Technical Note: Compact thermoacoustic imaging system based on a low‐cost and miniaturized microwave generator for in vivo biomedical imaging

Enamel cracks generated in the anterior teeth not only affect the function but also the aesthetics of the teeth. Chair-side tooth enamel crack detection is essential for clinicians to formulate treatment plans and prevent related dental disease. This study aimed to develop a dental imaging system using a near-IR light source to detect enamel cracks and to investigate the relationship between anterior enamel cracks and age in vivo. A total of 68 subjects were divided into three groups according to their age: young, middle, and elderly. Near-infrared radiation of 850 nm was used to identify enamel cracks in anterior teeth. The results of the quantitative examination showed that the number of enamel cracks on the teeth increased considerably with age. For the qualitative examination, the results indicated that there was no significant relationship between the severity of the enamel cracks and age. So, it can be concluded that the prevalence of anterior cracked tooth increased significantly with age in the young and middle age. The length of the anterior enamel cracks tended to increase with age too; however, this result was not significant. The silicon charge-coupled device (CCD) with a wavelength of 850 nm has a good performance in the detection of enamel cracks and has very good clinical practicability.

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Technical Note: Design of a handheld dipole antenna for a compact thermoacoustic imaging system

Medical Physics ◽

10.1002/mp.13294 ◽

2018 ◽

Vol 46 (2) ◽

pp. 851-856 ◽

Cited By ~ 3

Author(s):

Lin Huang ◽

Shaoli Ge ◽

Zhu Zheng ◽

Huabei Jiang

Keyword(s):

Imaging System ◽

Dipole Antenna ◽

Technical Note ◽

Thermoacoustic Imaging

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A renal clearable fluorogenic probe for in vivo detection of cellular senescence

10.21203/rs.3.rs-418261/v1 ◽

2021 ◽

Author(s):

Beatriz Lozano-Torres ◽

Alba García-Fernández ◽

Irene Galiana ◽

Sara Rojas-Vázquez ◽

Isabel Fariñas ◽

...

Keyword(s):

Imaging System ◽

Point Of Care ◽

Low Cost ◽

Diagnostic Methods ◽

Potential Solution ◽

Non Invasive ◽

In Vivo Detection ◽

Fluorogenic Probe ◽

Trained Personnel

Abstract There is a growing need for non-invasive, cheap, and versatile diagnostic methods and the development of low-cost point-of-care assays constitutes a potential solution. Here, we describe the design of a renal clearable fluorogenic probe (Cy7Gal) which produces a fluorogenic signal readable in the urine. The Cy7Gal probe is applied to the detection of the burden of senescence in several in vivo models. The probe is composed of a dye (Cy7) conjugated with a galactose derivative. Upon administration of the probe in vivo, the up-regulated β-galactosidase enzyme in senescent cells cleaves the O-glycosidic bond in Cy7Gal, releasing the highly emissive Cy7 dye that is renally cleared and measured in unmodified urine by an IVIS imaging system or by a fluorimeter. A good correlation between the burden of senescence and emission in urine is observed. Cy7Gal probe is the first example for the fluorogenic in vivo detection of senescence in urine and may serve as a basis for the development of generalized fluorogenic diagnostic platforms for the easy diagnosis in the urine of different diseases as well as for monitoring therapeutic treatments without the use of expensive equipment or trained personnel.

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A technique for protecting delicate specimens during processing

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100156894 ◽

1989 ◽

Vol 47 ◽

pp. 982-983

Author(s):

R.J. Mount ◽

R.V. Harrison

Keyword(s):

