4,032 research outputs found
Unconventional strong pinning in the low temperature phase of U_.9725Th_.0275Be_13
We investigated low field vortex dynamics in a single crystal of
U_.9725Th_.0275Be_13. We found a sharp transition in the vortex creep rate at
the lower transition temperature T_c2, coincident with the second jump in the
specific heat. In the high-temperature phase, rather strong creep rates are
observed. In the low temperature phase, the rates drop to undetectabely low
levels. This behaviour indicates that a very strong pinning mechanism is
present in the low temperature phase of U_.9725Th_.0275Be_13, which could be
explained by the existence of domain walls, separating discreetly degenerate
states of a superconductor, that can sustain fractional vortices and thus act
as very strong pinning centers.Comment: 2 pages, 2 figures, accepted in PhysicaB, LT2
On the vulval morphology of some species of Bursaphelenchus (Nematoda: Parasitaphelenchinae)
The vulval pattern of six species of the genus Bursaphelenchus (B. abruptus, B. conicaudatus, B. fraudulentus,
B. luxuriosae, B. mucronatus and B. xylophilus) was studied using scanning electron microscopy. A terminology for the vulval region
structures observed is proposed herein and illustrated by micrographs and line drawings. It was shown that, of the studied species, only
B. mucronatus and B. xylophilus share an identical morphology of the vulval region, all other species differing significantly from each
other and from both B. mucronatus and B. xylophilus. This study indicates the diagnostic potential for variation in vulval morphology
within Bursaphelenchus and it is recommended that such features are recorded in all future descriptions
Bursaphelenchus antoniae sp. n. (Nematoda: Parasitaphelenchidae) associated with Hylobius sp. from Pinus pinaster in Portugal
Bursaphelenchus antoniae sp. n. is described and illustrated. Dauer juveniles were isolated from the body of the large pine
weevil, Hylobius sp., collected from maritime pine (Pinus pinaster) stumps, in Portugal. Bursaphelenchus antoniae sp. n. was reared
and maintained in P. pinaster wood segments and on Petri dish cultures of the fungi Botrytis cinerea and Monilinia fructicola. The new
species is characterised by a relatively small body length of ca 583 μm (females) and 578 μm (males), a lateral field with two incisures,
presence of a small vulval flap and a conoid female tail with a rounded or pointed terminus. Males have stout spicules with a disc-like
cucullus and seven caudal papillae arranged as a single midventral precloacal papilla, one precloacal pair and two postcloacal pairs. In
the character of the lateral field, B. antoniae sp. n. comes close to B. abietinus, B. rainulfi and B. hylobianum, whilst spicule characters
place it within the piniperdae-group sensu Ryss et al. Morphologically, B. antoniae sp. n. is closest to B. hylobianum; the spicules of
these two species having flattened, wing-like, alae on the distal third of the lamina. Bursaphelenchus antoniae sp. n. is distinguished
from B. hylobianum on the arrangement of the caudal papillae (two vs three pairs). ITS-RFLP profiles and the failure to hybridise
support the separation of the two species. Phylogenetic analysis of the new species, based on the 18S rDNA sequence, supports the
inclusion of this new species in the B. hylobianum-group sensu Braasch. Sequence analysis of the 28S rDNA D2/D3 domain did not
place the new species in a definite group
Enhanced Digital Breast Tomosynthesis diagnosis using 3D visualization and automatic classification of lesions
Breast cancer represents the main cause of cancer-related deaths in women. Nonetheless, the mortality rate of this disease has been decreasing over the last three decades, largely due to the screening programs for early detection. For many years, both screening and clinical diagnosis were mostly done through Digital Mammography (DM). Approved in 2011, Digital Breast Tomosynthesis (DBT) is similar to DM but it allows a 3D reconstruction of the breast tissue, which helps the diagnosis by reducing the tissue overlap. Currently, DBT is firmly established and is approved as a stand-alone modality to replace DM.
The main objective of this thesis is to develop computational tools to improve the visualization and interpretation of DBT data.
Several methods for an enhanced visualization of DBT data through volume rendering were studied and developed. Firstly, important rendering parameters were considered. A new approach for automatic generation of transfer functions was implemented and two other parameters that highly affect the quality of volume rendered images were explored: voxel size in Z direction and sampling distance. Next, new image processing methods that improve the rendering quality by considering the noise regularization and the reduction of out-of-plane artifacts were developed.
The interpretation of DBT data with automatic detection of lesions was approached through artificial intelligence methods. Several deep learning Convolutional Neural Networks (CNNs) were implemented and trained to classify a complete DBT image for the presence or absence of microcalcification clusters (MCs). Then, a faster R-CNN (region-based CNN) was trained to detect and accurately locate the MCs in the DBT images. The detected MCs were rendered with the developed 3D rendering software, which provided an enhanced visualization of the volume of interest. The combination of volume visualization with lesion detection may, in the future, improve both diagnostic accuracy and also reduce analysis time.
This thesis promotes the development of new computational imaging methods to increase the diagnostic value of DBT, with the aim of assisting radiologists in their task of analyzing DBT volumes and diagnosing breast cancer
Detailed morphobiometric studies of Bursaphelenchus xylophilus and characterisation of other Bursaphelenchus species (Nematoda: Parasitaphelenchidae) associated with Pinus pinaster in Portugal
Detailed studies on Bursaphelenchus xylophilus are provided in this contribution. Comparative observations
between field and cultured populations of this species demonstrated significant size differences: cultured specimens
overall displayed larger size in all morphometric parameters. A principal component analysis (PCA) of the individuals
undergoing moulting allowed their separation in four groups namely J2-J3, J3-J4, J4F-F, and J4M-M; gonad length mean values
of these four groups made possible to distinguish the non-moulting groups J2, J3, J4F, J4M and adults. Seven Bursaphelenchus
species (B. hellenicus, B. leoni, B. pinasteri, B. sexdentati, B. teratospicularis, B. tusciae and B. xylophilus), associated with Pinus
pinaster in Portugal, were charaterized, including biometrical measurements and ratios as well excised spicules observed
under SEM; furthermore, B. hellenicus, B. pinasteri, B. sexdentati, B. tusciae and B. xylophilus were characterised on the
basis of their ITS-RFLP profiles. B. sexdentati and B. xylophilus were the only species found in high numbers in some of
the samples
Growth enhancement of benthic diatoms for industrial applications
Este resumo faz parte de: Book of abstracts of the Meeting of the Institute for Biotechnology and Bioengineering, 2, Braga, Portugal, 2010. A versão completa do livro de atas está disponível em: http://hdl.handle.net/1822/1096
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