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such as elevated calcium-phosphorous products&#44; hyperparathyroidism&#44; and vitamin D deficiency&#44; which have all been related to cardiovascular events&#46;<span class="elsevierStyleSup">9&#44;10</span> Several studies have demonstrated that patients with chronic kidney disease on dialysis or predialysis report a high prevalence of 25&#40;OH&#41;D deficit&#46; Recent studies have suggested an inverse relationship between 25&#40;OH&#41;D levels and global or cardiovascular mortality in patients with chronic kidney disease&#46;<span class="elsevierStyleSup">11&#44;12</span></p><p class="elsevierStylePara">In the present study&#44; we attempt to evaluate the relationship between vitamin D levels&#44; arterial hypertension as measured by 24-hour ambulatory blood pressure monitoring &#40;ABPM&#41;&#44; echocardiographic parameters for left ventricular hypertrophy&#44; and cardiovascular disease in a cohort of patients with stage 4 and stage 5 chronic kidney disease followed during the predialysis visit&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">MATERIALS AND METHODS</span></p><p class="elsevierStylePara">This was a transverse observational study on a cohort of patients with stage 4 and 5 chronic kidney disease not on dialysis&#44; who were followed in advanced chronic kidney disease &#40;ACDK&#41; units at our hospital during 2008 and 2009&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">&#160;</span></span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">Patients</span></p><p class="elsevierStylePara">We studied 171 patients&#44; 59&#46;6&#37; of which were men&#44; with a mean age of 64&#46;16 &#177; 13 years &#40;range&#58; 21-91&#41;&#59; 64&#46;3&#37; were diabetic&#59; mean glomerular filtration &#40;GF&#41; by MDRD4 was 20&#46;5 &#177; 6&#160;mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span> &#40;range&#58; 10-30&#41;&#44; 76&#37; were in stage 4 and 24&#37; in stage 5&#44; with a mean body mass index &#40;BMI&#41; of 30 &#177; 6 kg&#47;cm<span class="elsevierStyleSup">2</span>&#160;&#40;range&#58; 18-49&#41; &#40;47&#46;3&#37; with BMI &#62;30 kg&#47;cm<span class="elsevierStyleSup">2</span>&#41;&#46; 26&#37; had a background of ischemic cardiopathy&#44; 13&#46;5&#37; had a background of cerebrovascular accidents&#44; and 24&#37; had a background of ischemia in the lower limbs&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">&#160;</span></span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">Laboratory analysis</span></p><p class="elsevierStylePara">Serum levels of 25&#40;OH&#41;D<span class="elsevierStyleInf">2 </span>&#43; D<span class="elsevierStyleInf">3</span> were measured in all patients using chemiluminescence immunoassays &#40;LIASON<span class="elsevierStyleSup">&#174;</span> 25 OH Vitamin D TOTAL Assay&#46; DiaSorin Inc&#46;&#41;&#44; and levels of 1-25 dihydroxyvitamin D<span class="elsevierStyleInf">3 </span>were measured by radioimmunoassays &#40;RIA INCSTAR Corporation&#41;&#46; We considered deficient or very low vitamin D levels to be below 15 ng&#47;mL of 25&#40;OH&#41;D&#44; insufficient or low levels to be between 15 and 30 ng&#47;mL&#44; and adequate or normal levels were those above 30 ng&#47;mL&#44; in accordance with the criteria published by K-DOQI guides&#46;<span class="elsevierStyleSup">13</span></p><p class="elsevierStylePara">Our system employed the following biochemical analyses&#58; haemogram&#44; kidney function as estimated by the MDRD4 formula&#44; albumin&#44; ions&#44; lipid profile&#44; calcium&#44; phosphorous&#44; alkaline phosphatase&#44; iPTH&#44; 24 hour proteinuria&#44; PCR&#44; and homocysteine&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Blood pressure record</span></p><p class="elsevierStylePara">A 24-hour ABPM analysis was made