Arjang Hassibi
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Explore the profile of Arjang Hassibi including associated specialties, affiliations and a list of published articles.
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Articles
16
Citations
105
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Recent Articles
1.
Vitale N, Hassibi A, Soh H, Murmann B, Lee T
PLoS One
. 2024 Dec;
19(12):e0313949.
PMID: 39715245
We present a model for the noise and inherent stochasticity of fluorescence signals in both continuous wave (CW) and time-gated (TG) conditions. When the fluorophores are subjected to an arbitrary...
2.
Hassibi A, Ebert J, Bolouki S, Anemogiannis A, Mazarei G, Li Y, et al.
Biol Methods Protoc
. 2020 Mar;
3(1):bpy005.
PMID: 32161799
PCR-based techniques are widely used to identify disease causing bacterial and viral pathogens, especially in point-of-care or near-patient clinical settings that require rapid results and sample-to-answer workflows. However, such techniques...
3.
Clutter D, Mazarei G, Sinha R, Manasa J, Nouhin J, LaPrade E, et al.
J Mol Diagn
. 2019 Apr;
21(4):580-592.
PMID: 31026601
A point-of-care HIV-1 genotypic resistance assay that could be performed during a clinic visit would enable care providers to make informed treatment decisions for patients starting therapy or experiencing virologic...
4.
Manickam A, Singh R, McDermott M, Wood N, Bolouki S, Naraghi-Arani P, et al.
IEEE J Solid-State Circuits
. 2019 Mar;
52(11):2857-2870.
PMID: 30853715
Design and successful implementation of a fully-integrated CMOS fluorescence biochip for DNA/RNA testing in molecular diagnostics (MDx) is presented. The biochip includes a 32×32 array of continuous wave fluorescence detection...
5.
Hassibi A, Manickam A, Singh R, Bolouki S, Sinha R, Jirage K, et al.
Nat Biotechnol
. 2018 Jul;
36(8):738-745.
PMID: 30010676
The emergence of pathogens resistant to existing antimicrobial drugs is a growing worldwide health crisis that threatens a return to the pre-antibiotic era. To decrease the overuse of antibiotics, molecular...
6.
Ayazian S, Akhavan V, Soenen E, Hassibi A
IEEE Trans Biomed Circuits Syst
. 2013 Jul;
6(4):336-43.
PMID: 23853178
An energy-autonomous, photovoltaic (PV)-driven and MRI-compatible CMOS implantable sensor is presented. On-chip P+/N-well diode arrays are used as CMOS-compatible PV cells to harvest μW's of power from the light that...
7.
Manickam A, Chevalier A, McDermott M, Ellington A, Hassibi A
IEEE Trans Biomed Circuits Syst
. 2013 Jul;
4(6):379-90.
PMID: 23850755
In this paper, we present a fully integrated biosensor 10 × 10 array in a standard complementary metal-oxide semiconducor process, which takes advantage of electrochemical impedance spectroscopy (EIS). We also...
8.
Manickam A, Johnson C, Kavusi S, Hassibi A
Sensors (Basel)
. 2012 Dec;
12(11):14467-88.
PMID: 23202170
Electrochemical Impedance Spectroscopy (EIS) is a powerful electrochemical technique to detect biomolecules. EIS has the potential of carrying out label-free and real-time detection, and in addition, can be easily implemented...
9.
Ayazian S, Hassibi A
Annu Int Conf IEEE Eng Med Biol Soc
. 2012 Jan;
2011:2874-7.
PMID: 22254941
In this paper, a new, easy-to-implement, and MRI-compatible approach for delivering power to implantable devices is presented. The idea is to harvest the energy of light within the therapeutic window...
10.
Hassibi A, Vikalo H, Riechmann J, Hassibi B
Methods Mol Biol
. 2011 Dec;
815:147-59.
PMID: 22130990
We present a quantification method for affinity-based DNA microarrays which is based on the real-time measurements of hybridization kinetics. This method, i.e., real-time DNA microarrays, enhances the detection dynamic range...