Eva Rothgang scite author profile

(31)P MR spectroscopic imaging of the human prostate provides information about phosphorylated metabolites that could be used for prostate cancer characterization. The sensitivity of a magnetic field strength of 7 T might enable 3D (31)P MR spectroscopic imaging with relevant spatial resolution in a clinically acceptable measurement time. To this end, a (31)P endorectal coil was developed and combined with an eight-channel (1)H body-array coil to relate metabolic information to anatomical location. An extensive safety validation was performed to evaluate the specific absorption rate, the radiofrequency field distribution, and the temperature distribution of both coils. This validation consisted of detailed Finite Integration Technique simulations, confirmed by MR thermometry and B 1+ measurements in a phantom and in vivo temperature measurements. The safety studies demonstrated that the presence of the (31)P endorectal coil had no influence on the specific absorption rate levels and temperature distribution of the external eight-channel (1)H array coil. To stay within a 10 g averaged local specific absorption rate of 10 W/kg, a maximum time-averaged input power of 33 W for the (1)H array coil was allowed. For transmitting with the (31)P endorectal coil, our safety limit of less than 1°C temperature increase in vivo during a 15-min MR spectroscopic imaging experiment was reached at a time-averaged input power of 1.9 W. With this power setting, a second in vivo measurement was performed on a healthy volunteer. Using adiabatic excitation, 3D (31)P MR spectroscopic imaging produced spectra from the entire prostate in 18 min with a spatial resolution of 4 cm(3). The spectral resolution enabled the separate detection of phosphocholine, phosphoethanolamine, inorganic phosphate, and other metabolites that could play an important role in the characterization of prostate cancer.

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Rapid freehand MR‐guided percutaneous needle interventions: An image‐based approach to improve workflow and feasibility

Rothgang

Gilson

Wacker

et al. 2013

Magnetic Resonance Imaging

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Evaluation of a robotic technique for transrectal MRI-guided prostate biopsies

et al. 2011

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ObjectivesTo evaluate the accuracy and speed of a novel robotic technique as an aid to perform magnetic resonance image (MRI)-guided prostate biopsies on patients with cancer suspicious regions.MethodsA pneumatic controlled MR-compatible manipulator with 5 degrees of freedom was developed in-house to guide biopsies under real-time imaging. From 13 consecutive biopsy procedures, the targeting error, biopsy error and target displacement were calculated to evaluate the accuracy. The time was recorded to evaluate manipulation and procedure time.ResultsThe robotic and manual techniques demonstrated comparable results regarding mean targeting error (5.7 vs 5.8 mm, respectively) and mean target displacement (6.6 vs 6.0 mm, respectively). The mean biopsy error was larger (6.5 vs 4.4 mm) when using the robotic technique, although not significant. Mean procedure and manipulation time were 76 min and 6 min, respectively using the robotic technique and 61 and 8 min with the manual technique.ConclusionsAlthough comparable results regarding accuracy and speed were found, the extended technical effort of the robotic technique make the manual technique – currently – more suitable to perform MRI-guided biopsies. Furthermore, this study provided a better insight in displacement of the target during in vivo biopsy procedures.

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Eva Rothgang

In vivo ³¹P MR spectroscopic imaging of the human prostate at 7 T: Safety and feasibility

Rapid freehand MR‐guided percutaneous needle interventions: An image‐based approach to improve workflow and feasibility

Evaluation of a robotic technique for transrectal MRI-guided prostate biopsies

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Eva Rothgang

In vivo 31P MR spectroscopic imaging of the human prostate at 7 T: Safety and feasibility

Rapid freehand MR‐guided percutaneous needle interventions: An image‐based approach to improve workflow and feasibility

Evaluation of a robotic technique for transrectal MRI-guided prostate biopsies

Contact Info

Product

Resources

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In vivo ³¹P MR spectroscopic imaging of the human prostate at 7 T: Safety and feasibility