B S Manjunath
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Explore the profile of B S Manjunath including associated specialties, affiliations and a list of published articles.
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Articles
53
Citations
1093
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Recent Articles
1.
Prashnani E, Goebel M, Manjunath B
IEEE Trans Image Process
. 2024 Sep;
34:100-112.
PMID: 39302805
We propose PhaseForensics, a DeepFake (DF) video detection method that uses a phase-based motion representation of facial temporal dynamics. Existing methods that rely on temporal information across video frames for...
2.
Shailja S, Nguyen C, Thanigaivelan K, Gudavalli C, Bhagavatula V, Chen J, et al.
Neurosurgery
. 2024 Jun;
95(6):1329-1337.
PMID: 38842320
Background And Objectives: Ventriculo-peritoneal shunt procedures can improve idiopathic normal pressure hydrocephalus (iNPH) symptoms. However, there are no automated methods that quantify the presurgery and postsurgery changes in the ventricular...
3.
Zhang A, Shailja S, Borba C, Miao Y, Goebel M, Ruschel R, et al.
Biol Imaging
. 2024 Mar;
3:e1.
PMID: 38487688
[This corrects the article DOI: 10.1017/S2633903X2200006X.].
4.
Zhang A, Shailja S, Borba C, Miao Y, Goebel M, Ruschel R, et al.
Biol Imaging
. 2024 Mar;
2:e6.
PMID: 38486830
This paper presents a deep-learning-based workflow to detect synapses and predict their neurotransmitter type in the primitive chordate () electron microscopic (EM) images. Identifying synapses from EM images to build...
5.
Zhang A, Khan A, Majeti S, Pham J, Nguyen C, Tran P, et al.
BME Front
. 2023 Oct;
2022:9783128.
PMID: 37850185
. We propose an automated method of predicting Normal Pressure Hydrocephalus (NPH) from CT scans. A deep convolutional network segments regions of interest from the scans. These regions are then...
6.
Jiang J, Goebel M, Borba C, Smith W, Manjunath B
BMC Bioinformatics
. 2023 Sep;
24(1):366.
PMID: 37770830
We consider the problem of finding an accurate representation of neuron shapes, extracting sub-cellular features, and classifying neurons based on neuron shapes. In neuroscience research, the skeleton representation is often...
7.
Shailja S, Bhagavatula V, Cieslak M, Vettel J, Grafton S, Manjunath B
IEEE Trans Med Imaging
. 2023 Aug;
42(12):3725-3737.
PMID: 37590108
Tractography can generate millions of complex curvilinear fibers (streamlines) in 3D that exhibit the geometry of white matter pathways in the brain. Common approaches to analyzing white matter connectivity are...
8.
Jiang J, Goebel M, Borba C, Smith W, Manjunath B
Res Sq
. 2023 May;
PMID: 37215037
We consider the problem of finding an accurate representation of neuron shapes, extracting sub-cellular features, and classifying neurons based on neuron shapes. In neuroscience research, the skeleton representation is often...
9.
Jiang J, Khan A, Shailja S, Belteton S, Goebel M, Szymanski D, et al.
Sci Rep
. 2023 Mar;
13(1):3483.
PMID: 36859457
This paper presents a method for time-lapse 3D cell analysis. Specifically, we consider the problem of accurately localizing and quantitatively analyzing sub-cellular features, and for tracking individual cells from time-lapse...
10.
Shailja S, Zhang A, Manjunath B
Med Image Comput Comput Assist Interv
. 2021 Nov;
12908:175-185.
PMID: 34729555
We propose a novel and efficient algorithm to model high-level topological structures of neuronal fibers. Tractography constructs complex neuronal fibers in three dimensions that exhibit the geometry of white matter...