3,533 research outputs found
The contribution of T2 relaxation time to diffusion MRI quantification and its clinical implications: a hypothesis
Considering liver as the reference, that both fast diffusion (PF) and slow
diffusion (Dslow) of the spleen are much underestimated is likely due to the
MRI properties of the spleen such as the much longer T2 relaxation time. It is
possible that longer T2 relaxation time partially mitigates the signal decay
effect of various gradients on diffusion weighted image. This phenomenon will
not be limited to the spleen. Most liver tumors have a longer T2 relaxation
time than their native normal tissue and this is considered to be associated
with oedema. On the other hand, most tumors are measured with lower MRI
diffusion (despite being oedematous). The reason why malignant tumors have
lower diffusion value [apparent diffusion coefficient (ADC) and Dslow] are
poorly understood but has been proposed to be related to a combination of
higher cellularity, tissue disorganization, and increased extracellular space
tortuosity. These explanations may be true, but it is also possible to that
many tumors have MRI properties similar to the spleen such as longer T2
(relative to the liver) and these MRI properties may also contribute to the
lower MRI measured ADC and Dslow . In other words, if we could hypothetically
plant a piece of spleen tissue in the liver, MRI would recognize this planted
spleen tissue as being similar to a tumor and measure it to have lower
diffusion than the liver
An analysis of 1256 cases of sporadic ruptured cerebral aneurysm in a single Chinese institution
Background: To review the epidemiology of sporadic ruptured cerebral aneurysm. Methods: This is a retrospective study of consecutive 1256 Chinese patients between January 2006 and January 2013, who were admitted to the Second Hospital of Hebei Medical University, China, for spontaneous subarachnoid hemorrhage due to a rupture of cerebral artery aneurysm. In 288 males and 478 females, the size of aneurysms was measured by a neuroradiologist on DSA. In 123 males and 184 females, the size of the ruptured aneurysms was not measured. The remaining patients, with 61 males and 122 females, had multiple aneurysms, and the medical record could not reliably determine the specific aneurysm responsible for the rupture. Results: In total there were 784 females and 472 males with a female/male ratio of 1.66. The female/male ratio was down to 0.50 for patients younger than 35 yrs. For both males and females, aneurysm rupture was most common during the age of 50-59 yrs. Ruptured aneurysms were mostly of 2 mm-5 mm in size (47.1%), followed by 5 mm-10 mm (39.7%). Ruptured single cerebral aneurysm occurred in anterior circulation in 95.0% of the cases, with 5.0% occurred in posterior circulation. Ruptured aneurysm most commonly occurred at posterior communicating artery (34.9%) and anterior communicating artery (29.5%). 183 cases (14.6%) had multiple aneurysms. Conclusions: With younger patients, there is a male predominance in our series. Ninety percent of patients have ruptured aneurysms less than 10 mm in size. © 2014 Zhao et al.published_or_final_versio
The vital role of hole-carriers for superconductivity in pressurized black phosphorus
The influence of carrier type on superconductivity has been an important
issue for understanding both conventional and unconventional superconductors
[1-7]. For elements that superconduct, it is known that hole-carriers govern
the superconductivity for transition and main group metals [8-10]. The role of
hole-carriers in elements that are not normally conducting but can be converted
to superconductors, however, remains unclear due to the lack of experimental
data. Here we report the first in-situ high pressure Hall effect measurements
on single crystal black phosphorus, measured up to ~ 50 GPa, and find a
correlation between the Hall coefficient and the superconducting transition
temperature (TC). Our results reveal that hole-carriers play a vital role in
developing superconductivity and enhancing TC. Importantly, we also find a
Lifshitz transition in the high-pressure cubic phase at ~17.2GPa, which
uncovers the origin of a puzzling valley in the superconducting TC-pressure
phase diagram. These results offer insight into the role of hole-carriers in
developing superconductivity in simple semiconducting solids under pressure.Comment: 9 pages anf 3 figure
Quantum theory of electronic double-slit diffraction
The phenomena of electron, neutron, atomic and molecular diffraction have
been studied by many experiments, and these experiments are explained by some
theoretical works. In this paper, we study electronic double-slit diffraction
with quantum mechanical approach. We can obtain the results: (1) When the slit
width is in the range of we can obtain the obvious
diffraction patterns. (2) when the ratio of , order are missing in
diffraction pattern. (3)When the ratio of , there isn't missing order in diffraction pattern. (4) We
also find a new quantum mechanics effect that the slit thickness has a
large affect to the electronic diffraction patterns. We think all the
predictions in our work can be tested by the electronic double-slit diffraction
experiment.Comment: 9pages, 14figure
Dirac Equation at Finite Temperature
In this paper, we propose finite temperature Dirac equation, which can
describe the quantum systems in an arbitrary temperature for a relativistic
particle of spin-1/2. When the temperature T=0, it become Dirac equation. With
the equation, we can study the relativistic quantum systems in an arbitrary
temperature.Comment: arXiv admin note: text overlap with arXiv:1005.2751,
arXiv:hep-ph/0004125, arXiv:hep-ph/0005272 by other author
The volume of trade-induced cross-border freight transportation has doubled and led to 1.14 gigatons COâ‚‚ emissions in 2015
International freight transport associated with global trade generates significant CO2 emissions, which are expected to increase with further globalization. The reduction of these emissions will require international and interregional collaboration. However, which trading partners are responsible for freight transport carbon footprints throughout global value chains remains unclear. Here we link bilateral trade flows of export volume to a multi-regional input-output model to measure CO2 emissions of international freight transport from 1995 to 2015. We find that in 2015, international freight transport generated 1.14 gigatons of CO2, representing 16% of the total emissions associated with international supply chains. Primary contributors were Asia (39%), the European Union (21%) and the United States (13%). During 1995–2015, the cross-border freight transport volume more than doubled due to rapidly growing consumption and transportation of heavier intermediate goods. Our findings provide the information necessary to design targeted mitigation policies for international freight transport
Monitoring Urban Forests from Auto-Generated Segmentation Maps
We present and evaluate a weakly-supervised methodology to quantify the spatio-temporal distribution of urban forests based on remotely sensed data with close-to-zero human interaction. Successfully training machine learning models for semantic segmentation typically depends on the availability of high-quality labels. We evaluate the benefit of high-resolution, three-dimensional point cloud data (LiDAR) as source of noisy labels in order to train models for the localization of trees in orthophotos. As proof of concept we sense Hurricane Sandy's impact on urban forests in Coney Island, New York City (NYC) and reference it to less impacted urban space in Brooklyn, NYC
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