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Query: UMLS:C0153690 (
bone metastases
)
6,382
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This contribution on the biology and management of
bone metastases
from prostatic cancer is divided into three parts. The first details a study conducted at Stanford University on the prevention of
bone metastases
in the lumbar spine, in patients in whom the lumbar spine has been irradiated coincidental to the radiation treatment of the paraaortic lymph nodes. The incidence of metastases was significantly reduced in 71 patients in whom the apparently normal lumbar spine was irradiated, as compared to the incidence of metastases in 65 patients who received no lumbar irradiation. The implications of these observations on developing strategies for early, or preemptive, irradiation for
bone metastases
are discussed. In the second part, the optimum radiation dose and fractionation scheme for the palliation of overt
bone metastases
is addressed. Drawing largely from the work of Arcangeli et al., a total dose of 40-50 Gy*, fractionated at 2 Gy per day, seems to be the regimen of choice for enduring pain relief for most patients with prostatic metastases to bone. Finally, the recent utilization of strontium-89 in the palliation of advanced
bone metastases
is addressed. *The Gy is the current international unit of radiation. 1Gy = 100
Rad
; 1cGy (centigray) = 1
Rad
.
...
PMID:Radiation treatment of prostate bone metastases and the biological considerations. 128
17 alpha-[123I]Iodovinyl-11 beta-methoxyestradiol was injected into 19 women: group 1 (n = 8), initial evaluation of breast cancer; group 2, (n = 11) postoperative follow-up including 9 patients with
bone metastases
. The primary tumor (size: 8-10 mm) was visualized by breast tomoscintigraphy in 2/4 patients of group 1 with high estrogen receptor concentration (162-445 fmol/mg) and was not detectable in 4 patients with low estrogen receptor concentration (6-32 fmol/mg). Axillary lymph node metastases were detected in 1 patient of group 1 and in 1 patient of group 2. In 4 patients of group 2 with previous primary tumor containing estrogen receptors, MIVE2 uptake in
bone metastases
was demonstrated. MIVE2 scintigraphy is an original, specific and non-invasive method for breast cancer estrogen receptor imaging in primary and in metastatic tumors.
Int J
Rad
Appl Instrum B 1992 Apr
PMID:Estrogen receptor imaging with 17 alpha-[123I]iodovinyl-11 beta-methoxyestradiol (MIVE2)--Part II. Preliminary results in patients with breast carcinoma. 162 15
General considerations about the possible mechanisms of action of rather low dose ionizing radiation with
bone metastases
and stimulated nerve fibers reveal that only minute amounts of chemicals are produced by direct interaction of energetic electrons. Thus changes of the chemical milieu due to direct interaction must be ruled out in favour of a radiation-induced trigger reaction which may then initiate a cascade of cellular responses. Organ distribution studies of a series of radioiodinated benzylidenediphosphonates with H-, HO- and H2N- in the alpha- and p-position revealed best results for pHO-NH2 (BDP3). The microscopic distribution of 131I-DBP3 in bone tissue was monitored by autoradiography. Elevated uptake in normal (tibia) and neoplastic bone (experimental osteosarcoma) corresponded with the degree of vascularization and formation of new hydroxylapatite. Unlike the uptake in human osteoblastic
bone metastases
the experimental osteosarcoma of SD-rats accumulated 131I-BDP3 less than normal bone. This was due to the short volume doubling time, the delay of hydroxyl-apatite deposition and the formation of necroses. Theoretical replacement of 131I in iodinated BDP3 with radioisotopes emitting higher energy electrons yielded best bone metastasis/organ ratios for 32P labeled BDP3. The bone metastasis/bone marrow dose ratio by comparison with 131I labeled BDP3 is, however, almost equal. The isotopes 130I and 133I are not suited to the achievement of higher tumor/background doses although they are higher energy beta- -emitters than 131I. Because of their short physical half life and absence of different kinetics in normal and neoplastic bone no dose enhancement in
bone metastases
can be attained.
