Senta Richter scite author profile

Senta Richter

5Publications

30Citation Statements Received

97Citation Statements Given

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101

Affiliations

Freie Universität Berlin, Charité - Universitätsmedizin Berlin, Morpho (United States)

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Dual-energy CT collagen density mapping of wrist ligaments reveals tissue remodeling in CPPD patients: first results from a clinical cohort

et al. 2020

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Objectives To evaluate differences in collagen density as detected by dual-energy computed tomography (DECT) of wrist ligaments between patients with calcium pyrophosphate-dihydrate deposition disease (CPPD) and a control group in order to gain insight into changes of the extracellular matrix in response to crystal deposition. Materials and methods This retrospective study included 28 patients (18 with CPPD, 10 controls) who underwent DECT of the wrist. Collagen density maps were reconstructed from the DECT datasets and used to measure densities in regions of interest (ROIs) placed in the scapholunate (SL) ligament (dorsal, palmar, proximal), lunotriquetral (LT) ligament, and extensor carpi radialis (ECR) tendon, (n = 260 measurements). The presence of calcifications on standard CT images in these regions was assessed by a blinded reader. Densities were compared with nonparametric tests, and linear regression analysis was performed to investigate the impact of age, sex, and CT- detected calcium deposition on collagen density. Results Collagen density in the SL ligament was significantly higher in CPPD patients than in controls (overall mean: 265.4 ± 32.1 HU vs. 196.3 ± 33.8 HU; p < 0.001). In the ECR tendon, collagen densities did not differ significantly (p = 0.672): 161.3 ± 20.1 HU in CPPD vs. 163.6 ± 12.0 HU in controls. Regression analysis showed that diagnosis, but not age or calcification, had a significant impact on collagen density. Conclusion Collagen density of the SL ligament is significantly higher in CPPD patients than in control patients. Further research is needed to understand these changes in the extracellular matrix of ligaments in CPPD.

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Unmittelbarer kontakt der sinneszellen cuticularer sinnesorgane mit der aussenwelt eine licht- und elektronenmikroskopische untersuchung der chemorezeptorischen antenivensinnesorgane der calliphora-larven

Richter

1962

Z. Morph. u. Okol. Tiere

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Ultrastructure of the lateral sense organs on the ocular tubercle ofAnoplodactylus pygmaeus (Pycnogonida)

Richter

1982

Helgolander Meeresunters

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Ultrastructure of the lateral sense organs on the ocular tubercle of Anoplodactylus pygmaeus (Pycnogonida). Former light microscopic studies on the lateral sense organs of sea spiders yielded divergent results. Consequently, different authors ascribed different functions to these organs. The present ultrastructural study shows that each lateral sense organ of A. pygmaeus consists of approximately 15 sensory cells of two different types, approximately 20 sheath cells with numerous long microvilli, and an outer cuticutar covering. Essentially the same elements are characteristic features of arthropod sensilla. There are, however, differences between the sense organs described in this paper and the sense organs of other arthropods. The inner dendritic segments of sensory cells S 1 of the A. pygmaeuslateral sense organs are very short, the sensory cilia are invaginated, and the pericarya of the sensory cells contain electron lucent cytoplasmic regions with large granules (glycogen?). In addition, the lateral sense organs of A. pygmaeuslack a marked receptor lymph cavity and junctions between the ceils. The results of the present ultrastructural study clearly indicate that the lateral sense organs of A. pygmaeus are not glands as was postulated for other sea spider species by earlier authors. Some investigators hypothesized that the lateral sense organs of other sea spider species were auditory organs or rudimentary eyes. The present results do not support such speculations. Some structural details of the sensory cells of A. pygmaeus resemble those found in chemoreceptive or putative chemoreceptive organs of other arthropods. Accordingly, chemoreceptive or thermoreceptive functions should be taken into consideration for the lateral sense organs of A. pygmaeus. EINLEITUNG

