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A convenient regioselective synthesis of allyl- and vinylsilyl alcohols, from a common precursor, was described, by selecting the appropriate reaction conditions. Allyl- and vinylsilyl alcohols were tested in silyl-Prins cyclizations for the preparation of disubstituted oxygenated heterocycles in a one-pot sequential reaction. The methodology was sensitive to the structure of the starting alkenylsilyl alcohol and reaction conditions, with competitive pathways observed (particularly for allylsilyl alcohols), such as Peterson elimination and oxonia-Cope reactions. However, the use of vinylsilyl alcohols allowed the preparation of differently disubstituted cis-2,6-dihydropyrans in moderate to good yields. Computational studies support the proposed mechanism.
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The influence of hydrogen bonds in model intercalated systems between guanine-cytosine and adenine-thymine DNA base pairs (bps) was analyzed with the popular intercalator 1,10-phenanthroline (phen) and derivatives obtained by substitution with OH and NH2 groups in positions 4 and 7. Semiempirical and Density Functional Theory (DFT) methods were used both including dispersion effects: PM6-DH2, M06-2X and B3LYP-D3 along with the recently developed near linear-scaling coupled cluster method DLPNO-CCSD(T) for benchmark calculations. Our results given by QTAIM and non-covalent interaction analysis confirmed the existence of hydrogen bonds created by OH and NH2 . The trends in the energy decomposition analysis for the interaction energy, ΔEint , showed that the ΔEelstat contributions are equal or even a little bit higher than the values for ΔEdisp . Such important ΔEelstat attractive contribution comes mainly from the conventional hydrogen bonds formed by OH and NH2 functional groups with DNA not only with bps but specially with the sugar and phosphate backbone. This behavior is very different from that of phen and other classical intercalators that cannot form conventional hydrogen bonds, where the ΔEdisp is the most important attractive contribution to the ΔEint . The inclusion of explicit water molecules in molecular dynamics simulations showed, as a general trend, that the hydrogen bonds with the bps disappear during the simulations but those with the sugar and phosphate backbone remain in time, which highlights the important role of the sugar and phosphate backbone in the stabilization of these systems.
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Fenantrolinas , Açúcares , DNA/química , Ligação de Hidrogênio , Substâncias Intercalantes/química , Fenantrolinas/química , FosfatosRESUMO
We have used near linear-scaling density functional theory (LS-DFT) methods including dispersion, for the first time, to study the interaction of two isomers, equatorial (Eq) and axial (Ax), of the [Mo(η3-C3H5)Br(CO)2(phen)] metal complex with the DNA G-quadruplexes (GQ) to gain insight into its cytotoxicity. The LMKLL/DZDP level of calculation, which includes van der Waals contributions, with the SIESTA software was used to treat by means of first-principles computations the whole biological studied model system with â¼1000 atoms. Computed formation energies point to systems containing the Ax isomer as the most stable although the nearest system in energy containing the Eq isomer is only 7.5 kcal mol-1 above. On the other hand, the energy decomposition analysis (EDA) favours interaction energies for the systems containing the Eq isomer. However, when solvent effects are taken into account the systems containing the Ax isomer are again the most stable. This Ax isomer was found interacting by means of end-stacking with the GQ and surprisingly totally inside the non-canonical secondary structure, where all the ligands of the metal complex produce several weak interactions with the DNA structure. On the other hand, the Eq isomer prefers to interact from outside by means of intercalation in which the ancillary ligands also have some role in the interaction. Such features and comparison with the results regarding the interaction of the [Mo(η3-C3H5)Br(CO)2(phen)] metal complex with duplex DNA suggest that the [Mo(η3-C3H5)Br(CO)2(phen)] would have a higher affinity and eventual selectivity for non-canonical DNA GQ structures.
