A-Z

A CT scan (Computed Tomography) is an advanced imaging that uses rotating X-rays to create detailed 3D images of the body’s internal structures. It helps doctors see the brain, neck, chest, abdomen, pelvis, joints and blood vessels with exceptional clarity—often in just seconds.

Bone Density AI evaluates bone mineral density (BMD) using CT images already being taken, and it can be added onto your Chest CT or your Coronary Calcium Score exam. It helps identify early signs of bone loss – often years before symptoms – and doesn’t require any additional scan time or radiation.

A Coronary CT Angiography (CCTA) is a quick, non-invasive heart scan that captures detailed 3D images of your coronary arteries. It helps detect plaque buildup, narrowing, or other early signs of heart disease – often before symptoms appear – so you can take control of your heart health with confidence.

While a standard CCTA shows detailed anatomy, it can’t always tell how well blood is flowing through your arteries. CT-based Fractional Flow Reserve (FFR) takes that next step. Using advanced computer modeling, it simulates how blood moves through your coronary vessels identifying whether any detected narrowing is actually limiting flow to your heart muscle.

CCTA with AI Plaque Analysis adds a deeper level of insight by using advanced artificial intelligence to measure the exact amount and type of plaque in your coronary arteries. This technology analyzes thousands of image data points that may be too subtle for the human eye, identifying early warning signs of heart disease long before symptoms begin.

A quick, non-invasive scan to measure calcium in your arteries and help prevent heart disease before it begins. In just minutes, you’ll gain powerful insight into your heart health—so you can take charge of your next step in prevention.

Calcium Score+ uses AI analysis to measure calcified plaque in the heart arteries with increased accuracy and precision – helping detect early signs of heart disease before symptoms appear – with no extra time or radiation. Faster results are delivered through SimonMed’s Digital Health Platform.

A CT Angiogram uses advanced imaging to create detailed pictures of your blood vessels and check for blockages or narrowing. It helps doctors quickly assess your heart and vascular health, often without the need for invasive procedures.

Brain CT provides fast, clear images of the brain to help identify issues such as bleeding, stroke, tumors, or head injury. It’s a quick, painless exam that supports timely diagnosis and care.

Lung CT produces detailed images of the lungs to help detect nodules, infections, scarring, or early signs of lung cancer. This low-dose option can be an important tool for early detection, especially for those at higher risk.

Artificial intelligence (AI) for pulmonary nodule prediction is now available for all Chest CT exams, which increases nodule detection as much as 35%.

Virtual CT Colonography (Virtual Colonoscopy) is a minimally invasive imaging exam that uses low-dose CT scanning to create detailed 3D views of the colon. It is an effective screening test for colon polyps and colorectal cancer, offering a comfortable alternative to traditional colonoscopy without the need for sedation.

A Bone Density (DEXA) scan measures the mineral content and strength of your bones to identify your risk for osteoporosis or fractures. Using precise, low-dose X-ray technology, DEXA provides accurate insights to help you and your doctor make informed decisions about prevention, treatment, and long-term bone health.

Standard DEXA scans measure bone density (quantity) but not bone structure (quality). Adding Trabecular Bone Score (TBS) provides a more complete view of bone strength—helping your provider detect hidden weakness, identify risk earlier, and guide personalized prevention and treatment.

A DEXA Body Composition exam uses low-dose X-ray technology to accurately measure body fat, lean muscle mass, and fat distribution throughout the body. It provides a clear, detailed snapshot of your overall body composition to help track health, fitness, and wellness goals over time.

With comfort and clarity in mind, our 3D mammograms use advanced AI, trained on millions of images, to highlight areas of concern for our expert radiologists. This allows us to detect potential issues earlier, giving you confidence in your results and peace of mind about your health.

Mammogram+ is the first mammogram to use two advanced AIs to help spot cancer even earlier. Signs of cancer can be subtle, sometimes smaller than the size of a pea. It can make them difficult to see with the human eye alone, especially in dense breast tissue. The advanced AIs are like a second (and third) set of eyes, using the best medical technology, to highlight areas of interest and give you the greatest peace of mind.

Mammogram+ Heart screens for the two leading health risks for women – breast cancer and heart disease during your routine mammogram. Using artificial intelligence (AI) we look for Breast Arterial Calcification (BAC), the presence of which has been linked to an increased risk for cardiovascular disease.