on each patient using a Spacelabs monitor&#44; model 90217-5&#44; with data registration every 20 minutes during the day &#40;from 0800 to 2100 hours&#41; and every hour during the night &#40;from 2200 to 0700 hours&#41;&#44; recording mean systolic blood pressure &#40;SBP&#41;&#44; mean diastolic blood pressure &#40;DBP&#41;&#44; mean blood pressure&#44; pulse pressure &#40;PP&#41;&#44; percentage of above-normal observations in each period&#44; and nocturnal depression patterns&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Echocardiographic parameters</span></p><p class="elsevierStylePara">Each patient received M-mode and Doppler echocardiograms in order to evaluate the left ventricular mass index according to the Deveroux formula<span class="elsevierStyleSup">14</span> &#40;considering left ventricular hypertrophy defined as greater than 110 g&#47;m<span class="elsevierStyleSup">2</span> in women and 130 g&#47;m<span class="elsevierStyleSup">2</span> in men&#41;&#59; we also measured the relative thickness of the posterior wall&#44; the geometry of the left ventricle&#44; the ejection fraction&#44; using the Teichhols method&#44;<span class="elsevierStyleSup">15</span> and diastolic function by measuring the relationship between peak velocity of early and late &#40;E&#47;A&#41; transmitral flow&#44; considering it to be a case of diastolic dysfunction if E&#47;A &#60;1 or E&#47;A &#62;1&#46;5 with DT &#60;130 ms&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Statistical analysis</span></p><p class="elsevierStylePara">The statistical analysis was performed using SPSS 17&#46;0&#46; Data were expressed as percentages for categorical variables and as means with standard deviations for quantitative variables&#46; We used the Student&#8217;s T-test&#44; Mann-Whitney U test&#44; and Chi-squared test for data analysis&#44; in accordance with the nature of the variable measured&#46; We performed a univariance analysis using the Spearman correlation coefficient for measuring the correlation between quantitative variables&#46; We also performed a multivariance analysis using binary logistic regression&#44; using normal &#40;&#62;30 ng&#47;ml&#41; or low&#47;very low &#40;&#60;30 ng&#47;ml&#41; vitamin D levels as the dependent variable&#44; and introducing the main significant variables from the univariance analysis&#44; age&#44; sex&#44; diabetic condition&#44; background of cardiovascular disease&#44; BMI&#44; GF from MDRD-4&#44; SBP in ABPM&#44; and PP in ABPM&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">RESULTS</span></p><p class="elsevierStylePara">Mean 25&#40;OH&#41;D levels were 22&#46;1 &#177; 13 ng&#47;mL &#40;range&#58; 5-65&#41;&#44; mean 1-25 dihydroxyvitamin D levels were 26&#46;2 &#177; 12 pg&#47;mL &#40;range&#58; 5-91&#41;&#44; and we observed a tendency towards correlation between the two variables&#44; although this was not statistically significant &#40;r &#61; 0&#46;133&#59; p &#61; 0&#46;08&#41;&#46; 39 patients &#40;22&#46;8&#37;&#41; reported deficiency or very low levels &#40;&#60;15 ng&#47;mL&#41;&#44; 100 patients &#40;58&#46;5&#37;&#41; had insufficiency or low levels &#40;15-30 ng&#47;mL&#41;&#44; and 32 patients &#40;18&#46;7&#37;&#41; had normal levels &#40;&#62;30 ng&#47;mL&#41; of 25&#40;OH&#41;D&#46; None of the patients had received native vitamin D supplements &#40;ergocalciferol&#44; colecalciferol&#44; or calcifediol&#41;&#59; 25&#37; of patients were on treatment with active metabolites or vitamin D analogues &#40;17&#37; on calcitriol and 8&#37; on paricalcitol&#41;&#59; we observed no significant differences in 25&#40;OH&#41;D or 1-25 dihydroxyvitamin D levels between patients on active vitamin D medication and those who were not &#40;20&#46;7 &#177; 9 vs&#46;&#160;22 &#177; 11&#59; p &#61; 0&#46;435 for 25&#91;OH&#93;D and 24&#46;2 &#177; 10 vs&#46; 27&#46;4 &#177; 12&#59; p &#61; 0&#46;133 for 1-25 dihydroxyvitamin D&#41;&#46; 26&#37; of patients with low or very low 25&#40;OH&#41;D levels and 24&#37; with normal levels were treated with active vitamin D medication &#40;not significant&#44; p &#61; 0&#46;757&#46;&#41;&#160;</p><p class="elsevierStylePara">Table 1 compares the demographic&#44; clinical&#44; and analytical variables between patients with 25&#40;OH&#41;D deficiency or insufficiency and patients with normal values&#46; It stands out that patients with inadequate values were generally older&#44; had a higher percentage of women and diabetes&#44; more cardiovascular disease background&#44; greater obesity&#44; and better GF&#46; Table 2 summarizes the differences in demographic&#44; clinical&#44; and analytical variables between patients with 1-25 dihydroxyvitamin D levels above and below 25 pg&#47;mL&#59; we arbitrarily chose a cut-off point at 25 pg&#47;ml to divide our population at approximately 50&#37; of lower and higher levels&#46; As the table demonstrates&#44; there were significant differences between the two groups only in the values of GF&#44; albumin&#44; proteinuria&#44; and lipoprotein A levels&#46;</p><p class="elsevierStylePara">When we compared 25&#40;OH&#41;D levels with blood pressure values obtained using the ABPM&#44; we observed a statistically significant inverse relationship between 25&#40;OH&#41;D levels and mean SBP during all time periods &#40;24-hour SBP r &#61; &#8212;0&#46;154&#59; p &#60;0&#44;05&#44; diurnal SBP r &#61; &#8212;0&#46;150&#59; p &#60;0&#46;05&#44; nocturnal SBP r &#61; &#8212;0&#46;155&#59; p &#60;0&#46;05&#41;&#44; that is&#44; as SBP increases&#44; 25&#40;OH&#41;D levels decrease&#46; Figure 1 shows the correlation between 25&#40;OH&#41;D and 24-hour SBP&#46; We observed no statistically significant correlation between mean DBP and 25&#40;OH&#41;D levels in any time period&#46; We did observe a statistically significant inverse correlation between PP in all periods and 25&#40;OH&#41;D levels&#44; such that as PP increases&#44; 25&#40;OH&#41;D levels decrease&#44; as observed in figure 2 for the 24-hour period &#40;24-hour PP r &#61; &#8212;0&#46;235&#59; p &#60;0&#46;005&#44; diurnal PP r &#61; &#8212;0&#46;231&#59; p &#60;0&#46;005&#44; nocturnal PP r &#61; &#8212;0&#46;204&#59; p &#60;0&#46;01&#41;&#46; No differences were observed in 25&#40;OH&#41;D levels in relation to nocturnal BP depression&#46; We also observed no significant correlations between 1-25 dihydroxyvitamin D levels and any of the blood pressure parameters measured with the ABPM&#46;</p><p class="elsevierStylePara">Upon analyzing the echocardiogram results&#44; we found no relation between 25&#40;OH&#41;D levels and left ventricular mass index &#40;Figure 3&#41;&#58; 150 g&#47;m<span class="elsevierStyleSup">2</span> &#40;95&#37; CI&#44; 133-166&#41; for patients with very low levels&#44; 160 g&#47;m<span class="elsevierStyleSup">2</span> &#40;95&#37; CI&#44; 150-171&#41; for patients with low levels&#44; and 152 g&#47;m<span class="elsevierStyleSup">2 </span>&#40;95&#37; CI&#44; 135-169&#41; for patients with normal levels &#40;p &#61; 0&#46;474&#41;&#46; 74&#46;5&#37; of patients with low or very low 25&#40;OH&#41;D levels and 68&#46;8&#37; of patients with adequate vitamin D levels had criteria for left ventricular hypertrophy &#40;not significant&#44; p &#61; 0&#46;482&#41;&#46; However&#44; figure 4 shows that patients with 25 vitamin D deficiency or insufficiency show a greater tendency for concentric hypertrophy than patients with normal levels&#44; while these show a higher percentage of normal geometry or eccentric hypertrophy&#46; We observed no significant differences in systolic or diastolic function according to vitamin D levels&#46;</p><p class="elsevierStylePara">The multivariance