Int J
Rad
Appl Instrum A 1986
PMID:Iodine-131-labeled diphosphonates for the palliative treatment of bone metastases--III. Considerations of interaction, binding and absorbed dose. 302 76
Palliative treatment of bone pain induced by disseminated
bone metastases
can be performed with osteotropic, beta(-)-emitting radionuclides. Newly developed 131I labeled benzylidenediphosphonic acid (BDP) derivatives show osteotropic characteristics which suggest that they might possibly be useful radiopharmaceuticals for that purpose. Six BDP derivatives were synthesized with H, OH or NH2 in the 4- and alpha-position. Syntheses were performed by the formal addition of 2 mol of phosphorous acid in the presence of PBr3 to 1 mol of the respective benzonitrile. Transformation of the 4-methoxy and 4-nitro substituents, which were stable during the diphosphonate formation, to 4-HO and 4-NH2 was achieved by hydrolytic ether cleavage in boiling HBr and catalytic hydrogenation with Pd/C, respectively. Transformation of the alpha-amino to alpha-hydroxy group was achieved by the action of NaNO2 in HCl. 4-Hydroxybenzylidenediphosphonic acid (9) was formed unexpectedly during the reaction of 4-hydroxybenzoic acid with H3PO3/PBr3. The addition of 2 mol of phosphorous acid to the benzoic acid was accompanied by an additional reduction at the alpha-carbon. The new BDP derivatives were analyzed by HPLC, NMR and elemental analysis. After labeling with 131I the BDP derivatives were tested in female Sprague-Dawley rats to obtain organ uptake and kinetic data. The various substituents showed an influence on the bone affinity and the uptake in other organs. Among the BDP derivatives tested alpha-amino-(3-[131I]iodo-4-hydroxybenzylidene)diphosphonate (4a) showed the best biological characteristics.
Int J
Rad
Appl Instrum A 1987
PMID:131I labeled diphosphonates for the palliative treatment of bone metastases--IV. Syntheses of benzylidenediphosphonates and their organ distribution in rats. 304 Jun 37
Whole body retention (WBR) of 99mTc labeled methylene diphosphonate (MDP) has been shown to significantly differentiate various clinical stages of prostate cancer. Whole body measurements, when performed at 5 min and 24 h after i.v. administration of 99mTc-MDP, allows for the calculations of percentage whole body retention (% WBR) after one day. The latter can be expressed relative to either the anterior or posterior projection, or in combination as the geometric mean value. In an attempt to better describe the clinical course of prostate cancer patients with
bone metastases
we have refined the % WBR calculations to include a normalization factor. The latter consists of the mean 24-h value of WBR's as obtained from 10 prostate cancer patients without bony metastases as determined by bone scintigram. These values were determined for each projection to be: anterior = 26.5 +/- 4.7%, posterior = 37.5 +/- 7.4%, and geometric mean = 31.5 +/- 5.7%. The % WBR is then divided by the normalization factor of choice and expressed as (% WBR)N. These data are used to better express 99mTc MDP 24-h whole body retentions when following the clinical course of patients with metastatic carcinoma of the prostate. Caution should be exercised when interpreting these data when metabolic bone pathology is present. A false negative (% WBR)N value will result if an infiltration of the 99mTc-MDP occurs during administration.
Int J
Rad
Appl Instrum B 1987
PMID:A refined method for assessing 99mTc-MDP whole body retention in prostate cancer patients. 366 11
The beta emitting isotopes 186Re and 188Re are logical choices on which to base therapeutic radiopharmaceuticals that might be expected to be analogous to diagnostic radiopharmaceuticals based on 99mTc. However, the chemistry of rhenium is sufficiently different from that of technetium so that the development of Re radiopharmaceuticals often cannot be predicated on the known chemistry and biological behavior of 99mTc radiopharmaceuticals. The relevant chemical differences involve the greater stability of the higher oxidation states of Re (and thus the greater tendency of reduced Re radiopharmaceuticals to undergo re-oxidation to perrhenate), and the greater substitution inertness of reduced Re complexes. These differences are illustrated in the preparation and use of 186Re (Sn)-HEDP and 99mTc(Sn)-HEDP diphosphonate radiopharmaceuticals designed, respectively, for palliative therapy and diagnosis of
metastatic cancer to bone
, and in the preparation and biodistribution of tr[186Re(DMPE)2Cl2]+ and [186Re(DMPE)3]+, analogs to the potential myocardial perfusion imaging agents tr-[99mTc(DMPE)2Cl2]+ and [99mTc(DMPE)3]+. [HEDP = (1-hydroxyethylidene)diphosphonate; DMPE = 1,2-bis(dimethylphosphino)ethane].
Int J
Rad
Appl Instrum B 1986
PMID:The chemistry of rhenium and technetium as related to the use of isotopes of these elements in therapeutic and diagnostic nuclear medicine. 379 4
We present 3 cases of patients with castration-resistant prostate cancer and
bone metastases
treated with Ra, belonging to our prospective and multicenter ChoPET-
Rad
study. All patients underwent clinical, hematological, and biochemical monitoring between each Ra administration. Initial and follow-up F-fluorocholine PET/CT and Tc-biphosphonate bone scintigraphy were performed previously and after the third Ra administration. Both techniques correctly established the response to treatment, in agreement to the biochemical response, although differences in the disease expression (concordant and discordant patterns) were found because of the different radiotracer biodistribution and molecular information derived from them.
...
PMID:Response Assessment of 223Ra Treatment: Should a Fluorocholine PET/CT Be Performed? 3032 25
