Sunil Jha, Research Content Developer, Global Market Insights11.17.20
A quantum leap in medical imaging has led to notable growth in diagnosis and treatment of several medical conditions. When it comes to diagnosing an illness or ailments, physicians tend to prefer diagnostic scans, including MRI, CT scan, or x-ray. At the outset, the medical imaging market is poised to be replete with investments as technology advancements, enhanced healthcare policy, and prevalence of medical equipment in the global settings have become more pronounced in recent years.
State-of-the-art, safe, and effective imaging has become the linchpin for making medical decisions and doing away with futile procedures. For instance, adoption of diagnostic imaging services will help surgeons do away with surgical interventions. Moreover, a notable stride from invasive to non-invasive imaging has set the benchmark high in the medical imaging market.
Surgeons also use medical imaging as an aid in surgical procedures and as an ideal surgical tool for endoscopic sinus surgery. CT scans can be used to assess the extensive network of the sinus as it can provide 3D images of several cross-sections of body images. Moreover, CT scans are sought after for guiding physicians during an operation and monitoring treatment effectiveness.
Medical imaging has become the catalyst in decision-making pertaining to treatment and future care as it can inform doctors about the internal problems that a normal examination would fail to spot. Accordingly, medical imaging will remain indispensable in tracking the progress of an illness.
Digital Radiology Helps Create AI-Powered Insights
Radiology is on the cusp of revolution following the soaring popularity of digital radiography in dental examination, chiropractic examination, mammography, and orthopedic evaluations. The transitioning from analog to digital radiology has become more compelling in recent years, owing to:
Digital radiology has emerged as a tipping point in the medical imaging market as it can boost patient care, expand consultation capabilities, underpin better patient outcomes, and enhance client interaction.
With fewer retakes, seamless adjustments to optimize bone and soft tissue in one exposure and sophisticated features such as 3D position and creating shot lists, digital radiology has brought a paradigm shift in the medical imaging industry.
Unprecedented growth of data and a dearth of medical staff have further signified the prominence of digital radiology to help radiologists make informed decisions and create AI-powered actionable insights.
Lately, focus on ramping up speed of high-quality diagnostic images has gained traction as stakeholders continue to exhibit inclination toward graphical processing units (GPUs) to expedite processing power and reconstruct images faster than CPUs.
Faster processing creates a better image, revs up workflow, and propels throughput, helping healthcare settings up their return on investment.
3D Technology in Radiology
Application of 3D and 4D technologies has become more pronounced and carved a niche in creating better images for enhanced diagnostics in radiology. For instance, healthcare providers are creating 3D anatomical models to help surgeons have insights through 3D visualization of organs before surgery.
4D CT (computed tomography) has come on the horizon and made CT scans faster and more accurate. 4D CT uses novel technology that captures the movement and location of a tumor and movement of the body’s organs.
4D CT scans have enabled radiation oncologists to offset the risk of treatment-based side effects, introduce more accurate treatments for moving tumors, and provide radiation within a specific interval in the breathing cycle.
3D Ultrasound Brings a Paradigm Shift in Medical Imaging
With supersonic networking speeds, AI, and the cloud bringing a seismic shift in medical imaging, 3D imaging has become a hot topic among healthcare professionals. The 21st century radiologist counts on 3D visualization to reduce radiation dosage on patients.
Healthcare providers are using 3D technology to create data sets and make clearer 3D images with higher resolutions and less artifacts and noise. Infusion of funds is occurring to produce photorealistic images by merging 3D MRI scans and 3D scans with volumetric visualization and computer-generated imagery technology.
Of late, breast imaging has come to the fore to transcend to 3D mammography, enabling radiologists to capture images. 3D imaging strives to improve the care of breast cancer detection.
AI is helping radiologists and cardiologists with an accurate information and has made image gathering more efficient. To put things in perspective, AI will help radiologists detect images which would otherwise be difficult to see with human eye.
