Waiting for answer This question has not been answered yet. You can hire a professional tutor to get the answer.
Write a 10 page essay on Discuss the benefits that digital acquisition and storage of diagnostic images have for patients.Download file to see previous pages... Moreover, the resolution and contrast p
Write a 10 page essay on Discuss the benefits that digital acquisition and storage of diagnostic images have for patients.
Download file to see previous pages...Moreover, the resolution and contrast provided by radiographs are excellent. The need and importance of radiology and radiographs can therefore be understood in the field of medicine (Bansal, 2006, pp.425-428). In the recent times, radiology has played a significant role in the management operations in the health services based on the use of computers. This has effectively reduced the cost as well as increased the level of communication in the radiology departments of a health service. Diagnostic imaging has taken advantage of the advanced technology and communication systems in order to afford better approach into physiological composition and function for medical purposes thereby benefiting the patients to great extents (Hawnaur, 1999, pp.168-171). The present study focuses on an understanding of the benefits that digital acquisition and storage of diagnostic imaging has on the patients, where the use of radiology has been increasing in the health care units. Digital Radiography Image Quality: Image Acquisition: A Brief Idea: In the field of digital radiographic detectors, two common systems are the Computed Radiography (CR) and Digital Radiography (DR). In computed radiography, the use of photostimulable storage phosphor is made that enables storing the underlying picture with following a processing by means of a stimulating laser beam. It can be modified without any difficulty to a cassette-based system equivalent to that used in screen-film (SF) radiography. DR is capable of describing a digital x-ray imaging system that can interpret the broadcasted x-ray signal instantly following exposure when the detector is in its position (Williams et al, 2007, pp.371). High quality digital radiography provides with the following benefits in general that are beneficial to the patients as well since they are the ones being treated through the use of these techniques: (1) the advancement of authenticated imaging practices thereby allowing reliability of image quality and radiation amount and maintenance between rooms and involving sites. (2) the exercise of suitable firmness of image data to assist communication or storage, with no loss of clinically necessary information. (3) the recording of information to preserve correct medical records of patients that may be recovered when in need. (4) the facility to recover information from prior imaging studies that can be accessed and are to be presented for evaluation with an existing learning. (5) the ability to make use of image processing for enhanced demonstration of information that has been obtained. (6) holding on to appropriate capacity, position, and centralized systems. (7) preservation of confidentiality of the patients. (8) reducing the incidence of poor quality of images. (9) reducing the deliverance of unsuitable ionizing emission dosage to patients. and (10) the encouragement of clinical competence and uninterrupted up gradation of quality (Williams et al, 2007, pp.372). DR technology making use of solid state detectors has the ability to attain a dose cutback in chest and skeletal radiography of up to 33-50% without causing any loss of the quality of image in comparison to a long-established screen-film radiography system (Brennan, 2002, pp.66-69). This is due to its high detective quantum efficiency and broad dynamic range.