• 대한의생명과학회지
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• 제11권1호
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• pp.23-29
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• 2005

Molecular imaging with targeted contrast agents enables tissues to be distinguished by detecting specific cell-surface receptors. In the present study, a ligand-targeted acoustic nanoparticle system is used to identify angioplasty-induced expression of tissue factor by smooth muscle cell within carotid arteries. Pig carotid arteries were overstretched with balloon catheters, treated with tissue factor-targeted or a control nanoparticle system, and imaged with intravascular ultrasound before and after treatment. Tissue factor-targeted emulsion bound and increased the echogenicity and gray-scale levels of overstretched smooth muscle cell within the tunica media, versus no change in contralateral control arteries. Expression of stretch-induced tissue factor in carotid artery media was confirmed by immunohistochemistry. The potential for abnormal thrombogenicity of balloon-injured arteries, as reflected by smooth muscle expression of tissue factor, was imaged using a novel, targeted, nanoparticulate ultrasonic contrast agent.

• 대한방사성의약품학회지
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• 제8권1호
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• pp.25-32
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• 2022

Malignant melanoma has an aggressive nature and high metastatic potential that result in one of the highest cancer mortality rates. Over the past three decades, primary and metastatic melanoma incidence has rapidly increased. The recent advances in diagnostic technology have shown promise, but there is still an enormous need for specific detection methods to diagnose malignant melanoma. Positron emission tomography can visualize a particular biomarker of malignant melanoma and promise a noninvasive image of micrometastases. However, the development of PET radiopharmaceuticals remains necessary for diagnosing malignant melanoma by using positron emission tomography. In this review, the history and a general overview of PET radionuclide labeled benzamide derivatives, including their radiosynthesis, in vivo characterization, and evaluation, are provided as imaging agents for malignant melanoma.

• Nuclear Medicine and Molecular Imaging
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• 제42권6호
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• pp.425-434
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• 2008

Dopamine transporter imaging is useful in the diagnosis of Parkinson's disease and the most successful technique in the clinical use of neuroreceptor imaging. Recently, several radiopharmaceuticals including I-123 FP-CIT, Tc-99m TRODAT, and F-18 FP-CIT for dopamine transporter imaging have been approved for the routine clinical use in several European countries, Taiwan and Korea, respectively. This review summarized the practical issue for the routine clinical examination of dopamine transporter imaging.

• Nuclear Medicine and Molecular Imaging
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• 제43권5호
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• pp.487-494
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• 2009

목적: 작은 크기의 재조합 단일사슬 항체는 빠른 혈중 제거율과 종양의 항체 집적율이 증가되는 등의 장점을 가지고 있다. 반면에 항체의 작은 크기는 방사성 또는 형광물질의 표지를 위한 킬레이터 결합에 중요한 아미노산 그룹의 감소를 의미하기도 한다. 본 연구에서는 단일사슬 lym-1 염기서열 C-말단에 lysine 아미노산 태그를 삽입하여 형광 물질의 직접표지 및 그 표지수율 증가를 확인하고자 하였다. 대상 및 방법: 대장균 pET-22b (+) 벡터에 재조합 된 lysine 삽입 단일사슬 lym-1유전자는 대장균 BL21 (DE3)에 형질전환하여 발현하였다. 생산된 lysine lym-1 항체는 Ni-NTA 컬럽과 분자량 컬럼을 사용해 정제하였고. 단백질 전기 영동과 western blot을 통해 확인하였다. lysine lym-1 항체에 방사성 동위원소인 I-124, I-125, I-131 과 Tc-99m를 표지하여 그 수율을 확인하였으며 유세포계측기를 사용해 형광물질인 FITC가 직접표지된 라이신 lym-1 항체의 면역반응성을 사람의 버킷 림프종 세포주인 Raji 세포주에서 면역반응성을 확인하였다. 결과 Lysine도입 단일사슬 lym-1 항체는 두 과정의 정제를 통하여 획득하였으며 그 크기는 약 48 KDa이었고, 방사성동위원소인 I-124, I-125, I-131과 Tc-99m의 표지수율은 각각 >99%, >99%, >95%, >99%로 확인되었다. 유세포계측을 통한 lysine 도입 단일사슬 lym-1항체의 면역반응성은 기존의 단일사슬 lym-1항체와 유사함을 확인하였다. 결론: 재조합 lym-1 항체에 형광 물질을 직접 표지하기 위한 lysine 아미노산의 도입은 항체의 면역반응성 감소를 최소화 시키면서 직접표지 수율을 증가시킬 수 있는 유용한 방법임을 확인하였다.

