Relationship between estimated glomerular filtration rate, albuminuria, and oxidant status in the Japanese population

Table 3 Odds ratio for the top d-ROM or the bottom BAP quartile before and after including CRP levels as one of the covariates

Dependent variable	Independent variable	Odd ratios	(	95%			)	P value
The top d-ROM quartile	Women
	Model 1
	The first eGFR quartile	0.83	(	0.66	-	1.04	)	0.100
	The fourth UAER quartile	1.34	(	1.04	-	1.75	)	0.023
	Model 2
	The first eGFR quartile	0.81	(	0.64	-	1.02	)	0.079
	The fourth UAER quartile	1.16	(	0.18	-	1.52	)	0.268
	Men
	Model 1
	The first eGFR quartile	0.80	(	0.64	-	1.00	)	0.045
	The fourth UAER quartile	1.83	(	1.48	-	2.26	)	<0.001
	Model 2
	The first eGFR quartile	0.78	(	0.62	-	0.98	)	0.034
	The fourth UAER quartile	1.68	(	1.35	-	2.10	)	<0.001
The bottom BAP quartile	Women
	Model 1
	The first eGFR quartile	0.93	(	0.70	-	1.22	)	0.589
	The fourth UAER quartile	0.99	(	0.72	-	1.36	)	0.927
	Model 2
	The first eGFR quartile	0.93	(	0.71	-	1.23	)	0.617
	The fourth UAER quartile	1.00	(	0.73	-	1.38	)	0.994
	Men
	Model 1
	The first eGFR quartile	0.77	(	0.64	-	0.93	)	0.005
	The fourth UAER quartile	1.36	(	1.14	-	1.63	)	0.001
	Model 2
	The first eGFR quartile	0.77	(	0.64	-	0.93	)	0.005
	The fourth UAER quartile	1.37	(	1.15	-	1.64	)	<0.001

In model 1, variables used in Figures 2 and 3 were used as dependent variables (age, high blood pressure, hypertensive drug use, smoking status, eGFR quartiles, UAER quartiles). In model 2, CRP levels were added as one of the independent variables to model 1.

ISSN: 1471-2369