Radiology has advanced quickly to enhance the treatment of millions of individuals. This field has become safer, less expensive, and more efficient due to the development of new technology and the introduction of best practices. This allowed doctors to make more accurate diagnoses and treatment plans.
The earliest kind of X-ray technology was film-based X-rays. Film-based devices essentially project an X-ray picture onto the patient, which is subsequently captured on photographic film and analyzed by the doctor (Seeram, 2019).
Computed radiography is an exclusively indirect technology that has been developed to replace traditional film radiography. Because the image plate is kept in the cassette, it may be employed in a variety of applications (Park & Park, 2018). In comparison to film radiography, it also offers a greater exposure range.
The latest development came with digital radiology, which uses a digital array of detectors. X-rays are converted into a digital picture that can be processed quicker than within computed radiography devices (Park & Park, 2018). Moreover, picture quality improves, and overall efficiency is higher than computed radiography presupposes.
The usage of digital imaging for diagnostic purposes has risen in recent years. The field of radiography has progressed because of this technology. Digital imaging technology has considerably enhanced clinical performance due to increased data processing speed (Seeram, 2019). It has also eased the workflow in medical facilities, identifying the problem more quickly and efficiently (Seeram, 2019). This has evolved into a highly efficient, time-saving digital system that positively influences radiologists’ practice and enhances diagnostic outcomes.
The most significant benefit of digital radiography equipment is that it allows radiographic pictures to be stored virtually, retrieved quickly, and shared between facilities instantaneously. Other advantages include decreased operational expenses, increased patient throughput, and the opportunity to reduce X-ray exposure (Seeram, 2019). The expense of upgrading radiographic equipment is the major downside to digital radiography. Modern radiographic equipment is still expensive and demanding to adopt in some countries. Other drawbacks include increased technical complexity and the need to adapt new radiography procedures.
Radiology has embraced computerization to meet the demand for cost-effective and quick communication. The advancement of radiography has resulted in a transition away from outmoded film X-rays toward digital imaging. Digital radiography is the most recent advancement in radiography, allowing for better precision and efficiency but necessitating the purchase of expensive equipment.
References
Park, W. J., & Park, J. B. (2018). History and application of artificial neural networks in dentistry. European Journal of Dentistry, 12(04), 594-601.
Seeram, E. (2019). Digital radiography: an Overview. Digital Radiography, 6(3), 1-19.