1.The value of the gelatin particle agglutination in early leprosy diagnosis
Journal of Practical Medicine 2002;435(11):49-51
Predictive value of gelatin particle agglutination test (GPAT) in early leprosy diagnosis. GPAT using semi-synthetic trisaccharide antigen (manufactured by FUJIREBIO INC, Japan and provided by WHO) has been applied to 680 households contacts of leprosy cases and 350 healthy people living in areas of leprosy. Some interesting conclusions have been made by the authors: - GPAT was positive in 20% of household contacts as compared to only 3.1% of apparently non- contact people. - Among 135 household contacts showing positive GPAT, 17 have developed leprosy (12.6%), while among 884 people with GPAT negative, none (0%) has developed the diseases during the same period of follow-up. - In children, a high titer of antibodies constitutes a valuable indicator of high risk in developing the disease: 63.1% of them developed leprosy while it was only 7.7% in adult. -More interesting, 100% children with GPAT positive at serum dilution of 1:64 or over and whose father/ mother being leprosy patients have developed the disease. - GPAT has a important role in early leprosy diagnosis
Leprosy
;
Gelatin
;
diagnosis
2.Chondroma of Soft Tissue: A Case Report
Ki Jong CHO ; Soo Yil KANG ; Jong Dae HWANG ; Hyung Bae MUN
The Journal of the Korean Orthopaedic Association 1986;21(4):665-667
A case of chondroma of soft tissue of right hand in 23-year old man was reported. The presenting symptom was a slow growing mass, causing mild tenderness. Radiologic examination revealed a well demarked and lobulated calcified mass, was located extraskeletally. Specimen exised from soft tisssue of the hypothenar area of the hand was 5×4×3.5cm sized mass, had gelatinous and gray-whitish appearance. On microscopical examination, the tumor was classified as a chondroma of soft tissue.
Chondroma
;
Gelatin
;
Hand
3.Long-term survival of a patient with bone marrow gelatinous degeneration of idiopathic origin.
Pasquale NISCOLA ; Massimiliano PALOMBI ; Stefano FRATONI ; Malgorzata Monika TRAWINSKA ; Laura SCARAMUCCI ; Andrea TENDAS ; Marco GIOVANNINI ; Alessio PERROTTI ; Paolo DE FABRITIIS
Korean Journal of Hematology 2012;47(4):309-310
No abstract available.
Bone Marrow
;
Gelatin
;
Humans
4.Gelatinous transformation of the bone marrow in hepatocellular carcinoma.
Jeonghyun CHANG ; Chan Jeoung PARK
Blood Research 2015;50(2):71-71
No abstract available.
Bone Marrow*
;
Carcinoma, Hepatocellular*
;
Gelatin*
5.Effect of the Mixture of Thrombin Powder and Gelfoam Powder on Control of Exposed Cancellous Bone Bleeding.
Sung Wan PARK ; Ha Young CHO ; Seung Myoung LEE ; Seong Hun JEONG ; Jin Kyu SONG ; Suk Jung JANG ; Ho SHIN
Journal of Korean Neurosurgical Society 2000;29(5):664-667
No abstract available.
Gelatin Sponge, Absorbable*
;
Hemorrhage*
;
Thrombin*
6.The influence fo gelatin in the stability of an inactivated HFRS vaccine.
Jong Ho KIM ; Sei Jin PARK ; In Jae LEE ; Hyung Sup SHIM ; Chang Nam AN ; Kwang Soon SHIN ; Ho Wang LEE
Journal of the Korean Society for Microbiology 1993;28(1):37-41
No abstract available.
Gelatin*
;
Hemorrhagic Fever with Renal Syndrome*
7.The effect of bone matrix gelatin on DNA synthesis in primary culture of osteoblast.
Key Yong LEE ; Choon Sung LEE ; Won Hyeok OH ; Jung Jae KIM ; Jae Dam LEE ; Sung Woo CHO ; Geum Yi KIM
The Journal of the Korean Orthopaedic Association 1992;27(2):583-587
No abstract available.
