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TomoWave NIR-I & NIR-II In vivo 3D Optoacoustic Imaging System

Imaging wavelength 660-1064 nm / 660-2300 nm, NIR-I & NIR-II full-band continuous imaging

X-Y-Z isotropic resolution of 3D space is 150 μm

Light absorption contrast 0.03 [1/cm] (~1pmole of ICG)

Full field imaging of mouse body and brain (40 mm x 40 mm x 40 mm)

Imaging depth > 4.5cm@mouse


Detail

Product Principles

   

Optoacoustic imaging is an emerging noninvasive hybrid imaging technology that combines optical excitation and ultrasonic detection. During the imaging process, the optoacoustic contrast agent absorbs a non-ionizing pulse laser and converts it into heat, which generates sound waves through thermoelastic expansion. These sound waves are detected using broadband ultrasonic transducers and optoacoustic images can be constructed according to the arrival time of the sound waves. Compared with photons, phonons scatter less in biological tissues, so optoacoustic imaging has the advantages of high tissue contrast, high spatial resolution and deep imaging. Compared with traditional near infrared region I (NIR- I,600-900 nm) optoacoustic imaging, the near infrared region II (NIR- II, 900-1700 nm) optoacoustic imaging showed higher penetration and lower tissue absorption and scattering.


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Product Characteristics

The LOIS-3D system can achieve NIR-I & NIR-II optoacoustic imaging effects because its excitation wavelength can reach 660-2300 nm. It can perform 2D and 3D imaging of the biological characteristics of living animals and obtain qualitative and quantitative data, providing more accurate diagnostic analysis for drug targeted therapy, early tumor screening, cardiovascular disease and brain disease monitoring and other research.


  • Imaging wavelength 660-1064 nm / 660-2300 nm, NIR-I & NIR-II full-band continuous imaging

  • X-Y-Z isotropic resolution of 3D space is 150 μm

  • Light absorption contrast 0.03 [1/cm] (~1pmole of ICG)

  • Full field imaging of mouse body and brain (40 mm x 40 mm x 40 mm)

  • Imaging depth > 4.5cm@mouse


Application Fields

Can realize 3D optoacoustic imaging of small animals in the NIR-I & NIR-II (660-2300 nm), high-resolution imaging of blood vessel morphology, and highly specific functional detection of different tissue components. Realizes multi-scale tracing and functional imaging from cells to tissue, and has important applications in many biomedical fields, such as molecular probes, bio-nanomaterials, cardiovascular diseases (angiogenesis, myocarditis, thrombosis, myocardial infarction,etc.), hemoglobin monitoring, early tumor detection and efficacy monitoring, sentinel lymph node monitoring, brain imaging and brain function monitoring and other frontier research.


  • Development of bio-nano materials

  •       Development and application of photothermographic   agents

  •      Development and application of bio-nano materials

  •     Biodistribution of nanoprobes

  •     Blood concentration


  • Targeted tumor imaging

  •     Subcutaneous tumor

  •     In situ tumors of the brain

  •     Orthotopic tumor of lower extremity

  •     Prostate tumor


  • Anatomy imaging

  •     Organs and spine

  •     Cardiovascular System

  •     Blood vessel microstructure

  •     Brain structure and blood vessels


  • Synergistic treatment

  •     Optoacoustic cavitation

  •     Photothermal and Acoustic

  •     Dynamics

  •     Optoacoustic and photochemistry


Application

Labeled photoacoustic imaging - bio-nano probe in situ brain tumor imaging

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CuS nanoprobes modified with targeted peptides were used to specifically target the in situ tumor imaging under the skull at 1064nm in the NIR II region. The photoacoustic signal at the tumor site is strong, and it is an effective photoacoustic contrast agent for diagnosis.


Labeled photoacoustic imaging - bio-nano probe tumor imaging

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The use of organic near-infrared two-region photosensitizer targeting tumor probe 1064nm targeting subcutaneous tumor imaging can assist the preclinical diagnosis and treatment of tumor diseases.


Unlabeled photoacoustic imaging - microscopic vascular structure imaging

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Hemoglobin microscopic angiography can observe the lesions of hematoma and possible lesions and plaques in the surrounding area of hematoma to detect cardiovascular diseases, such as atherosclerosis, myocarditis, thrombosis, myocardial infarction, etc.


Unlabeled photoacoustic imaging - cerebral vascular imaging

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Brain vascular hemoglobin imaging can be used to detect brain tumors and traumatic brain injury (traumatic brain injury), as well as cerebrovascular leakage monitoring and efficacy evaluation, such as cerebral amyloid angiopathy, cerebral stroke and so on.


Unlabeled photoacoustic imaging--Venous/arterial imaging

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Haemoglobinography showed good anatomical features multifunctional. The figure shows the imaging of mouse organs, bones, superficial blood vessels and kidney vessels.


Unlabeled photoacoustic imaging - Organ and superficial vascular imaging

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Haemoglobinography showed good anatomical features multifunctional. The figure shows the imaging of mouse organs, bones, superficial blood vessels and kidney vessels.


Video

Functional brain angiography
Functional imaging - veins/arteries
1064nm region 2 excitation semiconductor polymer lower extremity tumor imaging in situ

Functional brain angiography

Functional imaging - veins/arteries

1064nm region 2 excitation semiconductor polymer lower extremity tumor imaging in situ

Case

Message

森西賽智科技是集自主研發(fā)、海外先進技術國內整合轉化和引進海外前沿產品為一體的生命科學 儀器專業(yè)服務平臺。