X-ray machine

X-ray machine

An X-ray machine is a device used by radiographers to acquire an x-ray image. They are used in various fields, notably medicine and security.

History

Shay M. Anderson and Ryan W. Preuninger formulated mathematical equations for X-rays. Physicist Johann Hittorf observed tubes with energy rays extending from a negative electrode. William Crookes investigated the effects of energy discharges on rare gases. Heinrich Hertz began experimenting and demonstrated that cathode rays could penetrate very thin metal foil (such as aluminium). In 1887, Nikola Tesla began to investigate X-rays and produced the bremsstrahlung process. In 1895, Wilhelm Röntgen began observing and further documenting X-rays while experimenting with vacuum tubes.

One of the first X-ray photographs was made of the hand of Röntgen's wife. The image displayed both her wedding ring and bones. On January 18, 1896 an "X-ray machine" was formally displayed by H.L. Smith. Upon discovery in 1895, X-Rays were advertised as the new scientific wonder and seized upon by entertainers. Circus patrons viewed their own skeletons and were given pictures of their own bony hands wearing silhouetted jewelry. While many people were fascinated by this discovery, others feared that it would allow strangers to look through doors and invade people's privacy.

In the 1940s and 50s, (real time) X-ray machines were used in stores to help sell footwear. These were known as fluoroscopes. However, as the harmful effects of X-ray radiation were properly considered, they finally fell out of use. Shoe-fitting use of the device was first banned by the state of Pennsylvania in 1957. (They were more a clever marketing tool to attract customers, rather than a fitting aid.)

Overview

An X-ray imaging system consists of a X-ray source or generator (X-ray tube), and an image detection system which can either be comprised of film (analog technology) or a digital capture system (such as a picture archiving and communication system).

X-ray sources

In the typical X-ray source of less than 450 kVFact|date=September 2008, X-ray photons are produced by an electron beam striking a target. The electrons that make up the beam are emitted from a heated cathode filament. The electrons are then focused and accelerated towards an angled anode target. The point where the electron beam strikes the target is called the focal spot. Most of the kinetic energy contained in the electron beam is converted to heat, but around 1% of the energy is converted into X-ray photons, the excess heat is dissipated via a heat sink. [cite web | url = http://www.fnrf.science.cmu.ac.th/theory/radiation/Physics%20of%20X-RAY%20Production.html | title = Physics of X-RAY Production] At the focal spot, X-ray photons are emitted in all directions from the target surface, the highest intensity being around 60deg to 90deg from the beamClarifyme|date=September 2008. There is a small round window in the X-ray tube directly above the angled target. This window allows the X-ray to exit the tube with little attenuation while maintaining a vacuum seal required for the X-ray tube operation.

X-ray machines work by applying controlled voltage and current to the X-ray tube, which results in a beam of X-rays. The beam is projected on matter. Some of the X-ray beam will pass through the object, while some are absorbed. The resulting pattern of the radiation is then ultimately detected by a detection medium including rare earth screens (which surround photographic film), semiconductor detectors, or X-ray image intensifiers.

Detection

In healthcare applications in particular, the x-ray detection system rarely consists of the detection medium. For example, a typical stationary radiographic x-ray machine also includes an ion chamber and grid. The ion chamber is basically a hollow plate located between the detection medium and the object being imaged. It determines the level of exposure by measuring the amount of x-rays that have passed through the electrically charged, gas-filled gap inside the plate. This allows for minimization of patient radiation exposure by both ensuring that an image is not underdeveloped to the point the exam needs to be repeated and ensuring that more radiation than needed is not applied. The grid is usually located between the ion chamber and object and consists of many aluminum slats stacked next to each other (resembling a polaroid lens). In this manner, the grid allows straight x-rays to pass through to the detection medium but absorbs reflected x-rays. This improves image quality by preventing scattered (non-diagnostic) x-rays from reaching the detection medium, but using a grid creates higher exam radiation doses overall.

Images taken with such devices are known as X-ray photographs or radiographs. The older term Röentgenogram continues to be used by radiologists.

Applications

X-ray technology is used in health care for visualising bone structures and other dense tissues such as tumours. Non-medicial applications include security and material analysis.

Medicine

The two main fields in which x-ray machines are used in medicine are radiography and dentistry.

