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How MRI Scans Are Helpful in Sports Injuries?

MRI Scan /

Introduction on MRI Scan

Athletes often encounter sports injuries, from mere sprains to more serious ligament injuries. Timely and accurate diagnoses are imperative to a timely recovery. The development of Magnetic Resonance Imaging (MRI) has improved many facets of sports medicine regarding soft-tissue and ligament injuries, tendon injuries and bony injuries. Prior to the use of MRI, clinicians depended on clinical exams, ultrasound, and radiographs. MRI is essential for diagnosis and ongoing treatment of not only sports injuries but any such medical conditions. 

What is an MRI? 

Magnetic Resonance Imaging, referred to as MRI, is a non-invasive way to visualize the internal structures of the body and identify many diseases, conditions, and injuries. MRI utilizes powerful magnetic fields, in addition to radio waves generated by a computer, to generate pictures of the organs and structures inside a patient’s body. MRI is commonly used to identify: 

  • Cancers
  • Cysts 
  • Abnormalities of the heart
  • abnormalities or injury to the knees, bones or joints
  • conditions of the spinal cord or brain
  • discomfort or pain in the pelvic area
  • abnormalities of the uterus in female patients 

Advantages of MRI in Sports Medicine 

  • Early Injury Detection: MRI can detect injuries early such as, stress injuries, fractures and ligament tears. 
  • Multi-planar Imaging: it obtains images with specificity of bone structure and accurate injury diagnosis with multiple views. 
  • Soft Tissue High Contrast: MRI provides clean images of soft tissues which helps identify small problems.  
  • Non-Invasive and No Radiation: MRI does not require invasive procedures and does not expose patients to harmful radiation like a CT scan and x-ray. 

Common Sports Injuries Diagnosed by MRI 

Sports such as basketball and wrestling can compress, crush, tear and fray shoulder, knee, and hip joint cartilage. With water-like liquid inside to suspect a joint injury, an MRI early in an athletic career can avoid long term injury.  

  • Tendons Injuries: Baseball players experience rotator cuff tears while runners experience achilles tendon injuries. An MRI can help to gauge the severity of injury and plan rehabilitation. 
  • Muscle Tears and Strains: Gymnasts, weight lifters, and sprinters experience muscle tears and strains and an MRI can help to show athletic therapists photographs of muscle fibers, inside of muscle. 
  • Ligament Tears: An MRI is even more important to determine the extent of ACL and MCL injuries that basketball players and football players commonly experience. 
  • Meniscus Tears: Meniscus tears are also common in athletes, especially in those who converse with sports with twisting, such as tennis and soccer. An MRI can help to determine which treatment to pursue, and to help differentiate minor from major rips. 

Alternative Imaging Methods in Sports Medicine 

  • X-ray: A good imaging tool for bone injuries but not for soft tissue injury or ligament injury. 
  • CT Scan: Provides detailed cross-sectional images of bone and joint anatomy but usually performed when MRI is not available or for complex fractures. 
  • Ultrasound: Provides continuous images of muscle and tendon injuries and can be helpful for ultrasound-guided minor procedures. 
  • Bone Scan: Detects stress fractures and bone infections by introducing a radioactive substance which enhances imaging. 

Conclusion 

MRI has transformed sports medicine through in-depth visualization of both injuries and diseases, whether simple or difficult to classify. MRI offers accurate, detailed imaging of soft tissue injuries and subtle findings that make MRI an essential, essential for athlete and physician and physiotherapist in providing an accurate diagnosis and re-establishing activity faster. 

Frequently Asked Questions 

Q. Is an MRI scan painful? 

MRI is a safe, painless, and non-invasive procedure. Some patients may feel some discomfort from the loud noise produced by the machine.    

Q. Do I need to prepare for an MRI? 

Generally, no preparation is required. Just as you should avoid any metal objects including jewelry and some clothing, you should also inform your doctor about any metal implants that you may have. Headphones, or earplugs may be provided to minimize the noise.   

Q. How MRI scans are helpful in sports injuries? 

MRI can also detect early-stage injuries, which is often a helpful way to monitor and track healing progress. 

Q. Who invented MRI? 

Dr. Raymond Damadian invented MRI scan technology. 

Q. How is MRI used for treatment? 

It gives your physician valuable information in diagnosing your medical information.  

How MRI Scans Are Helpful in Sports Injuries? Read More »

From Brain to Bones: The Wide World of MRI Applications 

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Magnetic Resonance Imaging (MRI) is a unique contribution to the advancement of modern medicine. MRI provides a non-invasive look inside the human body with clarity and safety unparalleled by any other imaging modality. Most people think of MRI as a tool used to image the brain and central nervous system, but it’s far more than that; MRI is part of nearly all medical specialties, whether it be bones and joints, organs, or soft tissues. 

Let’s unlock the Brain 

MRI is critically important in assessing and managing brain disorders, given its precision and resolution, and because it uses no ionizing radiation. It is the gold standard for assessing tumors, strokes, multiple sclerosis, and traumatic brain injury; it is the best diagnostic imaging modality for research into conditions such as neurodegenerative disorders like Alzheimer’s and Parkinson’s disease. Certain advanced sequences can even detect minute and routine changes in the brain before clinical symptoms arise, allowing for earlier and perhaps more effective treatment. 