For over 30 years, Mobile On-Site Mammography has proudly served Arizona, bringing convenient, high-quality breast cancer screenings directly to communities across the state. Using advanced mammography, enhanced with 3D imaging for sharper, more accurate early detection. We’re committed to making your screening experience as safe, precise, and comfortable as possible.

SimonMed Personal Injury combines trauma-trained radiologists, advanced imaging technology, and dedicated support teams to deliver accurate, timely results for patients, providers, and attorneys. From scheduling to billing, we streamline the process so cases move forward efficiently while maintaining the highest standard of care.

Our board certified radiologists can review your medical imaging reports and provide feedback to give you the peace of mind you’ve been looking for.

We know that sometimes patients need reassurance – or a second opinion – from another physician. We’re happy to now offer this service. A consultation fee will be applied at the time of service.

MRI provides exceptional image quality to help detect injuries, illnesses, and abnormalities earlier, all without radiation. From the brain and spine to joints, soft tissue, and internal organs, MRI delivers clear, comprehensive insight across nearly every part of the body. Advanced MRI systems make it easier than ever to get the clarity you need — with comfort, precision, and expert care.

The Advanced BCP MRI uses specialized imaging techniques to take a closer look at the brain for subtle changes related to cognitive health. This detailed exam helps support early detection and informed care planning, even when symptoms may be mild or not yet present.

The Advanced TBI MRI protocol is designed to detect subtle brain changes that may occur after a traumatic brain injury. Using advanced imaging sequences, it provides detailed insights that can help guide diagnosis, treatment, and recovery planning.

A Brain MRI creates highly detailed images of the brain without using radiation. It helps evaluate conditions such as tumors, stroke, inflammation, and neurological disorders, supporting accurate diagnosis and ongoing care.

A Breast MRI provides detailed images of breast tissue using advanced MRI technology and contrast enhancement. It is often used for high-risk screening, further evaluation of findings, or treatment planning, offering additional clarity beyond mammography or ultrasound.

Cardiac MRI delivers a remarkably detailed view of the heart’s structure, blood flow, and function, without radiation. It helps detect heart disease earlier, evaluate complex conditions more precisely, and guide the most effective treatment plan for each patient. SimonMed’s advanced Cardiac MRI imaging techniques typically acquire all of the critical heart data in less than half an hour, and make it easier than ever to get precise, early insight into your heart health.

Defecography evaluates the muscles and organs of the pelvic floor during rest and straining. It helps identify functional issues related to bowel movement, such as pelvic floor dysfunction or organ prolapse.

Elastography measures tissue stiffness to help assess conditions such as liver fibrosis or other chronic disease. It provides a noninvasive way to evaluate tissue health without the need for biopsy.

Enterography produces detailed images of the small intestine to help diagnose and monitor inflammatory bowel diseases like Crohn’s disease. It offers clear visualization of bowel inflammation without using radiation.

A Liver Multi Scan (LMS) MRI uses advanced MRI techniques to evaluate liver structure, fat and iron content, and tissue health in a single exam. It provides detailed, radiation-free insights that help assess liver disease, monitor progression, and guide treatment decisions.

An MRA uses MRI technology to create detailed images of blood vessels without invasive procedures. It helps evaluate blood flow and detect narrowing, aneurysms, or blockages.

MRI clip placement involves placing a small, safe marker to identify the location of a biopsy or area of concern for future imaging or treatment planning. It helps ensure accurate follow-up and continuity of care.

An MRV creates detailed images of veins to evaluate blood flow and detect clots, narrowing, or other venous conditions. It is commonly used to assess venous issues in the brain or body.

A musculoskeletal or sports MRI produces high resolution images for a detailed analysis of the bones, joints, cartilage, tendons and ligaments. This information is essential for accurate and precise diagnosis of injuries, arthritis, tumors and other important musculoskeletal conditions resulting in a successful treatment plan to get you on the road to recovery and back in the game.

This specialized muscle MRI uses advanced analysis to evaluate muscle volume, composition, and symmetry. It provides detailed insights into muscle health, performance, and recovery.

NeuroQuant applies advanced software to measure brain structure volumes and compare them to age-based norms. It helps support the evaluation of memory loss, cognitive changes, seizures, head injuries and other neurological conditions.

A Prostate MRI provides detailed images of the prostate gland to help detect, localize, and assess prostate cancer. It also supports biopsy guidance and treatment planning.

The SimonMed Longevity Preventive MRI is a comprehensive, radiation-free scan that images most major organs and soft tissues in a single exam. It is designed to help identify potential health concerns early, often before symptoms appear.

