Francisco Martín Martínez González scite author profile

Francisco Martín Martínez González

5Publications

6Citation Statements Received

27Citation Statements Given

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Affiliations

Cuban Neuroscience Center

Publications

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Vascular Loops and Neuro-Otologic Symptoms: Is There Any Correlation?

Fidalgo¹,

Rodríguez-Valiente²,

González³

et al. 2013

IJOHNS

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Objective: To determine the relationship between vascular loops in the internal auditory canal and otologic symptoms. Methods: We performed a retrospective study, with a systematic review of the literature and analyzed the magnetic resonances imaging (MRI) of 91 patients attended in the ENT department since April to June 2013, in order to correlate radiological findings with otologic symptoms. Results: Vascular loops were seen in the internal auditory canal of patients without clinical symptoms; however an association was found between the presence of vascular compression of the eighth nerve displayed on MRI and the presence of sensorineural hearing loss and tinnitus. No association was found between vertigo and vascular loops. Conclusion: The presence of vascular loops in the internal auditory canal may be an incidental finding in MRIs of patients without clinical symptoms. However, in patients with tinnitus or sensorineural hearing loss that is unexplained by other clinical pathologies, these may be correlated with the existence of vascular loops which compress the eighth cranial nerve or contact the bone wall of the internal auditory canal. Further studies involving a larger number of patients are required to accurately evaluate the association between these symptoms and vascular loops.

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Historia del Teorema de Bernoulli

González

Medel

González³

2007

Acta Universitaria

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La historia comienza en 1598 cuando Benedetto Castelli refutó la forma de medir el flujo en los ríos por parte de Giovanni Fontana, afirmando tomar en cuenta la sección y la velocidad. También aclaró que en la medición en orificios, debía considerarse la carga y el tamaño del orificio. En 1625, Castelli estableció la ecuación que lleva su nombre (Q = AV). Galileo Galilei (1638), propuso que los cuerpos experimentan una aceleración uniforme alcaer en el vacío. En 1641, Evangelista Torricelli demostró que la forma de un chorro al salirde un orificio es una hipérbola de 4º orden. Isaac Newton (1686), argumentó que el agua tiene una caída efectiva en el interior de un tanque y que el orificio tiene encima una carga real del doble de la altura del tanque. Daniel Bernoulli (1738), aclaró el enigma de la doble columna y finalmente Johann Bernoulli, basado en los trabajos de su hijo Daniel, presentóuna mejor explicación del escurrimiento en un orificio y logró una clara deducción de la ecuación de una línea de corriente.

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Wireless communication interface for EEG/PSG Holter monitor

Reyes

Rizo

Santos

et al. 2010

Journal of Medical Engineering & Technology

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Communication interfaces for medical devices are normally wired. For long-term monitoring applications, wired devices limit patient mobility. In this paper a wireless communication interface for an EEG/PSG Holter monitor is presented. Selection of broadcasting band, communication standard, available hardware, and connection algorithm to use are discussed before making a choice. Results of experimental tests carried out on the prototype demonstrate the functionality of the implemented interface.

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187. Effect of repetition rate on both acoustically and electrically auditory evoked potential: Repercussion for cochlear implant users

Prado¹,

Álvarez²,

González³

2008

Clinical Neurophysiology

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Interfaz WLAN para Holter de EEG/PSG

Reyes

González

Santos

et al. 2013

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