Services

SERVICES

Customizable and Requirement-Based Services

Tailored Solutions for Your Radiology Needs

Experience personalized and flexible teleradiology services designed to meet the unique requirements of independent radiologists and radiology groups in the USA and Australia.

Report Type

  • Pre-Reads: Preliminary reports prepared by our expert radiologists to assist in clinical decision-making.
  • Secondary Reads: Comprehensive review and analysis of imaging studies to provide additional insights and confirmation.
  • Final Reads: In-depth and conclusive reports, incorporating all relevant clinical data and findings.

Turn Around Time

  • 24-Hour TAT: Guaranteed delivery of reports within 24 hours to ensure timely diagnosis and treatment.
  • Project Based: Customized turnaround times to meet the specific requirements of your radiology project.
  • Emergency/ STAT: Expedited reporting services for urgent cases, with priority given to critical imaging studies.

Requirement Based

  • Daily Reporting: Consistent and reliable daily reporting services to support your radiology practice.
  • Subspeciality Coverage: Access to a wide range of subspecialty expertise for accurate and specialized reporting.
  • Second Opinion/ Case Review: Independent and unbiased review of complex or challenging cases for added confidence in the diagnosis.
  • Legal Reporting: Comprehensive and objective radiology reports for medico-legal purposes.
  • Holiday/ Odd Hours Coverage: Uninterrupted radiology support during holidays and non-business hours to ensure continuity of care.
  • Backlog Clearance: Efficient handling and reporting of accumulated imaging studies to help reduce the backlog and improve workflow.
  • Audit/ Quality Review: Thorough assessment and evaluation of radiology reports to ensure quality and compliance.
  • Insurance Radiology: Accurate and timely radiology reports to support insurance claims and evaluations.
  • Age of Injury: Expert analysis of imaging studies to determine the age of an injury for legal and insurance purposes.
  • Causality Analysis: In-depth investigation of the cause and contributing factors of an injury or condition.
  • Workers Compensation: Specialized radiology reporting services for workers’ compensation cases, with a focus on accurate and timely diagnosis.
SERVICE MODELS

Flexible Pricing Models for Optimal Efficiency

Choose from our diverse range of service models to find the perfect fit for your radiology practice’s needs and budget.

Pay As You Go/ Number of reports-based SERVICES:

Experience ultimate flexibility with our Pay As You Go, pricing model, perfect for businesses with fluctuating needs. With this option, you only pay for the number of reports you require, allowing you to effectively manage your budget and scale your services as needed. Ideal for startups and growing businesses, our Pay As You Go model ensures you receive top-notch service without any long-term commitments.

Man-Hour Based/ FTE (full-time equivalent) based pricing:

Achieve seamless integration with our Man-Hour Based pricing model, designed for businesses seeking dedicated support and expertise. With this option, you pay for a full-time equivalent (FTE) professional who will work closely with your team, offering unparalleled knowledge and experience in their field. This model ensures you receive consistent, high-quality service while allowing you to better manage your resources and budget. Ideal for larger organizations and those with ongoing projects, our FTE-based pricing model delivers exceptional value and peace of mind.

Sub-Specialties Covered

Comprehensive Subspecialty Expertise

Benefit from our extensive range of subspecialty services, ensuring accurate and detailed reporting for a wide variety of medical conditions.

