Estoque e descarte de medicamentos no domicílio: uma revisão sistemática

Previously we proposed an eccentric figure-eight coil that can cause threshold stimulation in the brain at lower driving currents. In this study, we performed numerical simulations and magnetic stimulations to healthy subjects for evaluating the advantages of the eccentric coil. The simulations were performed using a simplified spherical brain model and a realistic human brain model. We found that the eccentric coil required a driving current intensity of approximately 18% less than that required by the concentric coil to cause comparable eddy current densities within the brain. The eddy current localization of the eccentric coil was slightly higher than that of the concentric coil. A prototype eccentric coil was designed and fabricated. Instead of winding a wire around a bobbin, we cut eccentric-spiral slits on the insulator cases, and a wire was woven through the slits. The coils were used to deliver magnetic stimulation to healthy subjects; among our results, we found that the current slew rate corresponding to motor threshold values for the concentric and eccentric coils were 86 A/μs and 78 A/μs, respectively. The results indicate that the eccentric coil consistently requires a lower driving current to reach the motor threshold than does the concentric coil. Future development of compact magnetic stimulators will enable the treatment of some intractable neurological diseases at home.

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Three-dimensional modeling of the human hand with motion constraints

Yasumuro¹,

Chen²,

Chihara³

1999

Image and Vision Computing

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Real-Time Animation of Water with Rigid Body Interaction

Amada¹,

Imura²,

Yasumuro³

et al. 2005

The Journal of the Institute of Image Information and Televisio

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3D modeling of human hand with motion constraints

Yasumuro

Chen

Chihara

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Embedded Ubiquitous Services on Hospital Information Systems

Kuroda

Sasaki

Suenaga

et al. 2012

IEEE Trans. Inform. Technol. Biomed.

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A Hospital Information Systems (HIS) have turned a hospital into a gigantic computer with huge computational power, huge storage and wired/wireless local area network. On the other hand, a modern medical device, such as echograph, is a computer system with several functional units connected by an internal network named a bus. Therefore, we can embed such a medical device into the HIS by simply replacing the bus with the local area network. This paper designed and developed two embedded systems, a ubiquitous echograph system and a networked digital camera. Evaluations of the developed systems clearly show that the proposed approach, embedding existing clinical systems into HIS, drastically changes productivity in the clinical field. Once a clinical system becomes a pluggable unit for a gigantic computer system, HIS, the combination of multiple embedded systems with application software designed under deep consideration about clinical processes may lead to the emergence of disruptive innovation in the clinical field.

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A generic real-time rendering approach for structural colors

Imura

Oshiro

Saeki

et al. 2009

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Projection-based augmented reality with automated shape scanning

Yasumuro

Imura

Manabe

et al. 2005

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An Ultrasound Catheter Using Laser-Induced Breakdown

Oshiro¹,

Kato

Yasumuro³

et al. 2003

Jpn. J. Appl. Phys.

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Yoshihiro Yasumuro

Eccentric figure‐eight coils for transcranial magnetic stimulation

Three-dimensional modeling of the human hand with motion constraints

Real-Time Animation of Water with Rigid Body Interaction

3D modeling of human hand with motion constraints

Embedded Ubiquitous Services on Hospital Information Systems

A generic real-time rendering approach for structural colors

Projection-based augmented reality with automated shape scanning

An Ultrasound Catheter Using Laser-Induced Breakdown

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