MRI spectroscopy analyzes the chemical makeup of tissues to provide additional information beyond standard MRI images. It can help differentiate between types of lesions or assess metabolic changes in the brain and other organs.

An MRI urogram creates detailed images of the kidneys, ureters, and bladder to evaluate urinary tract structure and function. It helps detect blockages, tumors, or other abnormalities without using radiation.

This exam uses a small amount of radioactive tracer to help detect and locate active bleeding in the gastrointestinal tract. It is especially useful when bleeding is intermittent or difficult to identify with other tests.

A bone and joint scan evaluates bone metabolism to help identify arthritis, infection, fractures, or abnormal bone changes. It can detect problems earlier than standard X-rays.

A bone scan uses a tracer to highlight areas of increased bone activity. It is commonly used to detect fractures, infections, bone disease, or cancer spread to the bones.

This scan evaluates bone marrow activity and distribution. It can help assess marrow disorders, cancer involvement, or response to treatment.

A DaTscan helps evaluate dopamine activity in the brain. It is used to support the diagnosis of Parkinsonian syndromes and differentiate them from other movement disorders.

This specialized kidney scan evaluates blood flow and function before and after medication. It helps identify renovascular hypertension caused by narrowed kidney arteries.

This exam measures how well the heart chambers pump blood. It is commonly used to monitor heart function, especially before or during certain cancer treatments.

This scan labels white blood cells to help locate sites of infection or inflammation in the body. It is useful when the source of infection is unclear.

A gallium scan helps detect infection, inflammation, or certain tumors. The tracer accumulates in areas of active disease for targeted evaluation.

This exam combines gallium imaging with 3D SPECT technology to more precisely localize infection or inflammation. It provides greater detail than standard planar imaging.

This test measures how quickly food moves from the stomach into the intestines. It helps diagnose conditions such as gastroparesis or delayed stomach emptying.

A HIDA scan evaluates gallbladder and bile duct function. It helps diagnose gallbladder disease, bile duct blockage, or bile leaks.

An indium-labeled white blood cell scan is used to locate hidden infections or inflammation. It is often helpful in evaluating chronic or complex infections.

This exam evaluates blood flow patterns within the liver to help confirm benign liver hemangiomas. SPECT imaging improves accuracy by providing 3D detail.

This scan assesses liver structure and function using detailed 3D imaging. It helps evaluate liver lesions, masses, or functional abnormalities.

A liver-spleen scan evaluates the size, shape, and function of both organs. It is useful in assessing liver disease, splenic disorders, or portal hypertension.

This scan detects abnormal stomach tissue in the small intestine, known as Meckel’s diverticulum. It is commonly used to evaluate unexplained gastrointestinal bleeding, especially in children.

An MIBG scan helps detect and evaluate certain neuroendocrine tumors, such as pheochromocytoma or neuroblastoma. It shows how these tumors take up specific nerve-related tracers.

This exam identifies neuroendocrine tumors by targeting somatostatin receptors. It helps locate tumors and assess the extent of disease.

A parathyroid scan helps identify overactive parathyroid glands that may cause high calcium levels. It is often used for surgical planning.

This scan is performed after radioactive iodine treatment to detect remaining thyroid tissue or thyroid cancer cells. It helps assess treatment effectiveness.

This exam uses targeted tracers to identify areas of infection or inflammation in the body. It is helpful when symptoms are present but the source is unclear.

A renal scan evaluates kidney function, blood flow, and drainage. It can help diagnose obstruction, scarring, or reduced kidney function.

This scan identifies the first lymph node(s) that cancer is most likely to spread to. It is commonly used in breast cancer and melanoma surgical planning.

This cardiac scan helps detect certain types of amyloid heart disease. It evaluates abnormal protein deposits affecting heart muscle function.

This exam labels white blood cells with a tracer to locate infection or inflammation. It is particularly useful for evaluating bone, joint, or implant-related infections.

Thyrogen is an injectable medication used to stimulate thyroid tissue before imaging or treatment. It allows testing without stopping thyroid hormone therapy.

Thyroid ablation uses radioactive iodine to destroy remaining thyroid tissue or cancer cells after surgery. It helps reduce recurrence risk in thyroid cancer patients.

This whole-body scan detects thyroid cancer cells that absorb radioactive iodine. It is used for staging, follow-up, and monitoring treatment response.

A V/Q scan evaluates airflow and blood flow in the lungs. It is commonly used to detect or rule out pulmonary embolism when other imaging is not suitable.

