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1. Spherical approximating and interpolating moving least squares in geodesy and geophysics: a case study for deriving gravity acceleration at sea surface in the Persian Gulf

Author

Kiani M.

Subjects
gravity acceleration values at sea surface, scaling parameter, shipborne gravimetry, spherical harmonic basis functions, spherical interpolating moving least squares, spherical moving least squares, weight function, Geodesy, QB275-343
Abstract

This paper is aimed at introducing the concept of Spherical Interpolating Moving Least Squares to the problems in geodesy and geophysics. Based on two previously known methods, namely Spherical Moving Least Squares and Interpolating Moving Least Squares, a simple theory is formulated for using Spherical Moving Least Squares as an interpolant. As an application, a case study is presented in which gravity accelerations at sea surface in the Persian Gulf are derived, using both the approximation and interpolation mode of the Spherical Moving Least Squares. The roles of the various elements in the methods-weight function, scaling parameter, and the degree of spherical harmonics as the basis functions-are investigated. Then, the results of approximation and interpolation are compared with the field data at sea surface, collected by shipborne gravimetry approach. Finally, the results are compared with another independent interpolation method-spline interpolation. It is shown that in this particular problem, SMLS approximation and SIMLS interpolation present a better accuracy than spherical splines.

Published
2020
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2. Biosynthesis of Copper Oxide Nanoparticles with Potential Biomedical Applications

Author

Rabiee N, Bagherzadeh M, Kiani M, Ghadiri AM, Etessamifar F, Jaberizadeh AH, and Shakeri A

Subjects
copper oxide nanoparticles, green synthesis, catalytic activity, antibacterial activity, antifungal activity, Medicine (General), R5-920
Abstract

Navid Rabiee,1 Mojtaba Bagherzadeh,1 Mahsa Kiani,1 Amir Mohammad Ghadiri,2 Fatemeh Etessamifar,1 Amir Hossein Jaberizadeh,2 Alireza Shakeri2 1Department of Chemistry, Sharif University of Technology, Tehran 11155-3516, Iran; 2School of Chemistry, College of Science, University of Tehran, Tehran, IranCorrespondence: Mojtaba Bagherzadeh Tel +98(21)66165301Email bagherzadeh@sharif.eduIntroduction: In recent years, the use of cost-effective, multifunctional, environmentally friendly and simple prepared nanomaterials/nanoparticles have been emerged considerably. In this manner, different synthesizing methods were reported and optimized, but there is still lack of a comprehensive method with multifunctional properties.Materials and Methods: In this study, we aim to synthesis the copper oxide nanoparticles using Achillea millefolium leaf extracts for the first time. Catalytic activity was investigated by in situ azide alkyne cycloaddition click and also A3 coupling reaction, and optimized in terms of temperature, solvent, and time of the reaction. Furthermore, the photocatalytic activity of the synthesized nanoparticles was screened in terms of degradation methylene blue dye. Biological activity of the synthesized nanoparticles was evaluated in terms of antibacterial and anti-fungal assessments against Staphylococcus aureus, M. tuberculosis, E. coli, K. pneumoniae, P. mirabili, C. diphtheriae and S. pyogenes bacteria’s and G. albicans, A. flavus, M. canis and G. glabrata fungus. In the next step, the biosynthesized CuO-NPs were screened by MTT and NTU assays.Results: Based on our knowledge, this is a comprehensive study on the catalytic and biological activity of copper oxide nanoparticles synthesizing from Achillea millefolium, which presents great and significant results (in both catalytic and biological activities) based on a simple and green procedure.Conclusion: Comprehensive biomedical and catalytic investigation of the biosynthesized CuO-NPs showed the mentioned method leads to synthesis of more eco-friendly nanoparticles. The in vitro studies showed promising and considerable results, and due to the great stability of these nanoparticles in a green media, effective biological activity considered as an advantageous.Keywords: copper oxide nanoparticles, green synthesis, catalytic activity, antibacterial activity, antifungal activity

Published
2020

3. Vitiligo and Rise in Blood Pressure – a Case–Control Study in a Referral Dermatology Clinic in Southern Iran

Author

Namazi MR, Rouhani S, Moarref A, Kiani M, Tabei SS, and Hadibarhaghtalab M

Subjects
vitiligo, hypertension, catecholamines, metabolic syndrome, Dermatology, RL1-803
Abstract

