Magnetic Imaging

Which MRI Magnet is Best? A Market Analysis

In the present clinical environment a new wave of advancements is creating a clear divide between MRI providers.

A report, published in August 2012 by IMV Medical Information Division, surveyed MRI/radiology department administrators and MRI lead technologists from 408 hospital-based and non-hospital imaging sites across the U.S from May to June 2012.

This market outlook report analyzed the challenges and opportunities MR providers are facing in the coming years and provided opinions related to future MRI trends.

The report concluded that there is a motivation to stay current with the advances in MRI technology and two clear driving forces were identified: Wide-bore technology (70 cm bore and greater) and high-field magnet strength (greater than 1.0 Tesla).

The IMV study found that high-field, 1.5 Tesla MRI remains the modality’s mainstay platform and that 1.5 Tesla MRI represents 70% of the installed base and 70% of new installations.

Interestingly, the report found that there is minimal demand by providers for 3 Tesla MRI due its limitations arising from the lack of clinical experience with the 3 Tesla platforms.

The report also makes clear that the demand for low-field MRI has virtually disappeared as it represents just 10% of the installed base and less than 1% of planned purchases in 2012.

At CMI, we have stayed current with imaging advancements. This report confirms that CMI’s high-field, wide bore 70cm 1.5 Tesla magnet is the magnet of choice for clinics wishing the latest in MRI technology.

Considerations When Choosing an MRI Centre

Not all MRI’s are created equal. Important factors to consider when choosing where to have your MRI include the strength of the facility’s magnet, the protocols which they offer, whether they have invested in dedicated coils specific to the body part being imaged, as well as the overall design of the magnet. Dr. Jason Clement reviews these considerations in the following video.

Video: Getting an MRI

There are many ways to describe the experience of a getting an MRI. This YouTube video does it well in 5 minutes. What do you think?

Navigating the Risks of CT Radiation

This past week has seen an unprecedented level of attention over the potential cancer risk posed to patients who undergo CT (Computed Tomography) scans as a result of exposure to ionizing radiation.

Two multicenter studies published in this week’s Archives of Internal Medicine suggest that clinical CT radiation doses are much higher than previously expected, resulting in an increased lifetime potential cancer risk.  The statistics supporting these claims are troubling, although perhaps not unexpected.

Dr. Smith-Bindman & colleagues used clinical data from national databases to evaluate the level of radiation dose associated with several common CT imaging exams in a sample of 1119 patients.  Their results showed a high degree of variability in dose between different types of CT studies, overall doses which were much higher than previously thought, as well as doses which differed significantly within and across institutions, with a mean 13-fold variation between the highest and lowest dose for each study type

In the second study, Dr. Berrington de Gonzalez & colleagues, using risk models based on the 2006 Biological Effects of Ionizing Radiation VII, estimated that approximately 29,000 future cancers could be related to CT scans that were performed in the US in 2007 alone.  Their study suggested that the largest contributors to radiation dose are abdominal and pelvic scans, followed by chest studies.

These two ground-breaking studies have shed light on what many radiologists and physicians have been speaking to for years.  While there is significant utility for CT scans in the acute trauma setting and for identifying solid tumours of the chest & abdomen, it is important to acknowledge the risk-benefit ratio when considering this imaging technique.  According to the Canadian Institute for Health Information, there were 3.4 million CT scans performed in Canada in 2007.  The Canadian Association of Radiologists asserts that up to one-third of CT scans are inappropriate.  In light of the studies published this past week, it is reasonable to consider the value of utilizing alternate imaging techniques that do not expose a patient to ionizing radiation when appropriate.

A sound alternative can be found in Magnetic Resonance Imaging (MRI).  MRI uses non-ionizing radio frequency signals to acquire its images, utilizing a magnetic field, radio waves and computer technology to generate detailed three-dimensional images of body tissue and anatomy.

While CT provides good spatial resolution (the ability to distinguish two structures an arbitrarily small distance from each other as separate), MRI provides comparable resolution with far better contrast resolution (the ability to distinguish the differences between two arbitrarily similar but not identical tissues).  In the case of tumour detection, imaging of the brain, spinal cord & vertebral applications, blockages in the vascular system, and soft tissue injury, MRI, in non-acute circumstances, is documented clinically to be generally superior to CT.

While CT may continue to be relied upon in the hospital setting because of its ease of access, it is important for patients to weigh all the circumstances and consider other perhaps safer and better imaging alternatives.  Both the American College of Radiology and the Canadian Association of Radiologists are encouraging physicians to be more accountable in this regard and to seek out imaging techniques, such as MRI, which provide a greater benefit/harm ratio to the patient.

Radiation dose associated with common computed tomography examinations and the associated lifetime attributable risk of cancer.  Smith-Bindman et al.

Projected cancer risks from computed tomographic scans performed in the United States in 2007.  Berrington de Gonzalez et al.

Despite the Cuts to MRI’s in British Columbia, Patients Do Have a Choice.

In British Columbia, it has just been announced that the B.C. Liberals have ordered Vancouver Coastal Health (VCH) to drastically reduce patient services and specifically, that VCH plans to perform only 18,000 MRIs in the coming year, down from 27,000 in 2008 and 20,500 in 2009. Similar cuts have been announced on Vancouver Island. These cuts are expected to increase wait-times in the public system by approximately 20%. Depending on your location within the province, this could mean wait times in excess of 18 months for a routine MRI.

The impact that this will have on patients is significant. A patient who is on a long-term waiting list may be forced to miss numerous days of work/school and wait for the appropriate treatment because their physician does not yet have the diagnostic answers that they require to treat them. This extended wait contributes to deferment of appropriate treatment, lost wages, and a negative impact a patient’s daily health & well-being.

In British Columbia, unlike some of the other provinces, patients do have options. Within 24-48 hours patients can obtain their MRI scan, with the report sent immediately to their physician. All that is required to start this process is a physician’s referral. Once you have your diagnosis you can also expedite an appointment with a specialist and/or surgeon at one of the private surgical centers in B.C. and see them in a matter of days instead of months.

So instead of waiting for months for the appropriate diagnostic exam, you can have an MRI, specialist consult and (if required) surgery in a matter of days.

There are costs associated with this expedited care but perhaps not as much as you think. What is important to know is that the choice is yours as to whether the costs for expedited care are worth it to you. You do have a choice.

For further information relating to the specific cuts being made province-wide, visit…