991 resultados para Números pseudo-aleatórios
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The patient arrived at the emergency unit with a history of acute myocardial infarction, for which she was treated. Without improvement in the pain, the patient developed heart failure and underwent a hemodynamic study, which showed normal coronary arteries and extensive ventricular impairment. During evolution, the clinical findings improved and herpes zoster appeared on the right shoulder. In a few months the clinical findings subsided, and the findings of the electrocardiogram, chest X-ray, and ventricular function were normal. The patient is currently asymptomatic.
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Relatamos o caso incomum de um alpinista de 52 anos que apresentava dor e edema em sua coxa direita, o que revelou ser um pseudoaneurisma micótico roto, sem histórico de trauma recente ou outra causa aparente. O paciente relatou uma história de infarto do miocárdio onze anos antes, com a realização de dois cateterismos femorais para cineangiocoronariografia. Ele negou qualquer episódio de febre ou diagnóstico de bacteremia naquele momento ou mais tarde, como também outra queixa durante esses onze anos. A raridade do caso, a aparência dessa complicação extremamente tardia, juntamente com o tipo de atividade esportiva do paciente sugeriram-nos publicar o caso.
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A ruptura da parede livre do ventrículo esquerdo é uma dramática, porém nem sempre fatal complicação do infarto agudo do miocárdio. No entanto, se o diagnóstico correto for retardado, o tratamento cirúrgico pode ser comprometido. Os autores relatam um caso de volumoso pseudo-aneurisma de parede inferior de ventrículo esquerdo diagnosticado ao estudo angiográfico.
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O número de pacientes submetidos a cirurgias não-cardíacas está aumentando no mundo todo. A fim de ministrar uma assistência eficiente aos pacientes durante a cirurgia, precisamos melhorar nosso conhecimento sobre como evitar eventos cardiovasculares perioperatórios maiores durante a cirurgia não-cardíaca. Para atingir este objetivo, é necessário realizar ensaios clínicos aleatórios, os quais podem fornecer resultados conclusivos e confiáveis neste campo. Esta revisão narrativa descreve uma proposta para o delineamento, condução e gerenciamento de ensaios clínicos aleatórios de larga escala em medicina cardiovascular perioperatória.
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Magdeburg, Univ., Fak. für Mathematik, kumulative Habil.-Schr., 2011
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The main object of the present paper consists in giving formulas and methods which enable us to determine the minimum number of repetitions or of individuals necessary to garantee some extent the success of an experiment. The theoretical basis of all processes consists essentially in the following. Knowing the frequency of the desired p and of the non desired ovents q we may calculate the frequency of all possi- ble combinations, to be expected in n repetitions, by expanding the binomium (p-+q)n. Determining which of these combinations we want to avoid we calculate their total frequency, selecting the value of the exponent n of the binomium in such a way that this total frequency is equal or smaller than the accepted limit of precision n/pª{ 1/n1 (q/p)n + 1/(n-1)| (q/p)n-1 + 1/ 2!(n-2)| (q/p)n-2 + 1/3(n-3) (q/p)n-3... < Plim - -(1b) There does not exist an absolute limit of precision since its value depends not only upon psychological factors in our judgement, but is at the same sime a function of the number of repetitions For this reasen y have proposed (1,56) two relative values, one equal to 1-5n as the lowest value of probability and the other equal to 1-10n as the highest value of improbability, leaving between them what may be called the "region of doubt However these formulas cannot be applied in our case since this number n is just the unknown quantity. Thus we have to use, instead of the more exact values of these two formulas, the conventional limits of P.lim equal to 0,05 (Precision 5%), equal to 0,01 (Precision 1%, and to 0,001 (Precision P, 1%). The binominal formula as explained above (cf. formula 1, pg. 85), however is of rather limited