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WHAT IS THE BEST TREATMENT FOR DEEP VEIN THROMBOSIS?

Deep vein thrombosis (DVT), is a condition characterized by the formation of a blood clot, called a thrombus, in one or more deep veins within the body, typically in the leg or pelvis, or, less commonly, the arm. A DVT may or may not produce obvious symptoms.

While anyone can develop a DVT, risk increases when considering factors such as age, immobility, obesity, venous injury, family history, smoking, estrogen supplementation, chronic heart or lung disease, and cancer. DVT can be quite serious, resulting in severe illness, disability or even death. However, when caught early, DVT can be treated or even prevented altogether.

The optimal approach for treating DVT depends on a person’s specific circumstances, including the location and severity of the thrombus, and any related risk factors. In this overview, we will outline treatment options for deep vein thrombosis.

ACUTE MANAGEMENT OF DEEP VEIN THROMBOSIS

Anticoagulation Therapy – The first line of treatment is usually an oral or injectable anticoagulation medication (such as heparin or warfarin) to help prevent the extension of existing thrombi and reduce the risk of pulmonary embolism (PE) and recurrent DVT.

Catheter-directed Thrombolysis (CDT) – In some cases, catheter-directed thrombolysis may be an option. With CDT, a catheter is placed so that a thrombolytic agent can be directed to the clot to dissolve it.

LONG-TERM DEEP VEIN THROMBOSIS MANAGEMENT AND PREVENTION

Graduated Compression Stockings – Graduated compression stockings exert the greatest amount of compression at the ankle and ease compression incrementally up the calf to the knee, helping to push blood back up through the leg toward the heart, promoting healthy circulation. These can be especially helpful for people who sit for long periods.

Inferior Vena Cava Filter – For patients who can’t take blood thinners or for whom anticoagulants prove insufficient, the placement of an inferior vena cava (IVC) filter may be considered as a measure to help prevent pulmonary embolism. Using live image guidance, an IVC filter is carefully inserted into the jugular or femoral vein and gently guided into the inferior vena cava, where it serves to trap clots and prevent them from moving to the lungs or heart. An IVC filter may be permanent, but for most patients, a removable filter is used and removed once the danger of more DVT episodes is considered over.

Patients for whom IVC may be the preferred method of DVT treatment include those with bleeding issues, a recent brain or spinal cord injury, hemorrhagic stroke, or an increased risk of falling.

Treating DVT involves not only addressing acute thrombosis, but also preventing future recurrences and managing any ongoing risks and symptoms. Interventional radiologists play a key role in DVT diagnosis and interventional treatments such as IVC filter placement, providing many patients with safer, less invasive alternatives to conventional surgery.

RAO FOR IVC FILTER PLACEMENT AND PE PREVENTION

For patients whose recurrent deep vein thrombosi risk can’t be sufficiently addressed through medication, RAO’s Center for Vascular Health offers minimally-invasive IVC filter placement and removal. With this straightforward procedure, your Board-certified RAO interventional radiologist makes a tiny incision in the neck or groin artery and uses a very thin, flexible catheter to guide a small, collapsed filter to the inferior vena cava, where it expands to provide a secure gateway that traps blood clots before they can reach the lungs or heart and cause serious problems, including disability and death.

If you have had a DVT, talk to your doctor about whether an IVC filter might be beneficial in reducing your risk of PE and other conditions.

A COMPREHENSIVE GUIDE TO UNDERSTANDING THE BASICS OF MRI ELASTROGRAPHY

A COMPREHENSIVE GUIDE TO UNDERSTANDING THE BASICS OF MRI ELASTROGRAPHY

MRI elastography works on the principle that healthy tissues are more elastic than diseased or fibrotic tissues. MRI elastography uses computer assistance to measure how low frequency vibrations move through liver tissue. The imaging procedure generates color-coded maps, identifying softer tissues with warmer colors like red and yellow, and stiffer areas with cooler tones like blue and green. This visual representation aids in quickly identifying abnormal places within the liver for early disease detection, and enables your radiologist and referring clinician to rapidly compare results with previous tests, so even small changes can be easily identified.

stiffer areas with cooler tones like blue and green. This visual representation aids in quickly

identifying abnormal places within the liver for early disease detection, and enables your

radiologist and referring clinician to rapidly compare results with previous tests, so even

small changes can be easily identified.

THE ROLE OF NUCLEAR MEDICINE IN MODERN HEALTHCARE: A COMPREHENSIVE OVERVIEW

Nuclear medicine is a specialized branch of radiology that uses small doses of radioactive materials, called radiotracers or radiopharmaceuticals, to diagnose and treat a wide array of diseases. Unlike other imaging techniques, such as X-ray, fluoroscopy and computed tomography (CT), nuclear medicine is able to deliver real-time imaging of organs and tissues as well as capture how they’re working.

