Browsing by Subject "Sensitivity"
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Item Open Access 21.2 mV/K high-performance Ni(50 nm)-Au(100 nm)/Ga2O3/p-Si vertical MOS type diode and the temperature sensing characteristics with a novel drive mode(Institute of Electrical and Electronics Engineers, 2022-11-09) Çiçek, O.; Arslan, E.; Altındal, Ş.; Badali, Y.; Özbay, EkmelSensitivity ( S ) and drive mode are crucial issues for the vertical metal-oxide-semiconductor (MOS) type diode applied in temperature sensing. In this study, experimentally, we indicated that the S values of the Ni(50 nm) - Au(100 nm) /Ga2O3/ p -Si vertical MOS type diode, using the measured capacitance–voltage ( Cm – V ) outputs, are obtained with a novel drive mode. We applied the constant capacitance mode to drive the silicon thermo-diodes as well as constant current mode, and constant voltage mode, which are known as two different methods in the literature. Meanwhile, the S value is 21.2 mV/K at 1 nF. This value is the highest value proven in the literature excepting the cryogenic temperature region, and near room temperature. This study provided an original structure for the silicon thermo-diodes and a novel way to drive them.Item Open Access A characterization of the optimal set of linear programs based on the augmented lagrangian(Taylor & Francis, 1999) Pınar, M. Ç.It is proved that in a certain neighborhood of the optimal set of multipliers, the set of minimizers of the augmented lagrangian nmction generates a new characterization of the optimal solution set of the linear program.Item Open Access Circular high-Q resonating isotropic strain sensors with large shift of resonance frequency under stress(2009) Melik, R.; Unal, E.; Perkgoz, N.K.; Puttlitz, C.; Demir, Hilmi VolkanWe present circular architecture bioimplant strain sensors that facilitate a strong resonance frequency shift with mechanical deformation. The clinical application area of these sensors is for in vivo assessment of bone fractures. Using a rectangular geometry, we obtain a resonance shift of 330 MHz for a single device and 170 MHz for its triplet configuration (with three side-by-side resonators on chip) under an applied load of 3,920 N. Using the same device parameters with a circular isotropic architecture, we achieve a resonance frequency shift of 500 MHz for the single device and 260 MHz for its triplet configuration, demonstrating substantially increased sensitivity. © 2009 by the authors.Item Open Access Compressive digital receiver: first results on sensitivity, dynamic range and instantaneous bandwidth measurements(Institute of Electrical and Electronics Engineers Inc., 2019) Korucu, A. B.; Alp, Y. K.; Gök, G.; Arıkan, OrhanIn this work, sensitivity, one/two-signal dynamic range and instantaneous bandwidth measurement results of the recently developed Compressive Digital Receiver (CDR) hardware for Electronic Support Measures (ESM) applications, will be reported for the first time. Developed CDR is a compressive sensing based sub-Nyquist sampling receiver, which can monitor 2.25 GHz bandwidth instantaneously by using four ADCs (Analog-to-Digital Receiver) each of which has a sampling rate of 250 MHz. All the digital processing blocks of the CDR are implemented in Field Programmable Gate Array (FPGA) and they work in real time. It is observed that the sensitivity and dynamic range of the CDR changes with respect to input signal frequency. For 2.25 GHz bandwidth, the best and worst sensitivity values of the CDR are reported as -62 dBm and -41 dBm, respectively. One-signal dynamic range of CDR is measured as at least 60 dB for the whole band. The best and worst values of the two-signal dynamic rage values are observed as 42 dB and 20 dB, respectively.Item Open Access Development and validation of methods for the diagnosis of lung cancer via serological biomarkers(2019-02) Akçay, Abbas GüvenOver 10% of all new cancer cases are lung cancer. Moreover, estimates till 2030 indicate that already increasing lung cancer incidences will keep increasing, especially in developing countries like Turkey. Lung cancer, the leading cause of cancer deaths, has two large divisions: Small Cell Lung Cancer (SCLC) and Non-Small Cell Lung Cancer (NSCLC). SCLC is the most aggressive subtype of lung cancer. And although, the treatment options and median survival time is more favorable in Limited Disease (LD), high tumor growth rate and metastatic tendency of SCLC even in the early stages, makes the diagnosis troublesome. Similarly, if NSCLC is diagnosed in early stages, surgery option is open and this increases the patient survival rate. However, current methods in screening and diagnosis, such as computed tomography (CT) and positron emission tomography (PET), are all limited by