First results of the federal quality assurance group ("Arztliche Stelle") in radiotherapy in Baden-Württemberg: part 2.

Purpose: Part 2 of this study presents the results of the clinical audits of the "Arztliche Stelle" (AS) concerning process quality in the radiation therapy units in Baden-Württemberg, Germany.

Material And Methods: The process quality of nine main test groups (laws, organizations, technical equipment, GMP [Good Medical Practice] principles, radiotherapy, radiation procedure, follow-up, discharge report, physics) were questioned by the AS commission and evaluated in a four-stage classification (1-4; none to grave deficiencies).

Results: In 18 institutes (81%), the medical and physical-technical inspection, including radiation protection for patients and staff, revealed very high to high quality, safe treatment commensurate with current standards was guaranteed once the suggestions for improvement given by the experts had been implemented.

[First results of the federal quality assurance group ("Arztliche Stelle") in radiotherapy in baden-württemberg: part 1].

Purpose: To evaluate the structure quality (medical staff, linear accelerators, and patients) of radiotherapy units based on the clinical audits by the "Arztliche Stelle" (this institution is based on federal German law) in Baden-Württemberg.

Material And Methods: External audits (performed by at least two radiation oncologists, one radiation physicist, and a member of the administration) of recently completed charts by designated reviewers using appropriate checklists developed by the federal task group ("Arztliche Stelle") were used.

Results: In the interval from 2005 to 2007, 60 linear accelerators in 24 radiotherapy units served a population of approximately 10.

[Diffusion weighted MRI: ischemic and traumatic injuries of the central nervous system].

Diffusion weighted magnetic resonance imaging (DWI) represents a recent development that extends imaging from the depiction of the neuroanatomy into the field of functional and physiologic processes. DWI measures a fundamentally different physiologic parameter than conventional MRI. Image contrast is related to differences in the microscopic motion (diffusion) of water molecules within brain tissue rather than a change in total tissue water.

[MRI in spinal injuries].

The improvement of preclinical emergency medicine has increased the long-term survival of patients which sustained severe injuries of the spinal cord. However, the incidence of late complications has been increased due to the long-term survival. With the increasing use of magnetic resonance imaging (MRI) in this patient group the diagnosis of typical late complications of the spinal cord has improved.

[Progress in understanding spinal cord injuries. Clinical aspects, imaging, pathological correlations].

Close inspection of MR images in all stages of SCI can reveal alterations which are important for our understanding of the changes which occur in SCI and may be crucial for planning surgical intervention. Importantly also, these observations may assist in the evaluation of novel therapies in SCI, such as cellular transplantation. It is hopeful that MR strategies which are currently in routine use in the brain, such as diffusion weighted imaging, perfusion studies, spectroscopy, and magnetization transfer can be adopted for use in the spine [8].