Kinetic Properties of a Bose-Einstein Gas at Finite Temperature

We study, in the framework of the Boltzmann-Nordheim equation (BNE), the kinetic properties of a boson gas above the Bose-Einstein transition temperature $T_c$. The BNE is solved numerically within a new algorithm, that has been tested with exact analytical results for the collision rate of an homogeneous system in thermal equilibrium. In the classical regime ($T > 6~ T_c$), the relaxation time of a quadrupolar deformation in momentum space is proportional to the mean free collision time $\tau_{relax} \sim T^{-1/2}$. Approaching the critical temperature ($T_c < T < 2.7~ T_c$), quantum statistic effects in BNE become dominant, and the collision rate increases dramatically. Nevertheless, this does not affect the relaxation properties of the gas that depend only on the spontaneous collision term in BNE. The relaxation time $\tau_{relax}$ is proportional to $(T - T_c)^{-1/2}$, exhibiting a critical slowing down. These phenomena can be experimentally confirmed looking at the damping properties of collective motions induced on trapped atoms. The possibility to observe a transition from collisionless (zero-sound) to hydrodynamic (first-sound) is finally discussed.Comment: RevTeX, 5 figures. Submitted to Phys. Rev.

Combined analgesics in (headache) pain therapy: shotgun approach or precise multi-target therapeutics?

<p>Abstract</p> <p>Background</p> <p>Pain in general and headache in particular are characterized by a change in activity in brain areas involved in pain processing. The therapeutic challenge is to identify drugs with molecular targets that restore the healthy state, resulting in meaningful pain relief or even freedom from pain. Different aspects of pain perception, i.e. sensory and affective components, also explain why there is not just one single target structure for therapeutic approaches to pain. A network of brain areas ("pain matrix") are involved in pain perception and pain control. This diversification of the pain system explains why a wide range of molecularly different substances can be used in the treatment of different pain states and why in recent years more and more studies have described a superior efficacy of a precise multi-target combination therapy compared to therapy with monotherapeutics.</p> <p>Discussion</p> <p>In this article, we discuss the available literature on the effects of several fixed-dose combinations in the treatment of headaches and discuss the evidence in support of the role of combination therapy in the pharmacotherapy of pain, particularly of headaches. The scientific rationale behind multi-target combinations is the therapeutic benefit that could not be achieved by the individual constituents and that the single substances of the combinations act together additively or even multiplicatively and cooperate to achieve a completeness of the desired therapeutic effect.</p> <p>As an example the fixesd-dose combination of acetylsalicylic acid (ASA), paracetamol (acetaminophen) and caffeine is reviewed in detail. The major advantage of using such a fixed combination is that the active ingredients act on different but distinct molecular targets and thus are able to act on more signalling cascades involved in pain than most single analgesics without adding more side effects to the therapy.</p> <p>Summary</p> <p>Multitarget therapeutics like combined analgesics broaden the array of therapeutic options, enable the completeness of the therapeutic effect, and allow doctors (and, in self-medication with OTC medications, the patients themselves) to customize treatment to the patient's specific needs. There is substantial clinical evidence that such a multi-component therapy is more effective than mono-component therapies.</p

Correlação da aferição manual e digital da distância interespinhosa pelo método de newmann em fraturas toracolombares do tipo explosão Correlación entre calibrado manual y digital de la distancia interespinhosa por el método de neumann en fracturas toracolombares tipo explosión Correlation between manual and digital measurement of inter-spinous dis tance by neumann method in burst thoracolumbar fracture

OBJETIVO: Analisar a correlação entre a aferição manual e digital da distância interespinhosa pelo método de Neumann em fraturas toracolombares do tipo explosão, bem como a reprodutibilidade das duas técnicas. MÉTODOS: Foram avaliadas 212 radiografias de pacientes com fratura toracolombar do tipo explosão, sendo 160 do sexo masculino e 52 do sexo feminino. A idade média dos pacientes no tempo da fratura foi de 38,9 anos (variando de 12 a 76 anos). RESULTADOS: O coeficiente de Pearson, quando comparados os valores percentuais manuais e digitais da relação da distância interespinhosa do nível da vértebra fraturada e dos níveis adjacentes, foi de 0,95 (p<0,01). O coeficiente de concordância das mensurações manuais e digitais do método de Neumann foi de 0,97 e 0,93, respectivamente. CONCLUSÃO: Nesse estudo foi obtida alta concordância entre as aferições manual e digital da distância interespinhosa pelo método de Newman em fraturas toracolombares do tipo explosão.<br>OBJETIVO: El objetivo de este estudio es analizar la correlación entre calibrado manual y digital de la distancia interespinhosa por el método de Neumann en fracturas toracolombares tipo explosión, así como la reproducibilidad de los dos técnicas. MÉTODOS: Radiografías fueron evaluados 212 pacientes con fractura toracolombar tipo explosión, 160 hombres y 52 mujeres. La edad promedio de los pacientes en el momento de fractura fue 38.9 años (que van desde 12 a 76 años). RESULTADOS: El coeficiente de Pearson, cuando se comparan valores porcentuales digital y manuales de la relación de distancia interespinhosa el nivel de la vértebra fraturada y niveles adyacentes, fue 0.95 (p<0.01). El coeficiente de concordancia de los manuales y digital mediciones del método de Neumann fue 0.97 y 0.93, respectivamente. CONCLUSIÓN: El evaluación manual y digital de la distancia interespinhosa por el método de Newman en fracturas toracolombares tipo explosión presenta alta correlación y elevada reproducibilidad de esta serie de casos.<br>OBJECTIVE: The aim of this study is to analyze the correlation between the manual and digital inter-spinous distance by the Neumann method in burst thoracolumbar fracture, as well as the reproducibility of these two techniques. METHODS: We evaluated 212 x-rays of patients with burst thoracolumbar fracture. There were 60 male and 52 female. The average age at the time of the fracture was 38,9 years (12 - 76 years). RESULTS: The Pearson' coefficient between manual and digital analyses was 0,95 (p<0,01). The agreement coefficient of manual and digital measurements was 0,97 and 0,93, respectively. CONCLUSION: The manual and digital measurements of the inter-spinous distance by the Neumann method presented high correlation and high reproducibility in this series