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LUMINESCENCE DIAGNOSTICS OF TUMORS WITH UPCONVERSION NANOPARTICLES
- Source :
- Alʹmanah Kliničeskoj Mediciny, Vol 44, Iss 2, Pp 227-233 (2016)
- Publication Year :
- 2016
- Publisher :
- Moscow Regional Research and Clinical Institute (MONIKI), 2016.
-
Abstract
- Background: To improve quality of surgery in oncology, it is necessary to completely remove the tumor, including its metastases, to minimize injury to normal tissues and to reduce duration of an intervention. Modern methods of detection based on radiological computerized tomography and magnetic resonance imaging can identify a tumor after its volume has become big enough, i.e. it contains more than 10 billion cells. Therefore, an improvement of sensitivity and resolution ability of diagnostic tools to identify early stages of malignant neoplasms seems of utmost importance. Aim: To demonstrate the potential of a new class of anti-Stokes luminescence nanoparticles for deep optical imaging with high contrast of malignant tumors. Materials and methods: Upconversion nanoparticles with narrow dispersion and a size of 70 to 80 nm, with a core/shell structure of NaYF4:Yb3+:Tm3+/NaYF4 were used in the study. The nanoparticles have an intensive band of anti-Stokes photoluminescence at a wavelength of 800 nm under irradiation with a wavelength of 975 nm (both wavelengths are within the transparency window for biological tissues). The conversion coefficient of the excitation radiation into the anti-Stokes luminescence was 9%. To increase the time during which nanoparticles can circulate in blood flow of small animals, the nanoparticles were covered by a biocompatible amphiphilic polymer shell. As a tumor model we used Lewis epidermoid carcinoma transfected to mice. Results: We were able to obtain stable water colloids of nanoparticles covered with amphiphilic polymer that could preserve their initial size at least for one month. The use of upconversion nanoparticles with a hydrophilic shell made of intermittent maleic anhydride and octadecene co-polymer with subsequent coating with diglycidyl polyethylene glycol ether allowed for reduction of non-specific reaction of nanoparticles with plasma proteins. In its turn, it resulted in an increased time of their circulation in blood flow of small animals for up to 1 hour. With the Lewis lung carcinoma transfected to mice model we demonstrated аn in-life transportation of upconversion nanoparticles into the tumor with a high degree of localization due to a passive EPR effect. The contrast of luminescent signal in the tumor compared to adjacent tissues was at least 70%. The possibility of visualization of upconverted nanoparticles up to 15 mm of biological tissue was shown. Conclusion: The optical imaging techniques with anti-Stokes photoluminescent markers ensure a high contract real-time detection of tumor tissues that allows for their use for intra-operative diagnostics.
- Subjects :
- Photoluminescence
Nanoparticle
upconverted nanoparticles
Polyethylene glycol
01 natural sciences
010309 optics
03 medical and health sciences
chemistry.chemical_compound
0302 clinical medicine
0103 physical sciences
Octadecene
Medicine
Irradiation
intraoperative assessment of tumor borders
business.industry
Lewis lung carcinoma
General Medicine
chemistry
Epidermoid carcinoma
030220 oncology & carcinogenesis
optical luminescence imaging
Luminescence
business
Biomedical engineering
Subjects
Details
- ISSN :
- 20720505
- Database :
- OpenAIRE
- Journal :
- Almanac of Clinical Medicine
- Accession number :
- edsair.doi.dedup.....05972d95bb6916575319335d21f93a7b