Basilar Membrane ◽

Low Cost ◽

Organ Of Corti ◽

Region Of Interest ◽

Sensory Epithelium ◽

Physical Damage ◽

Air Drying ◽

Specimen Handling ◽

Two Component

The sensory end organ of the ear, the organ of Corti, rests on a thin basilar membrane which lies between the bone of the central modiolus and the bony wall of the cochlea. In vivo, the organ of Corti is protected by the bony wall which totally surrounds it. In order to examine the sensory epithelium by scanning electron microscopy it is necessary to dissect away the protective bone and expose the region of interest (Fig. 1). This leaves the fragile organ of Corti susceptible to physical damage during subsequent handling. In our laboratory cochlear specimens, after dissection, are routinely prepared by the O-T- O-T-O technique, critical point dried and then lightly sputter coated with gold. This processing involves considerable specimen handling including several hours on a rotator during which the organ of Corti is at risk of being physically damaged. The following procedure uses low cost, readily available materials to hold the specimen during processing ,preventing physical damage while allowing an unhindered exchange of fluids.Following fixation, the cochlea is dehydrated to 70% ethanol then dissected under ethanol to prevent air drying. The holder is prepared by punching a hole in the flexible snap cap of a Wheaton vial with a paper hole punch. A small amount of two component epoxy putty is well mixed then pushed through the hole in the cap. The putty on the inner cap is formed into a “cup” to hold the specimen (Fig. 2), the putty on the outside is smoothed into a “button” to give good attachment even when the cap is flexed during handling (Fig. 3). The cap is submerged in the 70% ethanol, the bone at the base of the cochlea is seated into the cup and the sides of the cup squeezed with forceps to grip it (Fig.4). Several types of epoxy putty have been tried, most are either soluble in ethanol to some degree or do not set in ethanol. The only putty we find successful is “DUROtm MASTERMENDtm Epoxy Extra Strength Ribbon” (Loctite Corp., Cleveland, Ohio), this is a blue and yellow ribbon which is kneaded to form a green putty, it is available at many hardware stores.

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Multi-mode light microscopy of microtubule assembly dynamics and chromosome movement in vivo and In vitro

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100166117 ◽

1996 ◽

Vol 54 ◽

pp. 730-731

Author(s):

E. D. Salmon ◽

J. C. Waters ◽

C. Waterman-Storer

Keyword(s):

Imaging System ◽

Ccd Camera ◽

Transmitted Light ◽

Microtubule Assembly ◽

Live Cells ◽

Optical Efficiency ◽

Multiple Band ◽

Multi Mode

We have developed a multi-mode digital imaging system which acquires images with a cooled CCD camera (Figure 1). A multiple band pass dichromatic mirror and robotically controlled filter wheels provide wavelength selection for epi-fluorescence. Shutters select illumination either by epi-fluorescence or by transmitted light for phase contrast or DIC. Many of our experiments involve investigations of spindle assembly dynamics and chromosome movements in live cells or unfixed reconstituted preparations in vitro in which photodamage and phototoxicity are major concerns. As a consequence, a major factor in the design was optical efficiency: achieving the highest image quality with the least number of illumination photons. This principle applies to both epi-fluorescence and transmitted light imaging modes. In living cells and extracts, microtubules are visualized using X-rhodamine labeled tubulin. Photoactivation of C2CF-fluorescein labeled tubulin is used to locally mark microtubules in studies of microtubule dynamics and translocation. Chromosomes are labeled with DAPI or Hoechst DNA intercalating dyes.

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Nanotechnology: from In Vivo Imaging System to Controlled Drug Delivery

Nanoscale Research Letters ◽

10.1186/s11671-017-2249-8 ◽

2017 ◽

Vol 12 (1) ◽

Cited By ~ 41

Author(s):

Maria Mir ◽

Saba Ishtiaq ◽

Samreen Rabia ◽

Maryam Khatoon ◽

Ahmad Zeb ◽

...

Keyword(s):

Drug Delivery ◽

In Vivo Imaging ◽

Imaging System ◽

Controlled Drug Delivery ◽

In Vivo Imaging System

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MSCs-engineered biomimetic PMAA nanomedicines for multiple bioimaging-guided and photothermal-enhanced radiotherapy of NSCLC

Journal of Nanobiotechnology ◽

10.1186/s12951-021-00823-6 ◽

2021 ◽

Vol 19 (1) ◽

Author(s):

Yipengchen Yin ◽

Yongjing Li ◽

Sheng Wang ◽

Ziliang Dong ◽

Chao Liang ◽

...

