Search research articles
Contact Us
Filters
Showing results (1-10 of 33) with videos related to
Page
of 4
Sort By:
Diabetic Medicine : a Journal of the British Diabetic Association
|
April 1, 1992
Pathogenesis of diabetic microangiopathy: the roles of endothelial cell and basement membrane abnormalities
D K Yue, S V McLennan, J R Turtle
Diabetologia
|
June 16, 2000
High glucose concentration inhibits the expression of membrane type metalloproteinase by mesangial cells: possible role in mesangium accumulation
S V McLennan, S Y Martell, D K Yue
Biochemical and Biophysical Research Communications
|
April 7, 1997
Changes in the molecular structure of hair in insulin-dependent diabetes
V J James, D K Yue, S V McLennan
Nephron
|
July 25, 1998
Effect of glucose on matrix metalloproteinase activity in mesangial cells
S V McLennan, D K Yue, J R Turtle
Diabetes
|
July 30, 2002
Effects of mesangium glycation on matrix metalloproteinase activities: possible role in diabetic nephropathy
S V McLennan, S K Y Martell, D K Yue
Diabetes
|
March 1, 1991
Use of X-ray diffraction in study of human diabetic and aging collagen
V J James, L Delbridge, S V McLennan, et al.
Diabetic Medicine : a Journal of the British Diabetic Association
|
August 1, 1989
The effect of improved control on blood filtration properties and non-enzymatic glycosylation of erythrocyte proteins in type 2 diabetes
D K Yue, C Capogreco, S V McLennan, et al.
Diabetic Medicine : a Journal of the British Diabetic Association
|
February 1, 1996
Reduction of leucocyte proteolytic enzyme activity in diabetic patients with microalbuminuria and proteinuria: its possible role in diabetic nephropathy
S V McLennan, R R Zilkens, D K Yue, et al.
Diabetes
|
August 1, 1994
High glucose concentration causes a decrease in mesangium degradation. A factor in the pathogenesis of diabetic nephropathy
S V McLennan, E J Fisher, D K Yue, et al.
Microvascular Research
|
September 1, 1994
Cell-associated proteoglycans of retinal pericytes and endothelial cells: modulation by glucose and ascorbic acid
E J Fisher, S V McLennan, D K Yue, et al.
Page
of 4
Search research articles
Search
Showing results (1-10 of 33) with videos related to
Sort By:
Page
of 4
Diabetic Medicine : a Journal of the British Diabetic Association
|
April 1, 1992
Pathogenesis of diabetic microangiopathy: the roles of endothelial cell and basement membrane abnormalities
D K Yue, S V McLennan, J R Turtle
Diabetologia
|
June 16, 2000
High glucose concentration inhibits the expression of membrane type metalloproteinase by mesangial cells: possible role in mesangium accumulation
S V McLennan, S Y Martell, D K Yue
Biochemical and Biophysical Research Communications
|
April 7, 1997
Changes in the molecular structure of hair in insulin-dependent diabetes
V J James, D K Yue, S V McLennan
Nephron
|
July 25, 1998
Effect of glucose on matrix metalloproteinase activity in mesangial cells
S V McLennan, D K Yue, J R Turtle
Diabetes
|
July 30, 2002
Effects of mesangium glycation on matrix metalloproteinase activities: possible role in diabetic nephropathy
S V McLennan, S K Y Martell, D K Yue
Diabetes
|
March 1, 1991
Use of X-ray diffraction in study of human diabetic and aging collagen
V J James, L Delbridge, S V McLennan, et al.
Diabetic Medicine : a Journal of the British Diabetic Association
|
August 1, 1989
The effect of improved control on blood filtration properties and non-enzymatic glycosylation of erythrocyte proteins in type 2 diabetes
D K Yue, C Capogreco, S V McLennan, et al.
Diabetic Medicine : a Journal of the British Diabetic Association
|
February 1, 1996
Reduction of leucocyte proteolytic enzyme activity in diabetic patients with microalbuminuria and proteinuria: its possible role in diabetic nephropathy
S V McLennan, R R Zilkens, D K Yue, et al.
Diabetes
|
August 1, 1994
High glucose concentration causes a decrease in mesangium degradation. A factor in the pathogenesis of diabetic nephropathy
S V McLennan, E J Fisher, D K Yue, et al.
Microvascular Research
|
September 1, 1994
Cell-associated proteoglycans of retinal pericytes and endothelial cells: modulation by glucose and ascorbic acid
E J Fisher, S V McLennan, D K Yue, et al.
Page
of 4