3D ultrasound will continue to gain impetus because it provides interactive feedback to help clinicians get high-quality images and timely spatial information. Ultrasound is perceived as the most prevalent medical imaging for a fetus during pregnancy. Ultrasound allows parents to hear and view the heartbeat of the fetus, with 3D ultrasound leveraging visualization of facial features and other parts, including toes and fingers.
Four Ways CT Scans Can Provide Effective Medical Management
In the past several years, CT has reduced the length of hospitalization and played an instrumental role in guiding treatment of common conditions, including cardiac disease, injury, and stroke. Four ways CT scans can provide effective medical treatment are delineated below:
Of late, 4D MRI has become a lucrative portfolio in radiotherapy because it provides improved visualization of soft tissue motion. 4D flow MRI enables assessment of complex blood flow patterns through flexible retrospective quantification of flow parameters and 3D blood flow visualization.
MR imaging has become prevalent among clinicians as invaluable equipment for vascular and cardiac disease, assessing disease severity, and analyzing patient response to surgical and medical therapy.
When it comes to preventive medicine, public health, palliative care, and curative care, traction for medical imaging—including ultrasonography and X-ray based examination—has become highly desirable in a slew of medical settings.
Preventive care has become one of the major upsides associated with medical imaging and can be used to detect early signs of breast cancer.
With a rise in baby boomers fueling the demand for medical imaging, medical imaging has become the silver bullet to track the progress of an ongoing illness. The advent of 3D imaging has enhanced precision and access and reduced costs as healthcare providers continue to push the boundaries of developments in radiology.
Dipping medical imaging prices and penetration of high-resolution images and videos will underscore advancements in the healthcare space and bolster the digital integration of medical imaging systems.
Sunil Jha has been a part of the content industry for more than two years now. Having previously worked as a voiceover artist and sportswriter, he now focuses on penning down articles across numerous topics, ranging from business, technology, core industry, to trade and finance. With a business-oriented educational background, Sunil brings forth the expertise of intensive research and a strategic approach in his pieces.
State-of-the-art, safe, and effective imaging has become the linchpin for making medical decisions and doing away with futile procedures. For instance, adoption of diagnostic imaging services will help surgeons do away with surgical interventions. Moreover, a notable stride from invasive to non-invasive imaging has set the benchmark high in the medical imaging market.
Surgeons also use medical imaging as an aid in surgical procedures and as an ideal surgical tool for endoscopic sinus surgery. CT scans can be used to assess the extensive network of the sinus as it can provide 3D images of several cross-sections of body images. Moreover, CT scans are sought after for guiding physicians during an operation and monitoring treatment effectiveness.
Medical imaging has become the catalyst in decision-making pertaining to treatment and future care as it can inform doctors about the internal problems that a normal examination would fail to spot. Accordingly, medical imaging will remain indispensable in tracking the progress of an illness.
Digital Radiology Helps Create AI-Powered Insights
Radiology is on the cusp of revolution following the soaring popularity of digital radiography in dental examination, chiropractic examination, mammography, and orthopedic evaluations. The transitioning from analog to digital radiology has become more compelling in recent years, owing to:
- Reduced cost due to the removal of chemical processors, filling, and mailing jackets
- Reduced radiation
- Zooming in or out
- Lightening or darkening
- Flipping
- Rotating
- Inverting
Digital radiology has emerged as a tipping point in the medical imaging market as it can boost patient care, expand consultation capabilities, underpin better patient outcomes, and enhance client interaction.
With fewer retakes, seamless adjustments to optimize bone and soft tissue in one exposure and sophisticated features such as 3D position and creating shot lists, digital radiology has brought a paradigm shift in the medical imaging industry.
Unprecedented growth of data and a dearth of medical staff have further signified the prominence of digital radiology to help radiologists make informed decisions and create AI-powered actionable insights.
