Chi Hang Chon scite author profile

Chi Hang Chon

3Publications

8Citation Statements Received

0Citation Statements Given

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Affiliations

Hong Kong University of Science and Technology, University of Hong Kong

Publications

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In-vitro testing of RF-enabled low force mechanical thrombectomy for ischemic stroke

Chon

Qin

Lam

et al. 2015

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Mechanical thrombectomy for ischemic stroke has high recanalization rate, long treatment time window and low hemorrhage risk. However, the clot engagement approach of caging the clot against the vessel wall can cause vessel stenosis and stroke recurrence. A device with reduced radial stenting force that reduces vessel wall friction would minimize stenosis and damage. The use of localized Radio Frequency (RF) to enable clot engagement and retrieval with minimal stenting force is explored in this study. New mechanical thrombectomy devices enabled with RF (Patent No.: US 62/172,043) were built and tested on human blood clots in vessels ex vivo. Test results showed that the RF-mechanical thrombectomy successfully and reproducibly captured and retrieved the clots without relying on stent caging of the clot against the vessel wall. Further work will be conducted on animals to compare vessel wall damage between conventional and RF-mechanical thrombectomy.

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Model development and comparison of low hemorrhage-risk endoluminal patch thrombolytic treatment for ischemic stroke

Qin

Ciucci

Chon

et al. 2018

Medical Engineering & Physics

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In vitro examination of the pressure effect on clot dissolution with thrombolytic patch

Qin

Chon

Kwok

et al. 2016

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Bio-kinetic thrombus dissolution model has been developed to describe the thrombus dissolution behavior during endoluminal thrombolytic patch treatment to recanalize blocked vessel in ischemic strokes. The initial model ignored the effect of pulsatile pressure in the lumen. However, pulsatile pressure in the lumen may affect molecule diffusion and bio-chemical reaction rate and accelerate clot dissolution. The effect of pressure on the dissolution rate was examined in this study. The dissolution behaviors of 100-400 μm thick blood clot specimens subject to diastolic, systolic, and pulsatile pressure were characterized using Raman spectroscopy. The results showed that dissolution time was reduced by less than 2 mins and is negligible in comparison with total treatment time. The effect of pressure may be ignored and the developed bio-kinetic model may be used in surgical applications of endoluminal thrombolytic patch to estimate treatment time in ischemic stroke.

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Chi Hang Chon

In-vitro testing of RF-enabled low force mechanical thrombectomy for ischemic stroke

Model development and comparison of low hemorrhage-risk endoluminal patch thrombolytic treatment for ischemic stroke

In vitro examination of the pressure effect on clot dissolution with thrombolytic patch

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