Mohammad Reza Namazi,1 Shekoofe Rouhani,2 Alireza Moarref,2 Mahsa Kiani,1 Seyed Sajjad Tabei,3 Maryam Hadibarhaghtalab1 1Molecular Dermatology Research Center, Shiraz University of Medical Sciences, Shiraz, Iran; 2Cardiology Department, Shiraz University of Medical Sciences, Shiraz, Iran; 3Student Research Committee, School of Medicine, Shiraz University of Medical Sciences, Shiraz, IranCorrespondence: Maryam HadibarhaghtalabMolecular Dermatology Research Center, Shiraz University of Medical Sciences, Shiraz, IranTel +98 917 101 7912Email Maryam_hadibarhaghtalab@yahoo.comPurpose: Vitiligo is an acquired hypopigmentation condition in which well-defined macules can develop virtually everywhere on the patients’ skin. This analytic case–control study was conducted in Faghihi Hospital outpatient dermatology clinic, affiliated to Shiraz University of Medical Sciences, southern Iran from June to September 2019. Furthermore, we studied the relationship of hypertension with activity, age of onset, duration, affected body surface area and type of vitiligo.Patients and Methods: In the current case–control study, 166 individuals were enrolled in total (the case group was comprised of 83 vitiligo patients and 83 individuals actedas control group). The case group was made up of vitiligo patients (both segmental and non-segmental) between 20 and 50 years of age, no prior history of systemic disease and other hypopigmentation disorders, while individuals with any form of dermatologic findings were excluded from the control group. Individuals aged younger than 20 years old or older than 50, having a dermatologic disease other than vitiligo, being afflicted with the diseases which may lead to secondary hypertension, pregnancy, taking substances, and medication which can lead to hypertension were chosen as the exclusion criteria in this study.Results: Data obtained from our study revealed that vitiligo patients had a higher prevalence of essential hypertension diagnosis than the control group (P=0.040). Also, no significant relationship was found between patients’ age at the first lesion appearance (P=0.856), duration of vitiligo involvement (P=0.497), and percentage of vitiligo involvement (P=0.681) with hypertension.Conclusion: According to our results, vitiligo patients were more susceptible to hypertension while no association could be found between characteristics of the disease and rise in blood pressure.Keywords: vitiligo, hypertension, catecholamines, metabolic syndrome

Published
2020

4. Biometrie sexual and ontogenetic dimorphism on the marine catfish Genidens genidens (Siluriformes, Ariidae) in a tropical estuary

Author

Larissa G Paiva, Luana Prestrelo, Kiani M Sant' Anna, and Marcelo Vianna

Subjects
Genidens genidens, bagre, Teleostei, morfometría, biometría, dimorfismo, estuario tropical, Aquaculture. Fisheries. Angling, SH1-691, Oceanography, GC1-1581, Biology (General), QH301-705.5
Abstract

This paper aims to study the ontogenetic sexual dimorphism of Genidens genidens in Guanabara Bay, southeastern coast of Brazil. Altogether 378 specimens were anayzed (233 females and 145 males) with total length ranging from 13.3 to 43.5 cm. Specimens were measured for 12 body measurements, sex was identified and maturity stages were recorded and classified. Pearson's linear correlation reveled a significant positive correlation between total length and all other body measures, except for base adipose fin, mouth depth and eye depth for immature females. Analyses nested PERMANOVA desing showed significant differences between maturity stages for each sex, between sexes considering or not maturity stages, indicating a variation in morphometric characteristics driven by sexual dimorphism. Differences among all maturity stages were also found, indicating an ontogenetic morphological difference. But immature individuals didn't differ between sexes indicating that differentiation patterns starts with sexual development. The most important measures differing males and females were related to head characteristics, which appears to be key parameters to evaluate sexual differences. Due to male incubation of fertilized eggs and juvenile individuals

Published
2015
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5. Efficacy of defroxamine- deferiprone on cardiac function of patients with major thalassemia

Author

Mirbehbahani NB, Nikyar B, Behnampour N, Rashidbaghan A, Kiani M, and Nikyar A

Subjects
Thalassemia major, Deferiprone, Deferoxamine, Ferritin, LVEF, Medicine, Medicine (General), R5-920
Abstract

