Therapeutic Ultrasound as a Treatment Modality for Physiological and Pathological Ageing Including Alzheimer's Disease
Physiological and pathological ageing (as exemplified by Alzheimer's disease, AD) are characterized by a progressive decline that also includes cognition. How this decline can be slowed or even reversed is a critical question. Here, we discuss therapeutic ultrasound as a novel modality to achie...
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| Main Authors: | , , |
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| Format: | Book |
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MDPI AG,
2021-07-01T00:00:00Z.
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| Summary: | Physiological and pathological ageing (as exemplified by Alzheimer's disease, AD) are characterized by a progressive decline that also includes cognition. How this decline can be slowed or even reversed is a critical question. Here, we discuss therapeutic ultrasound as a novel modality to achieve this goal. In our studies, we explored three fundamental strategies, (i) scanning ultrasound on its own (SUS<sup>only</sup>), (ii) therapeutic ultrasound in concert with intravenously injected microbubbles (which transiently opens the blood-brain barrier, SUS<sup>+MB</sup>), and (iii) SUS<sup>+MB</sup> in combination with therapeutic antibodies (SUS<sup>+MB+mAb</sup>). These studies show SUS<sup>+MB</sup> effectively clears amyloid and restores memory in amyloid-depositing mice and partially clears Tau and ameliorates memory impairments in Tau transgenic mice, with additional improvements found in combination trials (SUS<sup>+MB+mAb</sup>). Interestingly, both SUS<sup>only</sup> and SUS<sup>+MB</sup> restored the induction of long-term potentiation (LTP, electrophysiological correlate of memory) in senescent wild-type mice. Both lead to increased neurogenesis, and SUS<sup>only</sup>, in particular, resulted in improved spatial memory. We discuss these findings side-by-side with our findings obtained in AD mouse models. We conclude that therapeutic ultrasound is a non-invasive, pleiotropic modality that may present a treatment option not only for AD but also for enhancing cognition in physiological ageing. |
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| Item Description: | 10.3390/pharmaceutics13071002 1999-4923 |