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Complexos de Coordenação , Quadruplex G , Fenantrolinas/química , Molibdênio/química , Estrutura Molecular , Ligantes , Complexos de Coordenação/química , DNA/químicaRESUMO
Phosphoester hydrolysis is an important chemical step in DNA repair. One archetypal molecular model of phosphoesters is para-nitrophenylphosphate (pNPP). It has been shown previously that the presence of molecular metal oxide [Mo7 O24 ]6- may catalyse the hydrolysis of pNPP through the partial decomposition of polyoxomolybdate framework resulting in a [(PO4 )2 Mo5 O15 ]6- product. Real-time monitoring of the catalytic system using electrospray ionisation mass spectrometry (ESI-MS) provided a glance into the species present in the reaction mixture and identification of potential catalytic candidates. Following up on the obtained spectrometric data, Density Functional Theory (DFT) calculations were carried out to characterise the hypothetical intermediate [Mo5 O15 (pNPP)2 (H2 O)6 ]6- that would be required to form under the hypothesised transformation. Surprisingly, our results point to the dimeric [Mo2 O8 ]4- anion resulting from the decomposition of [Mo7 O24 ]6- as the active catalytic species involved in the hydrolysis of pNPP rather than the originally assumed {Mo5 O15 } species. A similar study was carried out involving the same species but substituting Mo by W. The mechanism involving W species showed a higher barrier and less stable products in agreement with the non-catalytic effect found in experimental results.
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DNA , Espectrometria de Massas por Ionização por Electrospray , Catálise , Hidrólise , Modelos MolecularesRESUMO
A phosphoester bond is a crucial structural block in biological systems, whose occurrence is regulated by phosphatases. Molybdenum compounds have been reported to be active in phosphate ester hydrolysis of model phosphates. Specifically, MoO2Cl2(DMF)2 is active in the hydrolysis of para-nitrophenyl phosphate (pNPP), leading to heteropolyoxometalate structures. We use density functional theory (DFT) to clarify the mechanism by which these species promote the hydrolysis of the phosphoester bond. The present calculations give insight into several key aspects of this reaction: (i) the speciation of this complex prior to interaction with the phosphate (DMF release, Mo-Cl hydrolysis, and pH influence on the speciation), (ii) the competition between phosphate addition and the molybdate nucleation process, (iii) and the mechanisms by which some plausible active species promote this hydrolysis in different conditions. We described thoroughly two different pathways depending on the nucleation possibilities of the molybdenum complex: one mononuclear mechanism, which is preferred in conditions in which very low complex concentrations are used, and another dinuclear mechanism, which is preferred at higher concentrations.
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Several antitumor drugs base their cytotoxicity on their capacity to intercalate between base pairs of DNA. Nevertheless, it has been established that the mechanism of intercalation of drugs in DNA starts with the prior groove binding mode of interaction of the drug with DNA. Sometimes, for some kind of flat small molecules, groove binding does not produce any cytotoxic effect and the fast transition of such flat small molecules to the cytotoxic intercalation mode is desirable. This is the case of methylated phenanthroline (phen) derivatives, where, changes in the substitution in the position and number of methyl groups determine their capability as cytotoxic compounds and, therefore, it is a way for the modulation of cytotoxic effects. In this work, we studied this modulation by means of the interaction of the [Pt(en)(phen)]2+ complex and several derivatives by methylation of phen in different number and position and the d(GTCGAC)2 DNA hexamer via groove binding using PM6-DH2 and DFT-D methods. The analysis of the geometries, electronic structure and energetics of the studied systems was compared to experimental works to gain insight into the relation structure-interaction for the studied systems with cytotoxicity. The trends are explained by means of the Non-Covalent Interaction (NCI) index, the Energy Decomposition Analysis (EDA) and solvation contributions. Our results are in agreement with the experiments, in which the methylation of position 4 of phen seems to favour the interaction via groove binding thus making the transition to the intercalation cytotoxic mode difficult. Looking at the NCI results, these interactions come not only from the CH/π and CH/n interactions of the methyl group in position 4 but also from the ethylenediamine (en) ligand, whose orientation in the Pt complex was found in such a way that it produces a high number of weak interactions with DNA, especially with the sugar and phosphate backbone.