Background and Objective: Deferoxamin is the current “gold standard” chelator in comparison with new chelators. Combined therapy of Deferiprone and deferoxamin reduces the cardiac iron overload in patients with major talassemia. This study was done to evaluate the effect of defriprone-deferoxamine on heart function in patients with major thalassemia. Methods: In this historical cohort study, 8 patients with major beta thalassemia treated by subcutaneous deferoxamine were randomly selected and LVEF (the rate of blood that exited from heart in each beat) and serum ferritin were measeared. The patients were treated by deferiprone (50-100 mg/kg/day) compained with dferoxamine (30-50 mg/kg as 3 times in a week). In the end of each year, LVEF and serum ferritin of patients were measured. Results: The ferritin level changed from 3243.12 in the first year to 2672.75 mg/kg at the end of third year. The mean of LVEF changed from 71.12% to 64.62 %. The correlation of serum ferritin and LVEF only at the end of third year was significant (P

Published
2015

6. Comparison between Clinically Used Irregular Fields Shielded by Cerrobend and Standard Lead Blocks

Author

Farajollahi A. R., Bouzarjomehri F., and Kiani M.

Subjects
Shield, Cerrobend, Lead block, Dosimetry, Radiation therapy, TLD dosimetry, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Introduction: In radiation therapy centers across Iran, protection of normal tissues is usually accomplished by either Cerrobend or lead block shielding. In this study, the influence of these two shielding methods on central axis dose distribution of photon beam a Cobalt unit was investigated in clinical conditions. Materials and Methods: All measurements were performed for 60Co γ-ray beams and the Cerrobend blocks were fabricated by commercial Cerrobend materials. Standard lead block shields belonged to Cobalt unit. Data was collected through a calibrated ionization chamber, relative dosimetry systems and a TLD dosimetery. Results: Results of the percent depth dose (PDD) measurements at depths of 0.5, 1, 5, 10, 15 and 20 cm for 23 different field sizes of patients with head and neck cancer showed no significant differences between lead and Cerrobend shielding methods. Measurement results of absolute dosimetry in depths of 1.5, 3, 5, 7, 10 and 12 cm also showed no significant differences between these two shielding methods. The same results were obtained by TLD dosimetry on patient skin. Conclusion: Use of melt shielding methods is a very easy and fast shield-making technique with no differences in PDD, absolute and skin dose between lead and Cerrobend block shielding methods.

Published
2015

7. Possibility of Land Movement Prediction for Creep or before Earthquake Using Lidar Geodetic Data in a Machine Learning Scheme

Author

Kiani, M.

Subjects
Physics - Geophysics, Electrical Engineering and Systems Science - Signal Processing
Abstract

Earthquake prediction is one of the most pursued problems in geoscience. Different geological and seismological approaches exist for the prediction of the earthquake and its subsequent land change. However, in many cases, they fail in their mission. In this paper, we address the well-established earthquake prediction problem by a novel approach. We use a four-dimensional location-time machine learning scheme to estimate the time of earthquake and its land change. We present a study for the Ridgecrest, California 2019 earthquake prediction. We show the accuracy of our method is around 14 centimeters for the land change, and around 2 days for the time of the earthquake, predicted from data more than 3 years before the earthquake.

Published
2020

8. A specifically designed machine learning algorithm for GNSS position time series prediction and its applications in outlier and anomaly detection and earthquake prediction

Author

Kiani, M.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

We present a simple yet efficient supervised machine learning algorithm that is designed for the GNSS position time series prediction. This algorithm has four steps. First, the mean value of the time series is subtracted from it. Second, the trends in the time series are removed. Third, wavelets are used to separate the high and low frequencies. And fourth, a number of frequencies are derived and used for finding the weights between the hidden and the output layers, using the product of the identity and sine and cosine functions. The role of the observation precision is taken into account in this algorithm. A large-scale study of three thousand position times series of GNSS stations across the globe is presented. Seventeen different machine learning algorithms are examined. The accuracy levels of these algorithms are checked against the rigorous statistical method of Theta. It is shown that the most accurate machine learning algorithm is the method we present, in addition to being faster. Two applications of the algorithm are presented. In the first application, it is shown that the outliers and anomalies in a time series can be detected and removed by the proposed algorithm. In a large scale study, ten other methods of time series outlier detection are compared with the proposed algorithm. The study reveals that the proposed algorithm is approximately 3.22 percent more accurate in detecting outliers. In the second application, the suitability of the algorithm for earthquake prediction is investigated. A case study is presented for the Tohoku 2011 earthquake. It is shown that this earthquake could have been predicted approximately 2 hours before its happening, solely based on each of the 845 GEONET station time series. Comparison with four different studies show the improvement in prediction of the time of the earthquake.