Orthopedics and Musculoskeletal Imaging 

MRI is second only to the brain when it comes to medical imaging applications in orthopedics. It is ideal for evaluating injury from acute fractures, chronic overload injuries to bones and soft tissues (cartilage, tendon, and ligament injuries), and degenerative diseases (arthritis). Recent developments in MRI, including more robust imaging of certain orthopedic implants and in some cases, the ability to reduce the effects of certain radiopaque metals related to susceptibility artifacts, even makes it possible for doctors to obtain excellent images for patients who have had extensive bunkers with hardware (or frag hardware, e.g. bullet) in their spine, or total joint replacements (hips, knees, shoulders). 

Oncology and Beyond 

In the field of oncology, MRI imaging is routinely used for both cancer detection and staging. MRI is also a great imaging anisotropy when differentiating between healthy and diseased tissue. It implies the anatomy will (should) be visible for needle biopsies to improve accuracy, aid with surgical intervention planning, and assess response to treatments. Functional MRI techniques (such as diffusion-weighted imaging, variable echo times, and perfusion). Additionally, these functional MRI techniques allow doctors to differentiate aggressive tumors from potentially indolent processes to devise more individualized treatment pathways. Imaging with MRI can also be used in cardiology (for assessing heart function), as well as in abdominal imaging (including the liver, kidneys, pancreas, and other organs). 

Future of MRI 

MRI has a bright future possibility and is in major transition, especially as it experiences rapid technological transformations. For example, AI is changing how MRI’s images are analyzed with faster scanning, better accuracy, and early diagnosis. Also, portable and cheaper MRI systems are making the procedures more available to clinics in rural and underrepresented locations. MRI systems that are not using helium technology are a more sustainable and environmentally-friendly technology that has a lower cost. And developments in cloud technology are enabling remote collaborative discussions where two or more medical professionals may store and share the interpretations of MRI images.  

Conclusion  

MRI has some very important applications across the human body, such as bones and brain, which have direct implications for healthcare as a whole. There is no doubt that as technology continues to mature, MRI will continue to be faster, more accurate in general, and more widely available, thus ensuring better outcomes for patients around the globe. MRI imaging has been, and continues to be, a cornerstone of contemporary diagnostic medicine and healthcare, demonstrating its ability to reveal significant findings such as asymptomatic brain lesions and subacute fractures of grade 2 or more important injuries to human bones. It is true you could have an MRI from any point of the body. 

Frequently Asked Questions 

Q. Where to get the best MRI scan in Delhi? 

You can get the best MRI scan centre through Carebox at lowest cost. Where transparency is prioritized and makes scanning affordable for all. 

Q. What is MRI application in brain imaging? 

MRI has great utility in imaging of the brain for anatomical detail, diagnosis of different conditions, and studying brain function. 

Q. Why is MRI so expensive? 

The cost of MRI scans is high, because of the advanced, expensive technology used by these scans of very powerful magnets and advanced machinery. 

Q. Which is costly: CT or MRI? 

Generally, an MRI scan is more costly than a CT scan.  

Q. Is MRI safe? 

Yes MRI is safe and painless procedure, which does not involve any invasive procedure. 

From Brain to Bones: The Wide World of MRI Applications  Read More »

Is an MRI Right for You? When Your Doctor Might Recommend This Powerful Scan

MRI Scan /

Magnetic Resonance Imaging (MRI) is a viable and non-invasive way for physicians to visualize inside the body without operating. MRI is better than CT scans or X-rays because there is no radiation; MRI uses strong magnets and radio waves to develop images of organs, tissues, bones and other internal structures. This article discusses when is MRI appropriate because many patients would have potentially undergone multiple MRI tests over a period of time and in some cases MRI is the safest option. 

When is MRI appropriate? Not every joint ache or pain is indicated for or needs to be evaluated with advanced imaging. That is why simple tests and evaluations with X-rays, or a physical examination, are adequate to assess the more common minor injuries or incidental findings. There are times when it is appropriate for your physician to recommend an MRI. 

When MRI is likely to be recommended? 

Ongoing or Unexplained Pain: If you have chronic headaches, back pain, or joint pain that doesn’t get better with dosed rest, medications or physical therapy, an MRI can help to show if there are underlying causes of that pain, such as herniated discs or tumors, fibroid soft tissue injuries, or osteoarthritis. 

Suspected Internal Injury or Conditions: MRI’s overall use of assessing the brain, spinal cord, heart, and other solid internal organs is valuable. MRI can show underlying issues such as tumors, aneurysms, strokes, infections, and even blood vessel or soft tissue abnormalities. 

Follow-Up on Chronic, Degenerative Diseases: In chronic progression of diseases like arthritis, or more actively degenerative disease like multiple sclerosis, MRI follow-up can be useful to medical providers to assess if current treatments are working or if the disease is actively worsening. 

Instead of Other Types of Imaging: When X-rays or CT scans are done and you still don’t have enough information, or if the scan shows the images are less than acceptable, MRI can provide clearer, higher-quality images of more soft tissue structures, like ligaments, tendons, and cartilage. 

Situations When MRI May Be Appropriate 

Chronic Pain: If you have chronic headaches, back pain, or joint pain that is not improving after attempting dosed rest, medications or physical therapy, then MRI can evaluate if there are underlying causes of any pain you are having, like herniated discs or tumors, fibroid soft tissue injuries, osteoarthritis. 

Serious Internal Injuries or Infections: The overall use of MRI in assessing the brain and spinal cord, heart, and even other solid internal organs, is very useful. It can indicate underlying issues like tumors, aneurysms and strokes, infections, or even blood vessels or soft tissue abnormalities. 