After the radiotracer is introduced into the body via injection or capsule, it is absorbed by the tissues of the area(s) being investigated. Using a specialized gamma camera, images of the highlighted organ or structure are taken, and live monitoring of function may be studied and recorded.

THE BENEFITS OF NUCLEAR MEDICINE

Painless, noninvasive nuclear medicine scans offer multiple advantages, including:

Diagnostic detail. Nuclear medicine scans reveal how organs, tissues and structures function down to the cellular level, providing comprehensive information other imaging studies can’t. With remarkable detail, it pinpoints abnormalities in size, shape and working order of internal organs and structures much earlier than many other diagnostic tests. When it comes to disease and dysfunction, early detection enables rapid treatment, so disease has less of a chance to progress.

Combination scanning. Imaging techniques such as positron emission tomography (PET), can be combined with computed tomography (CT), for PET/CT scanning, which together create 3D-quality imaging of organs, structures and cells. While CT provides images of organs, PET captures the natural activity and metabolism of cells to discover damage and disease. PET is commonly used to diagnose heart disease, Alzheimer’s disease, and brain disorders, and to assess tumors.

Personalized treatment of disease. Nuclear medicine utilizes radiopharmaceuticals to target and image a variety of health issues, including hyperthyroidism, thyroid cancer, certain tumors, bone pain, and other problems. The use of radiotracers in nuclear medicine can allow your medical team to personalize treatment plans based on your specific condition and response to therapy.

TYPES OF NUCLEAR MEDICINE SCANS OFFERED BY RAO

RAO’s Medical Imaging Center at Windsor Oaks offers a wide range of the latest nuclear medicine scans. Both centers are fully accredited by the American College of Radiology in nuclear medicine, PET/CT, and other imaging modalities for outstanding accuracy, safety and practice standards. Our services include:

● PET/CT

PET/CT combines Positron Emission Tomography and Computed Tomography to provide both functional and anatomical information in a single scan, for ultimate diagnostic accuracy. RAO features the revolutionary Siemens biograph for outstanding speed and precision, promoting earlier diagnosis, pinpoint localization and the targeted treatment of disease.

● Nuclear Medicine Bone Scan

A nuclear medicine bone scan is often ordered to check for cancer that has metastasized to the bones, and monitor the effectiveness of treatment. It can discover tumors and infections sooner than other imaging techniques. Bone scans may also be used to diagnose arthritis and assess response to therapy.

● Nuclear Medicine DaTscan

The DaTscan is a nuclear medicine study in which an injected radiotracer travels to the brain, illuminating the neurons responsible for controlling movement. It is used to differentiate essential tremor from Parkinson’s Disease and related neuronal disorders.

Unlike less sophisticated scans, DaTscan results are available in just weeks, rather than months or even years, enabling rapid treatment and the possibility of slowing disease progression.

● Nuclear Medicine Gallium Scan

A nuclear medicine gallium scan travels through the entire body to reveal tumors and signs of infection. Gallium is used because many types of cancer cells absorb it in higher amounts than normal cells, revealing lymphoma, new infections and other problems early in their course. Because different tissues have varying absorption rates, the gallium scan is performed in multiple stages over three days.

● Nuclear Medicine Gastric Emptying Scan

A gastric emptying tscan is used to look for slow gastric emptying (gastroparesis), which can cause symptoms including cramping, gas, reflux, nausea and vomiting. With a gastric emptying scan, the radiopharmaceutical is swallowed, where it travels to the stomach. Once absorbed, images are taken at regular intervals so slow motility can be identified.

● Nuclear Medicine Hepatobiliary/Gallbladder Scan

A gallbladder scan is used to diagnose and monitor gallbladder disease, study gallbladder function, and check for any biliary duct obstructions caused by gallstones, hematomas, abscesses, tumors, cysts or enlargement of the gallbladder.

● Nuclear Medicine Thyroid Scan

A nuclear medicine thyroid scan utilizes radioactive material to evaluate thyroid size, structure, position and function. The thyroid scan measures how the gland is performing, and to diagnose signs of underactivity (hypothyroidism), overactivity (hyperthyroidism), cancer, nodules, inflammation and damage. The procedure involves two visits over two separate days.

SAFETY CONSIDERATIONS OF A NUCLEAR MEDICINE SCAN

Certainly, the idea of introducing a radioactive material into the body may sound a bit ominous. However, rest assured that nuclear medicine scans are among the safest diagnostic procedures being used today. The radiation dose of the radiopharmaceutical is quite low and is typically expelled from the body within 24-48 hours.

However, nuclear medicine scans should not be used during pregnancy or while nursing a newborn.

RAO for Nuclear Medicine

In addition to ongoing ACR-accreditation, RAO is proud to have a team of Board-certified radiologists whose subspecialties include diagnostic radiology and nuclear medicine. We also offer interventional radiology procedures such as nonsurgical tumor treatment, and other gold-standard services, for safe, comprehensive care.