Multifunctional Biomedical Imaging in Physiological and Pathological Conditions Using a NIR‐II Probe

Compared with imaging in the visible (400–650 nm) and near‐infrared window I (NIR‐I, 650–900 nm) regions, imaging in near‐infrared window II (NIR‐II, 1000–1700 nm) is a highly promising in vivo imaging modality with improved resolution and deeper tissue penetration. Here, a small molecule NIR‐II dye...

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Veröffentlicht in:	Advanced functional materials 2017-06, Vol.27 (23), p.n/a
Hauptverfasser:	Shou, Kangquan, Qu, Chunrong, Sun, Yao, Chen, Hao, Chen, Si, Zhang, Lei, Xu, Haibo, Hong, Xuechuan, Yu, Aixi, Cheng, Zhen
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Sprache:	eng
Schlagworte:	Biocompatibility Biological effects Biomedical materials Biopsy Blood circulation Decision making Deformation Diagnosis Dissection Dye penetrants Encapsulation fluorescence imaging In vivo methods and tests Infrared imaging Infrared windows Ischemia Lymph Lymphatic system lymphatic system, NIR‐II probes Materials science Medical imaging Physiology sentinel lymph nodes Temporal resolution tumors vascular system Vesicles
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container_title	Advanced functional materials
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creator	Shou, Kangquan Qu, Chunrong Sun, Yao Chen, Hao Chen, Si Zhang, Lei Xu, Haibo Hong, Xuechuan Yu, Aixi Cheng, Zhen
description	Compared with imaging in the visible (400–650 nm) and near‐infrared window I (NIR‐I, 650–900 nm) regions, imaging in near‐infrared window II (NIR‐II, 1000–1700 nm) is a highly promising in vivo imaging modality with improved resolution and deeper tissue penetration. Here, a small molecule NIR‐II dye,5,5′‐(1H,5H‐benzo[1,2‐c:4,5‐c′] bis[1,2,5]thiadiazole)‐4,8‐diyl)bis(N,N‐bis(4‐(3‐((tert‐butyldimethylsilyl)oxy)propyl)phenyl) thiophen‐2‐amine), is successfully encapsulated into phospholipid vesicles to prepare a probe CQS1000. The novel NIR‐II probe is studied for in vivo multifunctional biological imaging. The results of this study indicate that the NIR‐II vesicle CQS1000 can noninvasively and dynamically visualize and monitor many physiological and pathological conditions of circulatory systems, including lymphatic drainage and routing, angiogenesis of tumor, and vascular deformity such as arterial thrombus formation and ischemia with high spatial and temporal resolution. More importantly, by virtue of the favorable half‐life of blood circulation of CQS1000, NIR‐II imaging is capable of aiding precise resection of tumor such as osteosarcoma and accelerating the process of lymph node dissection to complete sentinel lymph node biopsy for better decision making during the tumor surgery. Overall, CQS1000 is a highly promising NIR‐II probe for multifunctional biomedical imaging in physiological and pathological conditions, surpassing traditional NIR‐I imaging modality and pathologic assessments for clinical diagnosis and treatment. Near‐infrared (NIR)‐II CQS1000 vesicles are shown to allow visualization and monitoring of the circulatory system noninvasively and dynamically, and to aid in accomplishing more precise resection of tumors in addition to acceleratingthe process of sentinel lymph node biopsy for better decision making. Deep tissue penetration ability and desirable chemical and optical properties render NIR‐II CQS1000 a promising probe for future clinical applications.
doi_str_mv	10.1002/adfm.201700995
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Here, a small molecule NIR‐II dye,5,5′‐(1H,5H‐benzo[1,2‐c:4,5‐c′] bis[1,2,5]thiadiazole)‐4,8‐diyl)bis(N,N‐bis(4‐(3‐((tert‐butyldimethylsilyl)oxy)propyl)phenyl) thiophen‐2‐amine), is successfully encapsulated into phospholipid vesicles to prepare a probe CQS1000. The novel NIR‐II probe is studied for in vivo multifunctional biological imaging. The results of this study indicate that the NIR‐II vesicle CQS1000 can noninvasively and dynamically visualize and monitor many physiological and pathological conditions of circulatory systems, including lymphatic drainage and routing, angiogenesis of tumor, and vascular deformity such as arterial thrombus formation and ischemia with high spatial and temporal resolution. More importantly, by virtue of the favorable half‐life of blood circulation of CQS1000, NIR‐II imaging is capable of aiding precise resection of tumor such as osteosarcoma and accelerating the process of lymph node dissection to complete sentinel lymph node biopsy for better decision making during the tumor surgery. Overall, CQS1000 is a highly promising NIR‐II probe for multifunctional biomedical imaging in physiological and pathological conditions, surpassing traditional NIR‐I imaging modality and pathologic assessments for clinical diagnosis and treatment. Near‐infrared (NIR)‐II CQS1000 vesicles are shown to allow visualization and monitoring of the circulatory system noninvasively and dynamically, and to aid in accomplishing more precise resection of tumors in addition to acceleratingthe process of sentinel lymph node biopsy for better decision making. 