Keyword(s):

Lung Cancer ◽

Cell Membranes ◽

Imaging System ◽

Fluorescence Signal ◽

Bimodal Imaging ◽

Red Blood Cell Membranes ◽

Magnetic Resonance Imaging Mri ◽

Tumor Accumulation

Abstract Background The recently developed biomimetic strategy is one of the mostly effective strategies for improving the theranostic efficacy of diverse nanomedicines, because nanoparticles coated with cell membranes can disguise as “self”, evade the surveillance of the immune system, and accumulate to the tumor sites actively. Results Herein, we utilized mesenchymal stem cell memabranes (MSCs) to coat polymethacrylic acid (PMAA) nanoparticles loaded with Fe(III) and cypate—an derivative of indocyanine green to fabricate Cyp-PMAA-Fe@MSCs, which featured high stability, desirable tumor-accumulation and intriguing photothermal conversion efficiency both in vitro and in vivo for the treatment of lung cancer. After intravenous administration of Cyp-PMAA-Fe@MSCs and Cyp-PMAA-Fe@RBCs (RBCs, red blood cell membranes) separately into tumor-bearing mice, the fluorescence signal in the MSCs group was 21% stronger than that in the RBCs group at the tumor sites in an in vivo fluorescence imaging system. Correspondingly, the T1-weighted magnetic resonance imaging (MRI) signal at the tumor site decreased 30% after intravenous injection of Cyp-PMAA-Fe@MSCs. Importantly, the constructed Cyp-PMAA-Fe@MSCs exhibited strong photothermal hyperthermia effect both in vitro and in vivo when exposed to 808 nm laser irradiation, thus it could be used for photothermal therapy. Furthermore, tumors on mice treated with phototermal therapy and radiotherapy shrank 32% more than those treated with only radiotherapy. Conclusions These results proved that Cyp-PMAA-Fe@MSCs could realize fluorescence/MRI bimodal imaging, while be used in phototermal-therapy-enhanced radiotherapy, providing desirable nanoplatforms for tumor diagnosis and precise treatment of non-small cell lung cancer.

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Targeted Liposomal Chemotherapies to Treat Triple-Negative Breast Cancer

Cancers ◽

10.3390/cancers13153749 ◽

2021 ◽

Vol 13 (15) ◽

pp. 3749

Author(s):

Yingnan Si ◽

Ya Zhang ◽

Hanh Giai Ngo ◽

Jia-Shiung Guan ◽

Kai Chen ◽

...

Keyword(s):

Targeted Delivery ◽

Laser Scanning ◽

Triple Negative ◽

Imaging System ◽

Laser Scanning Microscopy ◽

Confocal Laser ◽

Surface Binding ◽

Synthesis Inhibitor ◽

Tnbc Cell

Triple-negative breast cancers (TNBCs) are highly aggressive and recurrent. Standard cytotoxic chemotherapies are currently the main treatment options, but their clinical efficacies are limited and patients usually suffer from severe side effects. The goal of this study was to develop and evaluate targeted liposomes-delivered combined chemotherapies to treat TNBCs. Specifically, the IC50 values of the microtubule polymerization inhibitor mertansine (DM1), mitotic spindle assembly defecting taxane (paclitaxel, PTX), DNA synthesis inhibitor gemcitabine (GC), and DNA damage inducer doxorubicin (AC) were tested in both TNBC MDA-MB-231 and MDA-MB-468 cells. Then we constructed the anti-epidermal growth factor receptor (EGFR) monoclonal antibody (mAb) tagged liposomes and confirmed its TNBC cell surface binding using flow cytometry, internalization with confocal laser scanning microscopy, and TNBC xenograft targeting in NSG female mice using In Vivo Imaging System. The safe dosage of anti-EGFR liposomal chemotherapies, i.e., <20% body weight change, was identified. Finally, the in vivo anti-tumor efficacy studies in TNBC cell line-derived xenograft and patient-derived xenograft models revealed that the targeted delivery of chemotherapies (mertansine and gemcitabine) can effectively inhibit tumor growth. This study demonstrated that the targeted liposomes enable the new formulations of combined therapies that improve anti-TNBC efficacy.

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