Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

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Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

Sen Ye¹, Jiangang Pang² and Xiuli Wang³*

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Fig. 1.

Representative photographs of intracerebral hemorrhage (ICH) show: W+tPA group has stronger intracerebral hemorrhage (arrow), R(L)+tPA group has weaker intracerebral hemorrhage, (R(H)+tPA group has stronger intracerebral hemorrhage (arrow), R(L)+tPA has weaker intracerebral hemorrhage, (R)+tPA group has stronger intracerebral hemorrhage (arrow), and R(H)+tPA group has weaker intracerebral hemorrhage (arrow). Scale: 2mm.

For details of groups, see Table I.

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Fig. 2.

W+tPA group has stronger IgG staining in neurons and nerve fiber network, but the difference is insignificant between the four groups. Scale: 50mm. For details of groups, see Figure 1 and Table I.

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Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

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Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

Sen Ye¹, Jiangang Pang² and Xiuli Wang³*

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Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

Rivaroxaban Reduces Cerebral Hemorrhage in Mice with TPA Ischemic Stroke after Thrombolysis by Down-Regulating PAR-1 and PAR-2

Sen Ye1, Jiangang Pang2 and Xiuli Wang3*

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Sen Ye¹, Jiangang Pang² and Xiuli Wang³*