Kauvery hospital is a leading healthcare provider that is committed to using advanced radiological modalities to care its patients. The Radiology department in Kauvery hospital is equipped with multiple advanced imaging modalities like FUJI DR FDR SMART X-ray, Mylab7, Mylab8, Mylab9 & GE Ultrasound, GE REVOLUTION MAXIMA 128 SLICE- AI BASED Computed Tomography and SIEMENS Magnetic Resonance Imaging . Each imaging modalities is a state-of-the-art system offering high quality images, enabling accurate diagnosis and treatment planning.
The FUJI DR FDR SMART x-ray is a state-of-the-art digital radiography system that offers several benefits for patients and healthcare providers alike. One of the key features of the FDR SMART is its ability to deliver low radiation examinations. By using advanced image processing algorithms and a high-resolution detector, the FDR SMART is able to produce high-quality images with significantly less radiation exposure than traditional x-ray systems.
In addition to its low radiation capabilities, the FDR SMART also offers improved contrast resolution and accuracy in diagnosis. Its advanced imaging technology allows for better visualization of fine details and subtle abnormalities, making it easier for healthcare providers to identify and diagnose problems.
One of the key technologies that enables the FDR SMART to deliver such high-quality images is ISS (Integrated Smart Support) technology. This advanced algorithm uses machine learning and artificial intelligence to analyze and optimize x-ray images, resulting in improved image quality and diagnostic accuracy.
One of the areas where the FDR SMART has particularly demonstrated its value is in the examination of the spine and limbs. Its advanced imaging capabilities allow for accurate and detailed imaging of the spine, which can be useful for identifying problems such as scoliosis, intuitive follow up of patients after corrective surgery .
In addition, the FDR SMART’s ability to accurately measure limb length can be useful for identifying discrepancies or abnormalities that may require further investigation or treatment.
Overall, the FUJI DR FDR SMART x-ray is a powerful and advanced imaging tool that offers numerous benefits for patients and healthcare providers. Its low radiation capabilities and improved contrast resolution make it an ideal choice for accurate and detailed imaging, while its ISS technology and specialized protocols make it particularly useful for spinal and limb imaging.
The MyLab9 ultrasound machine is a state-of-the-art diagnostic tool that is widely used in a variety of medical settings. One of the primary applications of the MyLab9 is in liver elastography, a technique that utilizes ultrasound waves to assess the stiffness of the liver tissue. This is a non-invasive procedure that can be used to diagnose liver fibrosis and help predict the risk of liver failure.
Another common use of the MyLab9 is in transrectal prostate elastography, a procedure that uses ultrasound waves to assess the stiffness of the prostate gland. This can be helpful in diagnosing prostate cancer and other conditions that affect the prostate.
In addition to these applications, the MyLab9 is also frequently used for doppler studies of carotid artery to assess plaque ,which can lead to stroke and abdominal aortic and its branches doppler for diagnosing a variety of conditions, including abdominal aneurysms and other vascular abnormalities.
As for GE ultrasound machines, they are also widely used in the medical field and are known for their high-quality images and advanced features. In addition to being used for diagnostic purposes, GE ultrasound machines are also frequently used in intervention procedures such as renal biopsy, ascitic tapping, and muscle injection. Their ability to produce detailed images and to guide these procedures makes them a valuable tool for healthcare professionals.
The GE Revolution Maxima 128 slice CT is a state-of-the-art computed tomography (CT) scanner that utilizes advanced artificial intelligence (AI) technology to improve image quality and patient care. One of the key features of the Revolution Maxima is its auto-positioning capability, which allows the scanner to automatically adjust the patient table and gantry angles to optimize image acquisition. This helps to reduce scan times, dose reduction (miscentering causes magnification that leads to higher tube current and higher dose) and increase patient comfort.
In terms of speed and resolution, the Revolution Maxima is one of the fastest CT scanners on the market, capable of acquiring up to 128 slices in a single rotation with a high resolution for faster scanning and produces detailed & accurate images of the body’s internal structure. This is particularly useful for diagnostic purposes, such as full body trauma scan in 10 sec, reducing blurring artifacts due to motion in coronary vessels by Snapshot Freeze soft ware etc. It allows Radiologists to more easily detect abnormalities or disease.
One of the key technologies that enables the Revolution Maxima to produce such high-quality images is Adaptive Statistical Iterative Reconstruction (ASIR). This advanced algorithm reduces noise, artifacts in the images and improves spatial resolution up to 2 times at the same image noise, resulting in clearer, more accurate images and low dose to the patient.
In addition to its advanced imaging capabilities, the Revolution Maxima also has several other advanced features that make it a powerful tool for patient care. For example, the scanner is equipped with Snapshot Assist, Snapshot Freeze, Snaptshot pulse, CardIQ Xpress Reveal and CardIQ Function Xpress, software tools which are very much needed for cardiac imaging , as it provides information on anatomical, functional and perfusion information.
