Klaus Hergan scite author profile

Body packing is a distinct method for smuggling drugs. What radiologists need to know is discussed in this pictorial review. Radiologists are confronted with diagnostic imaging of body packers because of two main reasons: complications of body packing and identifying drug packets within the gastrointestinal tract. The standard examination used is plain X-ray of the abdomen in an upright and a supine position. Computed tomography is occasionally used but nevertheless described as a very accurate diagnostic tool. Ultrasound and MR imaging do not play an important role in that field. Depending on the purity of the drug, three different forms of attenuation have been described: hashish is denser than stool; cocaine appears similar to stool; and heroin has a gaseous transparence. The packets are of a round to oval form, usually of a particular uniformity and rarely confused with scybala if arranged like a pearl chain; therefore, plain X-ray is the method of choice to detect drug-filled packets within the gastrointestinal tract of body packers.

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Morbidity of Breast Cancer Patients Following Complete Axillary Dissection or Sentinel Node Biopsy Only: A Comparative Evaluation

Haid

Köberle-Wührer

Knauer

et al. 2002

Breast Cancer Res Treat

120

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Comparison of native myocardial T1 and T2 mapping at 1.5T and 3T in healthy volunteers

Granitz

Motloch

Granitz

et al. 2018

Wien Klin Wochenschr

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Summary Background Myocardial native T1 and T2 mapping are promising techniques for quantitative assessment of diffuse myocardial pathologies; however, due to conflicting data regarding normal values, routine clinical implementation of this method is still challenging. Methods To evaluate this situation during daily clinical practice the characteristics of normal values obtained in 60 healthy volunteers who underwent magnetic resonance imaging (MRI) scans on 1.5T and 3T scanners were studied. The T1 modified look-locker inversion recovery (MOLLI; 5(3)3; modified for higher heart rates) and T2 navigator gated black-blood prepared gradient-spin-echo (GraSE) sequences were used. Results While age and body mass index did not affect relaxation times, a gender and heart rate dependency was found showing higher T1 and T2 values in females, whereas at higher heart rates a prolongation of T1 and a shortening of T2 relaxation times was found. Particularly prone to artifacts were T2 measurements at 3T and the inferolateral wall. In the individual setting mean relaxation times for T1 were 995.8 ± 30.9 ms at 1.5T and 1183.8 ± 37.5 ms at 3T and 55.8 ± 2.8 ms at 1.5T and 51.6 ± 3 ms at 3T for T2 indicating a high dependency of reference values on MRI protocol when compared to the literature. Furthermore, as presumed mean T1 and T2 values correlated in the same individual. Conclusions The T1 and T2 relaxation times depend on physiological factors and especially on MRI protocols. Therefore, reference values should be validated individually in every radiological institution before implementing mapping protocols in daily clinical practice. Correlation of mean T1 and T2 values in the same proband at both field strengths indicates intraindividual reproducibility.

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Ulnar collateral ligament: differentiation of displaced and nondisplaced tears with US and MR imaging.

Hergan

Mittler²,

Oser³

1995

Radiology

116

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Diffusion-weighted MRI in diffuse axonal injury of the brain

et al. 2002

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The goal of this study was to identify and describe the different types and patterns of tissue injury which are encountered by diffusion-weighted imaging (DWI) in diffuse axonal injury (DAI) of the brain. The DWI data sets of 98 patients who suffered from a closed-head injury were retrospectively evaluated. Medical records were reviewed to rule out pre-existing neurological diseases. Lesions were studied for their DWI signal characteristics and lesion size or extension. Traumatic lesions were classified into three categories depending on their signal characteristica on DWI and apparent diffusion coefficient (ADC) maps: type 1, DWI- and ADC-hyperintense most likely representing lesions with vasogenic edema; type 2, DWI-hyperintense, ADC-hypointense indicating cytotoxic edema; type 3, central hemorrhagic lesion surrounded by an area of increased diffusion. According to the size and extent of lesions, injury was classified into three groups: group A, focal injury; group B, regional/confluent injury; and group C, extensive/diffuse injury. Our study showed that diffusion-weighted imaging differentiates between lesions with decreased and increased diffusion in patients with DAI. Different degrees of tissue injury extent were noticed. Future prospective studies should study if this additional information can be used as a predictor of injury reversibility, final outcome and prognosis.

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Evaluation of the anti-peristaltic effect of glucagon and hyoscine on the small bowel: comparison of intravenous and intramuscular drug administration

et al. 2012

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Chest Ultrasound in Diagnosis of Pulmonary Embolism in Comparison to Helical CT

Mathis¹,

Bitschnau²,

Gehmacher³

et al. 1999

Ultraschall in Med

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Klaus Hergan

Diffusion-Weighted Imaging for the Evaluation of Diffuse Axonal Injury in Closed Head Injury

Drug smuggling by body packing: what radiologists should know about it

Morbidity of Breast Cancer Patients Following Complete Axillary Dissection or Sentinel Node Biopsy Only: A Comparative Evaluation

Comparison of native myocardial T1 and T2 mapping at 1.5T and 3T in healthy volunteers

Ulnar collateral ligament: differentiation of displaced and nondisplaced tears with US and MR imaging.

Diffusion-weighted MRI in diffuse axonal injury of the brain

Evaluation of the anti-peristaltic effect of glucagon and hyoscine on the small bowel: comparison of intravenous and intramuscular drug administration

Chest Ultrasound in Diagnosis of Pulmonary Embolism in Comparison to Helical CT

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