Radiopharmaceuticals -- pharmacology : Handbook of nuclear cardiology : cardiac SPECT and cardiac PET / Gary V. Heller, Robert C. Hendel, editors
2013
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Radiopharmaceuticals -- radiation effects : Radioionidation reactions for radiopharmaceuticals : compendium for effective synthesis strategies / by Heinz H. Coenen, John Mertens and Bernard Mazière ; with contributions from Peter Bläuenstein [and others]
Radiopharmaceuticals -- standards : La qualità nella preparazione dei radiofarmaci : Indicazioni per la pratica clinica / Giovanni Lucignani (a cura di) ; con la collaborazione di Licia Uccelli e Anna Laura Viglietti
Radiopharmaceuticals -- Synthesis -- Handbooks, manuals, etc : Radioionidation reactions for radiopharmaceuticals : compendium for effective synthesis strategies / by Heinz H. Coenen, John Mertens and Bernard Mazière ; with contributions from Peter Bläuenstein [and others]
Quantitative determination of receptor (binding) proteins in body fluids or tissue using radioactively labeled binding reagents (e.g., antibodies, intracellular receptors, plasma binders)
The ability of some cells or tissues to survive lethal doses of IONIZING RADIATION. Tolerance depends on the species, cell type, and physical and chemical variables, including RADIATION-PROTECTIVE AGENTS and RADIATION-SENSITIZING AGENTS
The ability of some cells or tissues to survive lethal doses of IONIZING RADIATION. Tolerance depends on the species, cell type, and physical and chemical variables, including RADIATION-PROTECTIVE AGENTS and RADIATION-SENSITIZING AGENTS
Radiosity -- Congresses. : Rendering techniques 2000 : proceedings of the Eurographics Workshop in Brno, Czech Republic, June 26-28, 2000 / B. Péroche, H. Rushmeier (eds.)
A therapy using IONIZING RADIATION where there is improved dose homogeneity within the tumor and reduced dosage to uninvolved structures. The precise shaping of dose distribution is achieved via the use of computer-controlled multileaf collimators
A radiological stereotactic technique developed for cutting or destroying tissue by high doses of radiation in place of surgical incisions. It was originally developed for neurosurgery on structures in the brain and its use gradually spread to radiation surgery on extracranial structures as well. The usual rigid needles or probes of stereotactic surgery are replaced with beams of ionizing radiation directed toward a target so as to achieve local tissue destruction
A radiological stereotactic technique developed for cutting or destroying tissue by high doses of radiation in place of surgical incisions. It was originally developed for neurosurgery on structures in the brain and its use gradually spread to radiation surgery on extracranial structures as well. The usual rigid needles or probes of stereotactic surgery are replaced with beams of ionizing radiation directed toward a target so as to achieve local tissue destruction
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Radiosurgery -- Japan : Japanese experience with gamma knife radiosurgery / volume editor, Masaaki Yamamoto, with a foreword by K. Takakura
A radiological stereotactic technique developed for cutting or destroying tissue by high doses of radiation in place of surgical incisions. It was originally developed for neurosurgery on structures in the brain and its use gradually spread to radiation surgery on extracranial structures as well. The usual rigid needles or probes of stereotactic surgery are replaced with beams of ionizing radiation directed toward a target so as to achieve local tissue destruction
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Radiosurgery, Linear Accelerator -- See Radiosurgery
A radiological stereotactic technique developed for cutting or destroying tissue by high doses of radiation in place of surgical incisions. It was originally developed for neurosurgery on structures in the brain and its use gradually spread to radiation surgery on extracranial structures as well. The usual rigid needles or probes of stereotactic surgery are replaced with beams of ionizing radiation directed toward a target so as to achieve local tissue destruction