Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits...
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![Page 1: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/1.jpg)
PPhotothermalhotothermal and photodynamic and photodynamic effects at laser heating with gold effects at laser heating with gold
nanoparticles and nanocomposits nanoparticles and nanocomposits Au-SiOAu-SiO22-Hp-Hp
Saratov Fall Meeting 2012
Georgy S. Terentyuk1,3, Alla B. Bucharskaya1, Andrey V. Ivanov2, Elina A. Genina3, Alexey N. Bashkatov3, Irina L. Maksimova3, Valery V. Tuchin3, Boris N. Khlebtsov4, Nikolay G. Khlebtsov4
1Saratov State Medical University n. a. V.I. Razumovsky, Saratov2Russian Cancer Research Center n. a. N.N. Blokhin , RAMS, Moscow
3Saratov State University n. a. N.G. Chernyshevsky, Saratov4Institute of Biochemistry, Physiology of Plants, Microorganisms RAS, Saratov
![Page 2: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/2.jpg)
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Determination of gold by atomic absorption Determination of gold by atomic absorption spectroscopyspectroscopy
Atomic -adsorbtion Spectrometr AAS-3 (С. Zeiss) with lamp LT-6М
Ashing с H2SO4
t=630оС
Resonance line 242,8 nm
Detection limit 0,02 μg/ml
Range of the linear region 0,2-20,0 μg/ml Terentyuk et al.
2009, No. 5, 292-302
gold accumulation in organs
24 hrs after intravenous injection
bra
in
kid
ne
ys
lun
gs
liv
er
sp
lee
n
blo
od
control15 nm50 nm160 nm
Au,
μg/
mL
![Page 3: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/3.jpg)
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Dynamics of gold Dynamics of gold concentration in blood concentration in blood after intravenous after intravenous injection of gold injection of gold nanoparticlesnanoparticles
Dynamics of gold Dynamics of gold concentrations in tumor concentrations in tumor tissue intertwined after tissue intertwined after intravenous injection of gold intravenous injection of gold nanoparticlesnanoparticles
○- control, ●- tumor, - skin and muscle tissue
Au,
μg/
mL
t, min t, hrs
![Page 4: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/4.jpg)
The value of tumor vascularization for the passive delivery of The value of tumor vascularization for the passive delivery of nanoparticlesnanoparticles
![Page 5: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/5.jpg)
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brain
blood separation
Size-dependent changes in the organs 24 hours after Size-dependent changes in the organs 24 hours after intravenous injection of gold nanoparticlesintravenous injection of gold nanoparticles
kidneys 15 nm 50 nm 160 nm
plethora ++ ++ + degeneration of tubular epithelium
++ + +
violation of the vascular wall
+ - +
pigment in the lumen of blood vessels
+ + _
damage to the glomeruli
_ ++ +
liver 15 nm 50 nm 160 nm
violation of the structure
- - -
plethora of sinusoids + + + pigment in Kupfer cells
+ + +
pigment in parenchyma
+ _ +
blood separation - + - dystrophy of hepatocytes
+++ + -
spleen 15 nm 50 nm 160 nm
violation of the structure
- ++ _
plethora ++ +++ + pigment in folliculs + ++ + pigment in red pulpa +++ ++ + apoptosis - ++ - Violation of artery wall
- - +
![Page 6: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/6.jpg)
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Gold nanoparticles Gold nanoparticles synthesized in the synthesized in the laboratory of biosensors laboratory of biosensors and nanoscale structures and nanoscale structures of IBPPM RAS, Saratov, of IBPPM RAS, Saratov, RussiaRussia
Transparency window of Transparency window of biological tissuesbiological tissues
Setting resonancesSetting resonancesE
xtin
ctio
n
Wavelength, nm
Epidermis
Dermis
Hypodermis
UV Vis NIR
![Page 7: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/7.jpg)
Comparative dynamics of heating of gold nanoparticles Comparative dynamics of heating of gold nanoparticles solutionssolutions
Comparative dynamics of heating of gold nanoparticles Comparative dynamics of heating of gold nanoparticles solutionssolutions
Te
mp
era
ture
, oC
Time, min
0.5 Wt/cm2
0.25 Wt/cm2
0.5 Wt/cm2
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The concentration of gold per gram of tissue a The concentration of gold per gram of tissue a day after the intravenous administrationday after the intravenous administration
С – nanocages, R - nanorods
Au,
μg/
g
Au,
μg/
g control control
control controltumor muscle
liver spleen
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Laser thermolysis of transplanted Ehrlich tumor in miceLaser thermolysis of transplanted Ehrlich tumor in miceT
, °C
T, °
C
Time of heating, min Time of heating, min
intratumoral intravenous
intravenous
control
720 μg/mL
90 μg/mL
Intravenous 400 μg/mL
Intravenous 50 μg/mL
control
![Page 10: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/10.jpg)
The maximum temperature on the surface after laser heatingThe maximum temperature on the surface after laser heating