false positivity rates. Additionally, biopsy methods used in histological evaluations are both invasive and prone to false negativity. Therefore, new diagnostic tools which are cheap, accurate and non-invasive are in high demand. Autologous antibodies are abundantly elicited and stably exist in patient sera years before the clinical diagnosis of disease. Several such antibodies were reported by our group and other groups in lung cancer. Therefore, new diagnostic methods incorporating autologous antibodies can be a huge step forward in early diagnosis of lung cancer. Moreover, miRNAs, with their unique hormone like features such as circulation in serum and their regulatory effects in cell, are another good candidate for the early diagnosis of lung cancer. Therefore, in this study I aimed to develop a reliable, robust and automated evaluation method to re-evaluate custom Protein Array (cPA) screenings previously performed in our lab, and to determine the autologous antibodies with highest discriminatory power between SCLC patients & healthy controls. Moreover, I aimed to develop a Quartz Crystal Microbalance with Dissipation (QCM-D) based immunoassay to be incorporated later in the validation of cPA results. Lastly, in a parallel study I aimed to identify and validate novel miRNA biomarkers NSCLC. My results indicate that cPAs can have better sensitivity and specificity than ELISA and that QCM-D can be developed as an alternative to ELISA. miRNAs identified in silico, can also be validated ex vivo. Previously, Protein Arrays (PAs) and cPAs were screened using 49 SCLC patient’s and 50 healthy serums in our laboratory, incorporating visual and manual evaluations. Sensitivity and specificity values were calculated for individual autologous-antibodies and a number of autologous-antibody panels. Moreover, validations of cPA results were carried via ELISA. However, large discrepancies between cPA and ELISA results, as well as inconsistencies among ELISA results urged me to consider re-evaluation of cPA results with a more robust way, and to focus on developing a method superior to ELISA in autologous-antibody evaluations. Therefore, I incorporated AIDA to generate numeric values out of cPA screening images and filtered low quality data with optimized cut-off values. Several Receiver Operating Characteristic (ROC) curves were plotted using evaluated data. Improved results were evident by the increased Area Under Curve (AUC) values in both individual and combined ROC curves. Moreover, I developed a QCM based immunosensor for detection of anti-SOX2 antibody to be incorporated later in validation of cPA results. Binding interaction between anti-SOX2 antibody and SOX2 protein was modelled using 1:1 Langmuir Isothermal Binding and standard curves generated in QCM. In a parallel study, I also investigated miRNAs significantly upregulated in NSCLC when compared to high risk controls. For that purpose, miRNA expression datasets were gathered from GEO. Selected 2 datasets with the same sample type were analyzed for common significantly upregulated miRNAs among these two datasets. Significantly upregulated miRNAs were subjected to logistic regression analysis with LASSO regularization (error metrics: AUC and MSE) to select best panel of miRNAs that can distinguish NSCLC patients from healthy controls in given datasets. Moreover, selected miRNAs were analyzed with qRT-PCR to validate the panel. I was able to re-evaluate cPA results by eliminating low quality data from numeric values generated via AIDA software from cPA images. I identified a panel of 4 autologous antibodies (FKBP8 – P53 – SOX2 – POLB) which resulted in 60% sensitivity at 100% specificity in discrimination of SCLC from controls. ROC of this autologous antibody panel had an AUC of 95.04%. Given panel surpassed diagnostic power of the only commercially available diagnostic kit of the same kind; EarlyCDT-Lung. Moreover, proof of concept for measurements of anti-protein antibodies were carried successfully in QCM, using anti-SOX2 antibody-SOX2 protein pair in PBS buffer as an example for it. Early results of anti-SOX2 mAb QCM indicate a linear assay range comparable to ELISA. Langmuir Isothermal Binding model revealed a strong interaction between antibody and protein in our QCM anti-SOX2 measurement experiments. Lastly, I was able to select 5 miRNAs using logistic regression and LASSO regularization that can best discriminate between NSCLC patients and high risk controls. However, validation experiments using qRT-PCR needs to be repeated as low Ct values and prominent hemolysis in serum samples prevented drawing meaningful conclusions.Item Open Access Development of methods for identification and characterization of autologous antibody responses in Small Cell Lung Cancer