Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.
Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.
Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.
Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.
Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.
Project description:A growing body of evidence points to passive immunotherapy as a promising therapeutic strategy against AD. Herein, we show that meningeal lymphatic vasculature becomes dysfunctional in AD transgenic mice and that manipulating meningeal lymphatic drainage affects the outcome of anti-Aβ immunotherapy.