Hotaik Lee scite author profile

Hotaik Lee

5Publications

35Citation Statements Received

134Citation Statements Given

How they've been cited

How they cite others

271

134

Affiliations

Samsung (South Korea), Pennsylvania State University

Publications

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Extended Lifetime <italic>In Vivo</italic> Pulse Stimulated Ultrasound Imaging

Wang¹,

Barback

et al. 2018

IEEE Trans. Med. Imaging

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An on-demand long-lived ultrasound contrast agent that can be activated with single pulse stimulated imaging (SPSI) has been developed using hard shell liquid perfluoropentane filled silica 500-nm nanoparticles for tumor ultrasound imaging. SPSI was tested on LnCAP prostate tumor models in mice; tumor localization was observed after intravenous (IV) injection of the contrast agent. Consistent with enhanced permeability and retention, the silica nanoparticles displayed an extended imaging lifetime of 3.3±1 days (mean±standard deviation). With added tumor specific folate functionalization, the useful lifetime was extended to 12 ± 2 days; in contrast to ligand-based tumor targeting, the effect of the ligands in this application is enhanced nanoparticle retention by the tumor. This paper demonstrates for the first time that IV injected functionalized silica contrast agents can be imaged with an in vivo lifetime ~500 times longer than current microbubble-based contrast agents. Such functionalized long-lived contrast agents may lead to new applications in tumor monitoring and therapy.

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Feasibility of in vivo Transesophageal Cardiac Ablation Using a Phased Ultrasound Array

Werner

Park

Lee

et al. 2010

Ultrasound in Medicine & Biology

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MR thermometry characterization of a hyperthermia ultrasound array designed using the k-space computational method

et al. 2006

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Background: Ultrasound induced hyperthermia is a useful adjuvant to radiation therapy in the treatment of prostate cancer. A uniform thermal dose (43°C for 30 minutes) is required within the targeted cancerous volume for effective therapy. This requires specific ultrasound phased array design and appropriate thermometry method. Inhomogeneous, acoustical, three-dimensional (3D) prostate models and economical computational methods provide necessary tools to predict the appropriate shape of hyperthermia phased arrays for better focusing. This research utilizes the k-space computational method and a 3D human prostate model to design an intracavitary ultrasound probe for hyperthermia treatment of prostate cancer. Evaluation of the probe includes ex vivo and in vivo controlled hyperthermia experiments using the noninvasive magnetic resonance imaging (MRI) thermometry.

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Modeling heat transfer in humans for body heat harvesting and personal thermal management

Kim

Woo

et al. 2022

Applied Energy

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The Feasibility of Transesophageal Cardiac Ablation by Focused Ultrasound

Lee¹,

Francischelli²,

Smith³

2007

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Hotaik Lee

Extended Lifetime <italic>In Vivo</italic> Pulse Stimulated Ultrasound Imaging

Feasibility of in vivo Transesophageal Cardiac Ablation Using a Phased Ultrasound Array

MR thermometry characterization of a hyperthermia ultrasound array designed using the k-space computational method

Modeling heat transfer in humans for body heat harvesting and personal thermal management

The Feasibility of Transesophageal Cardiac Ablation by Focused Ultrasound

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