Recent advances in small molecular near-infrared fluorescence probes for a targeted diagnosis of the Alzheimer disease

Liu, Yue; Zhuang, Danping; Wang, Jingjing; Huang, Haiyan; Li, Ruichang; Wu, ChaoYong; Deng, Yuanfei; Hu, Genwen

doi:10.1039/d2an01327d

“…AD is a neurological disease, which is difficult for diagnosis in early stage. [43] It is reported that Cu 2+ level in brain is correlated with the development of AD. Wang et al designed a series of molecular probes (RPS1-RPS4) in response to Cu 2+ for PA imaging from "off" to "on" (Figure 1c).…”

Section: (4 Of 19)mentioning

confidence: 99%

Advances of NIR Light Responsive Materials for Diagnosis and Treatment of Brain Diseases

Xue

¹

,

Wang

²

,

Zhang

³

2023

Advanced Optical Materials

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Generally, brain diseases could be classified into various types. [2] The first is brain tumors, such as malignant glioblastoma, which grows invasively and destroys deep structures. The second type is brain trauma, i.e., traumatic brain injury (TBI), [3] which could cause multiple secondary injuries, including neuroinflammation, blood brain barrier (BBB) damage, and brain edema. The brain vascular diseases are an important type of brain diseases, such as strokes, which can induce a range of dysfunction due to the severe damage to the motor and sensory central nervous system (CNS). Besides, neurodegenerative diseases such as Alzheimer's disease (AD) can result in an irreversible damage to brain tissues owing to the loss of neurons and myelin sheath over time. However, due to the unclear pathogenesis and the obstacle of BBB in CNS, precise imaging diagnosis and effective therapy of brain diseases still remain a great challenge till now. [4] Hence, it is an urgent need to develop the noninvasive, efficient, and convenient techniques for precise imaging and effective therapy of brain diseases. In recent years, the optical materials have attracted great attention in the field of bioapplications, [5] but the limited penetration depth of common used excitation lights (ultraviolet or visible lights, UV-Vis) leads to their applications only in some superficial diseases, such as skin or oral tumors. [6] Currently, it has been reported that the near infrared (NIR) lights exhibit much deeper tissue penetration depth than that of UV-Vis lights, [7] especially penetrate the skull, which makes them possible for imaging and therapy of brain diseases. Hence, exploring NIR light responsive materials is a promising way for achieving precise diagnosis and efficient therapy of brain diseases. [8,9] In terms of imaging, photoacoustic (PA) imaging and the fluorescence imaging are the major imaging techniques responding to NIR lights. PA imaging integrates the advantages of NIR light and ultrasound, achieving biological imaging with deep tissue penetration depth (≈6 cm) and high contrast and resolution. [10] Besides, the lower scattering and autofluorescence of tissues in NIR region endow NIR fluorescence imaging with high sensitivity and signal-to-noise ratio (SNR). [11,12] Indocyanine green (ICG), a NIR molecule dye, was used as NIR fluorescence imaging probe in 1955 and approved by Food and Drug Administration (FDA) for clinic in 1959, but it suffered from the poor photostability and short blood circulation.

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“…3 Excessive ONOO − can oxidize multiple molecules or produce highly reactive secondary free radicals, 4 leading to structural modification and dysfunction of proteins, 5 nucleic acids, 6 and lipids 7 and producing significant cytotoxic consequences. In addition, an abnormally high level of ONOO − is also related to many diseases, such as neurodegenerative diseases, 8,9 inflammatory infections, 10,11 liver injury diseases, 12,13 and even cancer, 14 as well as influencing the endoplasmic reticulum viscosity. 15,16…”

Section: Introductionmentioning

confidence: 99%

“…3 Excessive ONOO − can oxidize multiple molecules or produce highly reactive secondary free radicals, 4 leading to structural modification and dysfunction of proteins, 5 nucleic acids, 6 and lipids 7 and producing significant cytotoxic consequences. In addition, an abnormally high level of ONOO − is also related to many diseases, such as neurodegenerative diseases, 8,9 inflammatory infections, 10,11 liver injury diseases, 12,13 and even cancer, 14 as well as influencing the endoplasmic reticulum viscosity. 15,16 At present, several methods for detecting ONOO − have been reported, such as near-infrared spectroscopy, 17,18 high-performance liquid chromatography, 19 chemiluminescence, 20 fluorescence spectroscopy, [21][22][23] ultraviolet-visible absorption spectroscopy, 24 electron spin resonance 25,26 and electrochemistry.…”

Section: Introductionmentioning

confidence: 99%

Highly selective and sensitive surface-enhanced Raman scattering sensors for the detection of peroxynitrite in cells

Liu

¹

,

Zhao

²

,

Zhuang

³

et al. 2023

Analyst

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“…37,38 Near-infrared sensors have been developed rapidly due to their characteristics of causing low damage, low background fluorescence, and deep tissue penetration. 39–54…”

Section: Introductionmentioning

confidence: 99%

“…37,38 Near-infrared sensors have been developed rapidly due to their characteristics of causing low damage, low background fluorescence, and deep tissue penetration. [39][40][41][42][43][44][45][46][47][48][49][50][51][52][53][54] Herein, we designed a near-infrared probe NRH-800 (Scheme 1), which uses rhodamine derivatives as a fluorescent nuclear component to modify the positively charged indole rings that tend to be enriched in mitochondria and the transdouble bond of probe molecules, which can be cut by HClO to trigger fluorescence changes. NRH-800 can thus meet the demands of imaging in the near-infrared fluorescence mode and has a sufficiently large emission shift.…”

Section: Introductionmentioning

confidence: 99%

A ratiometric nanoprobe for the in vivo bioimaging of hypochlorous acid to detect drug-damaged liver and kidneys

Shangguan

¹

,

Qian

²

,

Wu

³

et al. 2023

Analyst

3

0

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Recent advances in small molecular near-infrared fluorescence probes for a targeted diagnosis of the Alzheimer disease

Abstract: Nowadays, it is still quite challenging to achieve early diagnosis of Alzheimer's disease (AD) in clinic. The burgeoning near-infrared fluorescence (NIRF) imaging fulfills the requirements for precise diagnosis with good...

Cited by 31 publications

References 170 publications

Advances of NIR Light Responsive Materials for Diagnosis and Treatment of Brain Diseases

Advances of NIR Light Responsive Materials for Diagnosis and Treatment of Brain Diseases

Highly selective and sensitive surface-enhanced Raman scattering sensors for the detection of peroxynitrite in cells

A ratiometric nanoprobe for the in vivo bioimaging of hypochlorous acid to detect drug-damaged liver and kidneys

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