Optical unit of Laser-Electron X-ray Generator designed for medical applications

2009 ◽  
Vol 608 (1) ◽  
pp. S32-S35 ◽  
Author(s):  
M.V. Gorbunkov ◽  
Yu.Ya. Maslova ◽  
A.V. Vinogradov
Keyword(s):  
Medical Applications ◽  
X Ray ◽  
Optical Unit

scholarly journals Enhanced apatite precipitation on a biopolymer-coated bioactive glass

2015 ◽  
Vol 1 (1) ◽  
Author(s):  
M. Araújo ◽  
M. Miola ◽  
A. Venturello ◽  
G. Baldi ◽  
J. Perez ◽  
...  
Keyword(s):  
Bioactive Glass ◽  
Body Fluid ◽  
Organic Coating ◽  
Medical Applications ◽  
Sintering Process ◽  
X Ray Diffraction ◽  
Ph Measurements ◽  
X Ray ◽  
Ft Ir ◽  
Scanning Electron

AbstractIn this work, sintered pellets of a silica-based bioactive glass were dip-coated with a biocompatible natural-derived polymer in order to investigate the influence of the organic coating on the glass bioactivity. After the sintering process optimization, uncoated and coated pellets have been characterized by means of scanning electron microscopy with energy dispersive spectroscopy (SEM, EDS), X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) and pH measurements, after the immersion in a simulated body fluid (SBF). An increased apatite forming ability and a better control of the pH during soaking of the samples in SBF were observed in the presence of the biopolymer. This result opens a new insight on the simple fabrication of highly bioactive hybrid inorganic-organic materials for medical applications.

Medical applications of polycapillary x-ray optics

1995 ◽  
Author(s):  
Carolyn A. MacDonald ◽  
Walter M. Gibson
Keyword(s):  
Medical Applications ◽  
Ray Optics ◽  
X Ray

Perspective for Medical Applications of Phase-Contrast X-Ray Imaging

1998 ◽  
pp. 54-62 ◽  
Author(s):  
Atsushi Momose ◽  
Tohoru Takeda ◽  
Yuji Itai ◽  
Akio Yoneyama ◽  
Keiichi Hirano
Keyword(s):  
Phase Contrast ◽  
Medical Applications ◽  
X Ray ◽  
X Ray Imaging

In Vivo XRF Measurements of Heavy Elements: Summary of a Workshop

1994 ◽  
Vol 38 ◽  
pp. 641-648
Author(s):  
M. Garbauskas ◽  
A. L. Hanson ◽  
M. Kosnet ◽  
R. W Ryon ◽  
L. Wielopolski
Keyword(s):  
Environmental Exposure ◽  
Heavy Elements ◽  
Medical Applications ◽  
Germanium Detectors ◽  
Near Surface ◽  
X Ray

This is a brief summary of the first workshop of “In Vivo XRF Measurements of Heavy Elements,” at the Denver Conference on Applications of X-Ray Analysis. In vivo x-ray fluorescence has been applied to medical applications since the 1960's, with much of the pioneering work being done in Sweden (1). First measurements were of iodine in the thyroid. Elements from iron to uranium have now been measured, at natural and elevated levels. Elevated levels occur either unintentionally through occupational or environmental exposure, or intentionally through medical administration. Examples of measurements are cadmium in kidney and liver, platinum in kidneys and tumors, mercury in the wrists and skulls of dentists, lead in various near-surface bones, copper in the eye and iron in skin. Nearly all measurements make use of either silicon or germanium detectors; radioisotopes and less frequently x-ray tubes are used for excitation.

scholarly journals Synthesis and Characterization of Novel Ruthenium(III) Complexes with Histamine

2010 ◽  
Vol 2010 ◽  
pp. 1-6 ◽  
Author(s):  
Jakob Kljun ◽  
Saša Petriček ◽  
Dušan Žigon ◽  
Rosana Hudej ◽  
Damijan Miklavčič ◽  
...  
Keyword(s):  
Cancer Treatment ◽  
Side Chain ◽  
Synthesis And Characterization ◽  
Medical Applications ◽  
Amino Group ◽  
Heterocyclic Derivative ◽  
Biological Assays ◽  
X Ray ◽  
Protonated Amino Group

Novel ruthenium(III) complexes with histamine[RuCl4(dmso-S)(histamineH)]⋅O(1a) and[RuCl4(dmso-S)(histamineH)](1b) have been prepared and characterized by X-ray structure analysis. Their crystal structures are similar and show a protonated amino group on the side chain of the ligand which is not very common for a simple heterocyclic derivative such as histamine. Biological assays to test the cytotoxicity of the compound1bcombined with electroporation were performed to determine its potential for future medical applications in cancer treatment.

MEDICAL APPLICATIONS OF PARTICLE-INDUCED X-RAY EMISSION

2008 ◽  
Vol 18 (03n04) ◽  
pp. 101-110
Author(s):  
S. HARADA ◽  
S. EHARA ◽  
K. ISHII ◽  
H. YAMAZAKI ◽  
S. MATSUYAMA ◽  
...  
Keyword(s):  
Anticancer Drug ◽  
Liquid Core ◽  
Medical Applications ◽  
High Concentration ◽  
Antitumor Effects ◽  
X Ray ◽  
Core Content ◽  
Dependent Endonuclease ◽  
Radiation Induced ◽  
Induced Apoptosis

We report two medical applications of particle-induced X-ray emission (PIXE) as described below (1) Observation of biological events: The kinetics of trace elements during the initiation of radiation-induced apoptosis (RIA) was observed using a micro-PIXE and PIXE. RIA is a process in which irradiated cells commit suicide; it results in the removal of severely damaged and harmful cells. During RIA, cytochrome c is released from the mitochondria and reaches the nucleus, where it activates a Ca- or Mg-dependent endonuclease. We examined this phenomenon by using a micro-PIXE and PIXE. A high concentration of Fe was detected in the stroma of cells in the early apoptotic phase. We also observed accumulation of large amounts of Ca and Mg in the nucleus.(2) Development of liquid-core microcapsules for novel cancer chemoradiotherapy: Currently, we are developing liquid-core (containing an anticancer drug) microcapsules that release their core content upon irradiation. These microcapsules will localize the anticancer drug within the irradiated field. The outer shell of these microcapsules is prepared from alginate and hyaluronic acid and polymerized by Fe, while the anticancer drug Paraplatin®(carboplatin) containing Pt is the liquid core. The micro-PIXE revealed that these microcapsules released their core content after irradiation, and the amount of carboplatin released was measured by PIXE. More than 83.1% ± 8.3% of the microcapsules were ruptured, and the amount of carboplatin released was more than 81.2% ± 2.3%. Thus, the combination of radiotherapy and chemotherapy showed improved antitumor effects and a decrease in adverse effects because of drug localization.

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