This specialized PET/CT scan detects amyloid plaques in the brain, which are associated with Alzheimer’s disease. It helps support evaluation of memory and cognitive concerns by identifying abnormal amyloid buildup before significant structural changes occur. It also helps confirm the diagnosis of Alzheimer’s so new anti-amyloid treatments can be initiated.

This exam combines PET and CT imaging to evaluate bone activity throughout the entire body. It helps detect bone disease, fractures, infection, or cancer involvement by highlighting areas of abnormal metabolic activity.

This advanced PET/CT scan uses a copper-based tracer to detect somatostatin receptor–positive neuroendocrine tumors. It offers high-resolution imaging and can improve detection of small or difficult-to-see lesions.

This specialized PET/CT scan uses an estrogen-based tracer to identify estrogen receptor–positive cancer. It helps guide treatment decisions by showing where hormone-responsive disease may be present in the body.

Netspot PET/CT uses a specialized tracer to identify neuroendocrine tumors that express somatostatin receptors. It provides highly sensitive imaging to locate disease and guide treatment planning.

A PSMA PET/CT scan uses a targeted tracer to detect prostate cancer cells that express prostate-specific membrane antigen. It helps accurately locate, stage, and monitor prostate cancer throughout the body.

PET/CT tumor imaging combines functional and anatomical imaging to locate, stage, and monitor cancer. It helps assess tumor activity, guide treatment planning, and evaluate response to therapy.

The SimonMed Longevity Preventive MRI is a comprehensive, radiation-free scan that images most major organs and soft tissues in a single exam. It is designed to help identify potential health concerns early, often before symptoms appear.

Ultrasound uses high-frequency sound waves—never radiation—to create live, real-time 3D images of your body’s internal structures. When these images are captured over time to show motion, it’s known as 4D ultrasound. This safe, painless exam helps your doctor evaluate organs, tissues, and blood flow and is commonly used for pregnancy, vascular, abdominal, and soft-tissue evaluations.

Thyroid Ultrasound+ uses FDA-cleared AI technology to help radiologists more precisely classify thyroid nodules for their level of suspicion, improving accuracy and reducing unnecessary biopsies. Each exam is performed by skilled technologists and reviewed by subspecialized radiologists committed to giving you clear, consistent answers.

Breast Ultrasound+ delivers greater precision and peace of mind. Every scan is performed by skilled technologists and reviewed by breast imaging specialists who use advanced AI tools to analyze and classify findings with consistency—helping ensure every patient receives the highest standard of care.

This ultrasound-guided procedure uses a thin needle to remove fluid from a breast cyst or area of concern. It can help relieve discomfort and determine whether a finding is benign.

An ultrasound-guided breast biopsy removes a small tissue sample from a suspicious area for laboratory analysis. It provides an accurate diagnosis using a minimally invasive approach.

An echocardiogram uses ultrasound waves to create moving images of the heart. It helps evaluate heart structure, blood flow, and how well the heart is pumping.

This minimally invasive procedure uses a very thin needle, guided by ultrasound, to collect cells from a mass or lump. It helps determine whether a finding is benign or needs further evaluation.

An ultrasound-guided lymph node biopsy removes a small tissue sample from a lymph node. It helps diagnose infection, inflammation, or cancer spread with precision and minimal discomfort.

An OB ultrasound uses sound waves to monitor fetal growth and development during pregnancy. It provides important information about the baby’s health and helps guide prenatal care.

This image-guided procedure places a small RFID marker in the breast to precisely mark a known area of concern. It helps surgeons accurately locate the area during future surgery while avoiding same-day wire placement.

A thyroid biopsy is a safe, minimally invasive procedure that uses ultrasound guidance to obtain a small tissue sample from a thyroid nodule to determine whether it is benign or cancerous.

Get clear answers in minutes with advanced digital radiography. Our low-dose technology delivers high-quality images in seconds, reviewed by expert radiologists, so you can get the clarity you need without the wait.

A barium enema uses contrast material and X-ray imaging to examine the large intestine. It helps identify blockages, inflammation, polyps, or other abnormalities in the colon.

A barium swallow uses contrast material and X-rays to evaluate the esophagus as you swallow. It helps identify swallowing disorders, strictures, reflux, or structural abnormalities.

Fluoroscopy provides real-time X-ray images of moving structures inside the body. It is commonly used to guide procedures or evaluate how organs function during motion.

An arthrogram involves injecting contrast into a joint before X-ray imaging. It helps evaluate joint structures such as cartilage, ligaments, and joint capsule for injury or disease.