Radiography is used for fast, highly penetrating images, and is usually used in areas with a high bone content. Some forms of radiography include:
*orthopantomogram — a panoramic x-ray of the jaw showing all the teeth at once
*mammography — x-rays of breast tissue
*tomography — x-ray imaging in sections

Radiotherapy — the use of x-ray radiation to treat malignant cancer cells, a non-imaging application

Fluoroscopy is used in cases where real-time visualization is necessary (and is most commonly encountered in everyday life at airport security). Some medical applications of fluorography include:
*angiography — used to examine blood vessels in real time
*barium enema — a procedure used to examine problems of the colon and lower gastrointestinal tract
*barium swallow — similar to a barium enema, but used to examine the upper gastroinstestional tract
*biopsy — the removal of tissue for examination

X-rays are highly penetrating, ionizing radiation, therefore X-ray machines are used to take pictures of dense tissues such as bones and teeth. This is because bones absorb the radiation more than the less dense soft tissue. X-rays from a source pass through the body and onto a photographic cassette. Areas where radiation is absorbed show up as lighter shades of grey (closer to white). This can be used to diagnose broken or fractured bones. In fluoroscopy, imaging of the digestive tract is done with the help of a radiocontrast agent such as barium sulfate, which is opaque to X-rays.

Security

X-ray machines are used to screen objects non-invasively. Luggage at airports and student baggage at many schools are examined for possible weapons, including bombs. These machines are very low dose and safe to be around. The main parts of an X-ray Baggage Inspection System are the generator used to generate x-rays, the detector to detect radiation after passing through the baggage, signal processor unit (usually a PC) to process the incoming signal from the detector, and a conveyor system for moving baggage into the system.

Operation

When baggage is placed on the conveyor, it is moved into the machine by the operator. There is an infrared transmitter and receiver assembly to detect the baggage when it enters the tunnel. This assembly gives the signal to switch on the generator and signal processing system. The signal processing system processes incoming siginals from the detector and reproduce an image based upon the type of material and material density inside the baggage. This image is then sent to the display unit.

Colour classification

The colour of the image displayed depends upon the material and material density Fact|date=September 2008. Organic material such as paper, clothes and most explosives are dispayed in orange. Mixed materials such as aluminium are displayed in green. Inorganic materials such as copper are displayed in blue and non-penetrable items are displayed in black (some machines display this as a yellowish green or red). The darkness of the colour depends upon the density or thickness of the material.

Advances in X-ray technology

A film of carbon nanotubes (as a cathode) that emits electrons at room temperature when exposed to an electrical field has been fashioned into an X-ray device. An array of these emitters can be placed around a target item to be scanned and the images from each emitter can be assembled by computer software to provide a 3-dimensional image of the target in a fraction of the time it takes using a conventional X-ray device. The carbon nanotube emitters also use less energy than conventional X-ray tubes leading to lower operational costs. [cite web | url = http://college.unc.edu/features/september2006/nanotube-x-ray-method-creates-ct-images-faster-than-traditional-scanners | title = Nanotube x-ray method creates CT images faster than traditonal scanners | accessdate = 2008-06-30 | author = Zhang, et al. ]

See also

*Backscatter X-ray eg for security scanning passengers (rather than baggage)
*X-ray crystallography
*Radiography
*X-ray fluorescence
*X-ray astronomy Just detectors.

References

# cite journal
author=Zhang, J; Yang, G; Cheng, Y; Gao, B Qiu, Q; Lee , YZ; Lu, JP and Zhou, O
title=Stationary scanning X-ray source based on carbon nanotube field emitters
journal=Applied Physics Letters
volume=86 | issue=May 2 | year=2005 | pages=184104
doi = 10.1063/1.1923750
url = http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000086000018184104000001&idtype=cvips&gifs=Yes

External links

* [http://www.iuk.edu/~koalhe/img/Equipment/xray.jpgA picture of an X-ray machine]
* [http://www.thextremehosting.com/apt/viewec.php?no=8 X-ray baggage inspection system]
* [http://www.xraylinks.com Radiology Links]
* [http://www.radiologyworkers.com Radiology Job Outlook]
* [http://www.rtstudents.com Radiology Resources for Students and Professionals]
* [http://www.patient.co.uk/leaflets/roentgenogram.htm Patient leaflets regarding X-rays]


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