• Molecules and Cells
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• 제41권7호
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• pp.676-683
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• 2018

Cilia are highly specialized antennae-like organelles that extend from the cell surface and act as cell signaling hubs. Intraflagellar transport (IFT) is a specialized form of intracellular protein trafficking that is required for the assembly and maintenance of cilia. Because cilia are so important, mutations in several IFT components lead to human disease. Thus, clarifying the molecular functions of the IFT proteins is a high priority in cilia biology. Live imaging in various species and cellular preparations has proven to be an important technique in both the discovery of IFT and the mechanisms by which it functions. Live imaging of Drosophila cilia, however, has not yet been reported. Here, we have visualized the movement of IFT in Drosophila cilia using time-lapse live imaging for the first time. We found that NOMPB-GFP (IFT88) moves according to distinct parameters depending on the ciliary segment. NOMPB-GFP moves at a similar speed in proximal and distal cilia toward the tip (${\sim}0.45{\mu}m/s$). As it returns to the ciliary base, however, NOMPB-GFP moves at ${\sim}0.12{\mu}m/s$ in distal cilia, accelerating to ${\sim}0.70{\mu}m/s$ in proximal cilia. Furthermore, while live imaging NOMPB-GFP, we observed one of the IFT proteins required for retrograde movement, Oseg4 (WDR35), is also required for anterograde movement in distal cilia. We anticipate our time-lapse live imaging analysis technique in Drosophila cilia will be a good starting point for a more sophisticated analysis of IFT and its molecular mechanisms.

• 대한방사성의약품학회지
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• 제5권1호
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• pp.61-68
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• 2019

Purine type compounds has been recently reported to cause the death for lung cancer cell, related to microtubules-targeting agents (MTAs). Therefore it can be used to develop as theranostic radiopharmceuticals in nuclear medicine or gadolinium-based MRI imaging agents by chelate chemistry. In the study, we tried to chemically bind a DOTA chelate on the end of purine compound and obtained a specific conjugate of DOTA-purine for metal coordination. In particular, radiometal like Cu-64, for the development of MRI imaging agents, can be utilized to choice good candidates before the synthesis of gadolinium complexes. By the screening of radioisotope technique, Gd-DOTA-purine type complex was successfully prepared and showed MRI imaging for lung cancer cell into the mouse model.

• 한국의학물리학회지:의학물리
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• 제21권2호
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• pp.145-152
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• 2010

Inveon PET은 최근에 출시된 소동물 전용 PET 시스템이다. 이 연구에서는 Inveon PET 스캐너의 성능을 평가하기 위하여 공간 분해능, 민감도, 산란분획, 잡음등가계수(Noise equivalent count rate: NECR)를 측정하였다. 공간 분해능 측정은 에너지창 350~625 keV, 민감도, 산란분획, NECR 측정은 350~750 keV에서 수행하였고 동시계수창은 3.432 ns였다. 크기 $1\;mm^3$의 F-18 점 선원을 만들어 중심에서부터 5 cm 벗어난 위치까지 공간 분해능을 측정하였다. 민감도를 측정하기 위하여 스캐너의 축방향 길이와 동일한 길이 12.7 cm의 F-18 선 선원을 만들고 두께 2 mm의 알루미늄 관을 1개에서 5개까지 차례로 씌우며 절대 민감도를 계산하였다. 산란분획과 NECR 측정하기 위하여 두 가지 NEMA 산란 팬텀(랫(rat): 지름 50 mm, 길이 150 mm/마우스(mouse): 지름 25 mm, 길이 70 mm)을 이용하였고, F-18 선 선원(랫: 353 MBq, 마우스: 201 MBq)를 만들어 14반감기(25.6시간) 동안 데이터를 획득하였다. F-18의 중심에서 공간 분해능은 반경, 접선, 축 방향에서 각각 1.53, 1.50, 2.33 mm이고, 체적 공간 분해능은 $5.43\;mm^3$이었다. 절대민감도는 6.61%이었다. F-18 최대 NECR은 486 kcps @121 MBq (랫 팬텀), 1056 kcps @128 MBq (마우스 팬텀)이었다. 랫과 마우스의 산란분획은 각각 20.59%, 7.93%이었다. 이 연구에서 최신 소동물용 PET인 Inveon PET의 표준성능을 평가하였고 소동물 PET영상 획득에 유용함 을 보여주었다.