applicability owing to the excessive calculus necessary, and we have thus to procure approximations as substitutes. We may use, without loss of precision, the following approximations: a) The normal or Gaussean distribution when the expected frequency p has any value between 0,1 and 0,9, and when n is at least superior to ten. b) The Poisson distribution when the expected frequecy p is smaller than 0,1. Tables V to VII show for some special cases that these approximations are very satisfactory. The praticai solution of the following problems, stated in the introduction can now be given: A) What is the minimum number of repititions necessary in order to avoid that any one of a treatments, varieties etc. may be accidentally always the best, on the best and second best, or the first, second, and third best or finally one of the n beat treatments, varieties etc. Using the first term of the binomium, we have the following equation for n: n = log Riim / log (m:) = log Riim / log.m - log a --------------(5) B) What is the minimun number of individuals necessary in 01der that a ceratin type, expected with the frequency p, may appaer at least in one, two, three or a=m+1 individuals. 1) For p between 0,1 and 0,9 and using the Gaussean approximation we have: on - ó. p (1-p) n - a -1.m b= δ. 1-p /p e c = m/p } -------------------(7) n = b + b² + 4 c/ 2 n´ = 1/p n cor = n + n' ---------- (8) We have to use the correction n' when p has a value between 0,25 and 0,75. The greek letters delta represents in the present esse the unilateral limits of the Gaussean distribution for the three conventional limits of precision : 1,64; 2,33; and 3,09 respectively. h we are only interested in having at least one individual, and m becomes equal to zero, the formula reduces to : c= m/p o para a = 1 a = { b + b²}² = b² = δ2 1- p /p }-----------------(9) n = 1/p n (cor) = n + n´ 2) If p is smaller than 0,1 we may use table 1 in order to find the mean m of a Poisson distribution and determine. n = m: p C) Which is the minimun number of individuals necessary for distinguishing two frequencies p1 and p2? 1) When pl and p2 are values between 0,1 and 0,9 we have: n = { δ p1 ( 1-pi) + p2) / p2 (1 - p2) n= 1/p1-p2 }------------ (13) n (cor) We have again to use the unilateral limits of the Gaussean distribution. The correction n' should be used if at least one of the valors pl or p2 has a value between 0,25 and 0,75. A more complicated formula may be used in cases where whe want to increase the precision : n (p1 - p2) δ { p1 (1- p2 ) / n= m δ = δ p1 ( 1 - p1) + p2 ( 1 - p2) c= m / p1 - p2 n = { b2 + 4 4 c }2 }--------- (14) n = 1/ p1 - p2 2) When both pl and p2 are smaller than 0,1 we determine the quocient (pl-r-p2) and procure the corresponding number m2 of a Poisson distribution in table 2. The value n is found by the equation : n = mg /p2 ------------- (15) D) What is the minimun number necessary for distinguishing three or more frequencies, p2 p1 p3. If the frequecies pl p2 p3 are values between 0,1 e 0,9 we have to solve the individual equations and sue the higest value of n thus determined : n 1.2 = {δ p1 (1 - p1) / p1 - p2 }² = Fiim n 1.2 = { δ p1 ( 1 - p1) + p1 ( 1 - p1) }² } -- (16) Delta represents now the bilateral limits of the : Gaussean distrioution : 1,96-2,58-3,29. 2) No table was prepared for the relatively rare cases of a comparison of threes or more frequencies below 0,1 and in such cases extremely high numbers would be required. E) A process is given which serves to solve two problemr of informatory nature : a) if a special type appears in n individuals with a frequency p(obs), what may be the corresponding ideal value of p(esp), or; b) if we study samples of n in diviuals and expect a certain type with a frequency p(esp) what may be the extreme limits of p(obs) in individual farmlies ? I.) If we are dealing with values between 0,1 and 0,9 we may use table 3. To solve the first question we select the respective horizontal line for p(obs) and determine which column corresponds to our value of n and find the respective value of p(esp) by interpolating between columns. In order to solve the second problem we start with the respective column for p(esp) and find the horizontal line for the given value of n either diretly or by approximation and by interpolation. 