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Antineoplásicos/química , DNA/química , Compostos Organoplatínicos/química , Fenantrolinas/química , Sítios de Ligação , Teoria da Densidade Funcional , MetilaçãoRESUMO
This work provides new insights from our team regarding advances in targeting canonical and non-canonical nucleic acid structures. This modality of medical treatment is used as a form of molecular medicine specifically against the growth of cancer cells. Nevertheless, because of increasing concerns about bacterial antibiotic resistance, this medical strategy is also being explored in this field. Up to three strategies for the use of DNA as target have been studied in our research lines during the last few years: (1) the intercalation of phenanthroline derivatives with duplex DNA; (2) the interaction of metal complexes containing phenanthroline with G-quadruplexes; and (3) the activity of Mo polyoxometalates and other Mo-oxo species as artificial phosphoesterases to catalyze the hydrolysis of phosphoester bonds in DNA. We demonstrate some promising computational results concerning the favorable interaction of these small molecules with DNA that could correspond to cytotoxic effects against tumoral cells and microorganisms. Therefore, our results open the door for the pharmaceutical and medical applications of the compounds we propose.
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Ânions/química , Complexos de Coordenação/química , DNA/química , Quadruplex G , Fenantrolinas/química , Polieletrólitos/química , LigantesRESUMO
The interaction of two isomers, equatorial (Eq) and axial (Ax), of the [Mo(η3-C3H5)Br(CO)2(phen)] metal complex with DNA was studied by using large-scaling density functional theory methods including dispersion for the whole system, represented as a d(AGACGTCT)2 DNA octamer, to gain insight into its experimentally found cytotoxicity. Three different modes of interaction were considered: (1) minor groove (mg) binding, (2) intercalation through the major groove (MG), and (3) the apparently unexpected intercalation via the mg. Computed formation energies, energy decomposition analysis, solvation energies, and noncovalent interaction analysis explain the preference for Eq and Ax isomers of the complex for intercalation via the mg. π-π interactions of the phenanthroline (phen) flat ligand that appear in the intercalation mode and do not exist for the mg binding mode suggest the preference of [Mo(η3-C3H5)Br(CO)2(phen)] for intercalation. On the other hand, the role of the ancillary ligands is crucial for better interaction of the metal complex including phen than when the phen ligand alone is considered because of their additional interactions with base pairs (bps). The role of the ancillary ligands is enhanced when intercalation takes place through the mg because such ligands are able to interact not only with bps but also with the sugar and phosphate backbone, whereas for intercalation through the MG, the interaction of these ligands is only with bps. This feature explains the preference of [Mo(η3-C3H5)Br(CO)2(phen)] for intercalation via the mg in crystal structures. Finally, the solvation penalty is more important for intercalation through the mg than via the MG, which suggests a subtle mechanism involving weak interactions with solvent molecules to explain the selectivity for intercalation in solution to answer the MG versus mg question.
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Complexos de Coordenação/química , Complexos de Coordenação/metabolismo , DNA/metabolismo , Modelos Moleculares , Molibdênio/química , Fenantrolinas/química , DNA/química , Isomerismo , Ligantes , Conformação de Ácido Nucleico , Especificidade por Substrato , TermodinâmicaRESUMO
Phenanthroline derivatives intercalate between base pairs of DNA and produce cytotoxic effects against tumoral cells. Nevertheless, modulation of their efficiency by substitution remains unclear in bibliography. In this work, the effects of methylation of phenanthroline, in number and position, when it intercalates between guanine-cytosine base pairs (GC/CG), were studied with PM6-DH2 and DFT-D methods including dispersion corrections. An analysis of the geometries, electronic structure, and energetics in the interaction was carried out for the studied systems. Our results were compared to experimental works to gain insight on the relation structure-interaction for the intercalated system with cytotoxicity. The trends are explained including not only intrinsic contributions to energy, ΔEPauli, ΔEdisp, ΔEorb, and ΔEelstat, but also the solvation energy, ΔESolv. A subtle balance between the number of stabilizing weak interactions (CH/π, CH/n, etc.) and steric hindrance seems to be related to the efficiency of such drugs.
