BACKGROUND: Urinary excretions of lipocalin-type prostaglandin D synthase/beta-trace (L-PGDS) probably reflect the increased permeability of injured glomerular capillary walls of the kidney. We tested the hypothesis in cross-sectional and prospective studies that urinary L-PGDS excretions predict renal injury in type-2 diabetes. METHODS: (1) In the cross-sectional studies, we evaluated whether urinary L-PGDS excretions were able to predict renal diseases in a pooled population including 793 healthy subjects and 200 patients with various forms of renal diseases. (2) We determined the cut-off point of urinary L-PGDS excretions to predict >or=30 mg/gCr albuminuria in 666 patients with type-2 diabetes. (3) In the prospective study, 121 type-2 diabetic patients with <30 mg/gCr albuminuria were followed for almost 2 years to examine whether urinary L-PGDS excretions predict the future status of renal injury in type-2 diabetes. RESULTS: (1) In the cross-sectional studies, receiver operating characteristic analysis revealed that urinary L-PGDS excretions better predicted the patients with kidney diseases than the other markers of renal injury. (2) It was also demonstrated that >or=4.2 mg/gCr urinary L-PGDS excretions better predicted >or=30 mg/gCr albuminuria in type-2 diabetic patients than other markers. (3) The prospective study revealed that in type-2 diabetic patients with <30 mg/ gCr albuminuria, the patients with >or=4.2 mg/gCr urinary L-PGDS excretions more likely exhibited the renal injury during the follow-up periods than those with <4.2 mg/gCr urinary L-PGDS excretions. CONCLUSIONS: Urinary L-PGDS excretions reflect the current increased permeability of injured glomerular capillary walls and better predict the future status of renal injury in type-2 diabetes with <30 mg/gCr albuminuria.
BACKGROUND: Urinary excretions of lipocalin-type prostaglandin D synthase/beta-trace (L-PGDS) probably reflect the increased permeability of injured glomerular capillary walls of the kidney. We tested the hypothesis in cross-sectional and prospective studies that urinary L-PGDS excretions predict renal injury in type-2 diabetes. METHODS: (1) In the cross-sectional studies, we evaluated whether urinary L-PGDS excretions were able to predict renal diseases in a pooled population including 793 healthy subjects and 200 patients with various forms of renal diseases. (2) We determined the cut-off point of urinary L-PGDS excretions to predict >or=30 mg/gCralbuminuria in 666 patients with type-2 diabetes. (3) In the prospective study, 121 type-2 diabeticpatients with <30 mg/gCralbuminuria were followed for almost 2 years to examine whether urinary L-PGDS excretions predict the future status of renal injury in type-2 diabetes. RESULTS: (1) In the cross-sectional studies, receiver operating characteristic analysis revealed that urinary L-PGDS excretions better predicted the patients with kidney diseases than the other markers of renal injury. (2) It was also demonstrated that >or=4.2 mg/gCr urinary L-PGDS excretions better predicted >or=30 mg/gCralbuminuria in type-2 diabeticpatients than other markers. (3) The prospective study revealed that in type-2 diabeticpatients with <30 mg/ gCralbuminuria, the patients with >or=4.2 mg/gCr urinary L-PGDS excretions more likely exhibited the renal injury during the follow-up periods than those with <4.2 mg/gCr urinary L-PGDS excretions. CONCLUSIONS: Urinary L-PGDS excretions reflect the current increased permeability of injured glomerular capillary walls and better predict the future status of renal injury in type-2 diabetes with <30 mg/gCralbuminuria.
Authors: Daniela Schlatzer; David M Maahs; Mark R Chance; Jean-Eudes Dazard; Xiaolin Li; Fred Hazlett; Marian Rewers; Janet K Snell-Bergeon Journal: Diabetes Care Date: 2012-01-11 Impact factor: 19.112
Authors: Marcelo Rodrigues Bacci; Marina Romera Cavallari; Ross Martin de Rozier-Alves; Beatriz da Costa Aguiar Alves; Fernando Luiz Affonso Fonseca Journal: Drug Des Devel Ther Date: 2015-06-22 Impact factor: 4.162