The Revolution Maxima also has specialized protocols for specific body regions, such as the thorax and liver. The Thoracic VCAR (Virtual Chest-Abdomen-Pelvis Reconstruction) protocol allows for automated detection, characterisation of all types of nodules, while the Hepatic VCAR protocol is optimized for imaging the liver. Both of these protocols can help improve diagnostic accuracy and speed up the process of identifying abnormalities or disease.
In addition to its advanced AI softwares, the Revolution Maxima is equipped with Bone VCAR protocol with Metallic Articfact Reduction (MAR) software for automated spine detection, labelling of vetrtebra and predictive screw implantation by eliminating metal artifacts with MAR.
In addition to its advanced imaging capabilities, the Revolution Maxima also offers CT perfusion, which allows for the measurement of blood flow and oxygenation in different parts of the body. This can be useful for identifying areas of poor perfusion or oxygenation, which can be indicative of disease or injury.
Finally, the Revolution Maxima is equipped with a dual energy source, which allows for the acquisition of images using two different energy levels. This can be useful for differentiating between different tissues and materials, such as bone and soft tissue.
Overall, the GE Revolution Maxima 128 slice CT is a powerful and advanced imaging tool that utilizes AI technology to improve image quality and patient care. Its auto-positioning, speed, resolution, and specialized protocols make it an invaluable tool for diagnostic purposes, while its dynamic shuttle and CT perfusion capabilities make it a valuable tool for monitoring and tracking the progression of disease.
Magnetic resonance imaging (MRI) is a diagnostic tool that uses strong magnetic fields and radio waves to produce detailed images of the body’s internal structures. The Siemens Magnetom MRI 1.5T is a state-of-the-art magnetic resonance imaging (MRI) machine that is widely used in the medical field. It is equipped with advanced imaging technology that allows it to produce detailed images of the body’s internal structures, making it a valuable tool for diagnosis and treatment planning.
One of the standout features of the Siemens Magnetom MRI 1.5T is its ability to perform functional MRI (fMRI) studies, which are used to assess brain activity. One of the most advanced imaging techniques used in fMRI is diffusion tensor imaging (DTI), which is used to assess the movement of water molecules in the brain. DTI allows healthcare professionals to visualize the brain’s white matter tracts, which are responsible for transmitting information between different regions of the brain.
Another advanced imaging technique that can be performed using the Siemens Magnetom MRI 1.5T is perfusion scanning, which is used to assess blood flow in the brain. This can be helpful in diagnosing a variety of conditions, including stroke, brain tumors, and other abnormalities.
In addition to DTI and perfusion scanning, the Siemens Magnetom MRI 1.5T is also capable of performing non-contrast angiography, which is used to visualize the blood vessels in the body. This can be useful in diagnosing a variety of conditions, including aneurysms, arterial stenosis, and other vascular abnormalities.
One of the latest advanced imaging techniques available on the Siemens Magnetom MRI 1.5T is brain volumetry, which is used to assess brain volume and determine if there are any abnormalities. This is performed using special software called NeuroShield, which is designed to analyze the images produced by the MRI machine and calculate brain volume.
The Siemens Magnetom 1.5 T MRI is also frequently used for cardiac MRI, which is a non-invasive technique that is used to assess the heart and its blood vessels. This can be helpful in diagnosing a variety of cardiovascular conditions, including coronary artery disease and heart failure.
Another common use of MRI is CSF flow study. During an MRI CSF flow study, a patient lies on a table that moves into the MRI machine. The machine uses a powerful magnet and radio waves to produce detailed images of the brain and spinal cord. These images can help doctors evaluate the flow of CSF and detect any abnormalities, such as blockages or abnormal accumulations of fluid. CSF flow studies are often used to diagnose and monitor conditions such as hydrocephalus (excess accumulation of CSF in the brain) and other disorders that affect the flow of CSF.
In addition to these applications, the Siemens Magnetom 1.5 T MRI is also sometimes used for MR mammography, which is a specialized technique that is used to assess the breast tissue. This can be useful in detecting breast cancer and other abnormalities.
Overall, the Siemens Magnetom MRI 1.5T is a powerful and versatile imaging tool that is widely used in the medical field. Its ability to perform a wide range of advanced imaging techniques, including DTI, perfusion scanning, non-contrast angiography, and brain volumetry, makes it an invaluable tool for healthcare professionals.
In conclusion, the radiology department at Kauvery Hospital is equipped with some of the most advanced imaging modalities available, enabling it to provide high-quality diagnostic services to patients. The department is equipped with the FUJI DR FDR SMART X-ray, a digital radiography system that produces high-resolution images of the body’s bones and tissues; the MyLab9 ultrasound machine, which uses high-frequency sound waves to produce detailed images of the body’s internal structures; the GE REVOLUTION MAXIMA 128 SLICE- AI BASED Computed Tomography (CT) machine, which is equipped with AI technology and produces highly detailed images; and the SIEMENS Magnetic Resonance Imaging (MRI) machine, which uses magnetic fields and radio waves to produce detailed images of the body’s internal structures. These state-of-the-art tools are invaluable for accurate diagnosis and treatment planning and enable Kauvery Hospital’s radiology department to provide exceptional care to patients.
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