Dominique Guerreau scite author profile

Dominique Guerreau

5Publications

55Citation Statements Received

31Citation Statements Given

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Cisbio (France)

Publications

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Physical and biological dosimetry in patients undergoing radiosynoviorthesis with erbium-169 and rhenium-186

Manil¹,

Voisin

Aubert

et al. 2001

Nuclear Medicine Communications

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Physical and biological dosimetry were investigated in 45 rheumatoid arthritis patients treated by radiosynoviorthesis (RSO) with 186Re-sulphide (medium-sized joints) and 169Er-citrate (digital joints). Biological dosimetry involved scoring dicentrics in lymphocytes, cultured from blood samples withdrawn just before and 6 h, 24 h and 7 days after treatment. Physical methods included repeated blood sample counts and scintigraphy data. For erbium-169 (pure beta emitter), only bremsstrahlung could be measured and solely in the injection area. For rhenium-186 (both beta and gamma emitter), whole body scans and static images of joints and locoregional lymph nodes were performed. Dosimetry calculations were in accordance with the MIRDOSE 3 software and tables. For erbium-169 (21 patients), either metacarpophalangeal (30 MBq) or proximal interphalangeal (20 MBq) joints of the hands were treated (one joint per patient); 18 patients (out of 21) were interpretable for biological dosimetry, 10 (out of 11) for physical dosimetry and six (out of 10) for both. For rhenium-186, 23 wrists, nine elbows, three shoulders and two ankles were injected in 24 patients, with a maximum of three joints per patient (70 MBq per joint); 20 patients (out of 24) and 10 (out of 10) were interpretable for biological and physical dosimetry, respectively, and eight (out of 10) for both methods. Erbium-169 biological dosimetry was negative in all interpretable patients, and physical dosimetry gave a blood dose of 15 +/- 29 microGy and an effective dose lower than 1 mSv/30 MBq. For rhenium-186, biological results were negative in 16 patients (out of 20), but showed a blood irradiation around 200 mGy in the last four. A significant cumulative increase of dicentrics 7 days after injection (16/10,000 instead of 5/10,000 prior to treatment; p < 0.04) was also noted. Gamma counts gave a blood dose of 23.9 +/- 19.8 mGy/70 MBq and the effective dose was found to be 26.7 +/- 5.1 mGy/70 MBq, i.e. about 380 microGy.MBq-1. Erbium-169 RSO is very safe from both physical and biological dosimetry standpoints. Rhenium-186 leak is greater, as demonstrated by the higher blood activity and the measurable, although limited, dicentrics induction in blood lymphocytes. However, the effective dose remains moderate, i.e. 30 times lower than in 131I therapy in benign thyroid diseases.

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In vitro therapeutic targeting of neuroblastomas using ¹²⁵I‐labelled meta‐iodobenzylguanidine

Guerreau¹,

Thédrez

Fritsch³

et al. 1990

Intl Journal of Cancer

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The use of labelled radiopharmaceuticals such as metaiodobenzylguanidine (m-IBG) enables neuroblastomas and other malignant cells from neural crests to be visualized. In vitro study of cellular incorporation into human neuroblastoma lines (SK-N-SH, SK-N-MC, LAN I) showed that only the SK-N-SH line retained iodine-125 m-IBG (125I-m-IBG) significantly. Fifty-five percent of the initial activity was retained after 1 hr incubation at a concentration of 10(-7) M of m-IBG (specific activity: 1,480 MBq/mg). Beyond this value, m-IBG uptake mechanisms were saturated. Study of release kinetics showed a rapid first phase (50% released after 4 hr) and a slower second phase (30% of the value retained at the equilibrium point was present after 48 hr), indicating the existence of a storage compartment. Autoradiography studies confirmed the intracytoplasmic localization of m-IBG and showed that a low percentage (3 to 5%) of SK-N-SH cells strongly retained m-IBG. Cytotoxicity tests showed that SK-N-SH cell growth was significantly reduced during the first days of culture, following 2 hr incubation with 1,500 KBq of 125I-m-IBG, whereas no toxic effect on SK-N-MC cells was found at the same activity. Moreover, the toxic effect observed in the SK-N-SH line was clearly related to the use of 125I-m-IBG since the same activity of 1,500 KBq of non-coupled 125I was without effect. For the latter line, colony-forming capacity was reduced for activities of 150 and 1,500 KBq of 125I-m-IBG, with respectively 32% and 38% lower survival rates. The cytotoxic effect of labelled m-IBG was, however, limited in non-saturating concentrations because the specific activity used was too low. Moreover, the low number of cells reconcentrating m-IBG is indicative of the heterogeneous cellular composition of the SK-N-SH line.

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Use of multi‐cell spheroids of ovarian carcinoma as an intraperitoneal radio‐immunotherapy model: Uptake, retention kinetics and dosimetric evaluation

Bardiès

Thédrez

Gestin

et al. 1992

Intl Journal of Cancer

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The purpose of this study, using multi-cell spheroids as an in vitro model of micrometastases of ovarian carcinoma for i.p. radio-immunotherapy, was to measure the uptake and retention kinetics of 111In-labeled F(ab')2 fragments of OC125 monoclonal antibody (MAb) in spheroids of the NIH:OVCAR-3 cell line and to estimate absorbed doses with beta-emitting radionuclides (kinetics was assumed to be similar to that of indium-111). With 0.2-mm-diameter spheroids at different MAb concentrations the highest binding value was determined. Retention kinetics showed a biological half-life of 50 hr. These data were used to calculate absorbed doses by integration of Berger's latest-point kernels. Mean absorbed doses when spatial distribution was considered to be uniform at the surface (no penetration) or throughout the spheroid (total penetration) were, respectively, 247 and 417 Gy with 153Sm, and 90 and 135 Gy with 90Y. Thus, the use of a similar MAb concentration and specific activity in patients should lead to high absorbed doses in i.p. radio-immunotherapy of micrometastases.

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Biodistribution study of radiolabeled monoclonal antibody OC 125 in a nude mouse model intraperitoneally grafted with a human ovarian carcinoma

Thédrez¹,

Kremer²,

Curtet³

et al. 1989

International Journal of Radiation Applications and Instrumenta

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755 Radioimmunotherapy of metastatic colon cancer: Phase I study with anti-CEA F(AB)′2 fragments labeled with escalating dose OD iodine 131

Ychou

Faurous

Pèlegrin

et al. 1995

European Journal of Cancer

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