[Intranet applications in radiology]. / Intranetanwendungen in der Radiologie.

UNLABELLED: The aim of the paper is to present the conceptual basis and capabilities of intranet applications in radiology. The intranet, which is the local brother of the internet can be readily realized using existing computer components and a network. All current computer operating systems support intranet applications which allow hard and software independent communication of text, images, video and sound with the use of browser software without dedicated programs on the individual personal computers. Radiological applications for text communication e.g. department specific bulletin boards and access to examination protocols; use of image communication for viewing and limited processing and documentation of radiological images can be achieved on decentralized PCs as well as speech communication for dictation, distribution of dictation and speech recognition. DISCUSSION: The intranet helps to optimize the organizational efficiency and cost effectiveness in the daily work of radiological departments in outpatients and hospital settings. The general interest in internet and intranet technology will guarantee its continuous development.

Arterial-phase three-dimensional gadolinium magnetic resonance angiography of the renal arteries. Strategies for timing and contrast media injection: original investigation.

RATIONALE AND OBJECTIVES: The authors review different imaging and contrast-media infusion strategies for arterial-phase three-dimensional (3D) gadolinium-enhanced magnetic resonance angiography (Gd-MRA). METHODS: The influence of physicochemical factors on the infusion of contrast media, including viscosity, flow rate, inline pressure, and cannula size, is assessed. The combination of manual or automated contrast-media administration with timing-dependent or -independent 3D Gd-MRA techniques is reviewed regarding the aspects of effectiveness, robustness, image quality, and costs. RESULTS: For effective bolus delivery with high flow rates, the type and temperature of the contrast media, the size of the cannula, and an immediate saline flush must be considered. Timing-dependent techniques based on a test bolus and using automated contrast-media infusion as well as timing independent techniques such as MR SmartPrep or multiphase 3D Gd-MRA by using a manual injection with a SmartSet tubing set, are all effective procedures for arterial phase 3D Gd-MRA. CONCLUSIONS: Manual contrast-media injection with a tubing set can be used for timing-independent MRA techniques. The multiphase 3D Gd-MRA approach seems to be favorable for different MR systems, robustness, and speed.

[Effects of viscosity, cannula size and temperature in mechanical contrast media administration in CT and magnetic resonance tomography]. / Einfluss von Viskosität, Kanülengrösse und Temperatur bei der maschinellen Kontrastmittelapplikation in der Computer- und Magnetresonanztomographie.

PURPOSE: Mechanical contrast media application is used to improve image quality and allow better quantitative assessment of the contrast media kinetics for CT as well as MRI. The pressure within the i.v. line system must be known to enable safe and quantitatively exact application. MATERIAL AND METHODS: Experimental setup to analyse the inline pressure, the storage volume as well as the exactness of delivery within the i.v. line system was prepared. Representative contrast media Ultravist 300, Ultravist 370, Magnevist and Conray 60 as well as 0.9% NaCl were measured with ten different flow rates from 0.1 ml/sec to 5.0 ml/sec using the six most common i.v. cannula sizes (22G-14G). RESULTS: System pressures between 38-60 psi (maximum allowed system pressure = 60 psi) are commonly obtained with standard sizes of i.v. cannulas, such as an 18 G cannula and flow rates > or = 2.5 ml/sec using Ultravist 300 (viscosity 13 mPa.s at 20 degrees C). Higher system pressures (> 25 psi) produce an exponential increase of the storage volume within the i.v. line system. The additional storage volume within the i.v. line tubing (d = 2.9 mm, 76 shore) is at 60 psi and 20 degrees C 5 ml/m, and at 37 degrees C 11 ml/m in addition to the volume of the tubing of 7 ml/m. CONCLUSION: Based on the measured data, both the minimum and the recommended sizes of the i.v. cannulas in respect of flow rate and viscosity of the used contrast media were compiled for system pressures at < or = 60 psi as well as < or = 38 psi.

[PC applications in routine practice, science and teaching. What computer peripherals are useful?]. / PC-Einsatz in Routine, Wissenschaft und Lehre. Welche Zubehörkomponenten sind sinnvoll?

The "multimedia" revolution in personal computer systems now permits radiological images to be processed as well as documentation on paper or pictures. A large variety of add-on cards or components is available for such processing. This review article introduces the different components and reports our experience.