Published
2020

9. Lateral land movement prediction from GNSS position time series in a machine learning aided algorithm

Author

Kiani, M.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

We investigate the accuracy of conventional machine learning aided algorithms for the prediction of lateral land movement in an area using the precise position time series of permanent GNSS stations. The machine learning algorithms that are used are tantamount to the ones used in [1], except for the radial basis functions, i.e. multilayer perceptron, Bayesian neural network, Gaussian processes, k-nearest neighbor, generalized regression neural network, classification and regression trees, and support vector regression. A comparative analysis is presented in which the accuracy level of the mentioned machine learning methods is checked against each other. It is shown that the most accurate method for both of the components of the time series is the Gaussian processes, achieving up to 9.5 centimeters in accuracy.

Published
2020

10. A precise machine learning aided algorithm for land subsidence or upheave prediction from GNSS time series

Author

Kiani, M.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper is aimed at the problem of predicting the land subsidence or upheave in an area, using GNSS position time series. Since machine learning algorithms have presented themselves as strong prediction tools in different fields of science, we employ them to predict the next values of the GNSS position time series. For this reason, we present an algorithm that takes advantage of the machine learning algorithms for the prediction of positions in a GNSS time series. The proposed algorithm has two steps-preprocessing and prediction. In the preprocessing phase, the periodic tidal and atmospheric signals in the time series are removed and coordinates are transferred to the local coordinate system. In the prediction phase, eight different machine learning algorithms are used, namely, multilayer perceptron, Bayesian neural network, radial basis functions, Gaussian processes, k-nearest neighbor, generalized regression neural network, classification and regression trees, and support vector regression. We show the superiority of the Gaussian processes algorithm, compared to other methods, in 14 different real GNSS time series studies. The proposed algorithm can achieve up to 4 millimeters in accuracy, with the average accuracy as 2 centimeters across all time series.

Published
2020

11. On the suitability of generalized regression neural networks for GNSS position time series prediction for geodetic applications in geodesy and geophysics

Author

Kiani, M.

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Neural and Evolutionary Computing
Abstract

In this paper, the generalized regression neural network is used to predict the GNSS position time series. Using the IGS 24-hour final solution data for Bad Hamburg permanent GNSS station in Germany, it is shown that the larger the training of the network, the higher the accuracy is, regardless of the time span of the time series. In order to analyze the performance of the neural network in various conditions, 14 permanent stations are used in different countries, namely, Spain, France, Romania, Poland, Russian Federation, United Kingdom, Czech Republic, Sweden, Ukraine, Italy, Finland, Slovak Republic, Cyprus, and Greece. The performance analysis is divided into two parts, continuous data-without gaps-and discontinuous ones-having intervals of gaps with no data available. Three measure of error are presented, namely, symmetric mean absolute percentage error, standard deviation, and mean of absolute errors. It is shown that for discontinuous data the position can be predicted with an accuracy of up to 6 centimeters, while the continuous data positions present a higher prediction accuracy, as high as 3 centimeters. In order to compare the results of this machine learning algorithm with the traditional statistical approaches, the Theta method is used, which is well-established for high-accuracy time series prediction. The comparison shows that the generalized regression neural network machine learning algorithm presents better accuracy than the Theta method, possibly up to 250 times. In addition, it is approximately 4.6 times faster.

Published
2020

12. Comparison between compactly-supported spherical radial basis functions and interpolating moving least squares meshless interpolants for gravity data interpolation in geodesy and geophysics

Author

Kiani, M.

