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Medical Device

for BIO 2024
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Biomedical Engineering
23 results
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Dephasing optimization through coherence order pathway selection (DOTCOPS) for improved crusher and phase cycling schemes in MR spectroscopy
CU18146
Download DOTCOPS2 Manual.
To request an academic license to download and use this software, please click on "Express Licensing" above, create an account/log in if you do not have an account/are not logged in, then return to this page, and click Express Licensing again.
7AlgorithmMagnetic fieldMagnetic resonance imaging
Christoph JuchemKarl Landheer
Joan Martinez
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2024-09-18
Accessible autonomous scanner magnetic resonance system
CU18408
This technology is a magnetic resonance system that includes a computer-accessible medium to automate patient information gathering and remotely initiate medical imaging scans.
10Artificial intelligenceCT scanCloud computing
John Thomas VaughanSairam Geethanath
Joan Martinez
Biomedical EngineeringRadiology
Columbia University Medical Center (CUMC)Fu Foundation School of Engineering and Applied Science (SEAS)
2024-04-08
Engineered model of human bone marrow for diagnosis and prediction of cancer metastasis
CU23273
This technology is patient-specific engineered model of bone marrow for diagnostics and research of cancer progression using a sample of patient’s serum.
12AssayBone marrowCancer staging
Daniel Naveed TavakolGordana Vunjak-NovakovicPamela Graney
Cynthia Lang
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2024-04-08
Hybrid multi-coil technique for improving magnetic resonance imaging (MRI)
CU23207
This technology is a hybrid configuration of multi-coils and radiofrequency magnets that can improve clinical magnetic resonance imaging (MRI) quality.
5Human brainMagnetic fieldMagnetic resonance imaging
Carlotta IannielloChristoph JuchemSebastian Theilenberg
Joan Martinez
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2024-03-26
Focused ultrasound-induced blood-brain barrier opening for noninvasive extracellular vesicle release
CU23167
This technology is an in vivo tool using focused ultrasound (FUS) with microbubbles to induce blood-brain barrier opening (BBBO) and increase serum extracellular vesicle (EV) levels.
10BiomarkerBlood–brain barrierCavitation
Alec J. BattsAlina R. Kline-SchoderElisa Konofagou
Dovina Qu
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2024-01-18
A deep learning substitute for Gadolinium contrast detects focused ultrasound-induced blood-brain barrier (BBB) opening
CU23205
This technology is a deep-contrast AI-enabled algorithm to predict blood-brain barrier (BBB) openings from T1 MRI sequences using low doses of gadolinium-based contrast agents (GBCA).
6Blood–brain barrierCentral nervous systemDeep learning
4Andrew F. LaineCheng-Chia WuJia Guo
Jerry Kokoshka
4Biomedical EngineeringPsychiatryRadiation Oncology
Columbia University Medical Center (CUMC)Fu Foundation School of Engineering and Applied Science (SEAS)
2023-11-30
Continuous, self-calibrating, cuffless, and non-invasive blood pressure monitor
CU19046
This technology consists of a wearable wrist device that provides continuous blood pressure monitoring that is self-calibrating and utilizes a combination of positional sensors and machine-learning algorithms to adjust for changes in hydrostatic pressure due to arm movement.
9AlgorithmAmbulatory careBiometrics
David ColburnSamuel Sia Ph.D.
Dovina Qu
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2023-10-20
Swept, Confocally-Aligned, Planar Excitation (SCAPE) Microscopy Using a Graded-Index (GRIN) lens for deep tissue imaging
CU21327
This technology, GRIN-SCAPE, is a high-speed microscopy approach for imaging deep 3D tissue dynamics in awake, freely behaving animals that combines Swept, Confocally-Aligned Planar Excitation (SCAPE) microscopy with a Graded-Index (GRIN) lens.
12Anatomical terms of locationBrainBrainstem
Elizabeth HillmanGrace Sooyeon LeeWenxuan Liang
Kristin Neuman
Biomedical EngineeringMortimer B. Zuckerman Mind Brain Behavior Institute
Fu Foundation School of Engineering and Applied Science (SEAS)
2023-09-25
Automated software tool for analysis of cardiac tissue function
CU23247
This technology, BeatProfiler, is a desktop graphical-user-interface (GUI) that leverages deep learning for high-throughput, streamlined analysis of in vitro human cardiac cells and engineered tissues, primarily aimed at accelerating drug development and disease phenotyping in cardiovascular research.
8Cardiovascular diseaseDeep learningDrug development
Gordana Vunjak-NovakovicKunlun WangYoungbin Kim
Cynthia Lang
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2023-07-31
Method to Enhance Optical Coherence Tomography (OCT) for Eye Disease Detection
CU22266
This technology is an artificial intelligence-based platform for improving the quality of images taken from portable OCT devices and detecting age-related macular degeneration.
5Internal medicineMacular degenerationNatural disaster
6Christine P. HendonDesmond YaoDonald Charles Hood
Dovina Qu
4Biomedical EngineeringElectrical EngineeringOphthalmology
Columbia University Medical Center (CUMC)Faculty of the Arts & SciencesFu Foundation School of Engineering and Applied Science (SEAS)
2023-02-20
Portable system for MRI scanning of the head
CU19284
This technology is a compact, portable, head-only MRI machine that allows unrestricted movement from the shoulders down during brain scanning for improved accessibility in clinical settings.
4Computer-aided designMagnetMagnetic field
Christoph JuchemSebastian Theilenberg
Joan Martinez
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2022-06-29
Cardiac tissue platform for diagnosing myocarditis
CU21222
This technology is an in vitro human cardiac muscle tissue platform that can be used to diagnose myocarditis.
18AsymptomaticAutoantibodyAutoimmune disease
6Gordana Vunjak-NovakovicLaura Geraldino PardillaManuel Alejandro Tamargo
Cynthia Lang
Biomedical EngineeringMedicine
Columbia University Medical Center (CUMC)Fu Foundation School of Engineering and Applied Science (SEAS)
2022-06-10
Semi-automated optogenetic platform for evaluation of human neuromuscular functionality
CU18400
This technology is a platform that uses patient-derived cells to accurately evaluate their neuromuscular junction function to detect and diagnose neuromuscular diseases such as myasthenia gravis (MG).
12AntibodyHigh-throughput screeningIn vitro
Gordana Vunjak-NovakovicOlaia Fernandez VilaStephen Parnell Ma
Cynthia Lang
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2020-12-24
Automated pathological imaging and detection of cancer
CU20175
This technology is an imaging platform for the automated analysis of abnormalities in large tissue specimens that can be used to detect breast cancer and related diseases.
13AnatomyArtificial intelligenceBreast cancer
4Christine P. HendonDiana MojahedHanina Hibshoosh
Dovina Qu
4Biomedical EngineeringElectrical EngineeringPathology
Columbia University Medical Center (CUMC)Fu Foundation School of Engineering and Applied Science (SEAS)
2020-09-22
Transcoding software for EEG and fMRI data using a convolutional neural network
CU20368
This technology is software that is able to produce functional magnetic resonance imaging (fMRI) data from EEG recordings and vice versa, allowing for cost-effective collection of neuroimaging data with high spatiotemporal resolution.
10BrainCognitive neuroscienceConvolutional neural network
Paul SajdaXueqing Liu
Dovina Qu
Biomedical Engineering
Fu Foundation School of Engineering and Applied Science (SEAS)
2020-09-17