Follow Up of Chronic, Degenerative Disease: In cases of chronic progression in diseases like arthritis, or more actively degenerative disease, such as multiple sclerosis, MRI can provide medical providers with useful follow-up to evaluate if current treatments are effective, or if the degeneration of the disease is worsening. 

As an Alternative to Other Imaging: When X-rays or CT scans have provided no better information than diagnosis, it may be useful to seek an alternative to the following imaging techniques. An MRI provides clearer, higher quality images of a variety of soft tissue structures such as ligaments, tendons and cartilage–clearly important structures for defining health. 

Frequently Asked Questions 

Q. When do doctors recommend MRI? 

MRI has the ability to identify evidence of joint injuries from traumatic and ergonomic sources, such as cartiňlage or ligament tears. Disk issues in the spine. Bone infections 

Q. Is there a better scan than MRI? 

Generally, CT scans are better at spatial resolution, while MRI’s are better at contrast resolution. 

Q. Who should avoid MRI? 

People with pacemakers, certain implanted electronic devices, certain aneurysm clips, certain metals implants, are often advised against an MRI. Pregnant women should not undergo MRI, as there is little known if MRI will affect a fetus. 

Q. Is there an alternative to an MRI scan? 

Yes, there are many different alternatives to MRI, depending on the medical issue involved. Some alternatives are CT scans, X-rays, ultrasound, and maybe blood tests, or biopsy. 

Q. What MRI Cannot detect? 

MRI does a great job imaging soft tissues and internal organs, but it has its weaknesses. MRI is less valuable in imaging bone and bone marrow, as well as in imaging certain types of malignancies, such as lung cancers or cancers of the mediastinum. 

Is an MRI Right for You? When Your Doctor Might Recommend This Powerful Scan Read More »

The Future of Imaging: What’s Next for MRI Technology?

MRI Scan /

Medical imaging is about to undergo a massive shift, and at the forefront of this change is Magnetic Resonance Imaging (MRI) technology. MRI is undergoing significant evolution beyond its traditional role in future-focused applications driven by artificial intelligence, sustainability and a commitment to access and patient-centered care. 

AI and Speed: Redefining MRI Workflows 

Artificial Intelligence has become embedded within MRI and has transformed scan speed and diagnostic accuracy. AI-enabled imaging analytics have the capacity to decrease scan time by up to 50%, while image quality remains high, patient discomfort is reduced, and bottlenecks related to operational issues are avoided. In addition, AI provides real-time analysis to speed clinical diagnosis via additional detection of minuscule abnormalities which may lap human detection, making diagnosing neurological disorders and, hence, cancers earlier and more feasible for patients. 

Portable and Low-Field MRI: Access and Affordability 

MRI machines have historically been large, expensive, and generally not found in areas with limited social-economic input. New advancements in portable and low-field MRI equipment is changing this landscape. For patients in rural or socially underserved areas, access to imaging for advanced diagnostics has historically been limited, but low-field MRI systems allow for broader benefits, as .55T systems’ high-quality imaging has very few safety concerns with patients who have some metal implants. When combined with a low-field MRI unit that is portable, units are even entering the emergency and battlefield imaging space to ensure that critical imaging is available where it needs to be. 

Sustainability: The Alchemy of Helium-Free MRI 

Sustainability is becoming a decisive focus for healthcare organizations, and MRI technology is no different. MRIs have always required the use of liquid helium to keep their superconducting magnets cool. Helium is a finite resource that is expensive, and expanded access to helium-free MRI will vastly reduce environmental footprints and maintenance costs, making MRIs more sustainable and affordable for hospitals worldwide. 

Cloud-Based Connectivity and Remote Diagnosis 

Integrating hybrid cloud-based AI is disrupting the care continuum of MRI data management and interpretation. Radiologists can easily collaborate remotely and share and review scans and images in real time. This means improved diagnostic accuracy and improved timely expertise by enabling consultations across geographic barriers. Patients receive timely and expert care no matter the location of their provider of care. 

Person-Centered and Proactive Health Care Management  

MRI is evolving into a critical component of person-centered health care. The cumulative development of imaging modalities, advancements in AI, and molecular biomarkers will create a versatile and resourceful set of capabilities that will allow the clinician to more reliably recognize disease. Clinicians will have the skills to leverage imaging, genetics, and clinical datasets, rather than simply the imaging and clinical data available at the time of diagnosis, for precise, individual prescriptions, taking health care from a predominantly reactive framework into a proactive care model. 

Conclusion 

The future of MRI is bright. MRI is being developed to be faster and smarter, with improved access. Our evolving knowledge of disease, technological and AI advancements in portable imaging systems, sustainable imaging technologies, and cloud-based systems will create unprecedented opportunities to fundamentally change how we diagnose disease and subsequently improve outcomes with equitable access to advanced health care for all. 

Frequently Asked Questions 

Q. What are the future developments of MRI? 

The future of MRI also brings many exciting developments, such as faster scans, AI-enabled diagnostics, and better access.  

Q. What technology is replacing the MRI? 

CT scans, x-rays, ultrasounds, and sometimes blood tests or biopsies are MRI alternatives. 

Q. What is the future of imaging? 

The future of imaging will be defined by the growing integration of artificial intelligence (AI) and machine learning (ML) into existing imaging modalities (like MRI, CT, and X-ray) along with new advances in the modalities themselves (like ultra-fast MRI or photon-counting CT). 

