국내 핵의학은 1959년에 갑상선 질환 환자에서 131I를 이용하여 섭취 및 배출을 측정하면서 시작된 이후, 지난 60여 년간 괄목할 만한 발전을 이루어 왔다. 1961년에 도입된 핵의학 진단영상 검사는 감마카메라를 이용한 감마카메라영상 및 양전자단층 촬영(positron emission tomography, PET)을 이용한 PET/computed tomography (CT)가 현재 주요 검사로 자리잡고 있다. 감마 카메라와 PET/CT에 활용되는 방사성동위원소는 발생기 (generator)와 사이클로트론(cyclotron)을 통해 생산되며, 이러한 방사성동위원소는 표적 장기에 선택적으로 섭취되는 화합물에 표지되어 방사성의약품으로 조제된다. 국내에서 췌장담도 질환 환자에 주로 사용되는 핵의학 진단영상검사용 방사성의약품으 로는 전신뼈스캔에 사용되는 99mTc-dicarboxypropane diphosphonate (DPD)와 99mTc-methylene diphosphonate (MDP), 99mTc-hydroxymethylene diphosphonate (HMDP)가 있으며, 간담도스캔에는 99mTc-bromotriethyliminodiacetic acid (BrIDA 또는 mebrofenin)가 있다. 또한 18F-fluorodeoxyglucose (18F-FDG)와 18F-2-fluoro-3,4-dihydroxyphenylalanine (18F-FDOPA), 111Inpentetreotide (octreotide), 68Ga-1,4,7,10-tetraazacyclododecane- 1,4,7,10-tetraacetic acid0-Tyr3-octreotide (DOTA-TOC)는 주로 췌장담도계 종양의 진단과 치료 방침 결정에 유용하게 활용 되고 있다. 핵의학 진단영상검사로 인한 환자의 의료 피폭은 국내 자연 방사선으로 의한 방사선량과 비교하여 수용 가능한 수준으로 여겨진다. 임상의가 핵의학 진단영상검사의 특성을 충분히 이해하고 이를 환자와 효과적으로 소통할 경우, 신뢰 관계 형성은 물론 진료의 질 향상에도 크게 기여할 수 있을 것이다.

This study looked at fermented herbal medicine studies, including fermentation strains, methods, and the stability of fermented herbal medicines. There were 242 papers of fermented herbal medicine from 2012 to 2020, 64 of which used more than two strains to ferment medicinal herbs, and other studies used one strain or fermented herbal medicine. The most frequently used strains were Lactobacillus, which were also found to use a variety of strains, including hypertrophic bacteria, lactic acid bacteria, Bifidobacterium, yeast, mushrooms, Saccharomyces, Aspergillus, yest, and EM complex bacteria. The most common study of herbal medicine in a single room was in the order of Cheonma, Hongsam, Sansam, Ginseng, Danggui, Gilgyeong, Ogapi, Omija, Ganggang, Daejo, Hwanggi, Haesuo, Gamcho, Hwangchilam, and Samjeonghwan. The stability of fermented herbal medicine was tested in 14 episodes, including ginseng, poison, ogafi, cheonma, licorice, red ginseng, deer antlers, Mount Pyeongwi, Jaumganghwatang, Gumiganghwaltang, and double soup. Fermented herbal medicines are more effective in treating obesity, senile diseases, degenerative diseases, allergies, chronic diseases, and gastritis than conventional traditional Korea medicines. Therefore, it is considered necessary to conduct voluntary and active research using various medicinal herbs in the study of fermented Chinese medicine.

Kidney cells of canine embryos were separated into single cells using collagenase and dispase. Primary culture was conducted using these cells. To remove fibroblasts, these cells were treated with edetate disodium dihydrate (Na2EDDA), and pure epithelial cells were separated. Recombinant retrovirus particles that manifest teromerase were produced and inoculated into primary culture cells to produce immortalized canine cell strains (JNUCK-1 and JNUCK-2). To examine the characteristics of the produced cell strains, the growth curve, maximum cultured households, and expressed proteins (keratin) were identified. The JNUCK-1 and JNUCK-2 cell lines showed division ability until the 30th generation without growth retardation. JNUCK-1 and JNUCK-2 cell lines clearly expressed telomerase until the 25th generation. The canine distemper virus (CDV) was inoculated into the JNUCK-1 and JNUCK-2 cell lines, as well as in the Madin–Darby canine kidney (MDCK) cell line. The maximum titer of CDV from the JNUCK-1 cell strain was about 200 times higher than that from the MDCK cell strain. However, the JNUCK-2 cell strain produced a lower titer than the MDCK cell strain. We established a new canine kidney epithelial cell line (JNUCK-1) that could produce CDV with high titer.

Toxoplasmosis is an important cause of foodborne, inflammatory, as well as congenital abnormalities. There is an urgent need for safe and effective therapies to eliminate or treat this cosmopolitan infectious disease. A medicinal herbal plant, Meliae fructus, has been used to soothe the liver and kills worms in Chinese medicine. In this study, Meliae fructus ethanol extract was examined and screened for its anti-T. gondii activity. For anti-T. gondii activity screening, in vitro study of Meliae fructus extract using tachyzoit of T. gondii RH strain-infected HeLa cells was performed. Further, in vivo anti-T. gondii study using a mouse infection model was conducted. Safety of herbal compounds was evaluated in SD rats by treatment with Meliae fructus extract for 28 days. As a result, selectivity of Meliae fructus ethanol extract was 5.85, which was higher than sulfadiazine selectivity (2.06). We also performed an in vivo study to evaluate the anti-T. gondii activity of Meliae fructus extract in a mouse model. The inhibition rate of Meliae fructus extract was as high as that of sulfadiazine. These results demonstrate that Meliae fructus can successfully cure T. gondii infection and could be a promising native herb treatment for prevention of T. gondii infection.