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Pareamento de Bases/efeitos dos fármacos , DNA/química , Substâncias Intercalantes/química , Substâncias Intercalantes/farmacologia , Simulação de Dinâmica Molecular , Fenantrolinas/química , Fenantrolinas/farmacologia , MetilaçãoRESUMO
INTRODUCTION: Diabetic patients with an acute coronary syndrome undergoing percutaneous coronary intervention frequently exhibit high platelet reactivity while on clopidogrel. We hypothesized that in diabetic patients undergoing percutaneous coronary intervention, who exhibit high-platelet-reactivity after standard treatment with clopidogrel, a 60-mg prasugrel loading dose is superior to standard treatment with clopidogrel for optimal P2Y12 inhibition within the first 24-36 h post-angioplasty. METHODS: VERDI was a prospective, randomized, single-centre, single-blind, parallel-design study (NCT01684813). Consecutive diabetic patients with an non-ST-segment elevation acute coronary syndrome undergoing percutaneous coronary intervention and loaded with clopidogrel were considered for platelet reactivity assessment immediately before angioplasty with the VerifyNow assay measured in P2Y12 reaction units (PRU). Fifty of 63 screened patients (79.4%) had high platelet reactivity (PRU ≥ 208) and were randomized to receive a 60-mg prasugrel loading dose (n = 25) versus clopidogrel standard dose (n = 25). Platelet function was assessed again 24 hours post-angioplasty. RESULTS: Prasugrel achieved greater platelet inhibition than clopidogrel 24 hours post-angioplasty (median [interquartile range], 38 [9-72] vs 285 [240-337], respectively; P < 0.001). The non-high-platelet-reactivity rate (PRU < 208) at 24 h post-angioplasty (primary end point) was higher with prasugrel; 25 patients (100%) in the prasugrel group achieved optimal antiaggregation vs 4 patients (16%) in the clopidogrel group (P < 0.001). No significant acute bleeding was documented in either group. CONCLUSION: Among type 2 diabetic patients suffering an acute coronary syndrome with high-platelet-reactivity undergoing percutaneous coronary intervention, switching from clopidogrel to prasugrel was superior to standard treatment with clopidogrel for the achievement of optimal antiaggregation within the first 24 hours post-angioplasty.
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Síndrome Coronariana Aguda/terapia , Plaquetas/efeitos dos fármacos , Diabetes Mellitus Tipo 2/complicações , Cloridrato de Prasugrel/farmacocinética , Ticlopidina/análogos & derivados , Síndrome Coronariana Aguda/sangue , Síndrome Coronariana Aguda/complicações , Idoso , Clopidogrel , Diabetes Mellitus Tipo 2/sangue , Diabetes Mellitus Tipo 2/tratamento farmacológico , Relação Dose-Resposta a Droga , Feminino , Seguimentos , Humanos , Masculino , Intervenção Coronária Percutânea , Inibidores da Agregação Plaquetária/administração & dosagem , Inibidores da Agregação Plaquetária/farmacocinética , Testes de Função Plaquetária , Cloridrato de Prasugrel/administração & dosagem , Estudos Prospectivos , Método Simples-Cego , Ticlopidina/administração & dosagem , Ticlopidina/farmacocinética , Resultado do TratamentoRESUMO
In this work four vanadium complexes (compounds 1, 2, 3 and 4) and one molybdenum complex (compound 5) with hydrazone ligands derived from pyridoxal were synthesized and characterized. All compounds are mononuclear species, two of them (compounds 3 and 5) are dioxide complexes and the other three (compounds 1, 2 and 4) monoxide complexes. The vanadium atom of the compound 3 is five-coordinated and all the other compounds have a six coordinated environment polyhedron. The poses for the potential intercalation of the compounds 2 and 3 with DNA were obtained by using AutoDock software. Optimizations were also performed at PM6-D3H4 semi-empirical level whereas the study of the nature of the interaction was carried out by means of the Energy Decomposition Analysis and the Non-Covalent Interaction index by using in both cases Density Functional Theory computations. The cytotoxicity in lung cancer cells (A549 cell line) of all the compounds was also evaluated. After 24 h of treatment, vanadium complexes showed high values of IC50, between 419.93 ± 22.58 and 685.88 ± 46.55 µM. After 48 h, the results showed that the compound 3 had the lowest IC50 value, 65.32 ± 9.95 µM, and the compound 2 the highest value, 375.28 ± 32.09 µM. The molybdenum complex showed the lowest IC50 value at 48 h (11.22 ± 1.34 µM). The toxicity of the compounds 3, 4 and 5 was tested in vivo, using zebrafish model, and the molybdenum complex showed higher toxic effects than the studied vanadium complexes.
