Dr. Hamid Alam of Jericho, New York is a medical school graduate from Sylhet Mag Osmani Medical College, as well as a Board-Certified Diagnostic Radiologist. In the following article, Dr. Hamid Alam discusses advancements in the field that are changing the way doctors diagnose and treat patients.
Radiology is used to promote the research, treatment, and overall health of patients afflicted with several health maladies. It truly is one of the greatest achievements in modern technology. However, technology is an ever evolving science, and the field of radiology is no exception.
According to medical experts, digital radiography has several advantages such as higher detectability of detail from high quality, multi-dimensional images, shorter exposure to the radioactive effects, and efficiency of communication and sharing of information.
In this article, Dr. Hamid Alam of Jericho, New York presents a comprehensive review of three prominent advancements in the field of radiology. By delving into each of these categories, we gain valuable insights into how the technology has evolved, along with the significant benefits it brings to patients. This article sheds light on the remarkable progress that has been made in radiography technology for the purpose enhancing patient care.
Radiology already represented one of the foremost benefits of technology when it was founded in 1895. Nowadays, digitation, specifically digital imagery, has classified radiology to be the industry’s most useful way to detect the early warning signs of various diseases and ailments affecting patients.
Dr. Hamid Alam of Jericho, New York explains that from research to treatment, radiography imaging is a highly important technique, and understanding the significance of recent growth within the field is paramount in appreciating its impact on healthcare.
Firstly, the integration of artificial intelligence (AI) has revolutionized the interpretation of medical images. AI algorithms can quickly analyze vast amounts of data, aiding in the detection of abnormalities, improving diagnostic accuracy, and expediting patient care.
Additionally, Tomosynthesis, also known as 3D mammography, has emerged as a groundbreaking technique in breast imaging. By capturing multiple images from different angles, tomosynthesis provides radiologists with a clearer, more comprehensive view of dense breast tissue, enhancing the early detection of breast cancer and reducing false positives.
Furthermore, dual energy imaging techniques employ two different x-ray energy levels to capture images. This allows for enhanced tissue characterization and improved visualization of anatomical structures. Dual energy imagery has proven particularly valuable when it comes to detecting and differentiating various types of kidney stones, aiding in more precise treatment options.
Each of these improvements provides distinct benefits that significantly contribute to improving patient care. By exploring these advancements in more detail, Dr. Hamid Alam of Jericho, New York reports that patients will better understand how it is reshaping medical imaging and improving outcomes.
Artificial Intelligence, one of the branches of machine learning that is sweeping across the world in all areas of technology, has also made its debut in the field of radiology.
Artificial intelligence comes with many connotations and a whole range of beneficial uses, but the most often-observed use is how quickly information can be analyzed and processed, explains Dr. Hamid Alam of Jericho, New York.
The data that is obtained through the digitized imagery of radiology is the whole point of using the technology. Artificial Intelligence can analyze that data and understand the imagery more quickly than a human mind. It does not stop there, though; AI can also compare and contrast a current image with previous ones, analyze that subsequent data, and note even the most subtle changes that would go unnoticed by the human eye.
Dr. Hamid Alam of Jericho, New York explains that Tomosynthesis has also been referred to as DBT, short for “digital breast tomosynthesis.” More commonly known as 3-D mammography. These monikers are descriptive because tomosynthesis is in fact a form of digital mammography aiding in the identifying signs of breast cancer more efficiently than ever before.
Whereas previous imaging could only produce 2-D views that were often difficult for radiologists to analyze, tomosynthesis creates both 2D and 3D imagery, then it forms a comprehensive interpretation by combining the two. 3D imaging is especially beneficial for younger women with denser breast tissue.
Finally, dual-energy imagery is a specific form of tomography that has been improving the overall radiology field. Here, an x-ray image is taken, then rebounded through the body at several angles, producing sliced images.
However, unlike previous iterations of the computed tomography, dual-energy imagery uses more than one x-ray device to create these images, according to Dr. Hamid Alam of Jericho, New York.
With this method, not only are patients less exposed to radiation, but these tests are performed in less time as well – with clearer, more detailed images.
Dr. Hamid Alam of Jericho, New York says that advancements in radiology have been covering leaps and bounds, and the benefits to patients, technicians, and doctors alike reflect this. Thanks to these advancements, radiology is more beneficial than ever!
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