According to a paper published in the November issue of the Springer journal Osteoporosis International, Medicare reimbursement for dual-energy X-ray absorptiometry (DXA) has been cut to levels substantially below the cost to perform the procedure.
As a result, many physicians and clinics around the country are likely to discontinue this critical health service - greatly limiting the public’s access to the test and jeopardizing those at risk for a fracture.
The reimbursement cuts run contrary to existing federal initiatives already in place to increase fracture prevention efforts and improve the prevention, diagnosis and treatment of osteoporosis.
The article shows that DXA is a key tool in identifying those at risk for osteoporosis and helping those with the disease monitor their bone health. It is a recognized tool for preventing and reducing costly fractures, which account for $18 billion in national healthcare costs and are projected to increase by 50 percent over the next two decades, reaching $25.3 billion in 2025.
The authors of the article, E.M. Lewiecki, S. Baim and E.S. Siris, stated their support for “…federal efforts to contain healthcare costs and eliminate unnecessary medical services.” However, with the Medicare cuts in reimbursement, “fewer patients at high risk for fracture will be identified and fewer patients will be treated. As a result, there will be more osteoporotic fractures.”
The article cites a recent study completed by The Lewin Group, which found that restoring DXA reimbursement to the 2006 levels would save the Medicare program $1.14 billion over five years due to the reduced number of osteoporotic fractures.
Osteoporosis now causes an estimated 2 million fractures each year and often results in immobility, pain, placement in a nursing home, isolation and other health problems—conditions and circumstances that could largely be prevented through proper bone density testing and diagnosis.
Renate Bayaz | alfa
Using fragment-based approaches to discover new antibiotics
21.06.2018 | SLAS (Society for Laboratory Automation and Screening)
Scientists learn more about how gene linked to autism affects brain
19.06.2018 | Cincinnati Children's Hospital Medical Center
In a recent publication in the renowned journal Optica, scientists of Leibniz-Institute of Photonic Technology (Leibniz IPHT) in Jena showed that they can accurately control the optical properties of liquid-core fiber lasers and therefore their spectral band width by temperature and pressure tuning.
Already last year, the researchers provided experimental proof of a new dynamic of hybrid solitons– temporally and spectrally stationary light waves resulting...
Scientists from the University of Freiburg and the University of Basel identified a master regulator for bone regeneration. Prasad Shastri, Professor of...
Moving into its fourth decade, AchemAsia is setting out for new horizons: The International Expo and Innovation Forum for Sustainable Chemical Production will take place from 21-23 May 2019 in Shanghai, China. With an updated event profile, the eleventh edition focusses on topics that are especially relevant for the Chinese process industry, putting a strong emphasis on sustainability and innovation.
Founded in 1989 as a spin-off of ACHEMA to cater to the needs of China’s then developing industry, AchemAsia has since grown into a platform where the latest...
The BMBF-funded OWICELLS project was successfully completed with a final presentation at the BMW plant in Munich. The presentation demonstrated a Li-Fi communication with a mobile robot, while the robot carried out usual production processes (welding, moving and testing parts) in a 5x5m² production cell. The robust, optical wireless transmission is based on spatial diversity; in other words, data is sent and received simultaneously by several LEDs and several photodiodes. The system can transmit data at more than 100 Mbit/s and five milliseconds latency.
Modern production technologies in the automobile industry must become more flexible in order to fulfil individual customer requirements.
An international team of scientists has discovered a new way to transfer image information through multimodal fibers with almost no distortion - even if the fiber is bent. The results of the study, to which scientist from the Leibniz-Institute of Photonic Technology Jena (Leibniz IPHT) contributed, were published on 6thJune in the highly-cited journal Physical Review Letters.
Endoscopes allow doctors to see into a patient’s body like through a keyhole. Typically, the images are transmitted via a bundle of several hundreds of optical...
13.06.2018 | Event News
08.06.2018 | Event News
05.06.2018 | Event News
22.06.2018 | Materials Sciences
22.06.2018 | Earth Sciences
22.06.2018 | Life Sciences