Small Animal In Vivo Imaging System

Small Animal In Vivo Imaging System EAni PA, EAni-Plus, EAni-OPO, EAni-OPO MAX lMulti-modal (Photoacoustic, Ultrasonic) in vivo imaging lMicron-level Resolution down to 3μm, Millimeter-level imaging depth up to 6mm 3D Merged Imaging

Photoacoustic Non-invasive In Vivo System

The Leader in Multi-modal In Vivo Imaging Technology

Photoacoustic, ultrasound multimodal imaging

Photoacoustic imaging based on specific endogenous or exogenous light absorbing substances such as pigments, blood vessels, lipids, and nanoprobes

Ultrasound imaging based on acoustic impedance differences

Form a complement to the existing optical imaging and medical imaging technologies.

Photoacoustic microscopy breaks through the diffraction limit of traditional optical imaging,and the imaging depth is up to 6 mm.

At deeper imaging depths,high resolution at the optical level can still be maintained with an accuracy of 3 μm.

3D image information is analyzed layer by layer

Through the real-time 2D tomographic data display overlay, the 3D structural images of the local tissue can be further obtained, and the 2D and 3D images can be further analyzed by using data processing software.

Non-invasive, label-free imaging

Only a small amount of water (couplant) is applied to the imaging site to match the signal, and non-invasive imaging of the test site can be achieved without the injection of contrast agent.

Heating-anesthesia-integrated small animal fixation table

Integrated heating-anesthesia device specifically designed for better protection of model animals.

Customized Single wavelength,multi-wavelength,tunable wavelength multi-light sources

Simultaneously achieves 532 nm &1064 nm&NIR-I/NIR-llimaging to meet a variety of experimental needs.

Photoacoustic imaging: pulsed laser irradiation, thermal expansion stress ultrasound, and ultrasound transducer detection and reconstruction of the light absorption distribution inside the tissue.

Brain function, brain lymphatic system, cerebral blood vessels.

Functions of tumors and molecular probes.

Visceral organs (hepatic lobules, mesentery, retina, etc.).

The Multimodal Small Animal In Vivo Imaging System represents an advanced imaging solution for small animals. It integrates diverse imaging modalities to conduct comprehensive imaging tasks. It enables the concurrent detection and analysis of various aspects related to small animals, including their physiological states, pathological conditions, and the effects of drugs. This integration of imaging technologies not only enhances the precision and responsiveness of the imaging process but also furnishes more elaborate and profound data resources that are crucial for the progression of biomedical research and the development of pharmaceuticals.

Small Animal In Vivo Imaging System becoming increasingly popular due to their numerous advantages. Here are some of the most important benefits of this product:

1. Optical/photoacoustic/ ultrasound three-modal imaging
A three-modal in vivo small animal imaging system that integrates optical microscopy, photoacoustic imaging of endogenous light-absorbing substances such as pigments and blood vessels, and ultrasound imaging of acoustic impedance differences.

2. Micron-level resolution, millimeter-level imaging depth
Micron, high-resolution imaging of tissue structures within 3 mm can still be performed without the need for contrast media, and the position of the focus can be adjusted according to the real-time display of the software.

3. Three-dimensional image information is analyzed layer by layer
Through the real-time 2D tomographic data display overlay, the 3D structural images of the local tissue can be further obtained, and the 2D and 3D images can be further analyzed by using data processing software.

4. Non-invasive, label-free imaging
Only a small amount of water (couplant) is applied to the imaging site to match the signal, and non-invasive imaging of the test site can be achieved without the injection of contrast agent.

5. Heating-anesthesia-integrated small animal fixation table
Integrated heating-anesthesia device specifically designed for better protection of model animals.

6. Imaging systems with customized light sources
According to the different needs of customers, customize the corresponding single-wavelength, multi-wavelength, tunable wavelength light source imaging system.

Small Animal In Vivo Imaging System are widely used in below area

1. Monitoring of tumor growth process
The monitoring of the growth of tumor trophic blood vessels in the ears of mice, the monitoring of the growth of tumor trophic blood vessels, and the relationship between the curvature, density and depth of tumor trophic blood vessels and the tumor growth time were verified.

References
[1]. F. Yang, et al..J. Biophotonics, e202000022.2020.DOI:10.1002/-jbio.20000022
[2]. Z. Wang, Nanophotonics,10(12), 3359-3368, 2021.DOI:10.1515/nanoph-2021-0198.