Lately, focus on ramping up speed of high-quality diagnostic images has gained traction as stakeholders continue to exhibit inclination toward graphical processing units (GPUs) to expedite processing power and reconstruct images faster than CPUs.
Faster processing creates a better image, revs up workflow, and propels throughput, helping healthcare settings up their return on investment.
3D Technology in Radiology
Application of 3D and 4D technologies has become more pronounced and carved a niche in creating better images for enhanced diagnostics in radiology. For instance, healthcare providers are creating 3D anatomical models to help surgeons have insights through 3D visualization of organs before surgery.
4D CT (computed tomography) has come on the horizon and made CT scans faster and more accurate. 4D CT uses novel technology that captures the movement and location of a tumor and movement of the body’s organs.
4D CT scans have enabled radiation oncologists to offset the risk of treatment-based side effects, introduce more accurate treatments for moving tumors, and provide radiation within a specific interval in the breathing cycle.
3D Ultrasound Brings a Paradigm Shift in Medical Imaging
With supersonic networking speeds, AI, and the cloud bringing a seismic shift in medical imaging, 3D imaging has become a hot topic among healthcare professionals. The 21st century radiologist counts on 3D visualization to reduce radiation dosage on patients.
Healthcare providers are using 3D technology to create data sets and make clearer 3D images with higher resolutions and less artifacts and noise. Infusion of funds is occurring to produce photorealistic images by merging 3D MRI scans and 3D scans with volumetric visualization and computer-generated imagery technology.
Of late, breast imaging has come to the fore to transcend to 3D mammography, enabling radiologists to capture images. 3D imaging strives to improve the care of breast cancer detection.
AI is helping radiologists and cardiologists with an accurate information and has made image gathering more efficient. To put things in perspective, AI will help radiologists detect images which would otherwise be difficult to see with human eye.
3D ultrasound will continue to gain impetus because it provides interactive feedback to help clinicians get high-quality images and timely spatial information. Ultrasound is perceived as the most prevalent medical imaging for a fetus during pregnancy. Ultrasound allows parents to hear and view the heartbeat of the fetus, with 3D ultrasound leveraging visualization of facial features and other parts, including toes and fingers.
Four Ways CT Scans Can Provide Effective Medical Management
In the past several years, CT has reduced the length of hospitalization and played an instrumental role in guiding treatment of common conditions, including cardiac disease, injury, and stroke. Four ways CT scans can provide effective medical treatment are delineated below:
- Minimizing the need for exploratory surgeries
- Deciding when surgeries are required
- Boosting cancer diagnosis and treatment
- Improving patient placement into ideal areas of care, including intensive care unit
Of late, 4D MRI has become a lucrative portfolio in radiotherapy because it provides improved visualization of soft tissue motion. 4D flow MRI enables assessment of complex blood flow patterns through flexible retrospective quantification of flow parameters and 3D blood flow visualization.
MR imaging has become prevalent among clinicians as invaluable equipment for vascular and cardiac disease, assessing disease severity, and analyzing patient response to surgical and medical therapy.
When it comes to preventive medicine, public health, palliative care, and curative care, traction for medical imaging—including ultrasonography and X-ray based examination—has become highly desirable in a slew of medical settings.
Preventive care has become one of the major upsides associated with medical imaging and can be used to detect early signs of breast cancer.
With a rise in baby boomers fueling the demand for medical imaging, medical imaging has become the silver bullet to track the progress of an ongoing illness. The advent of 3D imaging has enhanced precision and access and reduced costs as healthcare providers continue to push the boundaries of developments in radiology.
Dipping medical imaging prices and penetration of high-resolution images and videos will underscore advancements in the healthcare space and bolster the digital integration of medical imaging systems.
Sunil Jha has been a part of the content industry for more than two years now. Having previously worked as a voiceover artist and sportswriter, he now focuses on penning down articles across numerous topics, ranging from business, technology, core industry, to trade and finance. With a business-oriented educational background, Sunil brings forth the expertise of intensive research and a strategic approach in his pieces.