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M Spatial Resolution (m + spatial_resolution)

Distribution by Scientific Domains

Medical Sciences	75%

Selected Abstracts

Earliest Mineral and Matrix Changes in Force-Induced Musculoskeletal Disease as Revealed by Raman Microspectroscopic Imaging,

JOURNAL OF BONE AND MINERAL RESEARCH, Issue 1 2004
Catherine P Tarnowski
Abstract Craniosynostosis, premature fusion of the skull bones at the sutures, is the second most common human birth defect in the skull. Raman microspectroscopy was used to examine the composition, relative amounts, and locations of the mineral and matrix produced in mouse skulls undergoing force-induced craniosynostosis. Raman imaging revealed decreased relative mineral content in skulls undergoing craniosynostosis compared with unloaded specimens. Introduction: Raman microspectroscopy, a nondestructive vibrational spectroscopic technique, was used to examine the composition, relative amounts, and locations of the mineral and matrix produced in mouse skulls undergoing force-induced craniosynostosis. Craniosynostosis, premature fusion of the skull bones at the sutures, is the second most common birth defect in the face and skull. The calvaria, or flat bones that comprise the top of the skull, are most often affected, and craniosynostosis is a feature of over 100 human syndromes and conditions. Materials and Methods: Raman images of the suture, the tips immediately adjacent to the suture (osteogenic fronts), and mature parietal bones of loaded and unloaded calvaria were acquired. Images were acquired at 2.6 × 2.6 ,m spatial resolution and ranged in a field of view from 180 × 210 ,m to 180 × 325 ,m. Results and Conclusions: This study found that osteogenic fronts subjected to uniaxial compression had decreased relative mineral content compared with unloaded osteogenic fronts, presumably because of new and incomplete mineral deposition. Increased matrix production in osteogenic fronts undergoing craniosynostosis was observed. Understanding how force affects the composition, relative amounts, and location of the mineral and matrix provides insight into musculoskeletal disease in general and craniosynostosis in particular. This is the first report in which Raman microspectroscopy was used to study musculoskeletal disease. These data show how Raman microspectroscopy can be used to study subtle changes that occur in disease. [source]

Infrared Microscopic Imaging of Bone: Spatial Distribution of CO32,

JOURNAL OF BONE AND MINERAL RESEARCH, Issue 5 2001
H. Ou-Yang
Abstract This article describes a novel technology for quantitative determination of the spatial distribution of CO32, substitution in bone mineral using infrared (IR) imaging at ,6 ,m spatial resolution. This novel technology consists of an IR array detector of 64 × 64 elements mapped to a 400 ,m × 400 ,m spot at the focal plane of an IR microscope. During each scan, a complete IR spectrum is acquired from each element in the array. The variation of any IR parameter across the array may be mapped. In the current study, a linear relationship was observed between the band area or the peak height ratio of the CO32, v3 contour at 1415 cm,1 to the PO43, v1,v3 contour in a series of synthetic carbonated apatites. The correlation coefficient between the spectroscopically and analytically determined ratios (R2 = 0.989) attests to the practical utility of this IR area ratio for determination of bone CO32, levels. The relationship forms the basis for the determination of CO32, in tissue sections using IR imaging. In four images of trabecular bone the average CO32, levels were 5.95 wt% (2298 data points), 6.67% (2040 data points), 6.66% (1176 data points), and 6.73% (2256 data points) with an overall average of 6.38 ± 0.14% (7770 data points). The highest levels of CO32, were found at the edge of the trabeculae and immediately adjacent to the Haversian canal. Examination of parameters derived from the phosphate v1,v3 contour of the synthetic apatites revealed that the crystallinity/perfection of the hydroxyapatite (HA) crystals was diminished as CO32, levels increased. The methodology described will permit evaluation of the spatial distribution of CO32, levels in diseased and normal mineralized tissues. [source]

In vivo MR imaging of pulmonary arteries of normal and experimental emboli in small animals

JOURNAL OF MAGNETIC RESONANCE IMAGING, Issue 6 2006
Mathieu Lederlin MD
Abstract Purpose To demonstrate the feasibility of pulmonary MRA in living rodents. Materials and Methods A three-dimensional (3D) gradient echo sequence was adapted to perform a time-of-flight (TOF) angiography of rat lung. Angiogram with a spatial resolution of 195 × 228 × 228 ,m3 was acquired in around 33 minutes. The method was then applied in animals before and after pulmonary embolism (PE) induction. Section of the proximal right pulmonary artery was measured and compared between the two populations. Results Good quality images were obtained with a contrast-to-noise ratio (CNR) of 9 ± 3 in the proximal part of the pulmonary artery. Cross-section areas of the right main artery are statistically different before (3.45 ± 0.69 mm2) and after induction of PE (4.3 ± 0.86 mm2). Conclusion This noninvasive tool permits angiogram acquisition at around 200 ,m spatial resolution and objective distinction between healthy and embolized arteries. J. Magn. Reson. Imaging 2006. © 2006 Wiley-Liss, Inc. [source]

In situ localisation and quantification of surfactins in a Bacillus subtilis swarming community by imaging mass spectrometry

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 18 2008
Delphine Debois
Abstract Surfactins are a family of heptacyclopeptides in which the C-terminal carbonyl is linked with the ,-hydroxy group of a fatty acid acylating the N-terminal function of a glutamic acid residue. The fatty acyl chain is 12,16 carbon atoms long. These compounds, which are secreted by the Gram-positive bacterium Bacillus subtilis in stationary phase in liquid cultures, play an important role in swarming communities on the surface of agar media in the formation of dendritic patterns. TOF secondary ion MS (TOF-SIMS) imaging was used to map surfactins within 16,17,h swarming patterns, with a 2,,m spatial resolution. Surfactins were mainly located in the central mother colony (the site of initial inoculation), in a ,ring' surrounding the pattern and along the edges of the dendrites. In the mother colony and the interior of the dendrites, surfactins with shorter chain lengths are present, whereas in the ring surrounding the swarm community and between dendrites, surfactins with longer fatty acyl chain lengths were found. A quantitative analysis by MALDI-TOF MS showed a concentration gradient of surfactin from the mother colony to the periphery. The concentration of surfactin was ,400,pmol/mL in the mother colony and ,10,pmol/mL at the base of the dendrites, decreasing to 2,pmol/mL at their tips. [source]