[ RadSafe ] Off topic article? Researchers use CT to examine hiddenface in Nefertiti bust
cary.renquist at ezag.com
Tue Mar 31 09:36:36 CDT 2009
Falling into the same OT? collision of art and rad...
A radiology student with a MFA...
Stuelke acquires the images on an older four-slice CT scanner that is used for research. Most scan parameters include a 120kV tube voltage, 100mA current, 0.625mm slice thickness and interval, 1:1 pitch, 1.25mm beam collimation, and a speed of 1.25mm/rotation. The resulting DICOM images are then processed in Osirix software on a Macintosh iMac computer. Colors are assigned based on the varying densities of materials present throughout the object. Depending on the spread of densities within a particular subject, black or white backgrounds are chosen. Images are further processed in Adobe Photoshop for proper contrast and balance.
RSO, Eckert & Ziegler Isotope Products
From: radsafe-bounces at radlab.nl [mailto:radsafe-bounces at radlab.nl] On Behalf Of ROY HERREN
Sent: Monday, 30 March, 2009 21:51
To: radsafe at radlab.nl
Subject: [ RadSafe ] Off topic article? Researchers use CT to examine hiddenface in Nefertiti bust
Public release date: 31-Mar-2009
Contact: Linda Brooks
lbrooks at rsna.org
Radiological Society of North America
Researchers use CT to examine hidden face in Nefertiti bust
OAK BROOK, Ill. - Using CT imaging to study a priceless bust of Nefertiti, researchers have uncovered a delicately carved face in the limestone inner core and gained new insights into methods used to create the ancient masterpiece and information pertinent to its conservation, according to a study published in the April issue of Radiology.
"We acquired a lot of information on how the bust was manufactured more than 3,300 years ago by the royal sculptor," said the study's lead author Alexander Huppertz, M.D., director of the Imaging Science Institute in Berlin, Germany. "We learned that the sculpture has two slightly different faces, and we derived from interpretation of the CT images how to prevent damage of this extremely precious art object."
Nefertiti, the wife of the Egyptian pharaoh Akhenaten, was the most renowned Great Royal Wife of all 31 Egyptian dynasties. Considered one of the greatest finds of ancient Egypt, the bust of Nefertiti was discovered in 1912, during excavation of the studio of famous royal sculptor Thutmose.
The Nefertiti bust consists of a limestone core covered in layers of stucco of varying thickness. The bust was examined using CT for the first time in 1992, but recent advances in CT technology allowed the researchers to analyze the statue in 2007 with greater precision.
"CT has changed significantly since 1992," Dr. Huppertz said. "We can now acquire three-dimensional (3-D) images at a much higher resolution."
Dr. Huppertz and colleagues used a 64-section spiral CT technique with submillimeter section thickness to examine the bust and assess its conservation status, gain information on its creation and provide a 3-D surface reformation of the inner limestone sculpture.
The results showed that a multi-step process was used to create the sculpture. The stucco layer on the face and ears is very thin, but the rear part of the reconstructed crown contains two thick stucco layers. CT images showed several fissures and non-uniform bonding between the layers.
The inner limestone face was delicately sculpted and highly symmetric. Compared to the outer stucco face, the inner face exhibited some differences: less depth in the corners of the eyelids, creases around the corner of the mouth and cheeks, less prominent cheekbones and a slight bump on the ridge of the nose. The ears on the inner sculpture were similar to those visible on the exterior.
Thin-section CT was able to provide detailed images of the inner structure in a completely nondestructive manner and showed the limestone core to be not just a mold, but a skillfully rendered work of art. Retouching the creases in the corners of the mouth and smoothing the bump on the nose on the outer face may have been the artist's choice and reflective of the aesthetic ideals of that era.
CT findings also may be important in preventing future damage to the bust. The findings of multiple, varying layers of stucco, as well as fissures in the shoulders, lower surface of the bust and rear of the crown, indicate vulnerable areas requiring very careful handling, and pressure on the layers of thick stucco is to be avoided.
"Noninvasive CT technology and very advanced 3-D post-processing tools allow us greater insight into the internal composition and conservation status of the sculpture," Dr. Huppertz said. "This knowledge will greatly contribute to the preservation of this priceless antiquity."
The Nefertiti bust is part of the collection of the Egyptian Museum of Berlin and will be moved in October 2009 to the recently restored New Museum in the historical center of Berlin.
"Nondestructive Insights into Composition of the Sculpture of Egyptian Queen Nefertiti with CT." Collaborating with Dr. Huppertz were Dietrich Wildung, Ph.D., Barry Kemp, Tanja Nentwig, Patrick Asbach, M.D., Franz Maximilian Rasche, M.D., and Bernd Hamm, M.D. Journal attribution requested.
Radiology is edited by Herbert Y. Kressel, M.D., Harvard Medical School, Boston, Mass., and owned and published by the Radiological Society of North America, Inc. (RSNA.org/radiologyjnl)
RSNA is an association of more than 42,000 radiologists, radiation oncologists, medical physicists and related scientists committed to excellence in patient care through education and research. (RSNA.org)
For more information on CT, visit RadiologyInfo.org.
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