2) For frequencies smaller than 0,1 we have to use table 4 and transform the fractions p(esp) and p(obs) in numbers of Poisson series by multiplication with n. Tn order to solve the first broblem, we verify in which line the lower Poisson limit is equal to m(obs) and transform the corresponding value of m into frequecy p(esp) by dividing through n. The observed frequency may thus be a chance deviate of any value between 0,0... and the values given by dividing the value of m in the table by n. In the second case we transform first the expectation p(esp) into a value of m and procure in the horizontal line, corresponding to m(esp) the extreme values om m which than must be transformed, by dividing through n into values of p(obs). F) Partial and progressive tests may be recomended in all cases where there is lack of material or where the loss of time is less importent than the cost of large scale experiments since in many cases the minimun number necessary to garantee the results within the limits of precision is rather large. One should not forget that the minimun number really represents at the same time a maximun number, necessary only if one takes into consideration essentially the disfavorable variations, but smaller numbers may frequently already satisfactory results. For instance, by definition, we know that a frequecy of p means that we expect one individual in every total o(f1-p). If there were no chance variations, this number (1- p) will be suficient. and if there were favorable variations a smaller number still may yield one individual of the desired type. r.nus trusting to luck, one may start the experiment with numbers, smaller than the minimun calculated according to the formulas given above, and increase the total untill the desired result is obtained and this may well b ebefore the "minimum number" is reached. Some concrete examples of this partial or progressive procedure are given from our genetical experiments with maize.
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The goal of the present work was assess the feasibility of using a pseudo-inverse and null-space optimization approach in the modeling of the shoulder biomechanics. The method was applied to a simplified musculoskeletal shoulder model. The mechanical system consisted in the arm, and the external forces were the arm weight, 6 scapulo-humeral muscles and the reaction at the glenohumeral joint, which was considered as a spherical joint. The muscle wrapping was considered around the humeral head assumed spherical. The dynamical equations were solved in a Lagrangian approach. The mathematical redundancy of the mechanical system was solved in two steps: a pseudo-inverse optimization to minimize the square of the muscle stress and a null-space optimization to restrict the muscle force to physiological limits. Several movements were simulated. The mathematical and numerical aspects of the constrained redundancy problem were efficiently solved by the proposed method. The prediction of muscle moment arms was consistent with cadaveric measurements and the joint reaction force was consistent with in vivo measurements. This preliminary work demonstrated that the developed algorithm has a great potential for more complex musculoskeletal modeling of the shoulder joint. In particular it could be further applied to a non-spherical joint model, allowing for the natural translation of the humeral head in the glenoid fossa.
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We study simply-connected irreducible non-locally symmetric pseudo-Riemannian Spin(q) manifolds admitting parallel quaternionic spinors.
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A 35-year-old drug addict was found dead in a public toilet with a ruptured groin, which was later diagnosed to be a leaking pseudo-aneurysm. Investigation at the scene revealed impressive external hemorrhage related to a groin wound. Post-mortem computed tomography angiography demonstrated an aneurysm of the right femoral artery with leak of contrast liquid. Signs of blood loss were evident at autopsy, and histological examination revealed necrosis and rupture of the pseudo-aneurysm. Toxicological analyses were positive for methadone, cocaine, citalopram, and benzodiazepines. This is the first case report in the literature of a ruptured femoral pseudo-aneurysm with a post-mortem radiological diagnosis.
