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X-Ray Medical Imaging Physics – IB Objectives I.2.1 Define the terms attenuation coefficient and half-value thickness. I.2.2 Derive the relation between attenuation coefficient and half-value thickness I.2.3 Solve problems using the equation I = I0e-x I.2.4 Describe X-ray detection, recording, and display techniques I.2.5 Explain standard X-ray imaging techniques used in medicine I.2.6 Outline the principles of computed tomography (CT) 3/06/2009 1 IB Physics HL 2 X-Ray Production Anode **Spinning** (Tungsten) (Why?) Vacuum chamber ... High voltage Hot filament cathode X-rays Electrons Filament voltage 3/06/2009 2 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation X-rays interact with matter in four ways Photoelectric effect (photon in – electron out) Coherent scattering off atom as a whole (photon in – photon out) Compton scattering off electron (photon in – electron + photon out) Pair production (photon in – electron + positron out) (E > 1 MeV) 3/06/2009 3 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation Photoelectric effect Orbital electron knocked out of atomic orbit creating ion Incoming photon scatters off orbital electron 3/06/2009 4 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation Coherent scattering / Rayleigh scattering Atom not ionized nor excited Outgoing photon scatters off atom as a whole Incoming photon scatters off atom as a whole 3/06/2009 5 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation Incoherent scattering / Compton scattering Electron scattered out of atom Incoming photon scatters off single electron (as if electron were free) Outgoing photon after scattering off electron 3/06/2009 6 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation Pair production + Enough energy in initial beam to create e e pair Nucleus interacts with incoming photon eElectron-positron pair created from incoming photon and nuclear interaction Incoming photon scatters off nucleus 3/06/2009 e+ 7 IB Physics HL 2 X-Ray Interaction with Matter and Attenuation 3/06/2009 8 For carbon (~people) below 12 keV, increasing energy decreases interaction Interaction mainly from photoelectric effect Bones (heavier nuclei) attenuate Xrays more than soft tissue (carbon) IB Physics HL 2 X-Ray Attenuation Coefficient Similar to radiation half-lives and decay coefficients Decrease in intensity (W/m2) is proportional to initial intensity: dI I dx With solution: I = I0e-x is the linear attenuation coefficient (m-1) does depend on energy 3/06/2009 This gives the intensity at depth x meters 9 IB Physics HL 2 X-Ray Half-Value Thickness Similar to the radioactive decay half-life, we can define a half-value thickness at which the beam drops to one-half its initial intensity -x1/2 I0/2 = I0e -x1/2 or 0.5 = e or ln(0.5) = -x1/2 or = ln(2) / x1/2 (just like radioactive decay) 3/06/2009 10 IB Physics HL 2 X-Ray Choice of Wavelength Choice of wavelength depends on what is being imaged Bone Soft tissue Also want to minimize absorbed energy 3/06/2009 11 IB Physics HL 2 X-Ray Attenuation Sample Problem The attenuation coefficient for an X-ray of a specific wavelength through muscle is 0.045 cm-1 What is the half-value thickness? The half-value thickness of bone, for the same X-ray, is 150 times smaller What is its attenuation coefficient? 3/06/2009 In which of these materials does the X-ray intensity drop off more quickly? 12 IB Physics HL 2 X-Ray Attenuation Sample Problem (Cont’d) If the initial X-ray intensity is 2.00 W/m2, what is its intensity after traveling through 13.0 cm of muscle? How much is absorbed by the muscle? What is the intensity of the X-ray after traveling through 3.47 cm of bone? 3/06/2009 13 IB Physics HL 2 X-Ray Beam Techniques Improve penetrating quality of beam by absorbing out low-energy X-rays With large attenuation coefficients, X-rays get absorbed easily by soft tissue Use ~1 mm to 1 cm of Al 3/06/2009 14 IB Physics HL 2 X-Ray Beam Techniques Tube voltage Increasing tube voltage increases penetrating power of X-rays Bremsstrahlung K, L spectra 3/06/2009 15 IB Physics HL 2 X-Ray Beam Techniques Beam current Increasing beam current increases intensity of Xrays Does not change penetrating power 3/06/2009 16 IB Physics HL 2 X-Ray Beam Techniques Target material Changing target material changes characteristic K, L lines Bremsstrahlung spectrum stays the same (more or less) 3/06/2009 17 IB Physics HL 2 X-Ray Imaging Techniques Putting a lead grid in front of imaging material will improve the sharpness of the image Scattered X-rays are absorbed by grid before getting to film 