An first-class creation to the elemental ideas of nuclear medication physics
This Third Edition of necessities of Nuclear drugs Physics and Instrumentation expands the finely constructed illustrated overview and introductory consultant to nuclear drugs physics and instrumentation. besides easy, innovative, hugely illustrated themes, the authors current nuclear medicine-related physics and engineering strategies essentially and concisely. integrated within the textual content are introductory chapters on appropriate atomic constitution, equipment of radionuclide creation, and the interplay of radiation with subject. extra, the textual content discusses the elemental functionality of the parts of scintillation and non-scintillation detector platforms. a data know-how part discusses PACs and DICOM. there's huge assurance of quality controls systems, by way of up-to-date chapters on radiation defense practices, radiation biology, and administration of radiation twist of fate sufferers.
Clear and concise, this re-creation of Essentials of Nuclear medication Physics and Instrumentation bargains readers:
- Four new chapters
- Updated insurance of CT and hybrid scanning structures: PET/CT and SPECT/CT
- Fresh discussions of the most recent expertise according to good nation detectors and new scanner designs optimized for committed cardiac imaging
- New insurance of PACs and DICOM systems
- Expanded assurance of photograph reconstruction and processing techniques
- New fabric on tools of snapshot display
Logically based and obviously written, this can be the booklet of selection for someone coming into the sphere of nuclear medication, together with nuclear medication citizens and fellows, cardiac nuclear medication fellows, and nuclear medication expertise scholars. it's also a convenient quick-reference advisor for these already operating within the box of nuclear physics.Content:
Chapter 1 easy Nuclear drugs Physics (pages 1–20):
Chapter 2 interplay of Radiation with topic (pages 21–31):
Chapter three Formation of Radionuclides (pages 32–40):
Chapter four Nonscintillation Detectors (pages 41–59):
Chapter five Scintillation Detectors (pages 60–72):
Chapter 6 Imaging Instrumentation (pages 73–90):
Chapter 7 Single?photon Emission Computed Tomography (pages 91–102):
Chapter eight Positron Emission Tomography (pages 103–118):
Chapter nine X?ray Computed Tomography (pages 119–128):
Chapter 10 Hybrid Imaging structures: PET?CT and SPECT?CT (pages 129–133):
Chapter eleven photograph Reconstruction, Processing, and demonstrate (pages 134–160):
Chapter 12 info know-how (pages 161–167):
Chapter thirteen qc (pages 168–184):
Chapter 14 Radiation Biology (pages 185–196):
Chapter 15 Radiation Dosimetry (pages 197–204):
Chapter sixteen Radiation defense (pages 205–211):
Chapter 17 administration of Nuclear occasion Casualties (pages 212–223):
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An exceptional advent to the fundamental recommendations of nuclear drugs physicsThis 3rd version of necessities of Nuclear drugs Physics and Instrumentation expands the finely built illustrated assessment and introductory consultant to nuclear medication physics and instrumentation. besides easy, revolutionary, hugely illustrated issues, the authors current nuclear medicine-related physics and engineering innovations essentially and concisely.
The cloth during this quantity was once ready and picked up during the last 4 years with the starting to be consciousness technical revolution used to be in development for diagnostic medication. It grew to become transparent that for the wide range of imaging tools and strategies discovering their method into functions for examine and medical medication, there has been a lack of reference and textual content books for the scientist and engineer starting within the box.
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Extra resources for Essentials of Nuclear Medicine Physics and Instrumentation, Third Edition
With such high voltages, the device is not useful as a radiation detector. Sensitivity Intrinsic A gas-filled detector will respond to virtually every radiation event that causes ionization in the gas. To be detected, a particle or photon must be energetic enough to cross the detector face into the sensitive volume of gas, but must not be so energetic that it will pass right through the gas without causing any ionization. The first limitation is important for lowenergy alpha or beta particles, which have only limited ability to penetrate the “window” of the detector, but once inside ionize strongly.
5. (b), (c), (d), (f). 6. (a), (c), (e), (g). 7. (a). 8. (a), (d), (e). 9. (a). 10. (b). 11. 21. CHAPTER 3 Formation of Radionuclides Many radionuclides exist in nature. An example is 14 C, which decays slowly with a half-life of 5700 years and is used to date fossils. The nuclides we use in nuclear medicine, however, are not naturally occurring but rather are made either by bombarding stable atoms or by splitting massive atoms. There are three basic types of equipment that are used to make medical nuclides: generators, cyclotrons, and nuclear reactors.
4 Secular equilibrium. 5) in which charged particles such as protons and alpha particles are accelerated in a spiral path in a vacuum. A power supply provides a rapidly alternating voltage across the dees (the two halves of the circle). This produces a rapidly alternating electric field between the dees that accelerates the particles, which quickly acquire high kinetic energies. The particles spiral outward under the influence of the magnetic field until they have sufficient velocity, and are then deflected into a target.
Essentials of Nuclear Medicine Physics and Instrumentation, Third Edition by Powsner