Q. What is 7 Tesla MRI? 

A 7-Tesla (7T) MRI scanner is a type of magnetic resonance imaging machine that uses a magnetic field strength of 7 Tesla. This is a remarkably stronger level than the 1.5T or 3T scanners you usually see in hospitals. 

Q. What is the newest medical imaging technology? 

Positron Emission Tomography (PET) Scanning. 

The Future of Imaging: What’s Next for MRI Technology? Read More »

Heart Attack: Diagnosis, Symptoms and Required Tests

CT Scan, MRI Scan /

Heart attack is also known as Myocardial infarction (MI) in medical language. It is a medical emergency which needs more attention so that severe complications can be avoided. 

When Does a Heart Attack Happen?

A heart attack occurs only when blood flow to a part of the heart is obstructed, usually by a clot. Let’s learn about the symptoms, tests and preventive measures. 

What Are Symptoms of Heart Attack?

Symptoms of heart attack vary from person to person, some may have severe pain and others may experience mild pain. Some additional symptoms are- 

  • You could have pain or slight discomfort in chest or abdomen, sense of pressure, dizziness, consciousness, pain in chest lasting more than 4-5 minutes.
  • Pain in neck, jaw, arm, shoulder and stomach may be symptoms of heart attack. 
  • Shortness of breath and unexplained fatigue. 
  • Nause, vomiting or feeling sick. 
  • A sudden feeling of dizziness and being faint and unsteady. 

Silent Heart attack: Silent heart attack is not symptomatic or only mild pain in chest. Which individuals think of muscle ache or indigestion. 

What Are the Tests Done at Best Imaging Centres in Delhi to Detect Heart Attack? 

Following are numerous heart attack scans and tests utilized to perform at the no. 1 diagnostic centres of Delhi, carebox helps you to get the precious and 100% assured service. Scans for heart related issues –  

  • Electrocardiogram (ECG or EKG)– An ECG is a rapid and harmless test since it is a non-invasive test, this captures heart electrical activity. It evaluates how the heart beats and identifies abnormalities. 
  • Echocardiogram– It’s an ultrasound examination that utilizes high frequency sound waves to generate real-time images of the heart. It offers the detailed architecture of heart valves, chamber, and pumping action. 
  • Stress test– Cardiac Stress Test is an unobtrusive test to check heart wellness. Cardiac stress test is also known as the ECG test stress exercise test or treadmill stress test (TMT). 
  • Blood tests: Blood tests are used to check the particular enzymes and protein that show heart muscle damage.
  • Cardiac MRI or CT Scan: These tests identify the damage and blockage in the heart. 

What to Do in the Situation of Heart Failure or Heart Attack?? 

This is a main question in people’s mind that what to do if we’re having symptoms of heart attack and what we should avoid at that time-  

  • Call the emergency numbers right away 112(all emergency services) or 102(ambulances). 
  • Chew aspirin (300 Mg) that will thin your blood and enhance blood flow. 
  • Remain calm and rest. 
  • Do CPR if necessary. 

What to Do to Avoid Having Heart attacks: 

  • Eat healthy foods and fruits. 
  • Improve your diet, eat a healthy and balanced diet, include whole grain, lean protein and vegetables. 
  • Don’t consume excess sugar, salt. 
  • Stop smoking, alcohol and tobacco use. 
  • Exercise at least 30 minutes for the betterment of your health condition daily. 
  • Regular checkups for health help you to identify issues early. 
  • Do deep exercise, deep breathing and yoga for a peaceful and relaxed mind. 

What is the Cost of Heart Related Tests in Delhi? 

You can book heart related tests at lowest cost through carebox, which will give you the transparency of the competitive price and other diagnostic details. The price also differs on the basis of centre location and other factors affecting costs. 

Conclusion 

Heart attack is a dangerous crisis which must receive immediate treatment.Suddenly forgetting dizziness, chest pain, consciousness, pain/discomfort may push you into complication or to the grave. Detecting in advance or even in time may get you rescued alive. In case you suffer any unfamiliar or insufferable pain consult as early as possible with the doctor and then go in for proper scanning. You can book your appointment through carebox, which helps to find India’s best diagnostic centre in Delhi NCR.  

In order to make hassle-free diagnostic service we also offer online service to book your appointment. 

Frequently Asked Questions 

Q. What is the other name of heart attack? 

In the medical field the heart attack is known as Myocardial infarction (MI).  

Q. Does stress cause a heart attack? 

Yes, excessive stress can lead to heart attack, it increases the heart rate and blood pressure. 

Q. What is the aftercare of the test? 

No special attention required after the tests if all goes well. 

Q. How is Echo different from ECG? 

ECG is a fast and harmless test as it is a non-invasive test that captures heart electrical activity, whereas Echo, It’s an ultrasound examination utilizing high frequency sound waves to develop live images of the heart. ECG is a fast and harmless test as it is a non-invasive test, this captures heart electrical activity. 

Heart Attack: Diagnosis, Symptoms and Required Tests Read More »

Things You Need to Know About Liver Ultrasound?

Ultrasound Scan /

An ultrasound scan is sound wave imaging to scan the workings of body organs. It is also known as USG or sonography. 

A liver ultrasound scan is a specific radiology examination under nuclear medicine. It is applied for identifying certain conditions of the liver or determining the function of the liver. It is applied also for verifying the response of certain conditions to treatment. It is also referred to as a liver-spleen scan because the spleen is also investigated due to its functional intimate relation to the liver. 