3/06/2009 18 IB Physics HL 2 X-Ray Imaging Techniques Direct image Bone (white) Higher energy X-ray Soft tissue (gray) Lower energy X-ray Gaps – air (black) Contrast medium Opaque material outlines soft tissue Barium, bismuth (intestines) Iodine (blood) 3/06/2009 19 IB Physics HL 2 X-Ray – Coronary Arteries 3/06/2009 From: http://www.ajronline.org/cgi/content-nw/full/179/4/911/FIG8 20 IB Physics HL 2 X-Ray Detection, Recording, and Display Detection Film, image-enhanced film, digital computer-read screens and detectors Recording Film, digital film, computer memory Display Film, computer display, television (real-time) display (~fluoroscopy) 3/06/2009 21 IB Physics HL 2 X-Ray Detection, Recording, and Display Film Person placed between X-ray tube and film Film is detection, recording, and display mechanism all in one X-ray tube 3/06/2009 X-ray sensitive film 22 IB Physics HL 2 X-Ray Detection, Recording, and Display Enhanced film (basically all modern X-rays) Person placed between X-ray tube and film Film is placed in cassette with X-ray sensitive phosphors Provides better image Film as recording and display device X-ray tube 3/06/2009 X-ray film cassette 23 IB Physics HL 2 X-Ray Detection, Recording, and Display Enhanced film cassette Intensifying screens contain X-ray sensitive phosphors that create light when struck with Xrays Film displays X-rays detected by film and screen 3/06/2009 24 IB Physics HL 2 X-Ray Detection, Recording, and Display Digital Radiology Instead of normal film, X-rays detected by a plate sensitive to X-rays Plate is “read” by laser Stored in computer memory Computer display X-ray tube 3/06/2009 Digital scanning process X-ray sensitive plate 25 IB Physics HL 2 X-Ray Detection, Recording, and Display Computer Radiology Instead of film, X-rays detected by a computerreadable screen Computer reads screen, and stores image in memory Computer display X-ray tube Computer-readable X-ray phosphor screen 3/06/2009 26 IB Physics HL 2 X-Ray Detection, Recording, and Display Real-Time Displays Observe operation of heart, intestines, throat, etc. Instead of film, X-rays detected by phosphors on screen Television camera observes phosphor screen Display real-time image on television screen X-ray tube 3/06/2009 X-ray sensitive phosphor screen 27 IB Physics HL 2 X-Ray Medical Imaging – Fundamental Ideas What are they? 3/06/2009 28 IB Physics HL 2 Drawbacks of Normal X-Ray Scans X-rays show only one view of body Shadow of everything between X-ray tube and film Difficult to interpret soft-tissue images -> Idea: take X-ray scans in multiple directions 3/06/2009 29 IB Physics HL 2 Idea of Multiple Scan Directions Imagine taking X-ray image of 2 x 2 square Take image in horizontal direction A C 4 5 B D X-rays 3/06/2009 8 4 5 X-ray intensities 10 Film 30 IB Physics HL 2 Idea of Multiple Scan Directions Imagine taking X-ray image of 2 x 2 square Take second image in vertical direction X-rays A C Film 7 3/06/2009 4 5 B D 11 31 4 5 8 10 X-ray intensities IB Physics HL 2 Idea of Multiple Scan Directions Imagine taking X-ray image of 2 x 2 square Use both intensities to determine relative X-ray absorption Show relative absorption with different shading A C 3/06/2009 3 4 B D 5 6 8 10 X-ray intensities 11 7 This is the principle of Computed Tomography (CT) 32 IB Physics HL 2 Computed Tomography (CT) Scan Schematic Use more then just 2 x 2 resolution Typical: 256 x 256 3/06/2009 33 IB Physics HL 2 Computed Tomography (CT) Scanners 3/06/2009 34 IB Physics HL 2 Computed Tomography Scanner 3/06/2009 From http://en.wikipedia.org/wiki/Computed_Axial_Tomography 35 IB Physics HL 2 Computed Tomography Scanner Internals 3/06/2009 From http://en.wikipedia.org/wiki/Computed_Axial_Tomography 36 IB Physics HL 2 Computed Tomography – 2D to 3D X-ray imaging system can move along the body CT scans in cross-section Can build up 3D model of body Instead of pixels (picture elements): voxels (volume elements) 3/06/2009 37 IB Physics HL 2 Computed Tomography – Usage Brain scans Bleeding Stroke Tumor Other organs (soft tissue) Heart Kidneys Etc Applications Tumors Trauma Structure 3/06/2009 From http://en.wikipedia.org/wiki/Computed_Axial_Tomography 38 IB Physics HL 2 Computed Tomography – Risk Balancing CAT scans and X-rays use ionizing radiation Ionizing radiation is damaging to tissue Normal X-rays give some multiples of background radiation dosage CAT scans give significantly more than normal X-rays Balance help to patient from scan vs risk of damage (cancer) from X-rays 3/06/2009 39 IB Physics HL 2 Computed Tomography – Fundamental Ideas What are they? 3/06/2009 40 IB Physics HL 2