Masoud Farahmand
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Explore the profile of Masoud Farahmand including associated specialties, affiliations and a list of published articles.
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10
Citations
12
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Recent Articles
1.
Bhusal A, Farahmand M, Hasan M, Vasudevan S, Vogt W, Ibarra B, et al.
J Biomed Opt
. 2025 Jan;
29(Suppl 3):S33314.
PMID: 39776836
Significance: Pulse oximeter measurements are commonly relied upon for managing patient care and thus often require human testing before they can be legally marketed. Recent clinical studies have also identified...
2.
Rodriguez A, Vasudevan S, Farahmand M, Weininger S, Vogt W, Scully C, et al.
Biomed Opt Express
. 2024 Apr;
15(4):2308-2327.
PMID: 38633081
Pulse oximetry represents a ubiquitous clinical application of optics in modern medicine. Recent studies have raised concerns regarding the potential impact of confounders, such as variable skin pigmentation and perfusion,...
3.
Suliman A, Farahmand M, Galeotti L, Scully C
IEEE Trans Biomed Eng
. 2024 Apr;
PP.
PMID: 38587945
Objective: The aim of this work is to demonstrate the performance of the ECG noise extraction tool (ECGNExT) which provides estimates of ECG noise that are not significantly different from...
4.
Farahmand M, Bodwell E, DSouza G, Herbertson L, Scully C
Comput Biol Med
. 2023 May;
160:106979.
PMID: 37167657
Pulse contour cardiac output monitoring systems allow real-time and continuous estimation of hemodynamic variables such as cardiac output (CO) and stroke volume variation (SVV) by analysis of arterial blood pressure...
5.
Farahmand M, Kavarana M, Kung E
IEEE Trans Biomed Eng
. 2022 Oct;
69(11):3559.
PMID: 36260551
In [1], there are errors in Table I and equation (3) which are corrected here. This does not affect the study results. We sincerely apologize for the errors and any...
6.
Farahmand M, Mirinejad H, Scully C
Physiol Meas
. 2021 Nov;
42(11).
PMID: 34763325
Advanced hemodynamic monitoring systems have provided less invasive methods for estimating pressure-derived measurements such as pressure-derived cardiac output (CO) measurements. These devices apply algorithms to arterial pressure waveforms recorded via...
7.
Packy A, DSouza G, Farahmand M, Herbertson L, Scully C
Cardiovasc Eng Technol
. 2021 Sep;
13(2):279-290.
PMID: 34472042
Purpose: Mock circulatory loops (MCLs) can reproducibly generate physiologically relevant pressures and flows for cardiovascular device testing. These systems have been extensively used to characterize the performance of therapeutic cardiac...
8.
Farahmand M, Kavarana M, Trusty P, Kung E
IEEE Trans Biomed Eng
. 2020 Feb;
67(10):2925-2933.
PMID: 32078526
Fontan operation as the current standard of care for the palliation of single ventricle defects results in significant late complications. Using a mechanical circulatory device for the right circulation to...
9.
Mirzaei E, Farahmand M, Kung E
Int J Numer Method Biomed Eng
. 2019 Dec;
36(3):e3289.
PMID: 31816194
The hybrid cardiovascular modeling approach integrates an in vitro experiment with a computational lumped-parameter simulation, enabling direct physical testing of medical devices in the context of closed-loop physiology. The interface...
10.
Farahmand M, Kavarana M, Kung E
IEEE Trans Biomed Eng
. 2019 Apr;
67(1):213-219.
PMID: 30998452
Fontan patients often develop circulatory failure and are in desperate need of a therapeutic solution. A blood pump surgically placed in the cavopulmonary pathway can substitute the function of the...