Generally, the question is, why does the doctor suggest a liver ultrasound? What is the process and preparation? And what are the risk factors as well as advantages? So, in this blog, we will tell you each question that comes into your mind when the doctor suggests you for a liver ultrasound. 

Why Would a Doctor Suggest a Liver Ultrasound? 

There are several reasons for your doctor to suggest a liver ultrasound: 

  • To diagnose diseases such as liver cancer, cirrhosis of the liver, hepatitis, cysts of the liver, tumors, cysts of the spleen, etc.
  • In order to evaluate the condition of the liver and/or spleen after unexplained abdominal pain. 
  • To assess the status of the liver and spleen following abdominal trauma. 
  • The ability to see the enlargement of the liver or spleen. 
  • To assess response to therapy for liver issues. 
  • To monitor the course of liver disease. 
  • To identify portal hypertension and many others. 

What Are the Advantages of a Liver Ultrasound?

When your physician orders a liver ultrasound, then when you have it done, your doctor will use your radiology report to make an important decision for your diagnosis to go on to the next treatment. Having proper tests gives assistance in properly evaluating the disease. It is also beneficial for your physicians to check whether follow-up treatment or screening is required and whether it’s progressing or not. If you are experiencing anxiety regarding your test, a precise liver ultrasound provides an excellent means of gaining further insight into your diagnosis and reassurance. 

Process of Liver Ultrasound 

We will now outline the procedure step by step. Usually, the following procedure is done: 

  • The liver ultrasound itself is not painful. But staying still for an extended period of time for the whole procedure may result in some pain or discomfort. Hence, the technician will typically utilize all available measures of comfort to complete the procedure as soon as possible and minimize any pain or discomfort. 
  • The technician will instruct you to undress and wear a patient gown. 
  • You will be asked to remove any metal items such as jewelry, dentures, watches, hairpins, bracelets, etc., that could interfere with the procedure.  
  • The technician will place an intravenous (IV) line in your arm or hand for the radionuclide injection. 
  • Following the administration of the radionuclide into your vein, you will be requested to wait since the radionuclide will be permitted to accumulate in the liver tissue for at least 30 minutes. 
  • As the scanner orbits, you will be requested to remain extremely still on the scan table by a technician because motion during scanning may shift the scan quality. 
  • To capture the gamma rays being released from the radionuclide inside the tissues of the liver, the scanner will be positioned over the upper right quadrant of the abdomen. 
  • To get images of all the liver’s surfaces, you might be asked to move during the scan. 
  • The IV line will be pulled by the technician once the scan is complete. 

What Are the Preparations That Are Needed for a Liver Ultrasound? 

The test preparations differ according to the part of the body that is being examined. Now we will discuss the general preparation for the test: 

  • If you are pregnant or if you are considering family planning, kindly let the technician know and kindly see your doctor prior to making an appointment. 
  • If you are lactating, then inform the technician prior to booking a scan due to the possibility of contaminating the breast milk with the tracer.
  • You will be asked to undress and wear a patient gown and also to remove all piercings and metal objects because they may disrupt the procedure. 
  • No sedation or fasting is needed prior to a liver scan. 
  • If you have any allergies or sensitivity to medications, iodine, or contrast dye, please do not forget to let the technician know before the exam. 
  • According to your medical history, the physician can order special preparation. 

Risks Involved in Liver Ultrasound 

There are no long-term risks involved. But in certain situations, some short-term risks can happen, such as 

  • Allergic reactions to the radionuclide are uncommon, but in certain patients, they can happen. 
  • Pain or discomfort due to prolonged recumbency for the scan. 

Aftercare of Lung Ultrasound 

  • In order to prevent any dizziness or headache, get up slowly from the scanner table. 
  • For roughly 24 hours following the procedure, drink plenty of liquids and urinate frequently to clear the remaining radionuclide from your system. 
  • If you feel any pain, redness, or swelling at the IV site after your procedure, you should report it to the technician/doctor. 

Conclusion 

A liver ultrasound is a scan that is used to see the abnormalities in the liver by using sound waves. It is a specific radiology examination under nuclear medicine. It helps to determine the functioning of the liver. Understanding the need, recommendations, advantages, and risk involvement is as important as understanding the side effects of ultrasound. Information can help you to prepare for the liver ultrasound.  

Frequently Asked Questions 

Q. Is fasting compulsory before the liver ultrasound scan? 

Yes, fasting is recommended by healthcare providers. At least 6-12 hours prior to the procedure. 

Q. What are the other names of ultrasound? 

Ultrasound is also known as sonography or ultrasonography.  

Q. How to book a liver ultrasound online? 

To book a liver ultrasound online, you can go through Carebox; here you can easily find the best imaging center near you. Click here to book your liver ultrasound in just 4 easy steps.  

Q. Can I drink water before the liver ultrasound? 

You should ask your healthcare provider if you should or shouldn’t drink water prior to a liver ultrasound because it will influence how accurate the scan will be, particularly if it is assessing liver stiffness.  

Q. How long does a liver ultrasound take? 

An ultrasound of the liver takes around 15-30 minutes, and it also depends on other factors. 

Things You Need to Know About Liver Ultrasound? Read More »

What is Level 2 Ultrasound? Understand Facts and Need 

Ultrasound Scan /

Why Would a Pregnant Woman Require a Level 2 Ultrasound?  

