sign of absence of tumor response.T

sign of absence of tumor response.
Those tumors with a continuing decline in 18F-FGD uptake overtime were the most likely to have complete pathological responses by histology at the end of therapy. Tumor 18F-FGD uptake also declined more rapidly than did tumor size with effective treatment.
Two basic approaches can be considered for assessing the metabolic changes of treatment: qualitative 30 and quantitative. For quantitative analysis, the SUV (Standardized Uptake Value) is the widely used
metric for assessing tissue accumulation of tracers. SUV can be normalized to body mass, lean body
mass (SUL) or body surface area. Typically, the percentage decline in tumor SUV may be used as a
method of quantification for assessing objective tumor response to therapy. However, absolute SUV
determinations may also be used.
35
Molecular markers for monitoring tumor response to treatment
The measure of markers specifically secreted by cancer cells into the blood may be used to monitor tumor response to therapy. In some malignant tumors, ที่รวมถึง prostate, ovarian, and thyroid cancers, tumor markers (prostate-specific antigen, CA125, and thyroglobulin) are used to monitor tumor response to treatment.

Classical cancer management systematically implies the concurrence of multimodality treatments (combination of รังสีบำบัด and chemotherapy for example).
The herein described nanoparticles submitted to radiations, in particular in the context of รังสีบำบัด,
can be used in association with every different cancer therapy protocol. Such a protocol can be 10 selected from the group consisting of surgery, radiosurgery, chemotherapy, a treatment ซึ่งประกอบรวมด้วย
การให้ of cytostatic(s), cytotoxic(s), a targeted therapy, an immunotherapy, radionuclides, in
particular immunoradionuclides, and any other biological or inorganic product intended to treat
cancer.


Other aspects and advantages of the การประดิษฐ์ will become apparent in the following examples, which
are given for purposes of illustration and not by way of limitation.


รูป


รูป 1 shows that, once ถูกให้, the ปริมาตร (Vc) of the composition of the การประดิษฐ์
occupies between 2 and 50% of the tumor ปริมาตร (Vt). Each inorganic nanoparticle of the
composition has a ปริมาตร (Vin) having an electron density at least 5 times the electron density of the
corresponding ปริมาตร 1 (Vwl) of water. These inorganic nanoparticles provide at least, ที่ควรใช้คือ
more than 3x1022 electrons, for example more than about 3.2x1022 electrons, ที่ควรใช้คือ more than 25 7x1022 electrons, to the tumor mass. The ปริมาตร composition (Vc) (further) has an electron density of
at least 3% of the electron density of the corresponding ปริมาตร 2 (Vw2) of water.
รูป 2 shows the distribution and dispersion over time of a ที่เข้ากันได้ทางชีวภาพ สารแขวนลอย of Hf02
nanoparticles after intra tumoral injection into Swiss nude mice bearing HCT116 tumor. Computed
Tomography has been performed on tumor, 2 and 15 days following injection.
30 รูป 3 shows the รังสีเอ็กซ์ attenuation as a function of gold concentration for gold nanoparticles
with size equal to 15 inn (GOLD-15), 30 nm (GOLD-30), 60 nm (GOLD-60), 80 nm (GOLD-80) and 105 nm (GOLD-105).
HU value as a function of [Au] (g/L) of GOLD-15: diamond dots
HU value as a function of [Au] (g/L) of GOLD-30: square dots 35 HU value as a function of [Au] (g/L) of GOLD-60: triangle dots
HU value as a function of [Au] (g/L) of GOLD-80: cross dots
HU value as a function of [Au] (g/L) of GOLD-105: + dots
รูป 4 shows the % of cell killing (postoperative pathological examination) after the treatment at the time of surgery. More than 70% of cell killing were observed for patient having received the high electron density nanoparticles สารแขวนลอย, intra-tumorally injected within the tumor mass such that the
quantity of electrons provided by the nanoparticles to the tumor mass is more than 7 x 1022.
5 รูป 5 shows the distribution and dispersion over time (during all session of รังสีบำบัด:
2*25Gy) of a ที่เข้ากันได้ทางชีวภาพ สารแขวนลอย of Hf02 nanoparticles after intra tumoral injection into a human เป้าหมาย bearing a soft tissue sarcoma of the extremity. Computed Tomography has been performed on tumor, 1 day (before the first session of รังสีบำบัด) and 65 days (after all session of รังสีบำบัด, before surgery) following injection. The tumor size reduction (tumor ปริมาตร evolution)
10 is of 53%.


EXEMPLE


A composition ซึ่งประกอบรวมด้วย hafnium oxide nanoparticles with a concentration equal to 53 g/L is intra-
tumorally injected in patients with advanced soft tissues sarcoma of the limbs. The injection ปริมาตร
corresponds to 2.5% of the tumor ปริมาตร at baseline. Patients received 50Gy of radiation therapy
during 5 weeks and then undergone tumor resection.


