2024-03-29T15:10:41Z
https://jbpe.sums.ac.ir/?_action=export&rf=summon&issue=4801
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Editorial
AR
Mehdizadeh
2014
09
01
https://jbpe.sums.ac.ir/article_43166_3edd9d08b79476c725a79bb5e2e9d77b.pdf
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Comparison of the Light Charged Particles on Scatter Radiation Dose in Thyroid Hadron Therapy
M
Azizi
AA
Mowlavi
Bachground: Hadron therapy is a novel technique of cancer radiation therapy which employs charged particles beams, 1H and light ions in particular. Due to their physical and radiobiological properties, they allow one to obtain a more conformal treatment, sparing better the healthy tissues located in proximity of the tumor and allowing a higher control of the disease. Â Objective: As it is well known, these light particles can interact with nuclei in the tissue, and produce the different secondary particles such as neutron and photon. These particles can damage specially the critical organs behind of thyroid gland. Methods: In this research, we simulated neck geometry by MCNPX code and calculated the light particles dose at distance of 2.14 cm in thyroid gland, for different particles beam: 1H, 2H, 3He, and 4He. Thyroid treatment is important because the spine and vertebrae is situated right behind to the thyroid gland on the posterior side. Results: The results show that 2H has the most total flux for photon and neutron, 1.944E-3 and 1.7666E-2, respectively. Whereas 1H and 3He have best conditions, 8.88609E-4 and 1.35431E-3 for photon, 4.90506E-4 and 4.34057E-3 for neutron, respectively. The same calculation has obtained for energy depositions for these particles.Conclusion: In this research, we investigated that which of these light particles can deliver the maximum dose to the normal tissues and the minimum dose to the tumor. By comparing these results for the mentioned light particles, we find out 1H and 3He is the best therapy choices for thyroid glands whereas 2H is the worst.
Hadron therapy
thyroid gland
secondary particles
photon and neutron flux
energy deposition
2014
09
01
https://jbpe.sums.ac.ir/article_43167_5b00d07385983f0268f778c372daaa5a.pdf
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Electromagnetic Radiofrequency Radiation Emitted from GSM Mobile Phones Decreases the Accuracy of Home Blood Glucose Monitors
SMJ
Mortazavi
X
Gholampour
M
Haghani
G
Mortazavi
AR
Mortazavi
Mobile phones are two-way radios that emit electromagnetic radiation in microwave range. As the number of mobile phone users has reached 6 billion, the bioeffects of exposure to mobile phone radiation and mobile phone electromagnetic interference with electronic equipment have received more attention, globally. As self-monitoring of blood glucose can be a beneficial part of diabetes control, home blood glucose testing kits are very popular. The main goal of this study was to investigate if radiofrequency radiation emitted from a common GSM mobile phone can alter the accuracy of home blood glucose monitors. Forty five female nondiabetic students aged 17-20 years old participated in this study. For Control-EMF group (30 students), blood glucose concentration for each individual was measured in presence and absence of radiofrequency radiation emitted by a common GSM mobile phone (HTC touch, Diamond 2) while the phone was ringing. For Control- Repeat group (15 students), two repeated measurements were performed for each participant in the absence of electromagnetic fields. The magnitude of the changes between glucose levels in two repeated measurements (½ΔC½) in Control-Repeat group was 1.07 ± 0.88 mg/dl while this magnitude for Control-EMF group was 7.53 ± 4.76 mg/dl (P < 0.001, two-tailed test). To the best of our knowledge, this is the first study to assess the electromagnetic interference in home blood glucose monitors. It can be concluded that electromagnetic interference from mobile phones has an adverse effect on the accuracy of home blood glucose monitors. We suggest that mobile phones should be used at least 50 cm away from home blood glucose monitors.
Electromagnetic Radiation
Radiofrequency
Interference
GSM
Mobile Phones
Home Blood Glucose Monitors
2014
09
01
https://jbpe.sums.ac.ir/article_43168_7c9dd45c9992fd2fb26591013190640e.pdf
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Design and Fabrication of Helmholtz Coils to Study the Effects of Pulsed Electromagnetic Fields on the Healing Process in Periodontitis: Preliminary Animal Results
A
Haghnegahdar
H
Khosrovpanah
A
Andisheh-Tadbir
Gh
Mortazavi
M
Saeedi Moghadam
SMJ
Mortazavi
A
Zamani
M
Haghani
M
Shojaei Fard
H
Parsaei
O
Koohi
Background: Effects of electromagnetic fields on healing have been investigated for centuries. Substantial data indicates that exposure to electromagnetic field can lead to enhanced healing in both soft and hard tissues. Helmholtz coil is a device that generates pulsed electromagnetic fields. Objective: In this study, a pair of Helmholtz coils for enhancing thehealing process in periodontitis was designed and fabricated.Method: An identical pair of square Helmholtz coils generate the 50 Hz magnetic field. This device is made up of two parallel coaxial circular coils (100 turns in each loop, wound in series) which were separated from each other by a distance equal to the radius of one coil (12.5 cm). The windings of our Helmholtz coil is made of standard 0.95mm wire to provide the maximum possible current. The coil is powered by a function generator. Results: This Helmholtz Coil generates a uniform magnetic field between its coils. The magnetic field strength at the center of the space between two coils was 97.6 μT. Preliminary biological studies performed on rats show that exposure of laboratory animals to pulsed electromagnetic fields (PEMF) enhances the healing of periodontitis.Conclusion: Exposure to PEMFs can lead to stimulatory physiological effects on cells and tissues such as enhanced healing of periodontitis.
