Publications by authors named "Young Sam Cho"

Extensive research has been conducted on anti-biofouling or antibacterial surfaces, with nanostructured surfaces that mimic cicada and dragonfly wings emerging as promising candidates for mechano-bactericidal applications. These biomimetic nanostructured surfaces are capable of exerting a bactericidal effect by directly damaging the membranes of bacteria attached to nanostructures. Although research on bactericidal effect using various nanostructures have been conducted, no specific studies have yet reported on the antibacterial efficiency of the surface having nanoline array, especially regarding the spacing between nanolines.

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In this paper, we explore the development of a multi-functional surface designed to tackle the challenges posed by (), a common opportunistic pathogen. Infections caused by during surgical procedures highlight the need for effective strategies to inhibit its adhesion, growth, and colonization, particularly on the surfaces of invasive medical devices. Until now, most existing research has focused on nanopillar structures (positive topographies).

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Article Synopsis
  • In bone tissue engineering, researchers are enhancing scaffold design by incorporating osteoconductive, osteoinductive, and angiogenic factors to improve bone regeneration.
  • Recent studies suggest that the topological features of scaffolds affect bone cell behavior, including attachment and growth.
  • This research confirms that a larger contact area between the scaffold and bone defect leads to better regeneration, making scaffold design crucial for effective bone repair.
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Biofilms formed owing to the attachment of bacteria to surfaces have caused various problems in industries such as marine transportation/logistics and medicine. In response, many studies have been conducted on bactericidal surfaces, and nanostructured surfaces mimicking cicada and dragonfly wings are emerging as candidates for mechano-bactericidal surfaces. In specific circumstances involving mechano-bactericidal activity, certain nanostructured surfaces could exhibit their bactericidal effects by directly deforming the membranes of bacteria that adhere to these nanostructures.

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To date, several off-the-shelf products such as artificial blood vessel grafts have been reported and clinically tested for small diameter vessel (SDV) replacement. However, conventional artificial blood vessel grafts lack endothelium and, thus, are not ideal for SDV transplantation as they can cause thrombosis. In addition, a successful artificial blood vessel graft for SDV must have sufficient mechanical properties to withstand various external stresses.

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Article Synopsis
  • * Researchers developed a flexible, transparent PCL film with a nanopillar structure through thermal imprinting, which demonstrates mechano-bactericidal properties.
  • * The nanopillars effectively killed certain bacteria by causing damage upon contact and also inhibited the growth of others, showcasing potential for use in implantable medical devices.
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Objectives: To evaluate tumor feeders, image quality, and performance of cone-beam computed tomography (CBCT) renal arteriography for renal tumor embolization.

Methods: Fifty-four patients with renal tumors were included in this study. The performance of CBCT renal arteriography was classified into three groups: group A, all tumor feeders could be confirmed solely based on the CBCT maximum intensity projection (MIP); group B, all feeders were detected in CBCT MIP, but there were some possible feeders which needed to be confirmed with selective digital subtraction angiography (DSA); and group C, tumor feeders were not detected in CBCT MIP, hence, the feeder was detected based on selective DSA.

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Antibacterial surfaces are one of the most important surfaces in the medical and marine industries. Many researchers are studying antibacterial surfaces to kill bacteria or prevent adhesions. Various materials and structures are applied to the surface to inhibit the adhesion of bacteria or kill the adhered bacteria.

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The role of the gut microbiome in the development of renal stone diseases has not been well characterized. This study focused on the taxonomic and functional profiles of gut microbiomes according to the prevalence and incidence of nephrolithiasis. Stool samples from 915 Korean adults were collected at baseline.

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This study evaluated 3D printed polycaprolactone (PCL) composite scaffold and recombinant human bone morphogenetic protein-2 (rhBMP-2), loaded either onto a PCL composite scaffold or implant surface, for vertical bone augmentation with implant placement. Three-dimensional printed PCL frames were filled with powdered PCL, hydroxyapatite, and β-tricalcium phosphate. RhBMP-2 was loaded to the PCL composite scaffolds and implant surfaces, and rhBMP-2 release was quantified for 21 days.

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The meniscus has poor intrinsic regenerative capability, and its injury inevitably leads to articular cartilage degeneration. Although there are commercialized off-the-shelf alternatives to achieve total meniscus regeneration, each has its own shortcomings such as individualized size matching issues and inappropriate mechanical properties. We manufactured a polycaprolactone-based patient-specific designed framework via a Computed Tomography scan images and 3D-printing technique.

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The onlay-graft, one of the most difficult graft conditions, is used for diverse clinical conditions, including plastic and dental surgery. The graft should withstand continuous pressure from overlying tissues and have excellent bone formation capability in a limited bone contact situation. We recently developed a 3D printed Kagome-structured polycaprolactone (PCL) scaffold that has a stronger mechanical property.

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Article Synopsis
  • This study explored a new 3D-printed scaffold design with a dual-pore kagome structure, focusing on its effects on cell response and mechanical strength.
  • The kagome scaffold showed similar compressive modulus to conventional patterns but performed better overall due to its unique structure and higher porosity.
  • Results indicated that the proposed scaffold enhanced cell adhesion, growth, and alkaline phosphatase (ALP) levels over 14 days, proving its effectiveness in promoting better in vitro cell response compared to traditional scaffolding designs.
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We invented a wearable device that can measure voiding time and frequency by checking a habitual series of characteristic motions among men. This study collected and analyzed urination time data collected smart bands worn by patients to resolve the clinical issues posed by using voiding charts. By developing a smart band-based algorithm for assessing urination time in patients, this study aimed to explore the feasibility of urination management systems.

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Purpose: Neurogenic bladder (NB) associated with spinal cord injury (SCI) is a serious health problem. However, no effective treatment has been developed for SCI patients with NB. Phosphatase and tensin homolog deleted on chromosome 10 (PTEN) inhibitors have been proposed as a promising option for inducing neural regeneration.

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Among 3D-printed composite scaffolds for bone tissue engineering, researchers have been attracted to the use of zinc ions to improve the scaffold's anti-bacterial activity and prevent surgical site infection. In this study, we assumed that the concentration of zinc ions released from the scaffold will be correlated with the thickness of the zinc oxide coating on 3D-printed scaffolds. We investigated the adequate thickness of zinc oxide coating by comparing different scaffolds' characteristics, antibacterial activity, and in vitro cell response.

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Background: Intractable bladder hemorrhage from pelvic malignancy can be potentially life-threatening and its management can be a challenging clinical problem.

Purpose: To evaluate safety, efficacy, and clinical outcome of superselective vesical artery embolization for the control of intractable bladder hemorrhage from pelvic malignancy.

Material And Methods: Between January 2010 and September 2018, 20 patients underwent superselective vesical artery embolization for intractable hematuria secondary to pelvic malignancy arising from or invading the bladder.

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Rationale & Objective: The effect of glycemic status on nephrolithiasis risk remains controversial. This study sought to examine the association of glycemic status and insulin resistance with incident nephrolithiasis.

Study Design: A retrospective cohort study.

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Neurogenic bladder (NB) after spinal cord injury (SCI) is a common complication that inhibits normal daily activities and reduces the quality of life. Regrettably, the current therapeutic methods for NB are inadequate. Therefore, numerous studies have been conducted to develop new treatments for NB associated with SCI.

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The incidences of various esophageal diseases (e.g., congenital esophageal stenosis, tracheoesophageal fistula, esophageal atresia, esophageal cancer) are increasing, but esophageal tissue is difficult to be recovered because of its weak regenerative capability.

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