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Summary: Intestinal pseudo-obstruction is a rare complication resulting from a variety of disorders. Symptoms include abdominal pain, nausea, vomiting, diarrhea, constipation, and malnutrition. Vincristine-related pseudo-obstruction has been reported in the literature, but its description in children and recommendations for management are lacking. A review of the literature revealed 21 reported pediatric cases of vincristine-related pseudo-obstruction. Most have, however, been attributed to a drug interaction with itraconazole, accidental vincristine overdose, or liver failure. Potential genetic causes are rarely addressed. We present here 5 cases of pseudo-obstruction related to vincristine without any identifiable predisposing factors, and a suggested algorithm for management
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2. Plan du travail Pour atteindre nos objectifs, notre travail sera essentiellement divisé en trois grandes sections. La première partie nous sert principalement à esquisser notre démarche et les enjeux de notre entreprise, ainsi qu'à la situer au sein d'un cadre théorique - la linguistique interactionnelle - combinant l'analyse grammaticale et l'analyse conversationnelle. Nous procéderons d'abord à une brève description de l'analyse conversationnelle ethnométhodologique, ensuite à celle du courant Interaction and Grammar. Dans le cadre de ces descriptions, nous illustrerons par des exemples les liens entre la grammaire et l'interaction sociale tels qu'ils ont été élaborés dans de nombreuses recherches dans le domaine. Finalement, nous résumerons nos objectifs et nos procédures d'analyse. La deuxième partie consiste essentiellement en une discussion et une problématisation de l'état de la recherche dans la littérature. L'exposé montrera les principaux problèmes que la pseudo-clivée pose aux différents niveaux d'analyse. Nous y traiterons des problèmes de définition et de délimitation de la construction en question au niveau syntaxique et sémantique. Nous enchaînerons avec l'exposé de l'état de la recherche au niveau pragmatique et discursif Cette discussion nous permettra de problématiser à la fois la fonction principale dévolue à la pseudo-clivée et l'établissement de la relation entre forme et fonction. Finalement, nous aborderons certains aspects dont nous ne nous occuperons pas ou seulement partiellement dans notre travail. Le résumé de cette deuxième partie nous servira à récapituler les problèmes soulevés par la pseudo-clivée française. La troisième partie - empirique et analytique - constitue la partie centrale de ce travail. Elle exposera nos résultats à travers l'analyse d'exemples qui exhibent les propriétés typiques des occurrences retenues dans notre corpus. Cette partie est donc consacrée aux formes, aux fonctionnements syntaxico-séquentiels et aux fonctions effectivement rencontrées dans nos données pour aboutir à une description de ses propriétés interactives et à une typologie compatible avec les usages interactifs réels. Après l'exposé de ce qui nous semble le plus typique dans l'usage interactif effectif de la pseudo-clivée par les interlocuteurs, nous nous dirigerons plus particulièrement vers la délimitation et la localisation de notre objet d'analyse, d'une part, par rapport à d'autres constructions (clivées, pseudo-clivées inversées, dislocations à gauche), et d'autre part, par rapport à d'autres unions d'unités qui n'ont pas le statut de construction en usage. Finalement, nous tenterons d'intégrer nos observations dans une description cohérente du "phénomène pseudo-clivé" dans l'usage des locuteurs. De plus, nous présenterons - sur la base de nos résultats - des réponses ou des éléments de réponse aux problématiques soulevées par notre objet d'analyse telles que nous les avons élaborées et discutées dans la partie II de ce travail. Nous terminerons par une discussion sur les apports de notre démarche, ainsi qu'à une évaluation de notre conception spécifique des faits de grammaire, et plus particulièrement d'une construction syntaxique (partie IV). Nous indiquerons des pistes de recherche possibles à suivre en fonction de nos résultats. Parmi d'éventuelles investigations futures, un accent particulier sera mis sur les aspects prosodiques et la recherche comparative.
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P>The first Variscan pseudo-adakites were identified in close association with the Saint-Jean-du-Doigt (SJDD) mafic intrusion (Brittany, France) in a geodynamic context unrelated to subduction. These rocks are trondhjemites emplaced 347 +/- 4 Ma ago as 2-3 km2 bodies and dykes. Trace-element concentrations and Sr-Nd-Pb isotope ratios indicate that the SJDD pseudo-adakites probably resulted from extreme differentiation of an SJDD-type hydrous basaltic magma in a lower continental crust of normal thickness (0.8 GPa). Modelling shows that garnet is not a required phase, which was commonly believed to be the case for continental arc-derived adakite-like rocks. A massive fractionation of amphibole fits the data much better and does not require high pressures, in agreement with the inferred extensional tectonic regime at the time of pluton emplacement. Alternatively, the SJDD pseudo-adakites could have resulted from the melting of newly underplated SJDD mafic precursors, but thermal considerations lead us to believe that this was not the case.
