APA

Kare Pawan Kumar Au, University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry, Dr. A. K. Tripathi Gu, Dr. O. P. Kalra Gu & University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry. (2017). Assessment of renoprotective effect of angiotensin converting enzyme inhibitor therapy in patients with diabetic nephropathy having different receptor for advanced giycation end products (RAGE) genotypes and mechanistic approach to advanced glycation end. : .

Chicago

Kare Pawan Kumar Au, University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry, Dr. A. K. Tripathi Gu, Dr. O. P. Kalra Gu and University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry. 2017. Assessment of renoprotective effect of angiotensin converting enzyme inhibitor therapy in patients with diabetic nephropathy having different receptor for advanced giycation end products (RAGE) genotypes and mechanistic approach to advanced glycation end. : .

Harvard

Kare Pawan Kumar Au, University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry, Dr. A. K. Tripathi Gu, Dr. O. P. Kalra Gu and University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry. (2017). Assessment of renoprotective effect of angiotensin converting enzyme inhibitor therapy in patients with diabetic nephropathy having different receptor for advanced giycation end products (RAGE) genotypes and mechanistic approach to advanced glycation end. : .

MLA

Kare Pawan Kumar Au, University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry, Dr. A. K. Tripathi Gu, Dr. O. P. Kalra Gu and University of Delhi. Faculty of Applied SocSciences & Humanities. Department of Biochemistry. Assessment of renoprotective effect of angiotensin converting enzyme inhibitor therapy in patients with diabetic nephropathy having different receptor for advanced giycation end products (RAGE) genotypes and mechanistic approach to advanced glycation end. : . 2017.