Unsealed source radiotherapy

Unsealed source radiotherapy
Intervention
Iodine-131
ICD-9-CM	92.28

Unsealed source radiotherapy (also known as unsealed source radionuclide therapy (RNT) or molecular radiotherapy) uses solid, liquid, gaseous or other forms of radioactive substances called radiopharmaceuticals (essentially a radioactive drug). These are introduced into the body by various means (injection or ingestion are the two most commonplace) and localise to specific locations, organs or tissues depending on their properties and administration routes. This includes anything from a simple compound such as sodium iodide that locates to the thyroid via trapping the iodide ion, to complex biopharmaceuticals such as recombinant antibodies which are attached to radionuclides and seek out specific antigens on cell surfaces.

As such, this is a type of targeted therapy which uses the physical, chemical and biological properties of the radiopharmaceutical to target areas of the body for radiation treatment.^[1] The related diagnostic modality of nuclear medicine employs the same principles but uses different types or quantities of radiopharmaceuticals in order to image or analyse functional systems within the patient.

Compare this with sealed-source therapy (brachytherapy) where the radionuclide remains in a capsule or metal wire during treatment, is never allowed to disperse within the body & hence needs to be physically placed precisely at the treatment position.

Treatments with sodium (I131) iodide (radioiodine)

This is the most common RNT worldwide & uses the simple compound sodium iodide with the iodine-131 isotope of iodine. The patient (human or animal) may ingest an oral solid or liquid amount or receive an intravenous injection of a solution of the compound. The iodide ion is selectively taken up by the thyroid gland. Both benign conditions like thyrotoxicosis and certain malignant conditions like papillary thyroid cancer can be treated with the radiation emitted by radioiodine. Iodine-131 produces beta and gamma radiation. The beta radiation released damages both normal thyroid tissue and any thyroid cancer that behaves like normal thyroid in taking up iodine, so providing the therapeutic effect, whilst most of the gamma radiation escapes the patient's body.

Most of the iodine not taken up by thyroid tissue is excreted through the kidneys into the urine. After radioiodine treatment the urine will be radioactive or 'hot', and the patients themselves will also emit gamma radiation. Depending on the amount of radioactivity administered, it can take days to weeks for the radioactivity to reduce to the point where the patient does not pose a radiation hazard to bystanders. There are strict radiation protection regulations governing the use of all radiopharmaceuticals.

Other unsealed source therapies

Other types of RNT include:

Isotope	Use	Description
¹³¹I-MIBG (metaiodobenzylguanidine)	for the treatment of phaeochromocytoma and neuroblastoma
³²P as sodium phosphate	for overactive bone marrow	the main place of use of phosphorus is the bone marrow
²²³Ra chloride, ⁸⁹Sr chloride & ¹⁵³Sm EDTMP	for secondary cancer in the bones	radium and strontium mimics calcium in the body; samarium is bound to the tetraphosphonate EDTMP and as before, phosphates are taken up by osteoblastic (bone forming) repairs that occur adjacent to some metastatic lesions
⁹⁰Y colloidal suspension	radiosynovectomy in the knee joint
⁹⁰Y resin or glass spheres (SIRT - selective internal radiation therapy)	for primary and metastatic liver cancer	Intra-arterial interventional radiology procedure

Experimental antibody based methods - alpha emitters

At the Institute for Transuranium Elements (ITU) work is being done on alpha-immunotherapy, this is an experimental method where antibodies bearing alpha isotopes are used. Bismuth-213 is one of the isotopes which has been used. This is made by the alpha decay of Ac-225. The generation of one short-lived isotope from longer lived isotope is a useful method of providing a portable supply of a short-lived isotope. This is similar to the generation of technetium-99m by a technetium cow (US term) or generator (UK/Euro term). The actinium-225 is made by the irradiation of radium-226 with a cyclotron.

References

↑ Editors, Alice Nicol, Wendy Waddington ; authors Manuel Bardiès ... [et al.] (2011). Dosimetry for radionuclide therapy. York: Institute of Physics and Engineering in Medicine. ISBN 9781903613467.

Volkert, Wynn A.; Hoffman, Timothy J. (1999). "Therapeutic Radiopharmaceuticals". Chemical Reviews. 99 (9): 2269–2292. doi:10.1021/cr9804386. ISSN 0009-2665. PMID 11749482.

External links

Radiation oncology

(ICD-9-CM V3 92.2-92.3
ICD-10-PCS D)

Specific
therapies

Teletherapy¹

by photon	Superficial X-rays Orthovoltage X-rays Megavoltage X-rays Radiosurgery / Stereotactic radiation therapy Cyberknife Gamma Knife CHHIP Cobalt therapy

by electron	Electron therapy

by hadron	Particle therapy fast neutron neutron-capture proton

Brachytherapy²

Prostate
- ¹²⁵I
- ¹⁰³Pd
Plaque radiotherapy (¹²⁵I)
Selective internal radiation therapy / SIR-Spheres / TheraSphere (⁹⁰Y)

Unsealed source
radiotherapy3

Other

Conditions

Features and
equipment

¹ Also known as external-beam radiotherapy.
² Also known as sealed-source radiation therapy.
³ Also known as systemic radioisotope therapy.

^#WHO-EM
^‡Withdrawn from market
Clinical trials:
- ^†Phase III
- ^§Never to phase III

Diagnostic radiopharmaceuticals (V09)

Central nervous system	^99mTc (Exametazime) ¹²³I (Ioflupane Iofetamine Iomazenil) ¹⁸F (Florbetapir, Flutemetamol)

Skeletal system	^99mTc (Medronic acid)

Renal	¹²³I (Sodium iodohippurate) ⁶⁴Cu (Cu-ETS2)

Hepatic/reticuloendothelial	⁷⁵Se (SeHCAT)

Respiratory system	¹³³Xe ^81mKr

Cardiovascular system	^99mTc (Sestamibi Tetrofosmin) ¹¹¹In (Imciromab) ⁸²Rb (Rubidium chloride)

Inflammation/infection	^99mTc (Exametazime Sulesomab Tilmanocept) ¹¹¹In ⁶⁷Ga

Tumor	^99mTc (Arcitumomab Votumumab Hynic-octreotide) ¹¹¹In (Capromab pendetide Satumomab pendetide) ¹²⁵I ( Minretumomab) ¹²³I/¹³¹I (Iobenguane) ¹⁸F (Fluciclovine Fludeoxyglucose Fluoroethyltyrosine Sodium fluoride)

Adrenal cortex	¹²³I/¹²⁵I (Iodocholesterol)

Radionuclides (including tracers)	positron (PET): ¹⁸F ¹¹C ⁶⁴Cu ¹³N ¹⁵O ⁶⁸Ga gamma ray/photon (SPECT/scintigraphy): ^99mTc ¹²³I ¹²⁵I ¹³¹I ¹¹¹In ⁵⁷Co ¹⁵³Sm ¹³³Xe ⁵¹Cr ^81mKr ²⁰¹Tl ⁶⁷Ga ⁷⁵Se

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