  • General Radiology: Our general radiology services provide a wide range of diagnostic imaging techniques, including X-rays, CT scans, and ultrasounds to accurately diagnose and monitor various medical conditions.
  • Injury-Reporting: We specialize in detailed injury reporting for patients involved in motor vehicle accidents, personal, and work-related injuries, ensuring proper documentation and assessment for insurance and legal purposes.
  • Motor Vehicle Accidents: Our radiologists are experienced in diagnosing and documenting injuries sustained in motor vehicle accidents, providing crucial evidence for insurance claims and medical treatment.
  • Personal And Work-Related Injuries: We offer comprehensive imaging services to evaluate personal and work-related injuries, helping patients receive proper compensation and treatment to facilitate recovery.
  • Cardiovascular Imaging: Our advanced cardiovascular imaging techniques, such as echocardiograms and CT angiography, help detect and evaluate heart and blood vessel conditions, allowing for proper diagnosis and treatment.
  • Breast Imaging: We provide a full range of breast imaging services, including mammography, breast ultrasound, and breast MRI, for early detection and assessment of breast cancer and other breast conditions.
  • Musculoskeletal Imaging: Our musculoskeletal imaging services utilize cutting-edge technology to diagnose and monitor conditions affecting the bones, joints, and soft tissues, aiding in treatment planning and recovery.
  • Nuclear Medicine: Our nuclear medicine services use small amounts of radioactive materials to diagnose and treat a variety of conditions, including cancer, heart disease, and thyroid disorders.
  • Neuroradiology: Our neuroradiology experts specialize in imaging the brain, spine, and nervous system, providing essential information for the diagnosis and treatment of neurological conditions.
  • Abdominal Radiology: Our abdominal radiology services focus on imaging the organs and structures within the abdomen, aiding in the diagnosis and treatment of conditions affecting the gastrointestinal, genitourinary, and lymphatic systems.
  • Pediatric Radiology: Our pediatric radiology services cater specifically to the unique needs of children, providing safe and accurate imaging for the diagnosis and treatment of various childhood conditions.
  • Onco Radiology: Our oncoradiology services specialize in the detection, diagnosis, and monitoring of cancer, utilizing advanced imaging techniques to aid in treatment planning and assessment of treatment response.
  • Thoracic Radiology: Our thoracic radiology services focus on imaging the chest, including the lungs, heart, and surrounding structures, to diagnose and treat conditions such as lung cancer, pneumonia, and heart disease.
Modalities Covered
  • MRI: MRI is an advanced medical imaging procedure that uses a powerful magnetic field, radio waves, and a computer to create cross-sectional images.
  • CT: Computed Tomography (CT) helps differentiate between healthy and diseased tissue in any part of the body, making it possible to accurately diagnose many diseases at an early stage.
  • DIGITAL X-RAY: X-ray is the most frequently used form of medical imaging worldwide. It is used to diagnose disease, monitor therapy, and identify potential problems throughout our bodies. It can be performed anywhere from head to toe.
  • Ultrasound: Ultrasound uses sound waves and a computer to create images of internal organs and blood vessels and to monitor health conditions.
  • Digital Mammography: Mammography is a type of low-dose X-ray of the breast. It reveals masses and micro-calcifications within and around the breast that may indicate breast problems.
  • Nuclear Medicine: Nuclear Medicine uses very small amounts of radioactive materials (also called radiopharmaceuticals) to diagnose and treat disease.
  • PET: PET/CT is a specialized type of nuclear imaging. Its primary use is in the evaluation of cancer. Less common uses include a neurological and cardiac evaluation.
  • DEXA: A Bone Density scan (DEXA) measures the density and mineral content in bone, most often in the hip or lower spine.
  • Fluoroscopy: Fluoroscopy uses a continuous low-dose X-ray beam, often combined with a contrast material (dye), to produce images of organs and bones in real-time.
Area Of Body Covered:
  • Abdominal Imaging: Abdominal imaging addresses the health of the colon, intestines, kidneys, liver, pancreas, pelvis, and stomach.
  • Brain & Spine Imaging: Our neuroradiologists investigate pathologies and injuries of the head, neck, and spine using some of the most advanced imaging technologies available.
  • Breast Imaging: Breast cancer is the second most common cancer in women (after lung cancer). Early detection of breast cancer vastly increases survival rates.
  • Cardiac & Vascular Imaging: Cardiac imaging has made significant strides to improve our ability to more accurately identify abnormalities at an early stage, helping to provide minimally-invasive treatments where applicable.
  • Chest Imaging: We provide a range of diagnostic and interventional procedures in the thoracic area, from screening to angiography, to help patients and referring physicians.
  • Musculoskeletal Imaging: Musculoskeletal radiology evaluates a wide variety of conditions related to a patient’s back, bones, joints, muscles, neck, and spine.
Procedures Covered