Subjects
Mathematics - Numerical Analysis
Abstract

The present paper is focused on the comparison of the efficiency of two important meshless interpolants for gravity acceleration interpolation. Compactly-supported spherical radial basis functions and interpolating moving least squares are used to interpolate actual gravity accelerations in southern Africa. Interpolated values are compared with actual values, gathered by observation. A thorough analysis is presented for the standard deviation of the differences between interpolated and actual values. Three different class of spherical radial basis functions-Poisson, singularity, and logarithmic-and four different type of basis functions for interpolating moving least squares approach-planar, quadratic, cubic, and spherical harmonics-are used. It is shown that in this particular problem compactly-supported spherical radial basis functions are faster and capable of achieving higher accuracies, compared to interpolating moving least squares scheme.

Published
2020

13. Optimal Image Smoothing and Its Applications in Anomaly Detection in Remote Sensing

Author

Kiani, M.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This paper is focused on deriving an optimal image smoother. The optimization is done through the minimization of the norm of the Laplace operator in the image coordinate system. Discretizing the Laplace operator and using the method of Euler-Lagrange result in a weighted average scheme for the optimal smoother. Satellite imagery can be smoothed by this optimal smoother. It is also very fast and can be used for detecting the anomalies in the image. A real anomaly detecting problem is considered for the Qom region in Iran. Satellite image in different bands are smoothed. Comparing the smoothed and original images in different bands, the maps of anomalies are presented. Comparison between the derived method and the existing methods reveals that it is more efficient in detecting anomalies in the region., Comment: Second International Conference On Biology and Earth Sciences

Published
2020

14. Identification and Classification of Phenomena in Multispectral Satellite Imagery Using a New Image Smoother Method and its Applications in Environmental Remote Sensing

Author

Kiani, M.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper a new method of image smoothing for satellite imagery and its applications in environmental remote sensing are presented. This method is based on the global gradient minimization over the whole image. With respect to the image discrete identity, the continuous minimization problem is discretized. Using the finite difference numerical method of differentiation, a simple yet efficient 5*5-pixel template is derived. Convolution of the derived template with the image in different bands results in the discrimination of various image elements. This method is extremely fast, besides being highly precise. A case study is presented for the northern Iran, covering parts of the Caspian Sea. Comparison of the method with the usual Laplacian template reveals that it is more capable of distinguishing phenomena in the image., Comment: Second International Congress on Engineering, Technology and Innovation

Published
2020

15. Image Gravimetry: A New Remote Sensing Approach for Gravity Analysis in Geophysics

Author

Kiani, M.

Subjects
Physics - Geophysics, Astrophysics - Earth and Planetary Astrophysics, Electrical Engineering and Systems Science - Image and Video Processing, Mathematics - Numerical Analysis
Abstract

In this paper a new Geophysical gravimetry approach is presented, which is based on satellite imagery in remote sensing. The method uses a satellite image, together with a set of points in the image the gravity values of which are known. Template-based spheroidal spline method of interpolation is used to constitute a system of equations to find the values of gravity at other points in the image. A real case study is presented for the Qom region in Iran. Values of gravity are determined from the Landsat satellite image for this region, using 9 points in the image whose gravity values are known. Reference ellipsoid gravity values, which are based on coefficients derived from satellite gravimetry, are computed for this region, as well. Comparison between gravity values derived from Landsat image and those from reference ellipsoid shows that the standard deviation of the results is around 6.71 milli Gal, with the maximum of differences being 35 milli Gal., Comment: Third International Congress on Science and Engineering, Hamburg, Germany

Published
2020

18. LHCSki 2016 - A First Discussion of 13 TeV Results

Author

Adam, W., Pradler, J., Schieck, J., Schwanda, C., Waltenberger, W., Celis, A., Crivellin, A., Welke, C. V., Kiesling, C., Niehoff, C., Salerno, D., Straub, D., Molinaro, E., Chun, E. J., Kahlhoefer, F., Sannino, F., List, J., Kamenik, J. F., Iordanidou, K., Howe, K., Gioi, L. Li, Jeitler, M., Schumann, M., Flechl, M., Brodski, M., Duerr, M., Kiani, M. B., Vignaroli, N., Venturi, N., Stangl, P., Sekmen, S., Wehle, S., Kulkarni, S., Berger-Hryn'ova, T., Plehn, T., Gershon, T., and Zinonos, Z.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

