![]() This partnership brings together expertise, With Green Imaging and CURA4U, individuals can prioritize their health withoutĬompromising on quality or affordability. Their diagnostic information and appointments. Individuals can also leverage the CURA4U App for a streamlined approach to managing In line with CURA4U's commitment to providing a seamless healthcare experience, The process is user-friendly – simply select the desired imaging service, makeĪ secure payment, and visit a nearby Green Imaging centre for the procedure. CURA4U customersīenefit from substantial cost savings, making essential medical imaging more affordable Through the strategic alliance between CURA4U and Green Imaging, customers canĪccess these cutting-edge imaging services at unparalleled prices. Green Imaging's commitment to enhancing the overall patient experience. TheĬonvenience of scheduling appointments and the efficiency of services are key pillars of The organization is at the forefront of technologicalĪdvancements, ensuring that patients receive accurate and timely results. Known for their dedication to patient-centric care, Green Imaging emphasizes qualityĪnd precision in diagnostic imaging. The diverse needs of individuals across the United States. Screenings to more specialized imaging procedures, Green Imaging's services cater to Technology, providing a wide spectrum of diagnostic imaging services. Green Imaging boasts a network of imaging centres equipped with state-of-the-art Medical imaging accessible, Green Imaging offers a diverse range of services throughĬURA4U, empowering patients to take control of their health and well-being. Individuals seeking comprehensive healthcare. With CURA4U brings affordable and high-quality diagnostic imaging solutions to Green Imaging, a leading provider of advanced medical imaging services, in partnership As with any medical test, patients should discuss any concerns or questions with their healthcare provider before undergoing the test. However, the amount of radiation used in an X-ray is generally considered to be safe for most people. It's important to note that X-rays use a small amount of radiation, so healthcare providers may limit the use of X-rays in some patients, such as pregnant women. The procedure is non-invasive and painless, and typically takes only a few minutes to complete. It can also help to identify any abnormalities, such as bone spurs or changes in the alignment of the vertebrae.ĭuring the test, the patient will stand or sit in front of an X-ray machine while the images are taken. The test is often used to evaluate a range of conditions that affect the cervical spine, such as degenerative disc disease, spinal stenosis, herniated discs, or fractures. The "flexion and extension" component involves tilting the head forward and backward to allow the healthcare provider to see how the vertebrae move and interact with one another during movement. The "obliques" component refers to the angle at which the X-ray images are taken, which allows the healthcare provider to view the cervical spine from different angles. The test involves taking X-ray images of the cervical spine, which is the upper part of the spine that includes the vertebrae in the neck. Future laboratory research is needed to determine the forces and impact directions required to produce the various known fracture types and dislocations for a clear, accurate description of the cervical spine impact dynamics.An X-ray of the cervical spine with obliques, flexion, and extension is a type of imaging test that is used to evaluate the bones and soft tissues of the neck. Flexion/compression damage to the cervical spine can be produced by prepositioning the subject so that upon impact, a three-dimensional motion of the head and neck occurs. However, the two-dimensional (midsagittal) movement of the head bowing into the chest does not routinely produce flexion/compression type damage to the cervical spine. Results indicate that crown-of-head impacts can routinely produce compression of the neck with extension or flexion motion. Only recently have dynamic impact studies been conducted. However, many of the laboratory experiments used static loading techniques of cervical spine segments. Neck injury mechanisms have been hypothesized from clinically observed cervical spine injuries without laboratory verification. This article reviews the many clinical and laboratory investigative research reports on the frequency, causes, and biomechanics of human cervical spine impact injuries and tolerances. ![]()
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