  • Bone Density Scan (DEXA): A dual-energy X-ray absorptiometry (DEXA) scan measures the density and mineral content in bone, most often in the hip or lower spine. It is the most accurate method of determining bone density and potential problems related to bone loss. This test is a valuable tool for diagnosing osteoporosis, which often has no symptoms until you suffer a fracture. A bone density scan can diagnose the disease at its earliest stages, which means you can begin receiving treatment to protect your bones sooner.
  • 3D Mammography: 3D mammography (tomosynthesis) is an FDA-approved technology that complements conventional 2D mammography. While traditional mammography generates 2D images, 3D mammography creates multiple thin 3D image slices that allow each section of the breast tissue to be seen more clearly. A 3D mammogram looks and feels like a regular mammogram. An x-ray arm scans over your breast taking multiple 3D images at various angles. Each scan takes about 4 seconds and the entire 3D mammogram lasts about 15-20 minutes.
  • Amyloid Brain PET/CT: Amyloid brain PET/CT is used to directly image amyloid deposition in the brain which can be found in patients with Alzheimer’s Disease. This can help confirm or exclude this diagnosis in patients with memory loss. Amyloid PET can be positive in patients with Alzheimer’s up to 20 years before the patient becomes symptomatic.
  • Angiogram: An angiogram is an X-ray exam of the arteries and veins to diagnose blockages and other blood vessel problems. It can reveal the integrity of the cardiovascular system in specific areas throughout the body. Combined with the use of an intravenous contrast medium injected via a catheter, an angiogram identifies areas of blockage or damaged vessels within the circulatory system. CT and MRI may also be used to gain additional images of the arteries.
  • Arthrogram: An arthrogram is an X-ray exam of a joint, using a contrast agent and fluoroscopy (a live motion X-Ray). It is used to diagnose the cause of pain or restricted motion of a joint as well as injury to the components of the joint including, the tendons, soft tissues, ligaments, labrum, cartilage, and bones. Often this procedure is used to image the shoulder and hip joints, and it is also used when investigating the knees, elbows, ankles, and wrists. CT and MRI may also be used to gain additional images of the joint.
  • Breast MRI: Some women — because of their family history, a genetic tendency, or certain other factors — should be screened with MRI in addition to mammograms. The number of women who fall into this category is small: less than 2 percent of all the women in the United States. Talk with your doctor about your history and whether you should have additional tests. Breast MRI helps to detect small lesions sometimes missed by mammography — without using radiation or compressing the breasts. MRI uses powerful magnets and radio waves to take very clear pictures of soft tissues, so it can be extremely useful in breast imaging.
  • Breast Ultrasound: Ultrasound uses sound waves instead of X-rays to examine breast tissue. A transducer is passed over the breast. The transmitted sound waves are translated into a picture on a monitor. It does not cause discomfort and, because it does not use radiation, it carries very little risk. Ultrasound is useful for women with dense breasts or for evaluating suspicious areas seen by mammography or felt during a breast exam. It can also find breast lesions that are close to the chest, where mammography is less useful. Breast ultrasound can distinguish between cysts, which are fluid-filled, versus other types of solid breast masses.
  • Cardiac MRI: Cardiac MRI is used to obtain detailed images of the heart. It helps physicians evaluate heart structures, such as the cardiac chambers and valves, major vessels, and the pericardium (a small structure that surrounds the heart). Disorders such as coronary artery disease, irreversible scarring after a heart attack, tumors, infections, and inflammation can all be diagnosed and monitored using MRI. Physicians also use MRI to plan future patients’ treatment.
  • Carotid Ultrasound: Carotid ultrasound uses sound waves to produce pictures of the carotid arteries in the neck which carry blood from the heart to the brain. A Doppler ultrasound study, a technique that evaluates blood flow through a blood vessel, is usually a part of this exam. It is most frequently used to screen patients for blockage or narrowing of the carotid arteries which may increase the risk of stroke.
  • Coronary Artery Calcium Scoring: This exam is part of a sophisticated high-speed CT exam of the heart. During the scan, which takes just seconds, the equipment measures the amount of calcium present and calculates a score. The lower the score, the lower the potential risk of an adverse future cardiac injury. (Calcium often covers the atherosclerotic plaque that builds up inside arteries. This plaque and calcium can lead to narrowing of the inside of the arteries which could in turn lead to an increased risk of angina, and a heart attack.) This test can assess coronary heart disease, which is often asymptomatic and is the most common cause of death for patients in the United States.
  • Digital Mammography: Mammography is a type of low-dose X-ray of the breast. It reveals masses and micro-calcifications within and around the breast that may indicate breast problems including, but not just limited to cancer. Experts recommend a mammography screening of the breasts at regular intervals to increase the chance of early cancer detection and treatment. The American College of Radiology recommends women aged 40 and older should have a screening mammogram every year and should continue to do so for as long as they are in good health.