These are the proceedings of the LHCSki 2016 workshop "A First Discussion of 13 TeV Results" that has been held at the Obergurgl Universit\"atszentrum, Tirol, Austria, April 10 - 15, 2016. In this workshop the consequences of the most recent results from the LHC have been discussed, with a focus also on the interplay with dark matter physics, flavor physics, and precision measurements. Contributions from the workshop speakers have been compiled into this document., Comment: Proceedings of the LHCSki2016 Workshop, with contributions from the ATLAS, Belle II, CMS, and LHCb collaborations

Published
2016

30. Hemagglutinin-neuraminidase Sequence and Phylogenetic Analysis of Two Newcastle Disease Virus Isolated from Chickens in Iran

Author

Kiani, M. H, Bozorgmehrifard, M. H, Hosseini, H, Charkhkar, S, and Ghalyanchilangeroudi, A

Subjects
Viral Proteins, Hemagglutinins, Veterinary medicine, SF600-1100, Animals, Neuraminidase, Original Article, hemagglutinin-neuraminidase, newcastle disease virus, phylogenetic tree, iran, Chickens, Phylogeny
Abstract

Newcastle disease is a highly contagious viral infection affecting many species of birds that can spread fast between poultry houses and cause a heavy economic burden on the poultry industry all around the world. Fusion and hemagglutinin-neuraminidase (HN) protein are important in the pathogenesis of the Newcastle disease virus (NDV). The HN protein is a critical viral protein with multiple functions and plays a key role in the formation of the virulence of NDV. Head of HN protein is responsible for receptor binding, neuraminidase activity. This study aimed to investigate the sequence homology of hemagglutinin-neuraminidase of two NDV isolates sampled from infected farms in Iran. The samples were collected from flocks that had been vaccinated by both types of live and killed vaccines for NDV. After isolation of NDV, the viruses were subjected to the polymerase chain reaction (PCR) amplification using two pairs of specific primers designed for the HN gene to amplify the complete HN gene (1730bp). Afterward, the PCR products were sequenced and analyzed by phylogenetic tree construction software. Based on the analysis, substantial sequence homology among Iranian isolates is within the range of 97.1-100%. Moreover, the sequence homology searching revealed a level of similarity between HN sequences of Iranian isolates and the HN sequences from other countries, particularly Asian ones. For instance, a high homology ratio (95.34%) was found between Iranian isolates and the sequences registered on online molecular databases from China. Based on phylogenetic analysis, the NDV isolates belong to the VIId genotype. Finally, it can be concluded that monitoring the circulation of NDVs among poultry and other birds can help to obtain an insight into the evolution of NDVs and control of panzootic viruses in the future.

Published
2021

31. Serum Sodium Levels and Cardiac Complications in Patients with Kawasaki Disease

Author

Mohammadi, M, Sorkhi, H, Arab, M, Babazadeh, K, Gholinia, H, Kiani, M, and Pournasrollah, M

Subjects
Medicine (General), R5-920, hyponatremia, coronary aneurysm, Medicine, myocarditis, kawasaki disease, pericarditis, coronary artery disease
Abstract

BACKGROUND AND OBJECTIVE: Kawasaki disease is an acute vasculitis of childhood and can be associated with complications such as hyponatremia. The present study was conducted to evaluate the serum sodium levels and its association with cardiac complications in children with Kawasaki disease. METHODS: In this cross-sectional study, all Kawasaki patients (according to AHA criteria) referred to Amirkola Children's Hospital in Babol in 2017-2018 were evaluated. Patients underwent serum sodium assessment and echocardiography and the relationship between serum sodium levels and cardiac complications including ectasia and coronary aneurysm, myocarditis, pericarditis and coronary artery occlusion was investigated. FINDINGS: Of the 60 patients with Kawasaki disease, 27 (45%) were male and 33 (55%) were female. Their mean age was 32±8 months. 28 patients (47%) had serum sodium levels lower than 135 mEq/L while normal serum sodium level (135-150 mEq/L1) was reported in 53% of patients. Cardiac complications including coronary ectasia and myocarditis were reported in 16 and 32 patients, respectively. There was no significant difference between serum sodium levels and cardiac complications. There was no difference in the incidence of cardiac complications and hyponatremia in males and females. CONCLUSION: According to the results of the present study, serum sodium levels cannot be a good criterion for cardiac prognosis.