If something is of concern to your doctor or if something abnormal is observed through the level II ultrasound, a consultation will be arranged so you can learn about complications as well as what risks could develop. Your doctor may then let you know that further tests need to be performed and also see a Northwell maternal medicine specialist to benefit from state-of-the-art high-risk pregnancy care. 

Interesting Facts on Level 2 Ultrasound in Pregnancy 

Some interesting facts about level 2 ultrasound are here we’re going to discuss :

  • The method of Level-2 Ultrasound is secure and safe, and in case a lady is suggested for this test, no fear, because this test is suggested merely as a measure of added protection. 
  • Age constraint is on or above 35, as this age is more prone to pregnancy-related frailty; therefore, in such a condition, a doctor undertakes extra attention and care here. A doctor can recommend Level-2 Ultrasound in this context. 
  • Level-2 ultrasound is performed to monitor the status and treat the condition at the earliest, especially if there is an inherited or familial issue. Hence, the most crucial thing that a pregnant woman and her family have to do is remain healthy during pregnancy. 
  • Level-2 ultrasound is used to check the outcome and resolve it as early as possible, particularly if there is any hereditary or family history issue. Therefore, the first concern of a pregnant woman and her family should be having a proper diet during pregnancy. 

Why Are Level Two Ultrasound Tests Performed During Pregnancy? 

During pregnancy, Level Two Ultrasound is employed to obtain pictures of the baby from head to toe and pictures of the baby’s small organs in the womb. The technique also checks the number of fingers, arm length, bone radius, and the structure of the brain, heart, and kidneys. To examine the umbilical cord, which has two arteries and one vein and is taken to be a normal umbilical cord appearance. This method is also used to examine and evaluate umbilical cord parameters such as length and amniotic fluid level. 

Heart defects, trisomy 13, trisomy 18, and Down syndrome are some of the other things taken into account. A couple and family must be very careful and watch their health at this point in time.  

All the other tests that you can arrange at the best imaging and diagnostic center: Book your pregnancy tests through Carebox and find the best imaging center for your pregnancy tests in Delhi. 

Conclusion 

Level 2 Ultrasound is completely safe and doesn’t cause any radiation. In addition, it only takes a little time to diagnose the patient. Because too much exposure to ultrasound is harmful, a doctor plans a cycle of ultrasound treatment only when needed since too much exposure to ultrasound is harmful. But the entire motive of Level-2 Ultrasound is to reduce stress and tension among couples or the level of stress of the expecting woman, so as a professional physician, I assure you that you may put any question on ultrasound because talking will remove your doubts for better treatment. 

Frequently Asked Questions 

Q. What is a Level 2 ultrasound test? 

Level 2 ultrasound is a special ultrasound that is performed on women to observe the progress of the fetus.  

Q. How long does a Level 2 ultrasound take? 

Get your seat ready for the show. Level 2 scans last between 30 and 45 minutes. The rest of the details will be explained to you by your perinatologist and practitioner, and you will likely be given one or two sonogram photos. 

Q. How should I prepare for my second ultrasound? 

Before the test, at least 90 minutes before, void your bladder, and one hour before the test, consume one 8-ounce glass of liquid (water, milk, coffee, etc.). Having two-piece clothes allows us to access your abdomen without asking you to take them off. You may eat a normal meal beforehand for the fetal ultrasound. 

Q. What is done during a level 2 ultrasound? 

During the level II ultrasound, your doctor will evaluate your baby’s organs, brain, umbilical cord, sex, and other items. The level II ultrasound is used to measure the level of amniotic fluid and your baby’s heart rate and size; it can also measure any birth defects that may be identifiable with this test. 

Q. What is the best week for a level 2 ultrasound? 

How Frequently the Test Is Performed During Your Pregnancy. The majority of women receive a level II ultrasound at ages 18 to 20 weeks. 

What is Level 2 Ultrasound? Understand Facts and Need  Read More »

Understand the Power of 128 Slice CT Scan? Benefits and Limitations 

CT Scan /

Computed Tomography (CT) scans in medical diagnostics have come to transform the way with which doctors come to see the very complex inner mechanisms of a human body. With all advances in CT technology, the 128-slice CT scan is the benchmark product that comes with a multitude of benefits relative to its earlier predecessors. This new imaging technique employs extra detectors to provide much more information in mere seconds.  

What Are the Benefits to Patients of 128 Slice CT Scan? 

Here are some benefits discussed below which might help patient and physicians as well, let’s understand more about 128 slice CT Scan-  

Unmatched Speed and Productivity 

Arguably the most amazing benefit of a 128-slice CT scanner is its amazing speed. With more detectors working in parallel, the scanner can generate images much faster than single or lower multi-slice CT scanners. That translates to: 

Fewer Scan Times: Less waiting time by patients on the scanning table, particularly wonderful news for those patients that are anxious, uncomfortable, or have trouble staying still. 

Decreased Motion Artifacts: On the faster scans, patient motion effect (respiration, involuntary muscle tremor), creating cleaner, more diagnostic images, is minimized. It’s a critical feature towards accurate diagnosis for such cases involved with the right diagnosis in fussy patients or imaging bodies that are motion-sensitive. 

Higher Patient Throughput: With the agility of a 128-slice CT in CT imaging centers, one can have higher patient throughput in a specific time slot, resulting in higher productivity and lower patient waiting time. 