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Molibdênio , Vanádio , Animais , Ligantes , Molibdênio/química , Molibdênio/farmacologia , Piridoxal/farmacologia , Vanádio/química , Vanádio/farmacologia , Peixe-ZebraRESUMO
Lupanine is an alkaloid used in the pharma industry as a building block or precursor in the synthesis of sparteine and also explored for drug synthesis in the pharma industry as a chiral selector. This alkaloid is found in lupin bean processing wastewaters originated from the debittering process to make these beans edible. In this work, a computational chemistry approach was taken to design molecularly imprinted polymers (MIPs) selecting itaconic acid, a biobased building block, as a functional monomer that can provide higher affinities for lupanine. MIP-1 was prepared using lupanine as the template, itaconic acid as a functional monomer, and ethylene glycol dimethacrylate as a cross-linker by bulk polymerization. Lupanine was concentrated from lupin bean wastewater by nanofiltration, extracted with ethyl acetate, and purified using the synthesized MIP. MIP-1 was able to selectively recognize lupanine and improve the purity of lupanine from 78 to 88%, with 82% recovery of the alkaloid. These results show the potential application of this strategy to render the industrial process more sustainable.
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Alcaloides , Impressão Molecular , Esparteína , Impressão Molecular/métodos , Polímeros Molecularmente Impressos , Polímeros , Esparteína/análogos & derivados , Águas ResiduáriasRESUMO
The nature of bonding between N, P, and As constituent atoms in ylide systems with the R(3)XYR' formula (X = N, P, As; Y = N, P, As; R = F, H; R' = H, CH(3)) has been characterized by ab initio (MP2/6-311++G**) and density functional theory (B3LYP/6-311++G**) calculations. Its electronic structure has been analyzed through electron density with the quantum theory of atoms in molecules and the electron localization function (ELF). The characteristics of the central bond are inspected with the calculated rotational barriers. The results show that N has a behavior different from that of the remaining pnicogen atoms (P, As), where the bond is much stronger. Fluorine substituents strengthen the X-Y bond, reduce the bond distance, and increase the electron density in the central bond so that the substituent pulls charge from the bond in the pnicogen X atom. For the N-pnicogen ylides, the results showed different bonding characters between F and X atoms; depending on the position of the F atom, the difference of the bond character is sensed by the basin synaptic order, as it is deduced from the analysis of the ELF basins. The energy profiles of the rotational barriers have been calculated at the MP2/6-311++G** level, indicating that the electronegativity of the substituents is a relevant factor that has consequences in the characteristics of the X-Y bond.
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Flat molecules like phenanthroline derivatives intercalate between base pairs of deoxyribonucleic acid and produce cytotoxic effects against tumoral cells. Elucidating the way of intercalation and its modulation on their efficiency by substitution still remains a challenging topic of research. In this work we analysed the intercalation via the major groove of methylated derivatives of phenanthroline, in different number and position, between guanine-cytosine base pairs. We studied our systems by using semi-empirical methods and density functional theory including dispersion corrections with the PM6-DH2 Hamiltonian and the B3LYP-D3 functional. We explored the geometry and electronic structure by means of the quantum theory of atoms in molecules and non-covalent interactions index analyses, whereas the interaction energy was estimated by means of two different approaches: one taking into account the results from the quantum theory of atoms in molecules analysis and the other based on the so-called energy decomposition analysis. The effect of solvation was also taken into consideration. Our studies show that CH/π and CH/n interactions by means of the -CH3 groups of methylated phen follow a clear pattern for any number of -CH3 groups and their position in the methylated phen ligand. That is, they try to produce the CH/π and CH/n interactions with the O and N heteroatoms of the base pairs and with the O atoms of the sugar and phosphate backbone. These findings suggest that the modulation of the intercalation of ligands that are able to form CH/π and CH/n weak interactions with the deoxyribonucleic acid is ruled not only by the number and position of the substitutions of the ligands but also by some key sites, which are the O and N atoms of the deoxyribonucleic acid in our analysed systems. It suggests some key and lock mechanism in which the interacting fragments fit like puzzle pieces in order to achieve the optimal interaction for the stabilization of the system. Interaction energies were calculated by using different approaches which converged to similar trends about the number and position of the -CH3 groups. The important weight of the CH/H interactions in the total interaction energy must be highlighted.