2. Monitoring of the treatment process of tumors
The monitoring of the ablation of the nourishing vessels during the photodynamic (PDT) treatment of back tumors in mice was realized, and the relationship between the curvature, density and depth of the tumor trophic vessels and the duration of PDT treatment was revealed.

References
F. Yang, et al.,J. Biophotonics, e202000022.2020, DOI:10.1002/-jbio.20000022.

3. Functional imaging of the brain in small animals
The dynamic monitoring of "ischemia-reperfusion" of the vascular network deep in the mouse brain was realized, and the broad application prospect of this instrument in the basic research of cerebrovascular diseases was demonstrated.

References
F.Yang. et al.. J. Biophotonics, e202000022.2020.DOI:10.1002/- jbio.20000022

4. Assess the extent of blood supply to the lesions
The evaluation of the degree of blood supply to the back of mice and the total retreat of mice was realized, which broke through the bottleneck of imaging technology to evaluate the degree of blood supply to damaged tissues and improved the possibility of rapid surgical intervention.

References
D.Zhang.et al., Quant Imaging Med Surg, 11(10).4365-4374.2021.DOI:10.21037/qims-21-135.

5. Imaging of iris and sclera in live animals
It can realize the imaging of the iris and scleral vascular network of the eyes of live small animals (such as mice) and large animals (such as rabbits).

6. Nanoprobes and molecular imaging studies
Tumor-specific photoacoustic imaging at special wavelengths (custom version)
The photoacoustic multi-modal small animal imager can be customized, and the specific nanoprobe can be used to improve the amplitude of the photoacoustic imaging signal of the tumor area for special wavelengths, so as to achieve large-depth and high-sensitivity tumor-specific photoacoustic imaging.

References
[1]. D.Cui, et al.. Nano Letters, 21(16).6914-6922.2021, DOI:10.1021/acs. nanolett.1c02078[2]. J.Zheng. et al., J. Am. Chem. Soe,141(49),19226-19230.2019.DOI: 10.1021/jacs.9b10353.

7. Breast tumor specimen marker imaging
T.Wong.et_x0001_al.. _x0001_Sci.Adv.,3_x0001_(5)._x0001_e1602168.2017.D01:_x0001_10.1126/sciadv.1602168.
Labeled imaging of liver micrometastases in early-stage neoma
Q.Yu,et_x0001_al.,J_x0001_Nucl_x0001_Med. 61(7),10791085,2020.00I:_x0001_10.2967/inumed.119.23315

8. Ambulatory monitoring of structural and functional changes in the early stages of abscient stroke
J.Lv.et_x0001_al.,_x0001_Theranostics,10(2).816-828.2020.DOI:10.7150/thno.38554.
Multimodal imaging observations of the living eye before and after suture injury
J.Park.B.Park.et_x0001_al.,_x0001_PNAS.118(11)._x0001_e1920879118.2021,_x0001_DO1:10.1073/pnas.1920879118.
Imaging of the retina in live animals, choroid, iris, sclera
C.Tian,_x0001_et_x0001_al.,_x0001_0ptics_x0001_Express,25(14)._x0001_15947-15955,2017.DOI:10.1364/0E.25.015947.
Z.Hosseinace,_x0001_et_x0001_al.,_x0001_Optics_x0001_Letters,45(22).6254-6257,2020.DOI:10.1364/0L.410171.
Labeled imaging of cells in the liver
D. Deng.et_x0001_al.,Nanophotonics,2021,DOI:/10.1515/nanoph-2021-0281.

9. Quantitative assessment of pigment distribution
The photoacoustic multimodal imaging system can quantitatively assess skin pigmentation and assist in clinical diagnosis

References
H.Ma. et al., Appl, Phys, Lett.. 113,083704,2018.DOI:10.1063/1.5041769.

10. Microvascular quantitative assessment
The photoacoustic multimodal imaging system can quantitatively monitor the effect of bright erythema before and after treatment, and give the most intuitive feedback on pathological parameters

Reference

H. Ma. et al.. Bio. Exp.12(10).6300-6316.2021.DOI:10.1364/B0E.439625.
Two-dimensional assessment Three-dimensional quantification Pre- and post-treatment evaluation

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