Scan for wrist injury: Need and Causes

Wrist injuries happen all the time to many of us. Learn here when they become a cause of concern and you need to get an X-Ray or MRI scan for them.

Wrist injuries are quite prevalent. Whether you’re a gym enthusiast or a sports aficionado, a sudden jerk, arthritis, repetitive stress, can lead to a wrist injury.

At times home remedies – application of ice, rest – works wonders for minor injuries like sprains. However, if it’s a serious injury and the symptoms persist for several days, it’s recommended to seek medical help.

The first step should be to consult a doctor for a physical examination. He/she will check if the tenderness/swelling is a minor injury or more. They may ask you to move your wrist to check if the range of motion is fine. Also, by checking your grip strength. If required, you’ll be ordered to undergo an MRI or X-ray scan for a diagnosis. Following are the scenarios in which you might need a scan.

Extreme Chronic Pain

Suffering from intense pain? Is it causing difficulty for you to move your wrist? If yes, you must consult a doctor. Do you also have bouts of pain or tenderness, which don’t go even after weeks, despite the necessary treatment? In such cases, X-Ray or MRI scan should be taken for diagnosis of the trouble.


Don’t dismess edema or swelling as no cause for concern. A swelling that lasts for more than a couple of days could indicate a serious injury and must be shown to a doctor. The doctor may ask for an X-Ray or MRI that could show the cause of injury, such as ligament, tendon, cartilage injury or a fracture.

Tingling or Numbness

Other important symptoms are numbness, tingling, and loss of feeling in the wrist. If this becomes chronic, you should visit a medical professional immediately.


Any eformities such as a bent wrist, joint irregularities, may require you to get an X-ray or an MRI to find out the underlying problem.

Injury or Discoloration

If you notice bruising on your wrist and its color is reddish blue beneath the skin. All the more, it pains too and the discoloration persists, better see a doctor is likely to order an X-ray or MRI.

Motion Trouble

Having trouble in moving your arm or wrist? This could mean there’s a wrist injury that could be more severe than you expected. If you’re able to flex your joints or find it hard to hold objects, carry them, it’s time to get further tests done.

If you’re stressed about your wrist pain, you can affordable MRI/X-ray near you at Innate Imaging at just $300. A delayed diagnosis can cause difficulty in healing so visit your doctor as soon as necessary.

What are the major diagnostic tools to fight cancer?

An accurate diagnosis of cancer is critical in planning cancer treatment. Learn…

One of the essential aspects of successful cancer treatment is an early diagnosis. This treatment is more effective if the doctors get a comprehensive and accurate evaluation at the onset. The process includes a physical exam, the patient’s history of health, and diagnostic scans. 

The cancer presence is confirmed with an accurate diagnostic test, which is necessary to plan the treatment. These scans are also used to detect how far advanced the tumor is and to check the effectiveness of the treatment. 

Cancer Diagnosis: Procedure 

An imaging scan is an effective way to detect cancer. Diagnostic scans like X-rays and MRIs allows a physician to view abnormal masses or internal injuries. Additionally, these scans can determine whether a tumor is benign or malignant. 

When a scan shows an irregularity, the doctors surgically employs image-guided tools to check the anomalies in the body parts, get rid of a small sample tissue for biopsy, and evaluate the grade of disease if its cancer. 

Cancer Diagnosis: Tools 

Cancer treatment requires cutting-edge tools to detect tumor cells, which are essential in the fight against cancer. 


MRI produces highly detailed images of internal organs with the help of a large magnet system. It doesn’t use harmful radiation and is used to detect cancer at the onset. 

CT Scan 

Computed Tomography offers amazingly accurate 3D images of tissues and organs. It is commonly used in detecting and staging various cancers. 

Digital X-Rays 

The most commonly used diagnostic imaging tool for detecting cancer is radiography. It helps diagnose cancer in its early stages. The radiography uses electromagnetic energy beams that produce images of bones, tissues, and internal organs. This method is mostly used to diagnose bone cancer and lung cancer. 


Highfrequency sound waves produce images of tissues and internal organs. Ultrasound, though frequently used in pregnancy, is also instrumental in detecting tumors in the urinary and reproductive system. 

Digital Mammography 

This procedure involves low-dose X-ray of the breasts used to detect breast cancers and check for abnormal growths in the breasts. Followed by a biopsy, it analyzes and questionable tissue. 


The Incredible Things You Should Know About CT Scans

Learn all the amazing things about CT Scan in this article: Its invention, history…

When your doctor orders a CT Scan to you or one of your acquaintances, ever wondered what it is all about? Or how it will benefit you? 

In the past few decades, CT technology has completely evolved and offers accurate multi-dimensional images of the body parts. It helps doctors to diagnose and treat a variety of severe conditions without any hassles. 

So what is a CT Scan? 

Computed Tomography (CT) imaging is also referred to as Computed Axial Tomography (CAT). The word computed means incredibly robust computer software which is used to analyze the X-ray images created by the CT scan machine. With the help of this program, the radiologists can take each picture, slice generated and rotate it on all sides for different views. They can also zoom in or view it straight on a level of detail that’s extraordinary. 

Axial means the anatomical plane of the body, which has cross-sections from head to toe. In a CT scan, there are many sections of images with depth created in the axial plane by a technique called tomography. This technique shows a cross section through a human body or any solid object that uses X-ray. As a result, they get multiple, highly detailed pictures of the human body in seconds. 

Benefits of CT Scans over traditional X-rays 

CT Scan is an X-ray scan but an advanced one. For example, think of a traditional X-ray as a pair of magnifying glasses or binoculars then a CT is like a telescope.  Where X-rays offer two-dimensional images and a flat image of body parts superimposed on top of each other, in a CT, you can arrange the X-rays so that you can rotate it around the subject and capture multiple sections from many different angles of the body. 

This is the reason why you lay on a table for a CT and then a doughnut-shaped machine has an X-Ray tube that rotates around you. It revolves around your body up to 360 degrees, which allows up to 360 individual pictures of the body that can be taken at slightly different positions. 

With today’s software that makes use of advanced algebra to add, subtract densities at different angles, doctors reckon that there are much more known’s than unknowns for radiologists while reading CT scan images. In fact, you can generate a lot of information about specific areas of the body, especially imperfections than you could before. 

CT Scans: Innovation over the Years 

First invented in the 1970s in England, the CT was earlier used to produce brain images. And prior to this time, taking a glimpse of the body’s soft tissues or structures like infection, blood, tumor was not possible. 

However, now CT is used in a variety of subspecialty of medicine. They are critical in the diagnosis and evaluation of headaches, stroke, head trauma, cancer, stroke, blood clots, appendicitis, pneumonia, and complex fractures. 

The first-generation CT scan took minutes to scan only one cross-section of the body. But today’s CT scans have advanced exponentially to test the entire body and generate hundreds of images in just a few seconds. It hardly ever happens that a CT scan takes more than five minutes. This evolution to generate not just three, but four dimensions add up in getting a  bigger diagnostic picture.