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The binding of disulfides to gold nanoparticles was investigated using fluorescence spectroscopy and a perylene-monoimide dye coupled to a dissymmetric disulfide via a tetraethyleneglycolalkyl chain (PMImSS). Quantum chemical calculations using the polarizable continuum model (PCM) predict a strong quenching of perylene-monoimide fluorescence by gold nanoparticles as a result of efficient excitation energy transfer from the dye to the particle. Such quenching is indeed observed when unfunctionalised gold nanoparticles are added to a solution of PMImSS. The fluorimetric titration curves show behaviour indicative of the existence of an equilibrium between free and bound ligands (association constant 5 x 10(5) M(-1)), whereas the affinity of thiols and disulfide for gold surfaces is in general assumed to be much higher. Gold nanoparticles fully functionalised with PMImSS were synthesised and purified. Fluorescence correlation spectroscopy shows the appearance of free PMImSS ligands in dilute (approx. pM) suspensions of these PMImSS-functionalised nanoparticles over a period of several days.
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Lignin is the most abundant natural polymer composed by aromatic moieties. Its chemical composition and its abundance have focused efforts to unlock its potential as a source of aromatic compounds for many years. The lack of a proper way for lignin de-polymerization has hampered its success as a natural solution for commodity aromatic chemicals, which is also due to the lack of understanding of the underlying mechanisms of lignin polymerization. A fuller fundamental understanding of polymerization mechanisms could lead to improvements in de-polymerization strategies, and therefore a proper methodology and a predictive theoretical framework are required for such purpose. This work presents a complete computational study on some of the key steps of lignin polymerization mechanisms. Density functional theory (DFT) calculations have been performed to evaluate the most appropriate methodology and to compute the chemical structures and reaction enthalpies for the monolignol dimerization, the simplest key step that controls the polymerization. Quantum theory of atoms in molecules (QTAIM) has been applied to understand the coupling reaction mechanisms, for which the radical species and transition states (TSs) involved have been characterized. The coupling that leads to the formation of the ß-O-4 linkage has been theoretically reproduced according to proposed mechanisms, for which weak interactions have been found to play a key role in the arrangement of reactants. The hydrogen bond formed between the oxygen of the phenoxy radical, and the alcohol of the aliphatic chain, together with the interaction between aromatic rings, locates the reactants in a position that favors such ß-O-4 linkage. Graphical Abstract QTAIM analysis of the complex between coumaryl and coniferyl alcohols. It emphasizes the importance of weak interactions during the formation of beta-O-4 linkages in the polymerization of lignin.
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BACKGROUND: Rotational atherectomy followed by drug-eluting stent (DES) implantation for complex, severely calcified lesions is a rational combination that has not been sufficiently evaluated. METHODS: We investigated 102 consecutive patients with angiographic evidence of heavily calcified lesions that underwent DES implantation following rotational atherectomy at our institution between June 2005 and October 2009, and we examined the long-term clinical outcomes. The major adverse cardiac events monitored were death, myocardial infarction and target lesion revascularization. RESULTS: Patients were 68.8 ± 7.4 years old, 52.9% were diabetic, and 12.7% had chronic kidney disease. Forty-seven patients (46.1%) had three-vessel disease, and 13 (12.7%) had left main coronary artery stenosis. The radial approach was used in 37.3% of cases. The procedure was successful in 97%. In-hospital death occurred in 1 patient (0.9%), and 3 patients (2.9%) developed stent thrombosis. At the mean follow-up period of 15 months (range 1- 54), the total cardiac death rate was 4.9%, target lesion revascularization was 8.8% and the incidence of myocardial infarction was 3.9%. The combined endpoint occurred in 12.7% of cases. CONCLUSION: DES following rotational atherectomy for heavily calcified coronary lesions is a safe and effective procedure that provides good long-term clinical outcomes.
