Abstract: Cells within liver tumor mass comprise a unique set of proteins/tumor antigens when compared to the normal liver tissues epithelial cells juxtaposed to the tumor. The presence of tumor antigens couples the production of auto-antibodies against these tumor antigens. The present invention relates to the identification and elucidation of a protein set that can act as a novel marker set for liver cancer diagnosis and prognosis. Specifically, it relates to a kit that enables diagnostic and prognostic measurement of auto-antibodies in serum of liver cancer patients. The present invention provides a non-invasive, specific, sensitive, and cost effective detection and quantification method by evaluating a set of validated liver cancer proteins/tumor antigens, which includes Bmi-1, VCC1, SUMO-4, RhoA, TXN, ET-1, UBE2C, HDGF2, FGF21, LECT2, SOD1, STMN4, Midkine, IL-17A, IL26, or DCP to complement the conventional diagnostic methods.
Type:
Application
Filed:
March 20, 2020
Publication date:
December 10, 2020
Applicant:
Dragon Victory Development Ltd.
Inventors:
Cornelia Wing Yin MAN, Norman Fung Man WAI, Bing Lou WONG, Benjamin Chi Yin WAI
Abstract: Cells within liver tumour mass comprise a unique set of proteins/tumour antigens when compared to the normal liver tissues epithelial cells juxtaposed to the tumour. The presence of tumour antigens couples the production of auto-antibodies against these tumour antigens. The present invention relates to the identification and elucidation of a protein set that can act as a novel marker set for liver cancer diagnosis and prognosis. Specifically, it relates to a kit that enables diagnostic and prognostic measurement of auto-antibodies in serum of liver cancer patients. The present invention provides a non-invasive, specific, sensitive, and cost effective detection and quantification method by evaluating a set of validated liver cancer proteins/tumour antigens, which includes Bmi-1, VCC1, SUMO-4, RhoA, TXN, ET-1, UBE2C, HDGF2, FGF21, LECT2, SOD1, STMN4, Midkine, IL-17A or IL26, to complement the conventional diagnostic methods.
Type:
Grant
Filed:
October 21, 2016
Date of Patent:
April 14, 2020
Assignee:
DRAGON VICTORY DEVELOPMENT LTD.
Inventors:
Cornelia Wing Yin Man, Norman Fung Man Wai, Bing Lou Wong, Benjamin Chi Yin Wai
Abstract: Cells within liver tumour mass comprise a unique set of proteins/tumour antigens when compared to the normal liver tissues epithelial cells juxtaposed to the tumour. The presence of tumour antigens couples the production of auto-antibodies against these tumour antigens. The present invention relates to the identification and elucidation of a protein set that can act as a novel marker set for liver cancer diagnosis and prognosis. Specifically, it relates to a kit that enables diagnostic and prognostic measurement of auto-antibodies in serum of liver cancer patients. The present invention provides a non-invasive, specific, sensitive, and cost effective detection and quantification method by evaluating a set of validated liver cancer proteins/tumour antigens, which includes Bmi-1, VCC1, SUMO-4, RhoA, TXN, ET-1, UBE2C, HDGF2, FGF21, LECT2, SOD1, STMN4, Midkine, IL-17A or IL26, to complement the conventional diagnostic methods.
Type:
Grant
Filed:
July 2, 2014
Date of Patent:
February 6, 2018
Assignee:
Dragon Victory Development Ltd.
Inventors:
Cornelia Wing Yin Man, Norman Fung Man Wai, Bing Lou Wong, Benjamin Chi Yin Wai
Abstract: Cells within liver tumor mass comprise a unique set of proteins/tumor antigens when compared to the normal liver tissues epithelial cells juxtaposed to the tumor. The presence of tumor antigens couples the production of auto-antibodies against these tumor antigens. The present invention relates to the identification and elucidation of a protein set that can act as a novel marker set for liver cancer diagnosis and prognosis. Specifically, it relates to a kit that enables diagnostic and prognostic measurement of auto-antibodies in serum of liver cancer patients. The present invention provides a non-invasive, specific, sensitive, and cost effective detection and quantification method by evaluating a set of validated liver cancer proteins/tumor antigens, which includes Bmi-1, VCC1, SUMO-4, RhoA, TXN, ET-1, UBE2C, HDGF2, FGF21, LECT2, SOD1, STMN4, Midkine, IL-17A or IL26, to complement the conventional diagnostic methods.
Type:
Grant
Filed:
July 2, 2014
Date of Patent:
November 29, 2016
Assignee:
DRAGON VICTORY DEVELOPMENT LTD.
Inventors:
Cornelia Wing Yin Man, Norman Fung Man Wai, Bing Lou Wong, Benjamin Chi Yin Wai