James T. Farmer scite author profile

James T. Farmer

4Publications

5Citation Statements Received

89Citation Statements Given

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Affiliations

Quantum Group (United States), University of Southern California, The Aerospace Corporation

Publications

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Electrocardiogram reconstruction from high resolution voltage optical mapping

Uzelac

Herndon

Farmer

et al. 2016

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Electrocardiogram recordings during opucal mapping experiments in heart tissue are commonly used tu monitor the health of the preparation and to obtain dominant frequencies during arrhythmic and defibrillatory studies. However the use of ECG reconstructed from optical mapping is seldom used and to date it has not been strictly validated. In this manuscript we present the first detailed validation and comparison of Optical Mapping ECG, or OM-ECG, with standard ECG recordings by calculating the electrostatic potential in space as a function of the voltage measured optically and describe the different approximations that can be used to obtain unipolar or bipolar ECG recordings. We found that in small/medium hearts, such as rabbits, leads that are aligned apex to base only require activation recording from one surface (anterior or posterior) for the OM-ECG to match the ECG while leads aligned left to right may require both an anterior and posterior optical mapping recording. The discrepancy between leads is due to symmetries in the ventricular activations. In the case of ischemic hearts where activations even-out more, the match between the OM-ECG and standard ECG may require only one surface recording for both left-right and base-apex leads. We believe that this methodology has two main and direct applications in the study of cardiac dynamics. The first is during studies of defibrillation where information after the shock may be crucial in the development of new strategies, OM-ECGs do not suffer the current artifacts of standard ECGs during shocks and can be calculated during the entire activation. We present examples in rabbit ventricles where even low amplitude pacing artifacts are captured by the ECG but do not appear in the OM-ECG. The second use of this technique is for reconstructions of intramural dynamics in larger hearts where differences between the ECG and OM-ECG obtained from anterior and posterior recordings can be used to derive the intramural activation.

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Mitigating switching variability in carbon nanotube memristors

Farmer

Whitehead

Hall

et al. 2021

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Computational ECG reconstruction and validation from high:resolution optical mapping

Herndon

Uzelac

Farmer

et al. 2016

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Here we present a series of improvements to the optical mapping electrocardiogram (OM-ECG), a reconstruction of the ECG based on transmembrane voltages measured on the surface of the heart. We compare our predicted OM-ECG with a pseudo-ECG concurrently measured with platinum leads surrounding the heart in-vitro. We find that the surface optical mapping of transmembrane voltages is sufficient for capturing important morphology in the ECG and moreover intramural propagation waves due to the specific transmembrane voltage sensitive dye used. Methods concerning OM-ECG reconstruction are detailed and discussed in comparison to the pseudo-ECG.

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Substrate-Selective Adhesion of Metal Nanoparticles to Graphene Devices

Edwards

Stuart

Farmer

et al. 2023

J. Phys. Chem. Lett.

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Nanostructured electronic devices, such as those based on graphene, are typically grown on top of the insulator SiO 2 . Their exposure to a flux of small size-selected silver nanoparticles has revealed remarkably selective adhesion: the graphene channel can be made fully metallized, while the insulating substrate remains coverage-free. This conspicuous contrast derives from the low binding energy between the metal nanoparticles and a contaminant-free passivated silica surface. In addition to providing physical insight into nanoparticle adhesion, this effect may be of value in applications involving deposition of metallic layers on device working surfaces: it eliminates the need for masking the insulating region and the associated extensive and potentially deleterious pre-and postprocessing.

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James T. Farmer

Electrocardiogram reconstruction from high resolution voltage optical mapping

Mitigating switching variability in carbon nanotube memristors

Computational ECG reconstruction and validation from high:resolution optical mapping

Substrate-Selective Adhesion of Metal Nanoparticles to Graphene Devices

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