1.An evaluation of leukocyte removal filter (III).
Sang In KIM ; Seog Woon KWON ; Bok Yun HAN ; Kyou Sup HAN
Korean Journal of Blood Transfusion 1991;2(1):37-41
No abstract available.
Leukocytes*
2.The Role of CD45 in Leukocytes.
Journal of the Korean Pediatric Society 1996;39(12):1652-1660
No abstract available.
Leukocytes*
3.Disorders of the White Blood Cells.
Korean Journal of Pediatrics 2004;47(Suppl 2):S268-S276
No abstract available.
Leukocytes*
4.Frequency of Human Leukocyte Antigen-B27 in Korean.
Jin Ju KIM ; Eun Ji KWON ; Seung Cheol SHIM ; Tae Hwan KIM
Journal of Rheumatic Diseases 2012;19(2):112-113
No abstract available.
Humans
;
Leukocytes
5.Frequency of Human Leukocyte Antigen-B27 in Korean.
Jin Ju KIM ; Eun Ji KWON ; Seung Cheol SHIM ; Tae Hwan KIM
Journal of Rheumatic Diseases 2012;19(2):112-113
No abstract available.
Humans
;
Leukocytes
6.Isolation of hemorrhagic efver with renal syndrome virus from peripheral blood leukocytes of patients.
Gum Ryong KIM ; Tai Gyu KIM ; Suk Do KIM ; Jin Chul SHIN
Journal of the Korean Society of Virology 1991;21(2):141-149
No abstract available.
Humans
;
Leukocytes*
7.Mechanism and menifestation of the leucocytotic syndrome in the granuloid leukemia.
Journal of Practical Medicine 2000;383(6):35-37
A small proportion of cases of chronic granuloid leukemia is associated with an extraordinary concentration of leukocytes in the blood. As a result of the hyperleukocytic syndrome, these cases present special problems and complication that may seriously affect on patients’ life and the quality of life to the physicians. Leukapheresis is an effective method of therapy in these cases which can reverse the hyperleukocytic syndrome rapidly and decrease the tumor cell mass so as to minimize the extent of chemotherapeutic-induced cytolysis and the cytolysis- induced complications.
Leukemia
;
Leukocytes
8.White blood segmentation based on dual path and atrous spatial pyramid pooling.
Zuoyong LI ; Yan LU ; Xinrong CAO ; Lida QIU ; Xuejun QIN
Journal of Biomedical Engineering 2022;39(3):471-479
The count and recognition of white blood cells in blood smear images play an important role in the diagnosis of blood diseases including leukemia. Traditional manual test results are easily disturbed by many factors. It is necessary to develop an automatic leukocyte analysis system to provide doctors with auxiliary diagnosis, and blood leukocyte segmentation is the basis of automatic analysis. In this paper, we improved the U-Net model and proposed a segmentation algorithm of leukocyte image based on dual path and atrous spatial pyramid pooling. Firstly, the dual path network was introduced into the feature encoder to extract multi-scale leukocyte features, and the atrous spatial pyramid pooling was used to enhance the feature extraction ability of the network. Then the feature decoder composed of convolution and deconvolution was used to restore the segmented target to the original image size to realize the pixel level segmentation of blood leukocytes. Finally, qualitative and quantitative experiments were carried out on three leukocyte data sets to verify the effectiveness of the algorithm. The results showed that compared with other representative algorithms, the proposed blood leukocyte segmentation algorithm had better segmentation results, and the mIoU value could reach more than 0.97. It is hoped that the method could be conducive to the automatic auxiliary diagnosis of blood diseases in the future.
Algorithms
;
Leukocytes
9.Analysis of platelet yield and leukocyte contamination in plateletpheresis by CS 3000 plus.
So Young JEONG ; Eun Ju HWANG ; Jeong Nyeo LEE ; Kun Ju HAHM ; Soon Ho KIM
Korean Journal of Clinical Pathology 1993;13(2):303-310
No abstract available.
Blood Platelets*
;
Leukocytes*
;
Plateletpheresis*
10.Association of Human Leukocyte Antigen-DRB1 with Juvenile Idiopathic Arthritis.
Journal of Rheumatic Diseases 2014;21(5):225-227
No abstract available.
Arthritis, Juvenile*
;
Humans
;
Leukocytes*
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