RESUMO
Continuous irrigating mode of endoscopic ear surgeryï¼CIM-EESï¼ solves some pain points and difficulties in the operation of otoscopic surgery to a certain extent, including easily fogging of the endoscopic tip and hemorrhage during the endoscopic operation. In order to illustrate useful information of CIM-EES, including its core conception,generation background, practical operation specification, indications and contraidictions of the mode as well as technical advantages and existing problems, the National Standardized Training and Promotion Collaborative Group for Endoscopic Ear Surgery, in collaboration with otologists nationwide, have discussed and formulated this consensus of CIM-EES.
Assuntos
Endoscopia , Procedimentos Cirúrgicos Otológicos , Humanos , ConsensoRESUMO
The terrible triad of elbow is a kind of complex elbow fracture dislocation, after reduction, it should get a concentric circles joint reduction and elbow stability, if radial and coronoid process fractures is less piece, the conservative treatment can be performed, but regularly follow up is mandatory. If surgical treatment was chosen, radial head fractures and the lateral collateral ligament complex must be repaired. Single lateral approach can be used and also can be combined with anteromedial approach in surgery. Some problems are still controversial in the treatment of coronoid process fracture with Morry type I and type II, such as fixation or not, whether additional external fixation and repair of the medial collateral ligament injury at the same time.
Assuntos
Lesões no Cotovelo , Fratura-Luxação/cirurgia , Fraturas do Rádio/cirurgia , Ligamentos Colaterais/cirurgia , Tratamento Conservador , Fixação Interna de Fraturas , Humanos , Luxações Articulares , Amplitude de Movimento Articular , Resultado do Tratamento , Fraturas da UlnaRESUMO
Four tetrazolate (tz(-))-based magnetic metal-organic frameworks, [Cu5(µ3-OH)2(SO4)2(tz)4]n (), {[Cu3(tz)4Cl2]·1.4CH3OH}n (), [Cu(N3)(tz)]n () and {[Cu5(tz)9]Cl·4H2O}n (), were hydro/solvothermally synthesized, and structurally and magnetically characterized. Structural analyses reveal that the former two samples exhibit the same eight-connected topological framework assembled from different subunits. Hourglass-shaped {Cu5(µ3-OH)2}(8+) cores in are periodically extended by mixed µ3-/µ4-tz(-) and µ4-SO4(2-) heterolinkers, while the linear {Cu3(µ-Cl)2}(4+) blocks in are repeatedly intersected by ditopic µ3-tz(-) connectors. In contrast, the square grid-shaped network of is constructed from linear {Cu(µ1,1-N3)}(+) chains and µ3-tz(-) linkers. Complex consists of trigonal-prismatic {Cu8(µ3-tz)6}(10+) subunits, which are interlinked into hexagonal microporous architecture by mirror-symmetry µ4-tz(-) ligands. Thus, the various subunits of are significantly tuned by the co-coordination of the inorganic anions and/or the azido co-ligand, and the backbone extensions are directed by the polytopic tetrazolate ligand. Magnetically, different ordering arrangements of the non-zero magnetizations produced in the local Cu(II)5 and Cu(II)3 subunits eventually lead to unusual ferrimagnetic and canted antiferromagnetic properties in and . Strong antiferromagnetic couplings mediated by the mixed tz(-) and/or azido bridges result in overall S = 0 spin ground-states of and .
RESUMO
Three extended three-dimensional (3D) magnetic metal-organic frameworks (MMOFs), {[Mn3(H2O)2(atz)4Cl2]·2CH3OH}n (1), {[Mn2(H2O)(atz)2(ip)]·C2H5OH}n (2) and {[Mn2(H2O)2(atz)(btc)]·3H2O·0.7CH3OH}n (3) (atz(-) = 5-aminotetrazolate, ip(2-) = isophthalate and btc(3-) = 1,3,5-benzenetricarboxylate), were respectively obtained by varying the coligands with different numbers of functionalities and molecular topology, and structurally and magnetically characterized. Complex 1 exhibits an eight-connected 3(6)·4(18)·5(3)·6 topological network with linear Mn(II)3 subunits periodically linked by ditopic atz(-) connectors. Complex 2 possesses a pillared-layer framework constructed from undulated {Mn2(atz)2} layers and bidirectional ip(2-) spacers. By contrast, 3 consists of bent one-dimensional (1D) {Mn(atz)} ribbons, which are crosslinked through the carboxylate groups of tripodal btc(3-) connectors to generate a 3D architecture. Structural analysis reveals that the interesting motifs of 1-3 and their diverse linkages are significantly dominated by the cooperate coordination of the mixed ligands to the octahedral Mn(II) ion. Magnetically, 1 displays ferrimagnetic behavior resulting from the periodic arrangement of the net moment in the Mn(II)3 subunit, which is scarcely observed in the homometallic azolate systems. Complex 2 features unusual coexistence of spin-canted antiferromagnetic behavior and field-induced spin-flop transition due to the asymmetric magnetic superexchange within the two-dimensional (2D) {Mn2(atz)2} sublayer. By contrast, only antiferromagnetic ordering is observed in the 1D {Mn(atz)} ribbon of 3. These interesting results suggest that the diverse structural motifs by the cooperate coordination of octahedral Mn(II) ion with the N-rich tetrazolyl group can more significantly direct the magnetic behaviors and could be hopefully utilized upon the construction of novel MMOFs.
RESUMO
Porphyra haitanensis (T. J. Chang & B. F. Zheng) is an important economic alga found off the southern coast of China. It has evolved a strong tolerance against stress, which is an important survival characteristic. Cyclophilin has been shown to be involved in the stress response of plants and algae. To investigate the tolerance against stress in Porphyra, we isolated the cyclophilin PhCYP18 gene (Accession number JQ413239) and measured its expression over different generations and stress conditions. In P. haitanensis, cyclophilin PhCYP18 accumulated more in the filamentous sporophyte generation than in the blade gametophyte generation. This difference was thought to be due to harsh environments and a gene dosage effect. It has been found, however, that PhCYP18 expression was dysregulated in blades under high salt stress, strong irradiance stress and multifactorial stress compared to blades under normal conditions. Moreover, the changes were not linearly related to the degree of stress. It was therefore thought that PhCYP18 actively responded to stress situations and induced strong stress tolerance, which is evident in P. haitanensis.