Published
2021

32. Second harmonic generation exploiting ultra-stable resistive switching devices for secure hardware systems

Author

Chen, Z., Du, N., Kiani, M., Zhao, X., Skorupa, I., Schulz, S., Bürger, D., Di Ventra, M., Polian, I., Schmidt, H., Chen, Z., Du, N., Kiani, M., Zhao, X., Skorupa, I., Schulz, S., Bürger, D., Di Ventra, M., Polian, I., and Schmidt, H.

Abstract

In the era of big data and internet of things (IoT), information security has emerged as an essential system and application metric. The information exchange among the ubiquitously connected smart electronic devices requires functioning reliably in harsh environments, which highlights the need for securing the hardware root of trust. In this work, by leveraging the uniform nonlinear resistive switching of emerging electroforming-free analog memristive device based on BiFeO3 (BFO) thin film, the security-oriented hardware primitive (SoHP) system is developed and optimized with high-security level. The SoHP system utilizes the distinguishable power conversion efficiency generated at second and higher harmonics in low resistance state (memristor with diodelike behavior) and high resistance state (memristor with high resistive behavior) of memristive devices. By exploring the significant influence of writing bias and operational frequency in sourcing input voltage on the dynamic switching behavior of memristive device, the novel 2-memristor encoding scheme and 1-memristor decoding scheme are developed for SoHP system, which realizes a frequency enhancement of 4000 times in comparison to 1-memristor encoding scheme and 2-memristor decoding scheme. The encoded data bits that generated from physically implemented SoHP system pass diverse statistical test suites (i.e. ENT, BSI, and NIST SP-800.22 statistical test suites), which indicates the high randomness distribution of the encoded data and the high-security level of the proposed memristive encoding system.

Published
2022

44. Detecting bacterial cell viability in few μl solutions from impedance measurements on silicon‐based biochips

Author

Bhat, V. J., Vegesna, S. V., Kiani, M., Zhao, X., Blaschke, D., Du, N., Vogel, M., Kluge, S., Raff, J., Hubner, U., Skorupa, I., Rebohle, L., and Schmidt, H.

Subjects
Cell viability, Impedance biochips, Live bacterial cells, Lysinibacillus sphaericus, fungi, Dead bacterial cells, Membrane potential
Abstract

Using two different types of impedance biochips (PS5 and BS5) with ring top electrodes, a distinct change of measured impedance has been detected after adding 1–5 μL (with dead or live Gram‐positive Lysinibacillus sphaericus JG‐A12 cells to 20 μL DI water inside the ring top electrode. We relate observed change of measured impedance to change of membrane potential of L. sphaericus JG‐A12 cells. In contrast to impedance measurements, optical density (OD) measurements cannot be used to distinguish between dead and live cells. Dead L. sphaericus JG‐A12 cells have been obtained by adding 0.02 mg/mL of the antibiotics tetracycline and 0.1 mg/mL chloramphenicol to a batch with OD0.5 and by incubation for 24 h, 30 °C, 120 rpm in the dark. For impedance measurements, we have used batches with a cell density of 25.5 × 10⁸ cells/mL (OD8.5) and 270.0 × 10⁸ cells/mL (OD90.0). The impedance biochip PS5 can be used to detect the more resistive and less capacitive live L. sphaericus JG‐A12 cells. Also, the impedance biochip BS5 can be used to detect the less resistive and more capacitive dead L. sphaericus JG‐A12 cells. An outlook on the application of the impedance biochips for high‐throughput drug screening, e.g., against multi‐drug‐resistant Gram‐positive bacteria, is given.

Published
2021

46. A 6-bit CMOS phase shifter for S-band

Author

Meghdadi, M., Azizi, M., Kiani, M., Atarodi, M., and Medi, A.

Subjects
Beamforming -- Analysis, Complementary metal oxide semiconductors -- Analysis, Business, Computers, Electronics, Electronics and electrical industries
Published
2010

48. An RFID-based closed-loop wireless power transmission system for biomedical applications

Author

Kiani, M. and Ghovanloo, M.

Subjects
Feedback control systems -- Design and construction, Medical equipment -- Design and construction, Physiological apparatus -- Design and construction, Radio frequency identification (RFID) -- Usage, Radio frequency identification, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Published
2010

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