  • Digital X-ray: X-ray is the oldest and most economical form of medical imaging. During the procedure, radiation passes through the body onto “film” (now digitized and displayed on a computer screen). In neuroimaging, spinal X-rays are used to assess the degree of spinal motion with flexion or extension.
  • Enterography: This is an accurate and noninvasive imaging procedure used to assess and evaluate certain gastrointestinal problems, such as inflammatory bowel disease (including Crohn’s Disease), infectious enteritis, lymphoma or tuberculosis. It also can be used in patients with gastrointestinal bleeding to determine if a small bowel polyp is causing the bleeding. Enterography may be performed using MRI or CT.
  • FDG Brain PET/CT: A FDG brain PET/CT is used to image the metabolic function of the brain. Positron emission tomography (PET) uses small amounts of radioactive materials called radiotracers, a special camera, and a computer to help evaluate the brain. It is most commonly used to calculate the degree and pattern of brain volume loss, which allows the neuroradiologist to assess for different types of neuro dementia syndromes. It can also help differentiate recurrent brain tumors vs. radiation change after a patient has had brain surgery. Additionally, it can help identify the seizure focus in patients with epilepsy.
  • Hepatobiliary Scan: The biliary system is comprised of the liver, gallbladder, and bile ducts, and a hepatobiliary exam, or HIDA, evaluates issues in that system. A radioactive tracer is injected (or inhaled or swallowed) and then taken up by the target organs. In this way, the clinician can see how well they function. It shows if the bile ducts are closed or leaking, if the gallbladder is inflamed, or if the liver is abnormal. HIDA is a nuclear medicine test, which delivers information that often cannot be obtained by other procedures.
  • Hysterosonography: Hysterosonography uses ultrasound to produce images of the inside of a woman’s uterus and help diagnose unexplained vaginal bleeding. Hysterosonography is performed very much like a gynecologic exam and involves the insertion of an ultrasound transducer into the vagina to study the lining of the uterus.
  • Lower Dose 3D Mammography: 3D mammography (tomosynthesis) is an FDA-approved technology that complements conventional 2D mammography. While traditional mammography generates 2D images, 3D mammography creates multiple thin 3D image slices that allow each section of the breast tissue to be seen more clearly. New imaging software used with our 3D mammogram units enables us to offer a lower-dose 3D exam. The software eliminates the need to obtain additional 2D images as part of the 3D exam, as previously required. This reduces the radiation dose, making it similar to that of a traditional 2D mammogram. A 3D mammogram looks and feels like a regular mammogram. An x-ray arm scans over your breast taking multiple 3D images at various angles. Each scan takes about 4 seconds and the entire 3D mammogram lasts about 15-20 minutes.
  • Lung Perfusion: A ventilation/perfusion lung scan (also known as a V/Q lung scan) assesses the circulation of air (ventilation) and blood (perfusion) in a patient’s lungs. The exam is useful for identifying blood clots or abnormal flow in the lungs or serious lung disorders such as chronic obstructive pulmonary disease (COPD) or a pulmonary embolism. The V/Q scan uses intravenous material (radiotracers) to show the functional health of the organs.
  • MRI-Guided Breast Biopsy: MRI-guided biopsy uses MRI to guide the radiologist to the exact location of the area of concern. MRI biopsy is usually used when the abnormality can be best seen on breast MRI, but not as well visualized on a mammogram or ultrasound. Often lesions that are biopsied are done under the imaging modality that best demonstrates them. Image-guided biopsy allows patients to avoid hospitalization and general anesthesia (previously necessary with traditional surgical biopsy). It is a valuable method of getting a fast, accurate, conclusive diagnosis—without unnecessary time, pain, or expense to the patient.
  • MRI of the Cranial Nerves: MR imaging of the cranial nerves uses special thin-slice sequences to screen for the pathology of the cranial nerves.
  • MRI/CT of areas of interest: Neuroimaging protocols are tailored to the area of interest (brain, spine, neck, orbits, pituitary, sinuses, peripheral nerves) with both CT and MRI techniques. MRI provides the highest level of anatomic soft tissue detail, so it is the optimal choice for most neuroimaging. MRI is also preferred because (unlike CT) it uses no radiation, so it is a very safe technique for the patient. CT uses radiation but is a very fast technique and has some advantages in the evaluation of the bones. CT of the spine is often used to assess for successful bony fusion following spinal fusion surgery.
  • MUGA Heart Scan: A multi-gated acquisition (MUGA) scan creates video images that show whether the lower chambers (ventricles) of the heart are pumping blood properly. MUGA uses intravenous material (radiotracers) to show how blood moves through the heart. MUGA can be used to check for pre-existing cardiac conditions prior to chemotherapy, or after treatment to assess possible side effects.
