acute cerebral infarction. In the section on MRI, we study the usefulness of
DWI
for the early and highly reliable detection of ischemic stroke.
...
PMID:[Early detection of ischemic lesions in the super-acute phase of ischemic cerebrovascular diseases by imaging]. 1743 94
The use of blood biomarkers is getting increasingly popular in the field of cerebrovascular diseases, since biomarkers might aid physicians in several steps of stroke evaluation. We will discuss whether stroke diagnosis might be possible using some specific brain biomarkers and if this approach will permit rapid referral of stroke patients to hospitals with acute treatments such as tissue plasminogen activator (t-PA) available. Although thrombolytic therapy in acute stroke is effective since it accelerates clot lyses and earlier restoration of blood flow, up to 40-50% of treated patients do not recanalize or do it too late, and between 6 and 15% suffer hemorrhagic transformations with high death rates. In the context of the neurovascular unit,
t-PA
may degrade extracellular matrix integrity and increase risks of neurovascular cell death, blood-brain barrier leakage, edema and hemorrhage. In humans, biomarkers such as matrix metalloproteinase-9 (MMP-9) or fibronectin, which might be used to select patients at higher risk of hemorrhagic transformation, and high plasminogen activator inhibitor-1 (PAI-1) interfering with
tPA
-induced recanalization, thus predicting clot-lyses resistance and poor outcome, have been recently identified. Moreover, high levels of MMP-9 and MMP-13 are involved in
DWI
lesion growth in spite of thrombolytic therapy suggesting its ultra-early role in brain injury. Other biomarkers such as C-reactive protein may accurately predict stroke mortality following reperfusion therapies. Finally, we will also show that genetic background of stroke patients may condition plasma levels of some of these biomarkers and influence therapeutic response in
t-PA
-treated patients.
...
PMID:Stroke biomarkers: can they help us to guide stroke thrombolysis? 1722 Sep 57
We incorporated diffusion-weighted magnetic resonance imaging (MRI) (
DWI
) and perfusion-weighted MRI (PWI) to evaluate the efficacy of thrombolysis in experimental embolic stroke using a plasminogen activator, reteplase. Reteplase (rPA) is an unglycosylated plasminogen activator with enhanced fibrinolytic potency. Right internal carotid arteries of 34 rabbits were embolized using aged heterologous thrombi. Baseline
DWI
and PWI scans 0.5 hours after embolization confirmed successful embolization among 32. Intravenous treatment with rPA (n=11; 1 mg/kg bolus), recombinant
tissue plasminogen activator
(rt-PA) (n=11; 6 mg/kg bolus over 1 hour), or placebo (n=10) commenced 1 hour after stroke induction. MRIs were performed at 1.75, 3, and 5 hours after embolization. Six hours after embolization, brains were harvested and examined for hemorrhage. Posttreatment areas of diffusion abnormality and perfusion delay were graded using both a semiquantitative scale and percent areas expressed as a ratio of the baseline values. Improved perfusion was seen among the rt-PA, and rPA-treated groups compared with placebo, using a semiquantitative scale (P<.01 rt-PA v controls, P<.05, rPA v controls).
DWI
scans, however, were not improved with thrombolysis. Cerebral hemorrhage was not increased with thrombolytic treatment, although the incidence of wound site hemorrhage was higher with either rPA or rt-PA. One fatal systemic hemorrhage was observed in each of the thrombolytic-treated groups. Cerebral perfusion was equally improved with either rt-PA or rPA without causing excess cerebral hemorrhage. An advantage of rPA is single-bolus dosing rather than continuous infusion. Use of rPA for stroke treatment should be further explored.
...
PMID:Thrombolysis with reteplase, an unglycosylated plasminogen activator variant, in experimental embolic stroke. 1789 78
Our aim was to investigate caspase-3 plasma levels after stroke, its correlation with infarct expansion and neurological outcome. Caspase-3 plasma levels were determined by ELISA at different time points after stroke in 116
t-PA
-treated patients and a control group of 40 healthy controls. Neurological status was evaluated by NIHSS scores and functional outcome by modified Rankin Scale. To assess brain infarct growth, serial brain magnetic resonance imaging scans including diffusion- (
DWI
) and perfusion-weighted (PWI) images were performed in a subgroup of 58 patients. Plasma caspase-3 levels were higher in stroke patients versus the control group throughout the acute phase of stroke. Furthermore, caspase-3 level at 24h was associated with poorer short- and long-term neurological outcome and positively correlated with infarct growth assessed by diffusion-weighted images. Our data suggest that caspase-3 could be involved in recruitment of ischemic brain tissue being a marker of infarct growth.