• 대한방사성의약품학회지
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• 제2권2호
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• pp.103-107
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• 2016

Solid phase extraction (SPE) purification method is the efficient and well-known tool for automated [$^{11}C$]acetate synthesis. A fully automated homemade module adopting the SPE method and 'pinch' valves was developed very economically with a universal interface board, a relay card and an open source programmable logic controller. The radiochemical yield of the optimized [$^{11}C$]acetate synthesis by this system was $58.8{\pm}2.1%$ (n=10, decay-corrected) from $15.5{\pm}0.19GBq$ of $[^{11}C]CO_2$ as starting activity, and total synthetic time was 15 minutes. HPLC analysis showed its high radiochemical purity as $97.4{\pm}1.1%$ without possible by-products.

• 대한방사성의약품학회지
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• 제9권1호
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• pp.49-55
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• 2023

Tumors are encircled by various non-cancerous cell types in the extracellular matrix, including fibroblasts, endothelial cells, immune cells, and cytokines. Fibroblasts are the most critical cells in the tumor stroma and play an important role in tumor development, which has been highlighted in some epithelial cancers. Many studies have shown a tight connection between cancerous cells and fibroblasts in the last decade. Regulatory factors secreted into the tumor environment by special fibroblast cells, cancer-associated fibroblasts (CAFs), play an important role in tumor and vessel development, metastasis, and therapy resistance. This review addresses the development of FAP inhibitors, emphasizing the first, second, and latest generations. First-generation inhibitors exhibit low selectivity and chemical stability, encouraging researchers to develop new scaffolds based on preclinical and clinical data. Second-generation enzymes such as UAMC-1110 demonstrated enhanced FAP binding and better selectivity. Targeted treatment and diagnostic imaging have become possible by further developing radionuclide-labeled fibroblast activation protein inhibitors (FAPIs). Although all three FAPIs (01, 02, and 04) showed excellent preclinical and clinical findings. The final optimization of these FAPI scaffolds resulted in FAPI-46 with the highest tumor-to-background ratio and better binding affinity.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2013년도 제44회 동계 정기학술대회 초록집
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• pp.85-85
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• 2013

Label-free, sensitive and selective detection methods with high spatial resolution are critically required for future applications in chemical sensor, biological sensor, and nanospectroscopic imaging. Here I describe the development of Plasmon Resonance Energy Transfer (PRET)-based molecular imaging in living cells as the first demonstration of intracellular imaging with PRET-based nanospectroscopy. In-vivo PRET imaging relied on the overlap between plasmon resonance frequency of gold nanoplasmonic probe (GNP) and absorption peak frequencies of conjugated molecules, which leads to create 'quantized quenching dips' in Rayleigh scattering spectrum of GNP. The position of these dips exactly matched with the absorption peaks of target molecules. As another innovative application of PRET, I present a highly selective and sensitive detection of metal ions by creating conjugated metal-ligand complexes on a single GNP. In addition to conferring high spatial resolution due to the small size of the metal ion probes (50 nm in diameter), this method is 100 to 1,000 folds more sensitive than organic reporter-based methods. Moreover, this technique achieves high selectivity due to the selective formation of Cu2+complexes and selective resonant quenching of GNP by the conjugated complexes. Since many metal ion ligand complexes generate new absorption peak due to the d-d transition in the metal ligand complex when a specific metal ion is inserted into the complex, we can match with the scattering frequency of nanoplasmonic metal ligand systems and the new absorption peak.