Better Quality and Better Image Clarity: 

The data level of a 128-slice CT scanner is translated directly to image quality. The new technology should provide: 

  • Increased Spatial Resolution: The ability to differentiate objects in close proximity is increased significantly, and tiny lesions, low-lying pathology, and submillimeter anatomy can be visualized. This is particularly useful in areas such as the lung, where it can be life-saving by the early detection of millimeter-sized nodules.
  • Improved Low – Contrast Resolution: The scanner can distinguish between tissues whose density is slightly variant, a subject worth taking into account when it comes to imaging the soft tissues, blood vessels, and organs. It facilitates the improvement of diagnostic accuracy in the majority of conditions. 
  • Multiplanar Reconstruction (MPR) and 3D Rendering: The large dataset allows for images of superior quality to be acquired in various planes (axial, sagittal, coronal) and advanced three-dimensional reconstruction. These offer clinicians clearer visualization of complex anatomical relationships and pathological phenomena. 

Lower Radiation Exposure  

Ironically, in the process of gaining more information, 128-slice CT scanners themselves used advanced dose reduction techniques that can minimize exposure to radiation significantly from even traditional scanners. They used the following techniques: 

  • Automated Exposure Control: The scanner automatically adjusts the radiation dose according to patient size and imaged zone to prevent unnecessary exposure. 
  • Iterative Reconstruction Algorithms: These new algorithms use advanced mathematical models to create high-quality images with less data, and decrease the radiation required. 
  • ECG Gating: ECG gating of cardiac CT angiography synchronizes image acquisition with the patient’s heart rate, minimizing motion artifacts and enabling the use of lower doses of radiation. 

Advanced Clinical Applications 

The rapid acquisition speed and high-resolution imaging capabilities of 128-slice CT scanners have made new avenues of high-level clinical applications available, such as: 

  • Cardiac CT Angiography (CTA): The efficient visualization of coronary arteries due to the short acquisition time enables obstruction detection and risk stratification of heart disease without invasive conditions. 
  • CT Perfusion Studies: Organ perfusion is being studied in organ perfusion studies like the brain, and an early stroke and tumor vascularity diagnosis becomes a reality. 
  • Dual-Energy CT : Dual-energy capability is available in certain 128-slice scanners, enabling them to detect tissues based on their atomic composition, providing additional diagnostic information in kidney stone and gout cases. 
  • Dynamic Imaging: The rate allows for the capture of numerous images over time, allowing one to evaluate organ function and flow patterns. 

What Are the Limitations and Considerations of CT Scan of 128 Slice? 

Till here, we’ve understood the advantages or benefits of 128 slice ct scan but understanding the key consideration and limitation is more important in our treatment procedure and diagnostic journey-  

  • Radiation Exposure: The radiation exposure in 128 slice scans is generally lower than old or traditional scanners but still it needs precautions and is not safe for all especially pregnant women. 
  • Contrast Agent Reaction: In many CT scan procedures a special dye, iodinated dye is used to enhance the body structure or organs to get clear images but it might be allergic to some and cause issues like rashes, allergic reactions, nausea etc. 
  • Costing: One of the main factors or limitations of 128 slice CT scan is, it can be costly and not available at every diagnostic centre in Delhi. Availability depends on the healthcare facility. 
  • Not helpful for soft tissues: It is not helpful to detect soft tissues and detailed evaluation, in this case other imaging techniques will be recommended to you such as MRI Scan.  

When is 128 Slice CT Scan needed? 

Understanding when a 128 slice CT scan is needed can help you to treat your disease early, so what it can detect and why it is needed, let’s understand more about it. 

  • It is helpful to diagnose various medical conditions or detect abnormalities like tumors, infection, inflammation, blood clots or other issues.
  • It is needed to evaluate the trauma or extent of injuries  in case of accident or falls, identifying fractures and internal bleeding.  
  • It is used to diagnose the conditions affecting blood vessels such as blockages and all.  
  • To detect coronary artery blockages, it is used.  
  • It is used to provide detailed anatomical information to healthcare professionals before surgeries.  
  • It can be used to monitor the  progress of treatment.  

Why does your doctor recommend you to have a 128 slice CT Scan? 

If your doctor recommended you to have a CT Scan of 128 slice, these could be some reasons from the following- 

  • Your doctor might need a clear view or more detailed view of your abnormality. 
  • It might be recommended to you in a quick or rapid situation when it is necessary to have a view of your injured organ or part. 
  • Your doctor wants to assess the blood vessels or heart. 
  • It might also be recommended to you to monitor the treatment procedure which is already going on. 

Conclusion 

The 128-slice CT scan is a potent tool of contemporary medical imaging, presenting a compelling union of high-definition detail, swift acquisition speed, and sophisticated clinical application. Though considerations of radiation dose and the employment of contrast material are still critical, the advantages of the technology frequently predominate, bringing about enhanced and timely diagnosis and ultimately, enhanced patient care. By knowing the benefits and limitations of a 128-slice CT scan, you can go into your examination more confident and informed. 

Frequently Asked Questions 

Q. What is the meaning of the word  “Slice” in CT Scan procedure? 

The scanner will use 128 detectors to capture 128 of these individual pictures, or “slices,” all at the same time, every time it makes a single rotation of the X-ray tube. 

Q. What is the cost of 128 Slice CT Scan in Delhi? 

The cost of CT Scan of 128 slices in Delhi NCR ranges between 3000 rs to 7000 rs and it also depends on the diagnostic centres. 