...
PMID:Caspase-3 is related to infarct growth after human ischemic stroke. 1805 16
Intravenous administration of tissue plasminogen activator (t-PA) can improve clinical outcome in patients with acute ischemic stroke. In our country, use of
t-PA
for acute brain infarction within 3 hours of onset was approved by Japanese government from October, 2005. About 5,700 patients were treated with
t-PA
for these two years. Analysis of 2,484 patients (mean 70 years old, median NIHSS Score 15) showed that mRS 0-1 was 32%, the death was 20% and symptomatic brain hemorrhage was 5.2%. We had 63 patients (median 74 years old, median NIHSS score 14) treated with
t-PA
thrombolysis by November, 2007. Immediately after
t-PA
therapy 8 patients (12.7%) had dramatic recovery. On day 7 after
t-PA
therapy, excellent recovery was 49.2%, good recovery was 15.9%, and worsening was 12.7%. Within one hour after
t-PA
therapy, rate of recanalization for occluded arteries was 43.5%, which was strongly associated with excellent and good neurological recovery on day 7. Atrial fibrillation was an independent factor associated with no early recanalization. When we evaluated baseline
DWI
findings before
t-PA
infusion using
DWI
-ASPECTS and NIHSS score at day 7 after rt-PA therapy, bad outcome was seen more frequently in patients with an
DWI
ASPECTS < or = 5 (6 of 8 patients) than in patients with an
DWI
ASPECTS > 5 (2 of 41 patients; P < 0.0001). Patients with an ASPECTS-
DWI
> 5 should be considered eligible for
t-PA
therapy.
...
PMID:[IV t-pA thrombolysis in acute stroke patients]. 1854 Mar 77
After large CT-based clinical trials have failed to prove the benefits of intravenous
tissue plasminogen activator
(
tPA
) administration for ischemic stroke patients beyond 3 hours of the onset of the concept of PWI/
DWI
mismatch which is the volume difference between a PWI lesion and
DWI
lesion on MRI scans, has been proposed to facilitate the selection of patients with a salvageable area. PWI/
DWI
mismatch is considered to represent the tissue that is not irreversibly injured and can respond to early reperfusion therapy. When an ischemic lesion is divided into 4 regions, namely, ischemic core, reversible
DWI
lesion, penumbra and benign oligemia, both the reversible
DWI
lesion and penumbra are considered to be an optimal targets for thrombolysis. In order to clarify the clinical significance of PWI/
DWI
mismatch in the selection of candidates for
tPA
therapy, some multicenter trials were performed. The results of DIAS (desmoteplase in acute ischemic stroke)/DEDAS (dose escalation of desmoteplase for acute ischemic stroke)/DIAS-2 did not difinitly demonstrate the clinical benefits of desmoteplase administration in patients with PWI/
DWI
mismatch between 3 to 9 hours of onset; in fact, DIAS-2 could not prove any effect of the drug. DEFUSE (diffusion and perfusion imaging evaluation for understanding stroke evolution), in which
tPA
was administered to all participants between 3 to 6 hours of stroke onset, showed that the occurrence of early reperfusion led to a favorable clinical response in patients with PWI/
DWI
mismatch. In contrast, early reperfusion was not beneficial in patients without PWI/
DWI
mismatch. In EPITHET (echoplanar imaging thrombolysis evaluation trial), stroke patients who showed PWI/
DWI
mismatch after 3 to 6 hours of the onset were assigned to receive either alteplase or placebo administration: lesion growth was lesser in patients with alteplase than in those who received placebo, although the difference was not statistically significant because of a small number of participants. Although these results supported the importance of the PWI/
DWI
concept, there still remain some issues to be resolved. Regarding the definition of PWI/
DWI
mismatch, a larger mismatch ratio than the one that has been typically used seems to be recommended. Most useful parameters of PWI should be determined to standardize volume evaluation using MRI scans. For the institutes where MRI scans are not available 24 hours a day, clinical
DWI
mismatch has been proposed as an alternative to of PWI/
DWI
mismatch. The application of MRI-based decision making strategy for stroke patients may facilitate the assessment and treatment of stroke patients beyond 3 hours of stroke onset, and is expected to allow the use of
tPA
for a substantially greater number of patients.
...
PMID:[Intravenous administration of a tissue plasminogen activator beyond 3 hours of the onset of acute ischemic stroke--MRI-based decision making]. 1897 5
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