Development of Intraoperative Monitoring Electroenchephalography (EEG) Designed and Assembled by Indonesian Neuroscientist-Engineers: Preliminary Study for Detection of Brain Wave Pattern in Mouse Model.
Development of Intraoperative Monitoring Electroenchephalography (EEG)
Designed and Assembled by Indonesian Neuroscientist-Engineers: Preliminary Study
for Detection of Brain Wave Pattern in Mouse Model
Ahmad Faried1, Muhammad Zafrullah Arifin1, Agung Budi Sutiono1,
Tati Latifah Erawati Rajab2, Beni Rio Hermanto2, Richard Mengko2, Hasbalah Zakaria2
1
Department of Neurosurgery, Universitas Padjadjaran, Bandung, Indonesia
(Tel : +62-22-204-1694; E-mail: faried.fkup@gmail.com)
2
School of Electrical Engineering & Informatics, Bandung Institute of Technology, Indonesia
(Tel : +62-22-253-4117; E-mail: tatimengko@yahoo.com)
Abstract–Objective: As neurosurgeons, we require additional medical diagnostic devices to treat vascular
diseases such as stroke and trauma; unfortunately, most of these devices are costly and are of foreign
manufacture. This study was aimed to design and develop locally produced medical devices that will lower
medical cost and expenses for neurosurgery patients. Technology or Method: The development of these
devices will be performed in the Biomedical Engineering Laboratories of the Bandung Institute of
Technology (ITB). The animal trial phase will be conducted in the Microanatomy Laboratory of the
Department of Neurosurgery, Faculty of Medicine, Universitas Padjadjaran–Dr. Hasan Sadikin Hospital.
Results: Our prototype validated using the brain waves of animal models, that shown normal brain wave in
all region and decreased significantly after 30 minutes sacrificed; further, shown near flat-wave after 6
hours sacrificed. Conclusions: These devices and their operating systems will require further development,
and the further optimization of the algorithm for interpretation of Electroenchephalography (EEG) waves
will be required before these devices can be mass-produced to be used in neurosurgical patients. Clinical
Impact: This study is a translational research that bridging the basic science and its potential clinical
implementation.
Keyword: Intraoperative monitoring, Electroenchephalography, Local medical devices.
1
Designed and Assembled by Indonesian Neuroscientist-Engineers: Preliminary Study
for Detection of Brain Wave Pattern in Mouse Model
Ahmad Faried1, Muhammad Zafrullah Arifin1, Agung Budi Sutiono1,
Tati Latifah Erawati Rajab2, Beni Rio Hermanto2, Richard Mengko2, Hasbalah Zakaria2
1
Department of Neurosurgery, Universitas Padjadjaran, Bandung, Indonesia
(Tel : +62-22-204-1694; E-mail: faried.fkup@gmail.com)
2
School of Electrical Engineering & Informatics, Bandung Institute of Technology, Indonesia
(Tel : +62-22-253-4117; E-mail: tatimengko@yahoo.com)
Abstract–Objective: As neurosurgeons, we require additional medical diagnostic devices to treat vascular
diseases such as stroke and trauma; unfortunately, most of these devices are costly and are of foreign
manufacture. This study was aimed to design and develop locally produced medical devices that will lower
medical cost and expenses for neurosurgery patients. Technology or Method: The development of these
devices will be performed in the Biomedical Engineering Laboratories of the Bandung Institute of
Technology (ITB). The animal trial phase will be conducted in the Microanatomy Laboratory of the
Department of Neurosurgery, Faculty of Medicine, Universitas Padjadjaran–Dr. Hasan Sadikin Hospital.
Results: Our prototype validated using the brain waves of animal models, that shown normal brain wave in
all region and decreased significantly after 30 minutes sacrificed; further, shown near flat-wave after 6
hours sacrificed. Conclusions: These devices and their operating systems will require further development,
and the further optimization of the algorithm for interpretation of Electroenchephalography (EEG) waves
will be required before these devices can be mass-produced to be used in neurosurgical patients. Clinical
Impact: This study is a translational research that bridging the basic science and its potential clinical
implementation.
Keyword: Intraoperative monitoring, Electroenchephalography, Local medical devices.
1