Q. How can I book a 128 slice CT Scan Online? 

You can book your 128 slice CT scan at lowest cost online through carebox. Our customer agent will guide you to book the Scan online. 

Understand the Power of 128 Slice CT Scan? Benefits and Limitations  Read More »

Role of CT Scan in Heart Attack?

CT Scan /

What is the right time to use a CT scan to diagnose a heart attack? CT scan is a crucial tool in identifying and treating heart attacks. 

A CT scan might further be recommended for coronary heart attack prognosis in favorable cases. Here are some instances-  

  • Quick prognosis: CT scans can be carried out quickly and provide specified images of the coronary heart and blood vessels. In cases where a rapid prognosis is warranted, like when a patient is suffering from acute chest pain and other symptoms of a coronary heart attack, a CT scan may even be recommended to help determine the cause of the symptoms. 
  • Non-invasive alternative: CT scans are a less invasive alternative to invasive methods like cardiac catheterization. In patients who can’t tolerate catheterization owing to clinical reasons or who would opt for much less invasive measures, a CT scan may also be advised. 
  • Evaluation of chest pain: Chest pain is a common symptom of coronary heart attack, but it can also be triggered with the help of other prerequisites like pulmonary embolism or aortic dissection. A CT scan can help differentiate between these prerequisites and determine the cause of the chest pain. 
  • Follow-up imaging: In the wake of a coronary heart attack, follow-up imaging can further be desired to monitor the patient’s recovery and check for any damage to the heart muscle. A CT scan can provide detailed images of the coronary heart and blood vessels to help uncover the patient’s situation over time. 

It is important to comprehend that today not all patients with a suspected coronary heart attack will need to have a CT scan. The decision to employ this imaging examination will be dependent on the individual patient’s medical history, clinical presentation, and clinical judgment of the physician. 

What is the Role of CT Scan in Heart Attack? 

A CT scan is a diagnostic imaging test that utilizes X-rays and laptop know-how to generate precise images of the body. CT scans are useful in diagnosing various clinical conditions, along with a coronary heart attack. 

In the event of a coronary heart attack, a CT scan may provide information on the severity and location of the blockage within the coronary arteries, which are the vessels supplying the coronary heart with oxygenated blood. The test can also reveal any damage to the coronary heart muscle activated through the coronary heart attack. 

A CT scan may also be utilized to ascertain the size and quality of the heart, as well as the chambers and the valves. The statistics may help medical professionals determine the excellent course of a remedy for the patient. 

In a few instances, a CT scan may further be used as an option for an invasive procedure known as cardiac catheterization. In cardiac catheterization, a long, flexible tube is put into a blood vessel and taken to the coronary heart to gather information on blood drift and blockages. CT scans, however, can provide similar information except for the need for an invasive procedure. 

In general, a CT scan can be a valuable tool in the diagnosis and management of coronary heart attacks. But it is important to note that not all patients with suspected coronary heart attack will need a CT scan, and the decision to utilize this imaging examination will depend on the patient’s clinical history and medical presentation. 

What are the Advantages of CT Scan in Cardiac Imaging? 

Here we’re going to understand the CT cardiac scanning advantages – 

  • Anatomical Definition: CT scan of Cardiac health provides high-resolution, cross-sectional images, providing a clear picture of the heart and associated structures. 
  • Non-Invasive (for CTCA): CTCA is not an invasive procedure, unlike standard coronary angiography, which lessens the dangers of catheterization. 
  • Speed and Efficiency: CT scans are comparatively fast to do, which makes them useful in acute situations such as suspected pulmonary embolism. 
  • Large Field of View: CT is not only able to image the heart but also nearby structures such as the lungs and large blood vessels, giving a wider clinical context. 
  • Quantifiable Information: CT scanning may yield quantifiable information in the form of degree of stenosis in the coronary vessels or calcium score. 

Limitation and Considerations of Cardiac CT Scan 

As we’ve discussed about advantages of CT scan in Cardiac screening, here are some limitations and considerations of the same-  

  • Radiation Exposure – It uses ionizing radiations, it is generally lower but not suitable for everyone.   
  • Contrast agent risk: It is seen that the patient feels irritation or some allergy after contrast based CT Scan. 
  • Image quality interruption: It is important to stay still during the scanning procedure otherwise the constant motion can interrupt image quality and it can turn blur. 

Conclusion 

CT Scan of heart attack is a technique used to detect abnormalities in the heart and related areas. Understanding the right time for cardiac CT Scan is necessary and the same goes for understanding its procedure. There might be some points or limitations you need to know before undergoing the procedure. You can find the best imaging centre in Delhi through Carebox and get your CT Cardiac scan done at lowest cost. 

FAQ’s

Q. What is the full form of CT Scan? 

The full form of CT scan is computed tomography scan. 

Q. What is the cost of a Heart CT scan in Delhi? 

The cost of heart CT scan in Delhi ranges between 3000 to 8000 rs and it also varies on the diagnostics centres.  

Q. How to book your CT scan of heart online? 

You can book a CT scan of your heart at the best imaging centre near you online from the carebox website. 

Q. Why is CT Scan of heart not recommended to you? 

If you’re pregnant, or having an allergic reaction from iodine, Uncontrolled hypertension, Coagulopathy, your doctor will not recommend CT Scan of heart in this situation.  

Role of CT Scan in Heart Attack? Read More »

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