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Aterectomia Coronária , Calcinose/terapia , Cardiomiopatias/terapia , Stents Farmacológicos , Idoso , Idoso de 80 Anos ou mais , Calcinose/diagnóstico por imagem , Calcinose/mortalidade , Cardiomiopatias/diagnóstico por imagem , Cardiomiopatias/mortalidade , Angiografia Coronária , Reestenose Coronária/prevenção & controle , Vasos Coronários/patologia , Angiopatias Diabéticas/mortalidade , Angiopatias Diabéticas/terapia , Feminino , Humanos , Masculino , Pessoa de Meia-Idade , Resultado do TratamentoRESUMO
We report a theoretical study on the electronic and topological aspects of the reaction of dihydrated Fe(OH)(2) with 6,7,8-trioxabicyclo[3.2.2]nonane, as a model for the reaction of heme with artemisinin. A comparison is made with the reaction of dihydrated ferrous hydroxide with O(2), as a model for the heme interaction with oxygen. We found that dihydrated Fe(OH)(2) reacts more efficiently with the artemisinin model than with O(2). This result suggests that artemisinin instead of molecular oxygen would interact with heme, disrupting its detoxification process by avoiding the initial heme to hemin oxidation, and killing in this way the malaria parasite. The ELF and AIM theories provide support for such a conclusion, which further clarifies our understanding on how artemisinin acts as an antimalarial agent.
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Alcanos/química , Antimaláricos/farmacologia , Artemisininas/farmacologia , Compostos Ferrosos/química , Heme/metabolismo , Modelos Químicos , Modelos Moleculares , Oxigênio/químicaRESUMO
Spontaneous coronary artery dissection is a rare cause of acute coronary syndrome. It mainly affects women with no significant cardiovascular risk factors and its presentation varies from unstable angina to sudden death. Knowledge of the condition is based only on individual case reports and the lack of large case series means that its treatment and prognostic implications have not been fully established. We present data on 19 instances of spontaneous coronary artery dissection in 18 patients who were treated at our center between May 1998 and January 2009. The median follow-up period was 3.8 years (interquartile range: 1.3-4.6 years). Once the acute phase had passed, the prognosis was favorable and there were no implications for functioning. One patient presented with a relapse in another coronary artery and another patient gave birth without complications 3 years after the dissection.
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Doença da Artéria Coronariana , Síndrome Coronariana Aguda/etiologia , Adulto , Idoso , Doença da Artéria Coronariana/complicações , Feminino , Humanos , Masculino , Pessoa de Meia-Idade , Prognóstico , Fatores de TempoRESUMO
INTRODUCTION AND OBJECTIVES: To assess the value of N-terminal fragment of brain natriuretic peptide (NT-proBNP) measurement and echocardiography for predicting ventricular remodeling after myocardial infarction and to investigate relationships between the NT-proBNP level and echocardiographic parameters at discharge and in the medium term. METHODS: The study involved 159 patients with myocardial infarction treated by primary coronary angioplasty. The NT-proBNP level was measured on admission, at discharge and after 6 months. Echocardiography was performed at discharge and after 6 months. RESULTS: Overall, 31 patients (19.5%) demonstrated remodeling. At discharge, the variables associated with remodeling were: mitral inflow E-wave-to-A-wave velocity ratio (E/A), systolic mitral annulus velocity (Sm), early diastolic mitral annulus velocity (Em), the mitral inflow E wave to early diastolic mitral annulus velocity ratio (E/ Em), left atrial volume (LAV), left ventricular end-systolic volume (LVESV), left ventricular end-diastolic volume (LVEDV), and discharge NT-proBNP level. Only E/Em was an independent predictor of ventricular remodeling (odds ratio [OR]=1.143; 95% confidence interval [CI], 1.039-1.258; P=.006). At discharge, correlations were observed between the NT-proBNP level and LVEDV, LVESV, ejection fraction (EF) and E/Em. At 6 months, correlations with ventricular volumes and EF were unchanged, the correlation with E/Em was better (r=0.47 vs. r=0.69), and a modest correlation with LAV developed (r=0.43; P=.001). CONCLUSIONS: The E/Em ratio was the best echocardiographic predictor of left ventricular remodeling after myocardial infarction. The NT-proBNP level had no additional predictive value over echocardiography. Correlations between the NT-proBNP level and ventricular volumes and EF at discharge and 6 months were similar, while correlations with E/Em and LAV were better at 6 months.