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Primarily located in the Advanced Imaging Research Center the Corbin Lab routinely utilizes state-of-the–art small animal imaging systems (MRI, micro-MRI, Optical, micro-CT/SPECT/PET) to characterize rodent models of disease.

Evaluation of dry textile electrodes for long‑term electrocardiographic monitoring Milad Alizadeh‑Meghrazi1,2,8*  , Binbin Ying3,8, Alessandra Schlums4,8, Emily Lam2,8, Ladan Eskandarian5,8, Farhana Abbas6,8, Gurjant Sidhu7,8, Amin Mahnam8, Bastien Moineau8 and Milos R. Popovic1,2  Background Biopotentials or electrophysiological signals are widely utilized in health monitoring and diagnostics. For example, through electrocardiography (ECG), cardiac activity is recorded and information

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RESEARCH ARTICLE www.mbs-journal.de Toward Highly Matching the Dura Mater: A Polyurethane Integrating Biocompatible, Leak-Proof, and Self-Healing Properties Pandi Chen, Fenglong Li, Guyue Wang, Binbin Ying, Chao Chen, Ying Tian, Maosong Chen, Kyung Jin Lee, Wu Bin Ying,* and Jin Zhu* The dura mater is the final barrier against cerebrospinal fluid leakage and plays a crucial role in protecting and supporting the brain and spinal cord. Head trauma, tumor resection and other traumas damage it

Michaely Lab publications.

www.advmatinterfaces.de 1901346  (1 of 10) © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Full Paper A Nanocellulose-Paper-Based SERS Multiwell Plate with High Sensitivity and High Signal Homogeneity Longyan Chen, Binbin Ying, Pengfei Song, and Xinyu Liu* DOI: 10.1002/admi.201901346 1. Introduction Surface-enhanced Raman scattering (SERS) is one of the most attractive ana- lytical methods for label-free, high-sensi- tivity detection of biological and chemical analytes.[1–4] In SERS

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Biomaterials 303 (2023) 122345 Available online 16 October 2023 0142-9612/© 2023 Published by Elsevier Ltd. Recent advances in nano- and micro-scale carrier systems for controlled delivery of vaccines Erika Yan Wang a,1, Morteza Sarmadi a,1, Binbin Ying a,b,c,1, Ana Jaklenec a,*, Robert Langer a,* a Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA b Department of Mechanical Engineering, Massachusetts Institute of Technology

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0123456789();: The traditional paradigm for medical diagnostics, which is still actively practised around the globe, relies on physi­ cians’ use of their five basic senses to make inferences about a patient’s health1. For example, palpation through orifices such as the oral cavity, rectum or vaginal canal is still the predominant diagnostic mechanism within the digestive and female reproductive tracts2. Although inexpensive and straightforward, such subjective meth­ ods are prone to