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_OVERVIEW_ | ||
|
Home Page | |
|
News | |
|
Conferences | |
|
Publications | |
|
Humanitarian Award | |
|
Disclaimer | |
|
Chapters | ||
|
EMRF | |
|
Science and Ethics | |
|
Scientific Writing and Editing | |
|
Sustainable Diagnostic Imaging | |
|
Humanitarian Aid | |
|
| ||
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Commentary | Sustainable Diagnostic Imaging |
Harald Østensen Dr. Østensen was a retired radiologist, formerly coordinator of the World Health Organization’s Diagnostic Imaging and Laboratory Technology Branch. He died in June 2011. An abridged version of his commentary was published in Diagnostic Imaging Europe, 2009; 25, 3: 23-24. |
Imaging in Places with Limited Resources In countries where resources are limited, only a few wealthy individuals have access to well-equipped, properly staffed private healthcare institutions. The majority of the population will be treated in poorly equipped government-funded hospitals and clinics that have insufficient staff and are barely operational. Any imaging equipment that is available is likely to be malfunctioning and used incorrectly. Lengthy breakdowns due to lack of proper maintenance and spare parts are common. Outside of the larger cities, virtually no access to diagnostic imaging services will be available. The poor quality of diagnostic imaging services in less developed countries is often due to ignorance about the value of imaging technology. Plans for developing nationwide health services are frequently based on recommendations from international “experts” who live and work under conditions where “everything” is available – and possible. Attempts to transform practically non-existent health systems into systems fit for more affluent countries, virtually overnight, have failed in the past. Nothing suggests that this strategy will succeed in the future. The root of the problem is usually a lack of technical and medical know-how combined with insufficient basic equipment and infrastructure. Even well-educated and properly trained radiological technologists or radiographers can do little to improve the quality of x-ray services if they do not have proper facilities for developing films. Darkrooms are often insufficiently protected from intruding daylight, and water needed for film processing is seldom clean. It can also be extremely difficult to keep water and processing chemicals cool enough. Working temperatures of 40°C are not unusual under tropical conditions. No one other than properly educated and licensed adiographers or technologists should be allowed to operate x-ray machines. This is important if images of diagnostic quality are to be produced safely without exposing patients and/or staff to unnecessary radiation. Fortunately, the majority of x-ray operators do receive a relatively good basic training, though they have few opportunities to update their knowledge through continuing education programs. More so, their social status and salaries are low. In an ideal world, only well-trained and certified medical specialists, typically radiologists, would interpret x-ray examinations. Such people are rarely found in small and midsized hospitals in countries with limited resources. Image interpretation is left to staff with insufficient radiological training. Most qualified radiological specialists tend to move to the larger cities and find employment in private institutions where conditions, including salaries, are much more attractive. There is also a serious brain drain to more affluent countries. So what can be done? Probably the most important task is to substitute chemical film processing with a digital solution. The diagnostic quality of images produced with simple digital radiography solutions is much better than that of conventionally generated images. This switch is often relatively affordable. There is no need to spend thousands on the latest high-tech system. Electronic detectors that are used instead of film cassettes can be bought for €20,000 to €40,000. Initial purchase and installation costs can sometimes be financed by savings in film and chemicals, allowing sites to break even after two or three years. Completely
digital systems eliminate the need for x-ray films and chemicals. Digital WHIS-RAD
equipments combine an x-ray tube, a computed radiography system (CRS), and a workstation. The solution to the lack of medical specialists may be to send images electronically to another institution where radiologists are available. Sites using digital radiography systems should be able to do this easily, given that most have access to e-mail. Compressed x-ray images saved as jpeg files and sent as attachments are sufficient for urgent diagnostic evaluation in most cases. Broadband is desirable but not essential. Such a system will require formal collaboration with the receiving site and some sort of remuneration for the doctor reading the images, but it is doable. Upgrades to small and midsized hospitals in remote locations do not attract media attention. Politicians thinking about headlines and reelection may choose to support the purchase of an extremely expensive item of high-tech medical equipment that may appear to benefit a population. In reality, it will not be utilized properly. Guidelines from international organizations stating that “Every district hospital should at least have one CT machine” may also lead to inappropriate donations. Too many hospitals in poor countries have unused CT scanners that may not even have been installed. No
healthcare system can function properly without the necessary bits and pieces
in place. An adequate, appropriate – and sustainable – diagnostic imaging
service is one of these bits. |
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