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CT-like images in MRI improve specificity of erosion detection in patients with hand arthritis: a diagnostic accuracy study with CT as standard of reference

et al. 2022

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ObjectiveTo compare the diagnostic accuracy of susceptibility-weighted imaging (SWI), standard T1-weighted (T1w) images and high-resolution 3D-gradient echo sequences (volumetric interpolated breath-hold examination (VIBE)) for detection of erosions in patients with peripheral arthritis using CT as standard of reference.Materials and methodsA total of 36 patients were included in the study. All patients underwent CT and MRI, including SWI, VIBE and T1w sequences of the clinically more affected hand. Two trained readers scored all imaging datasets separately for erosions in a blinded fashion. Specificity, sensitivity and diagnostic accuracy of MRI sequences were calculated on a per-patient level.ResultsCT was positive for erosion in 16 patients and 77 bones (Rheumatoid Arthritis MRI Score >0), T1w in 28 patients, VIBE in 25 patients and SWI in 17 patients. All MRI sequences performed with comparably high sensitivities (T1w 100%, VIBE 94% and SWI 94%). SWI had the highest specificity of 90%, followed by VIBE (50%) and T1w (40%). Both T1w and VIBE produced significantly higher sum scores than CT (341 and 331 vs 148, p<0.0001), while the sum score for SWI did not differ from CT (119 vs 148; p=0.411).ConclusionSpecificity for erosion detection remains a challenge for MRI when conventional and high-resolution sequences are used but can be improved by direct bone depiction with SWI. Both T1w and VIBE tend to overestimate erosions, when CT is used as the standard of reference.

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Contrast-enhanced CT techniques and MRI perform equally well in arthritis imaging of the hand: a prospective diagnostic accuracy study

et al. 2022

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Objectives To investigate the performance of dual-energy CT (DECT)-generated iodine maps (iMap) and CT subtraction (CT-S) in the detection of synovitis, tenosynovitis, and peritendonitis/paratenonitis compared to magnetic resonance imaging (MRI) using musculoskeletal ultrasound (MSUS) as standard of reference. Methods This IRB-approved prospective study consecutively investigated patients with undifferentiated arthritis. All patients underwent MSUS, MRI and contrast-enhanced DECT of the hand; from the latter conventional CT-S, image-based iMap (iMap-I) and raw data-based iMap (iMap-RD) were reconstructed. CT and MRI datasets were scored for synovitis and tenosynovitis/paratenonitis applying the modified Rheumatoid Arthritis MRI Score (RAMRIS). Sensitivity, specificity, and diagnostic accuracy were calculated. Non-inferiority was tested using the one-tailed McNemar test. Correlation of sum scores was assessed using Pearson’s test. Interreader reliability was assessed using Cohen’s kappa. Results Overall, 33 patients were included. MSUS was positive for synovitis and tenosynovitis/paratenonitis in 28 patients with a sum score of 6.91. Excellent correlation with MSUS was shown for CT-S (sum score 6.38; r = 0.91), iMap-RD (sum score 9.74; r = 0.82), MRI (sum score 12.70; r = 0.85), and iMap-I (sum score 6.94; r = 0.50). CT-S had the highest diagnostic accuracy of 83%, followed by iMap-I (78%), MRI (75%), and iMap-RD (74%). All modalities showed non-inferiority. Reader agreement was good for CT-S and MRI (κ = 0.62; 0.64) and fair for iMap-RD and iMap-I (κ = 0.31; 0.37). Conclusion CT-S and iMap allow highly standardized arthritis imaging and are suitable for clinical practice. MSUS still has the highest availability for arthritis imaging and served as gold standard for this study. Key Points • CT subtraction, iodine map with dual-energy CT, and MRI showed non-inferiority to musculoskeletal ultrasound. • MRI was the most sensitive but least specific imaging technique compared with CT subtraction and dual-energy CT. • CT subtraction showed the best correlation with musculoskeletal ultrasound.

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Senta Richter

Dual-energy CT collagen density mapping of wrist ligaments reveals tissue remodeling in CPPD patients: first results from a clinical cohort

Unmittelbarer kontakt der sinneszellen cuticularer sinnesorgane mit der aussenwelt eine licht- und elektronenmikroskopische untersuchung der chemorezeptorischen antenivensinnesorgane der calliphora-larven

Ultrastructure of the lateral sense organs on the ocular tubercle ofAnoplodactylus pygmaeus (Pycnogonida)

CT-like images in MRI improve specificity of erosion detection in patients with hand arthritis: a diagnostic accuracy study with CT as standard of reference

Contrast-enhanced CT techniques and MRI perform equally well in arthritis imaging of the hand: a prospective diagnostic accuracy study

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