The kinetics of laser heating of the tumor (1) and health (2) tissues in its maximum one day after intravenous injection of gold nanorods at 2 (a) and 8 mg / kg (b). Curves 3 is the kinetics of maximum heating of healthy tissue without introducing nanoparticles (control)
a b
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The temperature distribution on the surface of the The temperature distribution on the surface of the animal's skin with intravenous injection of nanoparticle animal's skin with intravenous injection of nanoparticle
- surface laser heating of the tumor- surface laser heating of the tumor
0 - before heating; 1-5 after 1-5 minutes after the start of heating, respectively; 6-8 after 1-3 minutes after the heating, respectively
T,
°C
![Page 12: Photothermal and photodynamic effects at laser heating with gold nanoparticles and nanocomposits Au-SiO 2 -Hp Saratov Fall Meeting 2012 Georgy S. Terentyuk.](https://reader035.fdocuments.in/reader035/viewer/2022062719/56649eea5503460f94bfb911/html5/thumbnails/12.jpg)
Control - heating Control - heating without nanoparticles, without nanoparticles, in a dayin a day
Experiment - heating Experiment - heating with nanoparticles in with nanoparticles in a daya day
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Transplanted Ehrlich tumor -Transplanted Ehrlich tumor -external irradiationexternal irradiation
experiment control
0 min 1 min
5 min
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Interstitial hyperthermia with nanorods using a catheter with a Interstitial hyperthermia with nanorods using a catheter with a fiber diffuserfiber diffuser
Р=1.5 Vt t=15 min L=10 mm
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Pathology of tumor tissues afterPathology of tumor tissues after controlled laser controlled laser thermolysis using plasmon-resonant gold nanoparticlesthermolysis using plasmon-resonant gold nanoparticles
Tumor tissue after laser exposureTumor tissue after laser exposure
Without nanoparticlesWithout nanoparticles With gold nanoparticlesWith gold nanoparticles
Tissue of transplanted rat kidney Tissue of transplanted rat kidney cancer before exposurecancer before exposure
hematoxylin-eosin stainhematoxylin-eosin stain
Increase Х150Increase Х150
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thermogram of tumor interstitial introduction of nanoparticles to a depth of 7 mm
Growth dynamics of subcutaneously transplanted kidney Growth dynamics of subcutaneously transplanted kidney cancer in rats before and after laser hyperthermia, CW, 1 cancer in rats before and after laser hyperthermia, CW, 1 Watt, 30 minWatt, 30 min
○ ○ - control, ■ - laser heating without - control, ■ - laser heating without nanoparticlesnanoparticles
▲ ▲ - laser heating after intravenous injection - laser heating after intravenous injection of of nanoparticlesnanoparticles , 1 ml, 1 ml
- laser heating after interstitial injection of - laser heating after interstitial injection of nanoparticles, 0.2 mLnanoparticles, 0.2 mL
Tum
or s
ize,
cm
3
A day after tumor transplantation
Laseraction
thermogram of tumor without nanoparticles
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Dependence of the mean tumor volume on the number of daysDependence of the mean tumor volume on the number of dayspassed after PPTTpassed after PPTT
experimental groups with doses of administered gold nanorods: 8 (1) and 2 mg / kg (2), control groups under laser irradiation without introducing nanoparticles (3) and without laser irradiation (4)
Tum
or v
olum
e, c
m3
Number of days
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Nanocomposites: vitrified gold-silver nanocages Nanocomposites: vitrified gold-silver nanocages modified Yb-HPmodified Yb-HP
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Au-NRAu-NR--SiOSiO22--HPHP
IR-laser ~2.3 Wt/cm2 He-Ne laser ~160 mWt/сm2
Tumor before exposure (V= 3 сm3)
Tumor (20 min of exposure)
Tumor after 72 hours(V= 0.16 сm3)
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Three variants of the protocol for Au-NRThree variants of the protocol for Au-NR--SiO2-HPSiO2-HP PTDPTD + + LTTLTT
a) LTT accelerates chemical reactions
b) Synergistic effects on blood vessels (stasis, collapse)
c) Synchronicity subsequent processes in the tumor tissue
PTDPTD→→12 12 hourshours→→LTTLTT
a) absence of optical postthermal obstaclesb)exclusion of thermal effectsc) hemostasis (2-12 hours): it is benefit for thermotherapy as heat loss reducesd) decrease in the partial pressure of oxygen and pH increases thermal sensitivitye) LTT inhibits repair of necrotic cells
LTTLTT→→24 24 hourshours→→PDT PDT
a) direct necrosisb) hemostasis - partial
reduction of oxygen and pH
c) 24 hours restore of blood flow
d) 24 hours - pic HSP70e) resumption of protein
synthesis 12-26 hours
f) PDT inhibits repair of cells
1) the size of tumors < 3 cm3
2) Temperature 50-75 °C - to avoid the formation of coagulation optical barrier
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Thank you!