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1.
FASEB J ; 37(6): e22969, 2023 06.
Article in English | MEDLINE | ID: mdl-37184038

ABSTRACT

Mitochondria are the energy supply sites of cells and are crucial for eukaryotic life. Mitochondrial dysfunction is involved in the pathogenesis of abdominal aortic aneurysm (AAA). Multiple mitochondrial quality control (MQC) mechanisms, including mitochondrial DNA repair, biogenesis, antioxidant defense, dynamics, and autophagy, play vital roles in maintaining mitochondrial homeostasis under physiological and pathological conditions. Abnormalities in these mechanisms may induce mitochondrial damage and dysfunction leading to cell death and tissue remodeling. Recently, many clues suggest that dysregulation of MQC is closely related to the pathogenesis of AAA. Therefore, specific interventions targeting MQC mechanisms to maintain and restore mitochondrial function have become promising therapeutic methods for the prevention and treatment of AAA.


Subject(s)
Aortic Aneurysm, Abdominal , Mitochondria , Humans , Mitochondria/metabolism , Aortic Aneurysm, Abdominal/metabolism , Autophagy
2.
ACS Nano ; 17(12): 11557-11566, 2023 Jun 27.
Article in English | MEDLINE | ID: mdl-37294879

ABSTRACT

The application of 2D materials-based flexible electronics in wearable scenarios is limited due to performance degradation under strain fields. In contrast to its negative role in existing transistors or sensors, herein, we discover a positive effect of strain to the ammonia detection in 2D PtSe2. Linear modulation of sensitivity is achieved in flexible 2D PtSe2 sensors via a customized probe station with an in situ strain loading apparatus. For trace ammonia absorption, a 300% enhancement in room-temperature sensitivity (31.67% ppm-1) and an ultralow limit of detection (50 ppb) are observed under 1/4 mm-1 curvature strain. We identify three types of strain-sensitive adsorption sites in layered PtSe2 and pinpoint that basal-plane lattice distortion contributes to better sensing performance resulting from reduced absorption energy and larger charge transfer density. Furthermore, we demonstrate state-of-the-art 2D PtSe2-based wireless wearable integrated circuits, which allow real-time gas sensing data acquisition, processing, and transmission through a Bluetooth module to user terminals. The circuits exhibit a wide detection range with a maximum sensitivity value of 0.026 V·ppm-1 and a low energy consumption below 2 mW.

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