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Academic Radiology
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May 22, 2002
Three types of physical measurements needed to characterize iron oxide nanoparticles for MRI and MRA: magnetization, relaxometry, and light scattering
Seymour H Koenig, Kenneth E Kellar, Dennis K Fujii, et al.
Cold Spring Harbor Symposia on Quantitative Biology
|
January 1, 1972
X-ray diffraction and nuclear magnetic resonance dispersion studies on derivatives of carboxypeptidase A
F A Quiocho, P H Bethge, W N Lipscomb, et al.
Physical Chemistry Chemical Physics : PCCP
|
August 15, 2023
Effects of surfactant adsorption on the wettability and friction of biomimetic surfaces
Erik Weiand, Francisco Rodriguez-Ropero, Yuri Roiter, et al.
Pathologie-Biologie
|
June 1, 1990
[Trichosporon capitatum septicemia in immunosuppressed patients]
R Herbrecht, K L Liu, H Koenig, et al.
Soft Matter
|
February 3, 2022
Coarse-grained molecular models of the surface of hair
Erik Weiand, James P Ewen, Peter H Koenig, et al.
Journal of Magnetic Resonance Imaging : JMRI
|
May 17, 2000
NC100150 Injection, a preparation of optimized iron oxide nanoparticles for positive-contrast MR angiography
K E Kellar, D K Fujii, W H Gunther, et al.
Investigative Radiology
|
June 1, 1995
Calcification can shorten T2, but not T1, at magnetic resonance imaging fields. Results of a relaxometry study of calcified human meningiomas
M S Tenner, M Spiller, S H Koenig, et al.
Academic Radiology
|
May 22, 2002
Important considerations in the design of iron oxide nanoparticles as contrast agents for TI-weighted MRI and MRA
Kenneth E Kellar, Dennis K Fujii, Wolfgang H H Gunther, et al.
Investigative Radiology
|
January 1, 1995
Relaxometry of noncalcified human meningiomas. Correlation with histology and solids content
S S Kasoff, M Spiller, M P Valsamis, et al.
Investigative Radiology
|
June 1, 1997
Secretory and nonsecretory pituitary adenomas are distinguishable by 1/T1 magnetic relaxation rates at very low magnetic fields in vitro
M Spiller, S M Childress, S H Koenig, et al.
Page
of 32
Search research articles
Search
Showing results (281-290 of 312) with videos related to
Sort By:
Page
of 32
Academic Radiology
|
May 22, 2002
Three types of physical measurements needed to characterize iron oxide nanoparticles for MRI and MRA: magnetization, relaxometry, and light scattering
Seymour H Koenig, Kenneth E Kellar, Dennis K Fujii, et al.
Cold Spring Harbor Symposia on Quantitative Biology
|
January 1, 1972
X-ray diffraction and nuclear magnetic resonance dispersion studies on derivatives of carboxypeptidase A
F A Quiocho, P H Bethge, W N Lipscomb, et al.
Physical Chemistry Chemical Physics : PCCP
|
August 15, 2023
Effects of surfactant adsorption on the wettability and friction of biomimetic surfaces
Erik Weiand, Francisco Rodriguez-Ropero, Yuri Roiter, et al.
Pathologie-Biologie
|
June 1, 1990
[Trichosporon capitatum septicemia in immunosuppressed patients]
R Herbrecht, K L Liu, H Koenig, et al.
Soft Matter
|
February 3, 2022
Coarse-grained molecular models of the surface of hair
Erik Weiand, James P Ewen, Peter H Koenig, et al.
Journal of Magnetic Resonance Imaging : JMRI
|
May 17, 2000
NC100150 Injection, a preparation of optimized iron oxide nanoparticles for positive-contrast MR angiography
K E Kellar, D K Fujii, W H Gunther, et al.
Investigative Radiology
|
June 1, 1995
Calcification can shorten T2, but not T1, at magnetic resonance imaging fields. Results of a relaxometry study of calcified human meningiomas
M S Tenner, M Spiller, S H Koenig, et al.
Academic Radiology
|
May 22, 2002
Important considerations in the design of iron oxide nanoparticles as contrast agents for TI-weighted MRI and MRA
Kenneth E Kellar, Dennis K Fujii, Wolfgang H H Gunther, et al.
Investigative Radiology
|
January 1, 1995
Relaxometry of noncalcified human meningiomas. Correlation with histology and solids content
S S Kasoff, M Spiller, M P Valsamis, et al.
Investigative Radiology
|
June 1, 1997
Secretory and nonsecretory pituitary adenomas are distinguishable by 1/T1 magnetic relaxation rates at very low magnetic fields in vitro
M Spiller, S M Childress, S H Koenig, et al.
Page
of 32