Mohd Azrul Hisham Mohd Adib scite author profile

Mohd Azrul Hisham Mohd Adib

5Publications

48Citation Statements Received

66Citation Statements Given

How they've been cited

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Affiliations

Universiti Malaysia Pahang, Osaka University, Hospital Tengku Ampuan Afzan

Publications

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Minimizing the blood velocity differences between phase-contrast magnetic resonance imaging and computational fluid dynamics simulation in cerebral arteries and aneurysms

Adib

Satoshi

Watanabe

et al. 2017

Med Biol Eng Comput

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The integration of phase-contrast magnetic resonance images (PC-MRI) and computational fluid dynamics (CFD) is a way to obtain detailed information of patient-specific hemodynamics. This study proposes a novel strategy for imposing a pressure condition on the outlet boundary (called the outlet pressure) in CFD to minimize velocity differences between the PC-MRI measurement and the CFD simulation, and to investigate the effects of outlet pressure on the numerical solution. The investigation involved ten patient-specific aneurysms reconstructed from a digital subtraction angiography image, specifically on aneurysms located at the bifurcation region. To evaluate the effects of imposing the outlet pressure, three different approaches were used, namely: a pressure-fixed (P-fixed) approach; a flow rate control (Q-control) approach; and a velocity-field-optimized (V-optimized) approach. Numerical investigations show that the highest reduction in velocity difference always occurs in the V-optimized approach, where the mean of velocity difference (normalized by inlet velocity) is 19.3%. Additionally, the highest velocity differences appear near to the wall and vessel bifurcation for 60% of the patients, resulting in differences in wall shear stress. These findings provide a new methodology for PC-MRI integrated CFD simulation and are useful for understanding the evaluation of velocity difference between the PC-MRI and CFD.

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Physically consistent data assimilation method based on feedback control for patient‐specific blood flow analysis

Satoshi

Adib

Watanabe

et al. 2017

Numer Methods Biomed Eng

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This paper presents a novel data assimilation method for patient-specific blood flow analysis based on feedback control theory called the physically consistent feedback control-based data assimilation (PFC-DA) method. In the PFC-DA method, the signal, which is the residual error term of the velocity when comparing the numerical and reference measurement data, is cast as a source term in a Poisson equation for the scalar potential field that induces flow in a closed system. The pressure values at the inlet and outlet boundaries are recursively calculated by this scalar potential field. Hence, the flow field is physically consistent because it is driven by the calculated inlet and outlet pressures, without any artificial body forces. As compared with existing variational approaches, although this PFC-DA method does not guarantee the optimal solution, only one additional Poisson equation for the scalar potential field is required, providing a remarkable improvement for such a small additional computational cost at every iteration. Through numerical examples for 2D and 3D exact flow fields, with both noise-free and noisy reference data as well as a blood flow analysis on a cerebral aneurysm using actual patient data, the robustness and accuracy of this approach is shown. Moreover, the feasibility of a patient-specific practical blood flow analysis is demonstrated.

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Qualitative and Quantitative Comparison of Hemodynamics Between MRI Measurement and CFD Simulation on Patient-specific Cerebral Aneurysm – A Review

Hong

Adib

Abdullah

et al. 2020

ARFMTS

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Establishing a Soldier Wireless Sensor Network (WSN) Communication for Military Operation Monitoring

Ismail¹,

Shukran²,

Isa³

et al. 2018

IJ-ICT

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The study investigates and develops components for implementing an effective and efficient military knowledge/information/communication in closed network architecture. Since military personnel are always on the move, the dissemination of knowledge/information/communication needs a mobile platform to accommodate mobility of people. The mobile and wireless network platform should be able to sustain the remoteness and seclusion of military operation areas. Communication is one of key problems of a military operation especially due to environmental constraints. This study proposes on establishing a future soldier communication device with mobile wireless sensor network (WSN) and mobile network to suit the infantry operations in the jungle. The operational areas are considered to restricted and challenging locations. Wireless sensor network (WSN) will become inexpensive and common over the next decade Thus, a thorough study is vital to develop the most suitable smart equipment and network requirements for Malaysia’s military eco-system. Finally, this study has successfully developed new smart device prototype using WSN approach for Military operation. In addition, this prototype can be used for Search and Rescue (SAR) operation. This prototype is able to transmit death and location status, movement location status, health monitoring and status to the base station.

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Serious “human papillomavirus vaccine” game for Malaysian adolescents: development and preliminary study

Hasni

Azalian²,

Kadir³

et al. 2023

IJPHS

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In Malaysia, cervical cancer is the top three most common cancer among women. Vaccination and screening are mandatory for the prevention of the disease. Therefore, we aimed to develop a serious game for Malaysian adolescents, the "HPV Vaccine” game objectively to transmit knowledge about human papillomavirus (HPV), create awareness of cervical cancer, and promote HPV vaccine uptake. This game development targeted teenagers aged 10 to 17 years. We expect to complete three levels and answer all 15 questions. Inclusion criteria were Malaysian citizens, who owned a computer with connectivity to the game. We excluded those with a physical disability. This game was the first edutainment on Human papillomavirus, cervical cancer, and the HPV vaccine. We conducted a preliminary study, cross-sectionally, purposive sampling method. We recruited 20 participants; only 16 participants consented and completed the study. All participants enjoyed the wireframes of the game, with an average of 12 to 15 minutes to complete the game. Results demonstrate that participants were highly engaged with the “HPV Vaccine” game. We believe this game, is a forward technology that will beneficial for adolescents' adherence to HPV vaccination. In the future, we suggest an observational study to assess players' perspectives on this game.

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