Ernst H. K. Stelzer scite author profile

SUMMARY The effect of refractive‐index mismatch, as encountered in the observation of biological specimens, on the image acquisition process in confocal fluorescence microscopy is investigated theoretically. The analysis takes the vectorial properties of light into account and is valid for high numerical apertures. Quantitative predictions on the decrease of resolution, intensity drop and shift of focus are given for practical situations. When observing with a numerical aperture of 1·3 (oil immersion) and an excitation wavelength of 514 nm the centre of the focus shifts 1·7 μm per 10 μm of axial displacement in an aqueous medium, thus yielding an image that is scaled by a factor of 1·2 in the axial direction. Furthermore, it can be expected that for a fluorescent plane 20 μm deep inside an aqueous medium the peak intensity is 40% less than for a plane which is 10 μm deep. In addition, the axial resolution is decreased by a factor of 1·4. The theory was experimentally verified for test samples with different refractive indices.

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Albumin-Based Drug Delivery as Novel Therapeutic Approach for Rheumatoid Arthritis

Wunder

et al. 2003

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We reported recently that albumin is a suitable drug carrier for targeted delivery of methotrexate (MTX) to tumors. Due to pathophysiological conditions in neoplastic tissue, high amounts of albumin accumulate in tumors and are metabolized by malignant cells. MTX, covalently coupled to human serum albumin (MTX-HSA) for cancer treatment, is currently being evaluated in phase II clinical trials. Because synovium of patients with rheumatoid arthritis (RA) shares various features observed also in tumors, albumin-based drug targeting of inflamed joints might be an attractive therapeutic approach. Therefore, the pharmacokinetics of albumin and MTX in a mouse model of arthritis was examined. Additionally, uptake of albumin by synovial fibroblasts of RA patients and the efficacy of MTX and MTX-HSA in arthritic mice were studied. The results show that when compared with MTX, significantly higher amounts of albumin accumulate in inflamed paws, and significantly lower amounts of albumin are found in the liver and the kidneys. The protein is metabolized by human synovial fibroblasts in vitro and in vivo. MTX-HSA was significantly more effective in suppression of the onset of arthritis in mice than was MTX. In conclusion, albumin appears to be a suitable drug carrier in RA, most likely due to effects on synovial fibroblasts, which might increase therapeutic efficacy and reduce side effects of MTX.

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Treatment of Bendamustine and Prednisone in patients with newly diagnosed multiple myeloma results in superior complete response rate, prolonged time to treatment failure and improved quality of life compared to treatment with Melphalan and Prednisone—a randomized phase III study of the East German Study Group of Hematology and Oncology (OSHO)

Pönisch¹,

Mitrou

Merkle

et al. 2006

J Cancer Res Clin Oncol

173

116

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Mechanosensing in actin stress fibers revealed by a close correlation between force and protein localization

Colombelli¹,

Besser²,

Kress³

et al. 2009

105

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Three-Dimensional Tissue Models for Drug Discovery and Toxicology

Pampaloni

Stelzer²,

Masotti³

2009

BIOT

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Launching a new drug on the market is an extremely time-consuming and expensive process. The total costs from the lab bench to the patient's bedside are in the range of $800 million for each new compound. Innovative pre-clinical assays are urgently needed to select the most promising drug candidates. High-throughput molecular screening does not provide information on the effects on cellular functions. Testing on animals is expensive, ethically controversial, and poorly predictive of the response in humans. Conventional two-dimensional (2D) cellular assays do not accurately reflect the drug response in vivo. To overcome these limitations, biotechnologists are developing three-dimensional (3D) cultures. 3D cultures provide more accurate compound screening and can eliminate toxic and ineffective substances at an early stage. Moreover, 3D cultures can accomplish the 3R agenda (refinement, reduction, and replacement) for the replacement of toxicity testing on animals. We provide an up-to-date overview on the patents in the field.

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Ernst H. K. Stelzer

Aberrations in confocal fluorescence microscopy induced by mismatches in refractive index

Albumin-Based Drug Delivery as Novel Therapeutic Approach for Rheumatoid Arthritis

Mechanosensing in actin stress fibers revealed by a close correlation between force and protein localization

Three-Dimensional Tissue Models for Drug Discovery and Toxicology

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