and Behcet’s Disease(2016-08) Poyraz, AlperAutologous antibodies are known to be elicited in Behçet’s Disease (BD) and Small Cell Lung Cancer (SCLC). SCLC consists 15-20% of all lung cancer cases. It is follows a most aggressive course and generally patients are diagnosed at later stages. The median survival of patients is 9-12 months. Diagnostic methods such as CT and PET are somewhat useful in the diagnosis of lung cancer but not so much for SCLC as the doubling time of this tumor is very rapid. Therefore, new diagnostic tools are needed for early diagnosis and to increase median survival of patients. Behçet’s Disease is autoimmune disease and the prevalence of BD in Turkey is the highest in the world. Also autologous antibodies against various antigens associated with BD have been discovered in BD. BD has vascular, oral, cutaneous and neuronal subtypes and autologous antibodies correlating with each subtype have been reported. However, for BD, there does not exist a diagnostic or prognostic test as none have been developed yet. However autoantibodies can be utilized for the diagnosis and follow-up of SCLC and BD because it is known that autoantibodies are expressed well in advance of disease symptoms. The first aim of this study was to determine a correlation between antigen expression levels in tumor tissues and the presence of autologous antibodies. The second aim of this study was to extend earlier experiments related to the characterization of autologous antibodies against known and novel antigens in SCLC and BD, utilizing high-density protein arrays (PA). The third and major aim of this study was to develop a reliable and sensitive method that could be used to evaluate protein array screening results and lastly, to validate these results by performing optimized ELISA and Western Blot experiments. Previously, PAs were screened with 50 SCLC, 50 BD and 50 healthy serums in our laboratory, and evaluated visually utilizing no automation. Sensitivity and specificity values were calculated using custom-generated antigen panels which included 180 antigens. ELISA experiments were performed to validate antigens thus discovered. However, largely discrepant PA and ELISA results, together with inconsistent ELISA results required us to optimize ELISA conditions, as well as to generate an automated PA evaluation method that would generate numeric data. We modified ELISA by altering various parameters until we were able to obtain consistent results. We also generated a reliable method by which we could produce numeric data corresponding to antibody presence as determined from PA screening results. The method is based on the calculation of pixel intensities of sero-reactive clones on the array which are converted to numeric data, and the subsequent determination of proper cut-offs by which sensitivity and specificity of antibody responses can be generated by comparing values obtained from healthy to those obtained from diseased serum. We call this the “Digital Spot Evaluation” (DSE) tool. DSE was performed utilizing Adobe Photoshop CS6 and parameters of the test were optimized using five replicate screens of a given serum. Pearson’s r correlation values of repeated experiments after optimization were close to 1. Also, when protein arrays are screened using DSE on different days by different researchers, results are highly concordant. We evaluated protein array screening data obtained for SCLC and healthy sera by DSE. In particular, antibody intensities against SOX2, p53 and POLB proteins were calculated and sensitivity/specificity values were determined. With DSE based evaluation of protein arrays, we reached 44%, 6% and 20% sensitivity at 100% specificity for SOX2, p53 and POLB proteins respectively. On the other hand if we evaluate 3 proteins together as a panel, our sensitivity increases to 56% at 100% specificity, and 66% sensitivity at 96% specificity. However, even after optimization, ELISA results showed 32%, 4% and 4% sensitivity at 100% specificity for SOX2, p53 and POLB proteins respectively, demonstrating that DSE is significantly more sensitive than ELISA. We are planning to use DSE to evaluate PA data generated from many other types of tumors in the future and to and possibly to develop a kit based on this method to be utilized for the diagnosis and follow-up of SCLC and BD.Item Open Access Free-standing ZnO-CuO composite nanowire array films and their gas sensing properties(IOP Publishing, 2011-07-19) Wang, J. X.; Sun, X. W.; Yang, Y.; Kyaw, A. K. K.; Huang, X. Y.; Yin, J. Z.; Wei, J.; Demir, Hilmi VolkanA modified hydrothermal method was developed to synthesize ZnO-CuO composite nanostructures. A free-standing film made of ZnO-CuO nanostructures was assembled on the surface of the hydrothermal solution