Der Radiologe
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Clinical hyperthermia with controlled alteration of temperature (40 to 44 degrees C) in the target area is used in interdisciplinary treatment concepts for tumor treatment in combination with radiation and/or radiotherapy. Besides the direct cytotoxic power of hyperthermia there is an immunomodulatory effect and a radiation and chemotherapy sensitizing effect in the heated tissue. Clinical hyperthermia is an invasive or non-invasive supply of energy to the body of the patient, which leads to an artificial heating of the tumor and the surrounded tissue. ⋯ I and phase II trials could show that the effects of radiation and chemotherapy can be altered by the simultaneous addition of hyperthermia. Data of trials involving skin metastasis in malignant melanoma, local relapse in breast cancer, tumors of the head and neck with regional lymph node metastasis, as well as trials in colorectal tumors, bladder cancer, pancreatic cancer, cervical cancer and sarcoma are presented. The results shows, that response to treatment can be improved by hyperthermia.
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The recent development of 3 Tesla MRI (3T MRI) has been fueled by promise of increased signal-to-noise ratio(SNR). Many are excited about the opportunity to not only use the increased SNR for clearer images, but also the chance to exchange it for better resolution or faster scans. These possibilities have caused a rapid increase in the market for 3T MRI, where the faster scanning tips an already advantageous economic outlook in favor of the user. ⋯ To date, both animal and human imaging have been performed on a whole body 7T scanner. Results show promise for both detailed imaging and functional MRI, but the road ahead is too long to be able to predict where it will end. The move toward higher field strengths is an exciting adventure in which 3T plays the role of trailblazer.
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Thoracic sonography has become an established imaging tool for evaluating specific paediatric thoracic diseases; particularly queries such as thymomegaly, pleural effusion, pulmonal sequester or thoracic small part pathology may be reliably addressed. Using appropriate ultrasound equipment the well trained and experienced investigator may diagnose these conditions without the need for a radiating imaging modality or help to evaluate equivocal findings on chest plain films. ⋯ The restrictions and setbacks are discussed, and an algorithm for additional imaging and typical scenarios is supposed in order to help and encourage the meaningful and efficient use of this non-ionising, easy applicable imaging tool to chest queries. In conclusion, this review tries to give an overview of the restrictions and indications for thoracic sonography in neonates, infants and children as a useful imaging tool when indicated.
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With the recent advances in broadband transducer technology and refinements in scanning technique, an increasing number of nerves and related pathologic conditions are identified with sonography. High-resolution sonography can support clinical and electrophysiological testing for detection of a variety of nerve abnormalities, including entrapment neuropathies, traumas, infectious disorders, and tumors. In addition, procedures of regional anesthesia and percutaneous treatment of painful neuromas can be effectively guided by sonography in real time. This article addresses the normal US appearance of peripheral nerves and discusses the potential role of this technique to image nerve disorders in specific clinical settings.