  • Myelogram: Myelography is an exam in which contrast material is injected into your spinal column and then that contrast and spinal anatomy are imaged with the CT technique. This allows the neuroradiologists to evaluate areas of nerve root impingement, canal narrowing, or disc protrusions. It is typically used when a patient is not a candidate for MRI.
  • Myocardial Perfusion: This non-invasive exam shows how well blood perfuses (flows through) your heart muscle—in other words, how well your heart is pumping. Sometimes known as a nuclear stress test, it can be performed while the patient exercises on a treadmill or, if that is inadvisable, using a medicine that simulates the effect of exercise on the heart. Myocardial perfusion is an effective way to assess narrowed arteries, the effects of a past heart attack, or the viability of further procedures, such as a stent.
  • Pelvic Ultrasound: Ultrasound imaging of the pelvis uses sound waves to produce pictures of the structures and organs in the lower abdomen and pelvis. There are various types of pelvic ultrasounds including abdominal, vaginal, and rectal. These exams are frequently used to evaluate the reproductive and urinary systems. Ultrasound is safe, noninvasive, and does not use ionizing radiation.
  • Prostate MRI: Magnetic resonance imaging (MRI) of the prostate uses a powerful magnetic field, radio waves, and a computer to produce detailed pictures of the structures within a man’s prostate gland. It is primarily used to evaluate the extent of prostate cancer and determine whether it has spread. It also may be used to help diagnose infection, benign prostatic hyperplasia (BPH) or congenital abnormalities.
  • Prostate Ultrasound: Ultrasound is a non-invasive procedure that uses sound waves to image the structure and movement of the body’s internal organs, as well as blood flowing through blood vessels, in real-time. The prostate gland and surrounding tissue are examined by the insertion of an ultrasound probe into the patient’s rectum. There are no harmful effects, and it gives a clearer picture of soft tissues than X-ray images.
  • Renal Ultrasound: A renal ultrasound is a safe and painless test that uses sound waves to produce images of the kidneys and bladder. The kidneys are a pair of bean-shaped organs located toward the back of the abdominal cavity, just above the waist. They remove waste products from the blood and produce urine.
  • Scrotum Ultrasound: Ultrasound imaging of the scrotum uses sound waves to produce an image of a man’s testicles and the surrounding tissue. It is primarily used to help evaluate disorders of the testicles, and scrotum. Ultrasound does not use ionizing radiation.
  • Sinus CT: CT of the sinuses uses special X-ray equipment to evaluate the hollow, air-filled spaces within the bones of the face surrounding the nasal cavity. CT scanning is painless, noninvasive, and accurate. It’s also the most reliable imaging technique for determining if the sinuses are obstructed and the best imaging modality for sinusitis.
  • Sodium Fluoride Bone: Positron emission tomography (PET) and computed tomography (CT) are state-of-the-art diagnostic imaging tools. A PET/CT scan with a sodium fluoride injection is an imaging test that scans the entire skeletal system and produces images of the bones. These images are used to detect areas of abnormal bone growth associated with tumors that may have spread from different parts of the body.
  • Stereotactic Breast Biopsy: Stereotactic biopsy uses mammography to precisely guide clinicians to a lump or abnormality such as an area of calcification, that cannot be felt or seen on ultrasound. Clinicians see a 3D picture of the lump’s exact location. Image-guided biopsy allows patients to avoid hospitalization and general anesthesia (previously necessary with traditional surgical biopsy). It is a valuable method of getting a fast, accurate, conclusive diagnosis without unnecessary time, pain, or expense to the patient.
  • Three-Phase Bone Scan: A three-phase bone scan is a nuclear medicine test, it uses radiotracers that are injected (or inhaled or swallowed). The radiotracers are detected by a special camera to provide pictures to diagnose a fracture when it cannot be seen on an X-Ray. It is also used to diagnose bone infection, bone pain, osteomyelitis, as well as other bone diseases.
  • Thyroid Imaging: A thyroid scan shows, in video images, how well a patient’s thyroid is functioning, along with its structure and position. This type of study can be used to diagnose hyperthyroidism, cancer, and other abnormalities, such as lumps or inflammation, in this important organ. Like other scans that are used to determine whether an organ is functioning properly, a thyroid scan is a nuclear medicine test; that is, it uses intravenous radiotracers detected by a special camera to provide pictures that show
  • Transvaginal Ultrasound: Transvaginal ultrasound imaging of the abdomen uses sound waves to produce pictures of the structures and organs in and around a woman’s uterus. Transvaginal (TV) ultrasounds are performed very much like a gynecologic exam and involve the insertion of an ultrasound transducer into the vagina to study the lining of the uterus. These exams are frequently used to evaluate the reproductive and urinary systems. Ultrasound is safe, noninvasive, and does not use ionizing radiation.