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Here, a small molecule NIR‐II dye,5,5′‐(1H,5H‐benzo[1,2‐c:4,5‐c′] bis[1,2,5]thiadiazole)‐4,8‐diyl)bis(N,N‐bis(4‐(3‐((tert‐butyldimethylsilyl)oxy)propyl)phenyl) thiophen‐2‐amine), is successfully encapsulated into phospholipid vesicles to prepare a probe CQS1000. The novel NIR‐II probe is studied for in vivo multifunctional biological imaging. The results of this study indicate that the NIR‐II vesicle CQS1000 can noninvasively and dynamically visualize and monitor many physiological and pathological conditions of circulatory systems, including lymphatic drainage and routing, angiogenesis of tumor, and vascular deformity such as arterial thrombus formation and ischemia with high spatial and temporal resolution. 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Deep tissue penetration ability and desirable chemical and optical properties render NIR‐II CQS1000 a promising probe for future clinical applications.</description><subject>Biocompatibility</subject><subject>Biological effects</subject><subject>Biomedical materials</subject><subject>Biopsy</subject><subject>Blood circulation</subject><subject>Decision making</subject><subject>Deformation</subject><subject>Diagnosis</subject><subject>Dissection</subject><subject>Dye penetrants</subject><subject>Encapsulation</subject><subject>fluorescence imaging</subject><subject>In vivo methods and tests</subject><subject>Infrared imaging</subject><subject>Infrared windows</subject><subject>Ischemia</subject><subject>Lymph</subject><subject>Lymphatic system</subject><subject>lymphatic system, NIR‐II probes</subject><subject>Materials science</subject><subject>Medical imaging</subject><subject>Physiology</subject><subject>sentinel lymph nodes</subject><subject>Temporal resolution</subject><subject>tumors</subject><subject>vascular system</subject><subject>Vesicles</subject><issn>1616-301X</issn><issn>1616-3028</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNqFkc1u1DAUhSNERUthyxJFdMNmBv_FiTdIZaA0UgsjRCV21rXnZsZVYpc4KZodj8Az8iR4mBJ-Nqx85fudc319suwJJXNKCHsBq6abM0JLQpQq7mVHVFI544RV96eafjrMHsZ4TRJWcvEgO2RKMp4UR1lzObaDa0ZvBxc8tPkrFzpcOZvKuoO18-vc-Xy52UYX2rD-2QC_ypcwbKaLRfArtzOI-VXcSSB_V3_4_vVbXefLPhh8lB000EZ8fHceZ1dnbz4uzmcX79_Wi9OLmS0kLWYMWKMkZSiwMpVhrEFhqkJayaVBEBKY4cRYTpsCCkVRCgIEjeFSCATgx9nLve_NaNIaFv3QQ6tvetdBv9UBnP67491Gr8OtLqpSlZVMBs_2BiEOTkfrBrQbG7xHO2gqCKkKmqDnd1P68HnEOOjORYttCx7DGDUjjKmKCqYSevIPeh3GPn101FQxIljJKU_UfE_ZPsTYYzO9mBK9y1nvctZTzknw9M89J_xXsAlQe-CLa3H7Hzt9-vrs8rf5D9i_tho</recordid><startdate>20170620</startdate><enddate>20170620</enddate><creator>Shou, Kangquan</creator><creator>Qu, Chunrong</creator><creator>Sun, Yao</creator><creator>Chen, Hao</creator><creator>Chen, Si</creator><creator>Zhang, Lei</creator><creator>Xu, Haibo</creator><creator>Hong, Xuechuan</creator><creator>Yu, Aixi</creator><creator>Cheng, Zhen</creator><general>Wiley Subscription Services, Inc</general><general>Wiley Blackwell (John Wiley & Sons)</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SP</scope><scope>7SR</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>L7M</scope><scope>7X8</scope><scope>OTOTI</scope><scope>5PM</scope></search><sort><creationdate>20170620</creationdate><title>Multifunctional Biomedical Imaging in Physiological and Pathological Conditions Using a NIR‐II Probe</title><author>Shou, Kangquan ; 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Here, a small molecule NIR‐II dye,5,5′‐(1H,5H‐benzo[1,2‐c:4,5‐c′] bis[1,2,5]thiadiazole)‐4,8‐diyl)bis(N,N‐bis(4‐(3‐((tert‐butyldimethylsilyl)oxy)propyl)phenyl) thiophen‐2‐amine), is successfully encapsulated into phospholipid vesicles to prepare a probe CQS1000. The novel NIR‐II probe is studied for in vivo multifunctional biological imaging. The results of this study indicate that the NIR‐II vesicle CQS1000 can noninvasively and dynamically visualize and monitor many physiological and pathological conditions of circulatory systems, including lymphatic drainage and routing, angiogenesis of tumor, and vascular deformity such as arterial thrombus formation and ischemia with high spatial and temporal resolution. More importantly, by virtue of the favorable half‐life of blood circulation of CQS1000, NIR‐II imaging is capable of aiding precise resection of tumor such as osteosarcoma and accelerating the process of lymph node dissection to complete sentinel lymph node biopsy for better decision making during the tumor surgery. Overall, CQS1000 is a highly promising NIR‐II probe for multifunctional biomedical imaging in physiological and pathological conditions, surpassing traditional NIR‐I imaging modality and pathologic assessments for clinical diagnosis and treatment. Near‐infrared (NIR)‐II CQS1000 vesicles are shown to allow visualization and monitoring of the circulatory system noninvasively and dynamically, and to aid in accomplishing more precise resection of tumors in addition to acceleratingthe process of sentinel lymph node biopsy for better decision making. Deep tissue penetration ability and desirable chemical and optical properties render NIR‐II CQS1000 a promising probe for future clinical applications.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>29623009</pmid><doi>10.1002/adfm.201700995</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Biocompatibility Biological effects Biomedical materials Biopsy Blood circulation Decision making Deformation Diagnosis Dissection Dye penetrants Encapsulation fluorescence imaging In vivo methods and tests Infrared imaging Infrared windows Ischemia Lymph Lymphatic system lymphatic system, NIR‐II probes Materials science Medical imaging Physiology sentinel lymph nodes Temporal resolution tumors vascular system Vesicles
title	Multifunctional Biomedical Imaging in Physiological and Pathological Conditions Using a NIR‐II Probe
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