A Dual‐Modal Magnetic Resonance/Photoacoustic Imaging Tracer for Long‐Term High‐Precision Tracking and Facilitating Repair of Peripheral Nerve Injuries

Ren, Jingyan; Tang, Xiaoduo; Wang, Tao; Wei, Xin; Zhang, Junhu; Lu, Laijin; Liu, Yang; Yang, Bai

doi:10.1002/adhm.202200183

Cited by 10 publications

(9 citation statements)

References 85 publications

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“…198 The dual-modal agents have been utilized for enhanced visualization of tumors, thrombi, stem cells, and nerve injuries, to name a few representative examples. 31,44,194…”

Section: Combining Optoacoustic and Magnetic Resonance Imagingmentioning

confidence: 99%

Multimodal optoacoustic imaging: methods and contrast materials

Chen,

Gezginer,

Zhou

et al. 2024

Chem. Soc. Rev.

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“…198 The dual-modal agents have been utilized for enhanced visualization of tumors, thrombi, stem cells, and nerve injuries, to name a few representative examples. 31,44,194…”

Section: Combining Optoacoustic and Magnetic Resonance Imagingmentioning

confidence: 99%

Multimodal optoacoustic imaging: methods and contrast materials

Chen,

Gezginer,

Zhou

et al. 2024

Chem. Soc. Rev.

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“…These tracers were wrapped by microfluidic droplets to control leakage and allow for continuous and slow release. In addition, these multi-functional anterograde neural tracers had potential neural neurotherapeutic functions and could be used as a new platform for the integration of imaging and the treatment of peripheral nerve injuries [ 103 ]. Therefore, drug-delivery carriers engineered with microfluidic platforms have immense potential for future clinical applications.…”

Section: Microfluidic Platforms For Exploring Nerve Injury and Regene...mentioning

confidence: 99%

Microfluidic Manipulation for Biomedical Applications in the Central and Peripheral Nervous Systems

Zhenghang

Jiang

et al. 2023

Pharmaceutics

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Physical injuries and neurodegenerative diseases often lead to irreversible damage to the organizational structure of the central nervous system (CNS) and peripheral nervous system (PNS), culminating in physiological malfunctions. Investigating these complex and diverse biological processes at the macro and micro levels will help to identify the cellular and molecular mechanisms associated with nerve degeneration and regeneration, thereby providing new options for the development of new therapeutic strategies for the functional recovery of the nervous system. Due to their distinct advantages, modern microfluidic platforms have significant potential for high-throughput cell and organoid cultures in vitro, the synthesis of a variety of tissue engineering scaffolds and drug carriers, and observing the delivery of drugs at the desired speed to the desired location in real time. In this review, we first introduce the types of nerve damage and the repair mechanisms of the CNS and PNS; then, we summarize the development of microfluidic platforms and their application in drug carriers. We also describe a variety of damage models, tissue engineering scaffolds, and drug carriers for nerve injury repair based on the application of microfluidic platforms. Finally, we discuss remaining challenges and future perspectives with regard to the promotion of nerve injury repair based on engineered microfluidic platform technology.

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“…Activatable theranostics provide advanced solutions for tumor diagnosis by enhancing contrast in various imaging technologies and tailored therapy. − With more diagnostic information, multimodal imaging can diagnose tumors more accurately than single imaging. − So far, positron emission computed tomography (PET)/CT and PET/magnetic resonance imaging (MRI) have been extensively used in the biomedical field, which facilitate the fabrication of multiple responsive and multimodal contrast agents for tumor diagnosis. In addition, there is an urgent need to combine various excellent imaging methods such as MRI, ultrasonic imaging (USI), and photoacoustic imaging (PAI) to develop multimodal imaging methods for the early diagnosis of malignant tumors. − 1 H MRI with excellent spatial resolution and unlimited penetration depth can aid in detecting deep-seated cancers but is hampered by high background signals from normal tissues and low sensitivity. − As a vibrant complementary method, 19 F MRI without background signal and hyperpolarized 129 Xe MRI with ultrahigh sensitivity have received intense attention. − Specifically, hyperpolarized 129 Xe MRI has been applied to evaluate pulmonary function in COVID-19 patients …”

Section: Introductionmentioning

confidence: 99%

Photoactivated Nanohybrid for Dual-Nuclei MR/US/PA Multimodal-Guided Photothermal Therapy

et al. 2022

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Nanohybrids have gained immense popularity for the diagnosis and chemotherapy of lung cancer for their excellent biocompatibility, biodegradability, and targeting ability. However, most of them suffer from limited imaging information, low tumor-to-background ratios, and multidrug resistance, limiting their potential clinical application. Herein, we engineered a photoresponsive nanohybrid by assembling polypyrrole@bovine serum albumin (PPy@BSA) encapsulating perfluoropentane (PFP)/129Xe for selective magnetic resonance (MR)/ultrasonic (US)/photoacoustic (PA) trimodal imaging and photothermal therapy of lung cancer, overcoming these drawbacks of single imaging modality and chemotherapy. The nanohybrid exhibited superior US, PA, and MR multimodal imaging performance for lung cancer detection. The high sensitivity of the nanohybrid to near-infrared light (NIR) resulted in a rapid increase in temperature in a low-intensity laser state, which initiated the phase transition of liquid PFP into the gas. The ultrasound signal inside the tumor, which is almost zero initially, is dramatically increased. Beyond this, it led to the complete depression of 19F/129Xe Hyper-CEST (chemical exchange saturation transfer) MRI during laser irradiation, which can precisely locate lung cancer. In vitro and in vivo results of the nanohybrid exhibited a successful therapeutic effect on lung cancer. Under the guidance of imaging results, a sound effect of photothermal therapy (PTT) for lung cancer was achieved. We expect this nanohybrid and photosensitive behavior will be helpful as fundamental tools to decipher lung cancer in an earlier stage through trimodality imaging methods.

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A Dual‐Modal Magnetic Resonance/Photoacoustic Imaging Tracer for Long‐Term High‐Precision Tracking and Facilitating Repair of Peripheral Nerve Injuries

Cited by 10 publications

References 85 publications

Multimodal optoacoustic imaging: methods and contrast materials

Multimodal optoacoustic imaging: methods and contrast materials

Microfluidic Manipulation for Biomedical Applications in the Central and Peripheral Nervous Systems

Photoactivated Nanohybrid for Dual-Nuclei MR/US/PA Multimodal-Guided Photothermal Therapy

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