Design
production
Non-Ionizing Radiation
Pulsed Electromagnetic Fields
Healing
Periodontitis
Helmholtz Coils
2014
09
01
https://jbpe.sums.ac.ir/article_43169_141887722dd1bbaef509e33e5d0efe13.pdf
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Dynamics and Regulation of Locomotion of a Human Swing Leg as a Double-Pendulum Considering Self-Impact Joint Constraint
Y
Bazargan-Lari
M
Eghtesad
A
Khoogar
A
Mohammad-Zadeh
Background:Despite some successful dynamic simulation of self-impact double pendulum (SIDP)-as humanoid robots legs or arms- studies, there is limited information available about the control of one leg locomotion.Objective :The main goal of this research is to improve the reliability of the mammalians leg locomotion and building more elaborated models close to the natural movements, by modeling the swing leg as a SIDP. This paper also presents the control design for a SIDP by a nonlinear model-based control method. To achieve this goal, the available data of normal human gait will be taken as the desired trajectories of the hip and knee joints.Method:  The model is characterized by the constraint that occurs at the knee joint (the lower joint of the model) in both dynamic modeling and control design. Since the system dynamics is nonlinear, the MIMO Input-Output Feedback Linearization method will be employed for control purposes. Results:  The first constraint in forward impact simulation happens at 0.5 rad where the speed of the upper link is increased to 2.5 rad/sec. and the speed of the lower link is reduced to -5 rad/sec. The subsequent constraints occur rather moderately. In the case of both backward and forward constraints simulation, the backward impact occurs at -0.5 rad and the speeds of the upper and lower links increase to 2.2 and 1.5 rad/sec., respectively.Conclusion: The designed controller performed suitably well and regulated the system accurately.
Leg locomotion
Self-impact joint constraint
Double pendulum
Feedback linearization
Single support phase
Swing leg
2014
09
01
https://jbpe.sums.ac.ir/article_43170_c933133176548dc0558212cf2df222d5.pdf
Journal of Biomedical Physics and Engineering
J Biomed Phys Eng
2014
4
3
Quantification the Effect of Ageing on Characteristics of the Photoplethysmogram Using an Optimized Windkessel Model
H
Doostdar
MA
Khalilzadeh
Background: With increasing age, some changes appeared in specifications of vessels which including dimensions and elasticity in their. The changes in parameters such as resistance, inertance and compliance vessels appear and eventually changes in the environmental pulse releases are in circulation. These changes clearly appear in specification of photoplethysmogram particularly in the size and position signals second peak is observed.Aim and scope: The aim of study was to Circulatory system modeling using windkessel electrical model for evalution blood flow and Its matching with the photoplethysmogram’s signal for investigate the reasons for changes of Characteristics of the Photoplethysmogram. The first purpose of this paper is to examine the age-related parameters in the Photoplethysmogram’s signal And finally the diagnosis of cardiovascular disease using the model and photoplethysmogram’s signal. Methods: In this study we followed some of these effects to the circulatory system by using the windkessel electrical model. The algorithm in this project appeared by optimization with the matrix coefficients of state space windkessel electrical model. Optimize of the coefficients matching with the output of the model and the photoplethysmogram’s signal. Photoplethysmogram’s signals from 50 healthy subjects with the age range of 20 to 50 years, shows that outputs the model and photoplethysmogram’s signal in terms of error rate and cross-correlation algorithm in a fully automated, was consistent. Wavelength of the Photoplethysmogram’s signals were 950 nm and The sampling rate was set at 50 Hz. Results: Simulation results show that aging reduces the signal amplitude and delay of the second peak occurs. These changes were seen as reduce the rate of compliance and increase the rate of resistance and inertance windkessel electrical model of circulation. Conclusion: The high accuracy of the results led to being able to identify the age range and some cardiac arrhythmias inindividuals. All the simulations were done in matlab software environment.
Photoplethysmogram(PPG)
Quantification
Windkessel's electrical model
State space variable
2014
09
01
https://jbpe.sums.ac.ir/article_43171_c2d0f5c8808349294a7b854a2c3e16c1.pdf