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Addressing the obstacles to confident diagnosis:


Urgent care imaging

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    When treating patients in urgent care situations, the timely execution and communication of radiological findings is crucial. It’s paramount that the first image be the right image to expedite a confident diagnosis and treatment.

    But for radiology teams, the fact that patients may be in pain, in shock, or under great stress makes it more challenging to get diagnostic-quality images.

    Here are some of the ways we’re making imaging in urgent care situations easier.

     

    Radiology image

    What you'll see

    Gridless X-ray capabilities

    Learn more about SkyFlow scatter correction algorithm:

    Overcoming high lipid concentration of adipose tissues

    Learn more about mDixon XD and other MR clinical applications:

    CT for the ED

    Learn more about IQon spectral CT:

    Empowering radiologists, the unsung heroes of value-based care

     

    The past 30 years have seen medical imaging technology revolutionize the way we deliver healthcare. Today, more patients than ever undergo diagnostic imaging scans, making radiologists the often-invisible hero in determining their path to confident diagnosis and treatment.

    DXR for the ED

    Clarity essential to reduce exam length and manage dose

    Diagnostically relevant details such as catheters or small vessels must be visible with great clarity, even in challenging viewing conditions with large variations in tissue radio-density. Clarity is essential to reduce exam length and manage dose, and is particularly important for pediatric patients, as well as for those who are immobile or very sick.  

    Dynamic UNIQUE is a second-generation multiscale image enhancement that provides a high level of detail, according to the diagnostic need, in real time. Each single frame is fully processed, without significant additional computation time (below 14 ms for fluoroscopy, below 55 ms for exposures), even at high frame rates (up to 30 fps). Therefore, the diagnostically important image content is optimally enhanced according to the clinical task. Dynamic UNIQUE features a perfect harmonization of areas filled with contrast agent, soft tissue, and bones, even in challenging viewing conditions with large variations in tissue radio-density. Contrary to traditional multiscale enhancement algorithms, Dynamic UNIQUE processing strictly separates global and local contrast enhancement, preventing undesired enhancement artifacts. If desired it is easily customizable according to the diagnostic need.

    Optimal representation and visibility of diagnostically important information results in an enhancement of diagnostic details, such as small vessels and catheters, without enhancement artifacts or image clipping. A lessened risk to miss important details leads to an increase in diagnostic confidence.

    Clarity essential to reduce exam length and manage dose

    Diagnostically relevant details such as catheters or small vessels must be visible with great clarity, even in challenging viewing conditions with large variations in tissue radio-density. Clarity is essential to reduce exam length and manage dose, and is particularly important for pediatric patients, as well as for those who are immobile or very sick.  

    Dynamic UNIQUE is a second-generation multiscale image enhancement that provides a high level of detail, according to the diagnostic need, in real time. Each single frame is fully processed, without significant additional computation time (below 14 ms for fluoroscopy, below 55 ms for exposures), even at high frame rates (up to 30 fps). Therefore, the diagnostically important image content is optimally enhanced according to the clinical task. Dynamic UNIQUE features a perfect harmonization of areas filled with contrast agent, soft tissue, and bones, even in challenging viewing conditions with large variations in tissue radio-density. Contrary to traditional multiscale enhancement algorithms, Dynamic UNIQUE processing strictly separates global and local contrast enhancement, preventing undesired enhancement artifacts. If desired it is easily customizable according to the diagnostic need.

    Optimal representation and visibility of diagnostically important information results in an enhancement of diagnostic details, such as small vessels and catheters, without enhancement artifacts or image clipping. A lessened risk to miss important details leads to an increase in diagnostic confidence.

    Gridless X-ray capabilities

    Attaching and de-attaching a grid in urgent care situations adds time and physical effort to the imaging process. This slows the path to diagnosis and increases the chance of error through potential issues like grid misalignment. Gridless X-ray capabilities provide a solution to this challenge, but come with their own set of complications such as an increased likelihood of scattered radiation that negatively impacts image quality.

    SkyFlow gridless X-ray reduces the effect of scattered radiation for non-grid bedside chest exams, allowing for DR images with grid-like contrast while avoiding the time and effort of attaching and detaching a grid. SkyFlow identifies scatter signal and automatically applies correction immediately at the bedside, allowing radiologists to review images and make decisions on the spot.   

    With no grid to attach, SkyFlow scatter correction algorithm achieves the high-image contrasts that lead to a confident clinical diagnosis in emergency settings.

    An image taken without the grid (top), and an image taken without the grid and with SkyFlow scatter correction (bottom)

    MR for the ED

    Performing rapid, robust MRI exams


    High lipid concentration of adipose tissues can make it difficult to interpret MRI exams. Information can be missed when the right acquisitions, such as with as well as without fat suppression, are not included. While this can be solved by adding sequences, this adds to the duration of the exam and increases the likelihood for patient motion – a source of image degradation.

     

    Through Philips mDIXON XD fat suppression application, we can help radiology teams achieve robust capturing of fat-free MRI images in a hectic ED environment. This technology brings a new dimension to fat-free imaging suppression by providing uniform, complete and consistent fat-free images as well as images with both water and fat at the same time, especially useful when time is of the essence

     

    Robust with regard to susceptibility-type problems that come up with traditional spectral fat-free images, mDIXON XD can bring speed and clarity to MRI imaging.

    CT for the ED

    Finding root cause of abdominal pain

    When patients present to the ER complaining of abdominal pain, finding the root cause quickly can be challenging using conventional images.

    IQon Spectral CT consistently captures spectral information without special planning or set-up. In this case of a middle-aged female presenting to the ER complaining of abdominal pain, an abdomen/pelvis scan was ordered. The patient was scanned on the IQon Spectral CT.

    Upon reviewing the conventional CT, the clinician noted that the pancreatic duct appeared to be dilated, but they could not identify the cause from the conventional images. The scan was immediately reviewed using Spectral Magic Glass, which allowed the radiologist to view five different spectral results without changing his workflow. Upon review of the various results, the clinician identified a lesion in the head of the pancreas and the patient was referred for an endoscopic ultrasound biopsy. That pathology report identified a tubular adenoma of the Ampulla of Vater.

    Images courtesy of UCL Brussels, Belgium

    Finding root cause of abdominal pain

    When patients present to the ER complaining of abdominal pain, finding the root cause quickly can be challenging using conventional images.

    IQon Spectral CT consistently captures spectral information without special planning or set-up. In this case of a middle-aged female presenting to the ER complaining of abdominal pain, an abdomen/pelvis scan was ordered. The patient was scanned on the IQon Spectral CT.

    Upon reviewing the conventional CT, the clinician noted that the pancreatic duct appeared to be dilated, but they could not identify the cause from the conventional images. The scan was immediately reviewed using Spectral Magic Glass, which allowed the radiologist to view five different spectral results without changing his workflow. Upon review of the various results, the clinician identified a lesion in the head of the pancreas and the patient was referred for an endoscopic ultrasound biopsy. That pathology report identified a tubular adenoma of the Ampulla of Vater.

    Learn how Philips solutions help radiologists overcome obstacles to confident diagnosis. See them all:

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