with a smooth surface on one side and a spherical surface on the other side. The structure, growth mechanism and the optical properties of the composite nanostructures were studied. Structural characterizations indicate that the composite nanostructure mainly consisted of two single-crystal phases of CuO and ZnO. The sensitivity for CO gas detection was significantly improved for the composite CuO-ZnO nanostructure film. This method offers a possible route for the fabrication of free-standing nanostructure films of different functional composite oxides.Item Open Access Identification and utilization of autologous anti-tumor antibodies for the diagnosis and prognosis of cancer(2015-12) Atakan, ŞükrüLung cancer is the leading cause of cancer related death worldwide. Current diagnostic methods have limited power and unable to extend patient life significantly. SCLC; the most aggressive subtype of lung cancer is an immunogenic cancer type and able to elicit an immune response of which autologous antibodies are a measurable component. These antibodies are elicited even when the tumor is microscobic and impossible to be diagnosed clinically by the current methods of diagnosis thus antibodies can be utilized for early diagnosis. We aimed to develop a method to identify novel autologous antibodies, identify these antibodies for SCLC, Colorectal, Gastric and Ovarian cancers and validate these antibodies for SCLC diagnosis and prognosis and investigate their utility for autoimmune disease. We have developed and optimized PA screening for novel autologous antibody discovery. We have screened PA with serum pools of cancer patients (SCLC, Colorectal, Gastric and Ovarian), BD and healthy controls since PAs have many advantages compared to other discovery methods like SEREX. We have also performed sensitivity and specificity evaluations by screening custom PAs by individual sera. Image analysis softwares developed by collaboration utilized for evaluation of the screenings. The filtered valuable clones were ordered from the PA manufacturer and HisTagged protein expression and purification was performed with these clones. Pure proteins were screened with 3 independent SCLC and 2 Healthy control cohorts by an iterative ELISA approach for validation of these antibodies as valuable biomarkers. ELISA results were also confirmed by Western blotting. Monte Carlo, SVM and PC were utilized for cut-off determination, panel formation and ROC plotting. AUC was compared for evaluation of diagnostic power. Kaplan-Meier, UCR and MCR analysis was performed for prognostic analysis of the valuable antibodies. Seperately protein expression and autologous antibody presence correlation was evaluated by comparison of IHC and ELISA. The same autologous antibody identification strategy was utilized as a collaborative support for an independent study for identification of NBD specific biomarkers.We have identified 23 distinct autologous antibody biomarkers for SCLC after evaluation of PA and custom PA screenings. For 8 of these antibodies we have completed ELISA screening for all 3 SCLC and 2 healthy control cohorts. 6 of these autologous antibodies were shown to be valuable as a panel for SCLC diagnosis both by MC and SVM. Utilization of 4 of these antibodies; SOX2, p53, POLB and C11orf20, as a panel resulted in superior AUC thus high sensitivity and specificity values (55% sensitivity, 90% specificity). PC method resulted in higher AUC even only by combination of SOX2 and p53 (82% sensitivity, 90% specificity). Although individual correlations were identified, we were unable to show a significant correlation of seropositivity with survival for any of the antibodies which is common to all cohorts. We have identified a significant correlation between SOX2 antigen expression intensity and autologous antibody presence. Mtch1 was identified as a NBD specific autologous antibody by the utilization of our autologous antibody discovery and validation methodology. We were able to identify a panel of 4 antibodies; SOX2, p53, POLB and C11orf20, which resulted in 55% sensitivity at 90% specificity for SCLC. 2 of these antibodies were identified by this study as novel biomarkers; POLB and C11orf20. The panel is capable of exceeding the diagnostic power of the only commercially available diagnostic kit; EarlyCDT-Lung. PC method is very promising since a sensitivity value of 82% was reached at 90% specificity which is a diagnostic power comparable that of low-dose CT. As a future perspective we are planning to apply PC method to all the PA data and develop a kit based on this method to be utilized for SCLC diagnosis.Item Open Access Metamaterial-based wireless RF-MEMS strain sensors(IEEE, 2010) Melik, Rohat; Ünal, Emre; Perkgoz, Nihan Kosku; Puttlitz, C.; Demir, Hilmi