Advanced Imaging Technology Aids in Stroke Diagnosis and Treatment
According to the American Heart Association, stroke is the leading cause of serious, long-term disability in the U.S., and it ranks third in causes of death. It is often said that “time is brain,” since the faster the clinician can detect areas of decreased blood flow and determine the optimal treatment plan, the better the patient’s chances for survival and recovery. Toshiba has a host of technologies that help medical professionals better diagnose and treat patients presenting with stroke symptoms.
Ultrasound – Carotid Intervention
As with many other conditions, ultrasound is often the first modality physicians turn to when evaluating a patient presenting with stroke symptoms. It’s a key tool for evaluating the carotid arteries to identify the presence and type of plaque buildup the patient could have. Two key Toshiba features for ultrasound are particularly useful in stroke imaging.
Precision Imaging: This technology enhances image clarity and resolution to help physicians visualize plaque in the carotid arteries. Precision Imaging increases diagnostic confidence by providing more detailed ultrasound images so physicians can quickly determine the next steps in a patient’s treatment. As a multiresolution signal processing technology, it not only evaluates images line by line but also includes information from adjacent lines to enhance the amount of information obtained. As a Toshiba exclusive software, Precision Imaging’s ability to capture information from multiple lines improves the definition of the structure, provides more detail and minimizes noise and clutter.
Advanced Dynamic Flow™: Advanced Dynamic Flow 
improves very high resolution for greater diagnostic confidence for vascular structures. This sensitivity helps to better visualize the degree of stenosis in the carotid arteries. Using the same ultra-high bandwidth normally used only in B-mode for doppler signal processing, Advanced Dynamic Flow simultaneously provides both high spatial resolution and high frame rates to accurately display flow with directional information, even in tiny vessels.
CT – Faster Stroke Assessment
When a patient comes to a hospital’s emergency department (ED) exhibiting stroke symptoms, it can take hours to diagnose and treat the patient when time is of the essence. Toshiba’s Aquilion® ONE dynamic volume CT system has the ability to improve the quality of life for patients with neurological symptoms, especially related to stroke, by reducing diagnosis time to minutes with half the dose of conventional CT.
The Aquilion ONE allows physicians to reduce diagnosis time for life-threatening conditions such as stroke from hours or days to minutes. Unlike any other CT system available, the Aquilion ONE covers up to 16 cm of anatomy using 320 ultra-high-resolution 0.5 mm detector elements to image an entire organ, including the brain, in a single rotation. It can show the organ’s dynamic blood flow and real-time function. The ability to see dynamic function, such as blood flowing through the brain, is critical for stroke patients in emergency settings and enables rapid and accurate diagnosis when time is critical. Coverage can also be collimated to a smaller area to reduce the dose to the patient.
This Neuro ONE acute stroke imaging protocol on Aquilion ONE combines non-contrast CT, cerebral blood flow analysis and four-dimensional digital subtraction angiography (DSA) into a single exam. By combining these exams into a single low-dose protocol, full stroke workup can be performed in less than five minutes.
Magnetic Resonance – High-Sensitivity Stroke Imaging
MRI is particularly beneficial for diagnosing acute ischemic stroke because it is highly sensitive to detecting microscopic changes in blood and oxygen in the brain. Toshiba MR integrates other techniques that further enhance MR’s role in stroke diagnosis.
Non-contrast techniques: Not only are there safety concerns when imaging with gadolinium, but also having to add contrast injections to a stroke evaluation can take time that is not a luxury in these emergency situations. Toshiba offers the most robust suite of non-contrast techniques that are beneficial for stroke analysis. For example, the V-TRACE sequence can shorten brain imaging time.
V-TRACE Sequence: This non-contrast MRA sequence available on all Vantage Titan™ and Vantage Atlas® systems, streamlines MRA brain imaging. The sequence acquires four image contrasts in one sequence, providing an imaging application for visualizing slow- and fast-flow vessels separately and together, as well as the brain tissue surrounding the vessels.
V-TRACE MRA is a dual-echo 3D FE sequence in which the first echo is acquired using Time-Of-Flight (TOF) and the second echo is acquired using Flow Sensitive Black Blood (FSBB). The sequence combines the advantages of both techniques to produce MRA images that depict blood vessels with both high and low velocity. The sequence design reduces the Specific Absorption Rate (SAR), which is a measurement of heat generated to the body during a MRI. Additionally, the TOF data can be used to evaluate the brain parenchyma. The images produced by the V-TRACE sequence improve the speed and accuracy of diagnosis.
Patient-friendly features: Toshiba’s patient friendly MR features make imaging easier for the patient. Several features reduce the feeling of claustrophobia that often accompanies MR exams. For example, the Titan’s large bore allows patients more room during the exam. Also, Toshiba’s head coil – important in the imaging of stroke – has 10 elements and very high signal to noise, which means it is not always necessary to utilize the top of the coil to image, reducing claustrophobia during an exam.
Infinix™-i Biplane Vascular X-ray System – Efficient Stroke Treatment
Toshiba’s Infinix-i biplane system has been developed with a number of tools to provide methods for neuro-interventionalists to develop treatment plans for patients more quickly. There are four key components of the system that make it ideal for stroke analysis.
Two 12×12-inch detectors: The midsize flat-panel detectors are ideal for brain imaging because they allow physicians to get two complete views of the cerebral vascular anatomy with each contrast injection, which not only helps to minimize the contrast load to the patient, but also provides better visualization due to the increased anatomical coverage when compared to two small detectors. Additionally, these midsized detectors allow physicians to obtain steeper compound angle views than can be obtained on systems with two large detectors.
3D angio visualization: This technology provides a three-dimensional image volume that can be rotated and manipulated in real time to ideally sort out superimposed vascular anatomy. Additionally, the two-dimensional multiplanar reformations enable physicians to dissect the image data from a variety of angles.
Variable isocenter: This key feature can dramatically improve patient safety during imaging. For example, some patients who are experiencing an aneurysm or subarachnoid hemorrhage may need a ventriculostomy to monitor and control intracranial pressure. Changing the table height in order to get the best imaging angles can present a dangerous challenge for physicians, because changing the table height can negatively impact the intracranial pressure and potentially injure the patient. Toshiba’s lateral plane variable iso-center feature allows optimal positioning for imaging the brain, eliminating the need for table height adjustment, as is done on all competitive biplane angiographic systems. Physicians do not have to raise or lower the table to get the best angle, eliminating simple positioning as a concern for causing change in intracranial pressure.
Five-axis positioner: Toshiba’s Infinix-i C-arm offers unprecedented patient access with a C-arm five-axis positioner that allows head-to-toe and fingertip-to-fingertip coverage. 
The freely moving components, ergonomically friendly design and five-axis positioner enable physicians to obtain optimal angles for neurological diagnosis and interventional procedures without repositioning the patient. Neuro-interventions typically are done with the patient under general anesthesia or heavy sedation, requiring anesthesia support during the procedure. The five-axis c-arm provides multiple setup configurations to provide unrestricted access to the headend of the table for patient care while preserving biplane projection capabilities.
Click here to download a printer-friendly version.
Tags: CT, Heart, Ultrasound
Category: Medical Imaging —