Bone Matrix*
;
DNA*
;
Gelatin*
;
Osteoblasts*
8.Pes anserinus and anserine bursa: anatomical study.
Je Hun LEE ; Kyung Jin KIM ; Young Gil JEONG ; Nam Seob LEE ; Seung Yun HAN ; Chang Gug LEE ; Kyung Yong KIM ; Seung Ho HAN
Anatomy & Cell Biology 2014;47(2):127-131
This study investigated the boundary of anserine bursa with the recommended injection site and shape on the insertion area of pes anserinus (PA), with the aim of improving clinical practice. Eighty six legs from 45 Korean cadavers were investigated. The mixed gelatin solution was injected to identify the shape of anserine bursa, and then the insertion site of the PA tendons was exposed completely and carefully dissected to identify the shape of the PA. The sartorius was inserted into the superficial layer and gracilis, and the semitendinosus was inserted into the deep layer on the medial surface of the tibia. The number of the semitendinosus tendons at the insertion site varied: 1 in 66% of specimens, 2 in 31%, and 3 in 3%. The gracilis and semitendinosus tendons were connected to the deep fascia of leg. Overall, the shape of the anserine bursa was irregularly circular. Most of the anserine bursa specimens reached the proximal line of the tibia, and some of the specimens reached above the proximal line of the tibia. In the medial view of the tibia, the anserine bursa was located posteriorly and superiorly from the tibia's midline, and it followed the lines of the sartorius muscle. The injection site for anserine bursa should be carried out at 20degrees from the vertical line medially and inferiorly, 15 or 20 mm deeply, and at the point of about 20 mm medial and 12 mm superior from inferomedial point of tibial tuberosity.
Anserine*
;
Cadaver
;
Fascia
;
Gelatin
;
Leg
;
Tendons
;
Tibia
9.Pes anserinus and anserine bursa: anatomical study.
Je Hun LEE ; Kyung Jin KIM ; Young Gil JEONG ; Nam Seob LEE ; Seung Yun HAN ; Chang Gug LEE ; Kyung Yong KIM ; Seung Ho HAN
Anatomy & Cell Biology 2014;47(2):127-131
This study investigated the boundary of anserine bursa with the recommended injection site and shape on the insertion area of pes anserinus (PA), with the aim of improving clinical practice. Eighty six legs from 45 Korean cadavers were investigated. The mixed gelatin solution was injected to identify the shape of anserine bursa, and then the insertion site of the PA tendons was exposed completely and carefully dissected to identify the shape of the PA. The sartorius was inserted into the superficial layer and gracilis, and the semitendinosus was inserted into the deep layer on the medial surface of the tibia. The number of the semitendinosus tendons at the insertion site varied: 1 in 66% of specimens, 2 in 31%, and 3 in 3%. The gracilis and semitendinosus tendons were connected to the deep fascia of leg. Overall, the shape of the anserine bursa was irregularly circular. Most of the anserine bursa specimens reached the proximal line of the tibia, and some of the specimens reached above the proximal line of the tibia. In the medial view of the tibia, the anserine bursa was located posteriorly and superiorly from the tibia's midline, and it followed the lines of the sartorius muscle. The injection site for anserine bursa should be carried out at 20degrees from the vertical line medially and inferiorly, 15 or 20 mm deeply, and at the point of about 20 mm medial and 12 mm superior from inferomedial point of tibial tuberosity.
Anserine*
;
Cadaver
;
Fascia
;
Gelatin
;
Leg
;
Tendons
;
Tibia
10.Preoperative Transfemoral Catheter Embolization in a Torcular Meningioma.
Journal of Korean Neurosurgical Society 1980;9(2):485-490
The author report a huge torcular meningioma, fed only by right occipital artery, which was removed after the preoperative transfemoral catheter embolization with gelfoam plugs to reduce operative blood loss.
Arteries
;
Catheters*
;
Gelatin Sponge, Absorbable
;
Meningioma*