VolkanApproximately 10% of the fractures do not heal properly because of the inability to monitor fracture healing. Standard radiography is not capable of discriminating whether bone healing is occurring normally or aberrantly. We propose and develop an implantable wireless sensor that monitors strain on implanted hardware in real time telemetrically. This enables clinicians to monitor fracture healing. Here we present the development and demonstration of metamaterial-based radiofrequency (RF) micro-electro-mechanical system (MEMS) strain sensors for wireless strain sensing to monitor fracture healing. The operating frequency of these sensors shifts under mechanical loading; this shift is related to the surface strain of the implantable test material. In this work, we implemented metamaterials in two different architectures as bio-implantable wireless strain sensors for the first time. These custom-design metamaterials exhibit better performance as sensors than traditional RF structures (e.g., spiral coils) because of their unique structural properties (splits). They feature a low enough operating frequency to avoid the background absorption of soft tissue and yield higher Q-factors compared to the spiral structures (because their gaps have much higher electric field density). In our first metamaterial architecture of an 5x5 array, the wireless sensor shows high sensitivity (109kHz/kgf, 5.148kHz/microstrain) with low nonlinearity-error (<200microstrain). Using our second architecture, we then improved the structure of classical metamaterial and obtained nested metamaterials that incorporate multiple metamaterials in a compact nested structure and measured strain telemetrically at low operating frequencies. This novel nested metamaterial structure outperformed classical metamaterial structure as wireless strain sensors. By employing nested metamaterial architecture, the operating frequency is reduced from 529.8 MHz to 506.2 MHz while the sensitivity is increased from 0.72 kHz/kgf to 1.09 kHz/kgf. ©2010 IEEE.Item Open Access Nested metamaterials for wireless strain sensing(IEEE, 2009-12-28) Melik, R.; Unal, E.; Perkgoz, N. K.; Santoni, B.; Kamstock, D.; Puttlitz, C.; Demir, Hilmi VolkanWe designed, fabricated, and characterized metamaterial-based RF-microelectromechanical system (RF-MEMS) strain sensors that incorporate multiple split ring resonators (SRRs) in a compact nested architecture to measure strain telemetrically. We also showed biocompatibility of these strain sensors in an animal model. With these devices, our bioimplantable wireless metamaterial sensors are intended, to enable clinicians, to quantitatively evaluate the progression of long-bone fracture healing by monitoring the strain on the implantable fracture fixation hardware in real time. In operation, the transmission spectrum of the metamaterial sensor attached to the implantable fixture is changed when an external load is applied to the fixture, and from this change, the strain is recorded remotely. By employing telemetric characterizations, we reduced the operating frequency and enhanced the sensitivity of our novel nested SRR architecture compared to the conventional SRR structure. The nested SRR structure exhibited a higher sensitivity of 1.09 kHz/kgf operating at lower frequency compared to the classical SRR that demonstrated a sensitivity of 0.72 kHz/kgf. Using soft tissue medium, we achieved the best sensitivity level of 4.00 kHz/kgf with our nested SRR sensor. Ultimately, the laboratory characterization and in vivo biocompatibility studies support further development and characterization of a fracture healing system based on implantable nested SRR.Item Open Access Sıkıştırılmış algılama tabanlı sayısal almaç: ilk performans ölçümleri(IEEE, 2019-04) Korucu, Ali Buğra; Alp, Yaşar Kemal; Gök, Gökhan; Arıkan, Orhan; Çakar, O.; Eroğul, O.Bu çalışmada, ilk defa bir donanım üzerinde gerçeklenen SATSAÇ (Sıkıştırılmış Algılama Tabanlı Sayısal Almaç) sisteminin performansını tanımlayan duyarlılık, anlık dinamik alan ve bant genişligine dair ölçüm sonuçları paylaşılacaktır. Geliştirilen SATSAÇ sistemi, her biri 250MHz ile örnekleme yapan 14 bit çözünürlükte dört adet ADC (Analog to Digital Converter) ile Nyquist limiti altında örnekleme yaparak en az 2.25GHz’lik bir bandı, sıkıştırılmış algılama teknikleri ile anlık olarak gözlemleyebilmektedir. Yapılan ölçümlerde, SATSAÇ sisteminin duyarlılık ve dinamik alan değerlerinin frekans bandına göre değişiklik gösterdiği gözlemlenmiştir. 2.25GHz’lik bant boyunca, en iyi duyarlılık seviyesi -62dBm, en kötü duyarlılık seviyesi -41dBm olarak ölçülmüştür. Tüm bant boyunca tek-sinyal dinamik alan en az 60dB olarak ölçülmüş olup, iki-sinyal dinamik alan en iyi 45dB, en kötü 20dB olarak gözlemlenmiştir.