The following table recapitulates
• The tumor ปริมาตร at baseline (cm3);
• The composition ปริมาตร which is the ปริมาตร of nanoparticles (composed of hafnium oxide
material) สารแขวนลอย which has been intratumorally injected and corresponds to 2.5% of the tumor ปริมาตร at baseline (cm3);
• the nanoparticle concentration, equal to 53g/L;
• the electron density of each nanoparticle (with ปริมาตร Vin) with respect to the electron
density of same nanoparticle (with ปริมาตร Vwl) composed of water molecules;
4 9.6 x 2.52x1023
P e-Hf02 02 X e-H (02
— 7.3
P e-water dwater X e water 1.0 x 3.34x1023
30
• the electron density of the ปริมาตร composition (Vc) with respect to the electron density of the same ปริมาตร (Vw2) composed of water molecules;


(vc-v.h102) p e-eau ± VHf02 X p e-Hf02
35 = 1.034

Vc x P e-eau



• the quantity of electron given by the nanoparticles to the tumor mass;


Quantity of electrons = VH.f02 (cm3) x p e-Hf02 (e-/cm3)
5
• % of nanoparticles within the tumor expressed as weight of nanoparticles by weight of tumor (e.g. 0.13% refers to 0.13 g of nanoparticles per 100g of tumor).



Vt :Tumor ปริมาตร (cm3) 55,0 55,0 95,9 158,0 212,0 476,0 1814,4

Vc: Composition ปริมาตร (2,5% of the tumor ปริมาตร) (cm3) 1,4 1,4 2,4 4,0 5,3 11,9 45,0

Xmean : Mean concentration (g/L) 53,0 53,0 53,0 53,0 53,0 53,0 53,0
Electron density of each nanoparticle with respect to the
electron density of same nanopartide composed of water p e-,,ap e,„„1 7,3 7,3 7,3 7,3 7,3 7,3 7,3
molecules: e-density (yin)/ e-density (Vw1)
Electron density of the ปริมาตร composition (Vc) with

respect to electron density of the same ปริมาตร composed of water molecules: e-density (Vc)/e-density (Vw2)
quantity of e- given by the nanoparticles to the tumor mass
%of nanoparticles within the tumor expressed in weight of nanoparticles by weight of tumor
%of cancer cell killing
10

1,03442 1,03442 1,03442 1,03442 1,03442 1,03442 1,03442
p e-1,c/p e;„,.,2
3,4% 3,4% 3,4% 3,4% 3,4% 3,4% 3,4%
1,87E+221,87E+223,20E+225,27E+227,07E+22 1,59E+23 6,00E+23

0,13% 0,13% 0,13% 0,13% 0,13% 0,13% 0,13%

44 47 10 55 93 72 93

รูป 4 shows the % of cell killing (postoperative pathological examination) after the treatment at the time of surgery. More than 70% of cell killing were observed for patient having received the high electron density nanoparticles สารแขวนลอย, intra-tumorally injected within the tumor mass such that the
quantity of electrons provided by the nanoparticles to the tumor mass is of at least 7 x 1022. 15
Interestingly, the percentage (%) of nanoparticles within the tumor expressed as weight of nanoparticles by weight of tumor is equal to 0.13% (0.13% refers to 0.13 g of nanoparticles per 100g of tumor). This value corresponds to 0.11% of hafnium element within the tumor (i.e. 0.11 g of
Hafnium element per 100 g of tumor). This % of nanoparticles by weight does not enhance markedly 20 the tumor response to รังสีบำบัด unless the quantity of electrons provided by the nanoparticles to
the tumor mass is more than 3 x 1022, ที่ควรใช้คือ more than 7 x 1022.
Results presented here demonstrate that only a composition ซึ่งประกอบรวมด้วย high electron density inorganic
nanoparticles (i.e. each nanoparticle has an electron density at least 5 times the electron density of the
same nanoparticle composed of water molecules) occupying between 2 and 50% of the tumor ปริมาตร 25 are able to induce more than 44% or 47%, ที่ควรใช้คือ more than 70% of cancer cell killing when the
inorganic nanoparticles provide more than 3 x 1022, ที่ควรใช้คือ more than 7 x 1022 electrons to the
tumor mass.


ข้อถือสิทธิ

1. Composition inducing in a human เป้าหมาย having a tumor (i) the destruction of more than 30%
of cancer cells in a tumor ปริมาตร or (ii) at least more than 20% of tumor size reduction when the 5 ปริมาตร (Vc) of said composition occupies between 2 and 50% of the tumor ปริมาตร (Vt) and when the
tumor is exposed to ionizing radiations, wherein the composition ประกอบรวมด้วย inorganic nanoparticles having a ปริมาตร (Vin) having an electron density at least 5 times the electron density of the corresponding ปริมาตร 1 (Vwl)of water.


10 2. Composition according to ข้อถือสิทธิ 1, wherein said ปริมาตร composition (ye) has an electron
density of at least 3% of the electron density of the corresponding ปริมาตร 2 (Vw2) of water.


3. Composition according to ข้อถือสิทธิ 1 or 2, wherein the composition is for inducing the
destruction of more than 44%, ที่ควรใช้คือ 47%, of cancer cel