analysis showed that 25&#40;OH&#41;D levels were related to gender&#44; PP in the ABPM study&#44; a background of cardiovascular disease&#44; and GF from MDRD-4 &#40;Table 3&#41;&#46;</p><p class="elsevierStylePara">&#160;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">DISCUSSION</span></p><p class="elsevierStylePara">As other studies on various stages of chronic kidney disease have demonstrated&#44;<span class="elsevierStyleSup">16&#44;17</span> we found a high prevalence of 25&#40;OH&#41;D deficiency and insufficiency in patients with advanced renal failure&#46; This deficiency appears to be greater than in the general population&#44;<span class="elsevierStyleSup">18</span> and can be explained by several different reasons&#46; Patients with advanced chronic kidney disease can suffer a deficiency in nutrient assimilation from a reduction in the consumption of foods rich in vitamin D and in intestinal absorption&#59; also&#44; these patients tend to have comorbidities that cause a deterioration in physical health&#44; restricting outdoors activities&#44; and exposing them to less solar radiation&#46; It has also been suggested that uraemia itself could produce a deficiency in endogenous cutaneous vitamin D synthesis&#46;<span class="elsevierStyleSup">17</span> Our group of patients had a markedly high prevalence of low or very low 25&#40;OH&#41;D levels&#44; given that these were patients from the southern tip of Gran Canaria&#44; an island that presents one of the highest levels of mean solar radiation throughout the year in all of Europe&#46;</p><p class="elsevierStylePara">In our group of patients&#44; we found a relationship between 25&#40;OH&#41;D deficiency and advanced age and diabetes&#44; findings that have been described in other studies with patients both with and without kidney failure&#44;<span class="elsevierStyleSup">19-21</span> and which can be explained in part by the lower exposure to solar radiation due to decreased activity of elderly patients&#44; lower consumption of vitamin D-rich foods in both groups&#44; and autonomic diabetic enteropathy&#44; involving a deficiency in absorbtion&#46;<span class="elsevierStyleSup">22</span> We also observed a relationship between BMI and abdominal perimeter&#44; which has been described in several studies relating vitamin D levels with obesity in the general population&#46;<span class="elsevierStyleSup">23-25</span> We have also found a greater prevalence of low levels in female patients&#59; this has been observed in other studies and still lacks a coherent explanation&#44; although hormonal differences between the two genders has been implicated in the cause of this difference&#46;<span class="elsevierStyleSup">3</span></p><p class="elsevierStylePara">We have observed that patients with normal 25&#40;OH&#41;D levels have higher serum creatinine levels and lower MDRD &#40;3&#46;7 mg&#47;dL vs&#46;&#160;3 mg&#47;dL&#59; p &#60;0&#46;05 and 18 mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span>&#160;vs&#46;&#160;21 mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span>&#59; p &#60;0&#46;05&#41;&#59; in fact&#44; the percentage of patients with normal 25&#40;OH&#41;D&#160;levels is greater in the group of stage 5 CKD patients than stage 4 CKD patients &#40;35 vs&#46;&#160;13&#37;&#59; p &#60;0&#46;005&#41;&#44;&#160;not so for 1-25 dihydroxyvitamin D levels&#44; which decrease with GF&#46; We found no explanation for this trend&#44; which appears to contradict published results from the medical literature that indicate that 25&#40;OH&#41;D levels decrease with GF&#46;<span class="elsevierStyleSup">16</span></p><p class="elsevierStylePara">We found no relationship between 25&#40;OH&#41;D levels and other parameters of mineral-bone metabolism such as levels of iPTH&#44; calcium&#44; phosphorous&#44; calcium x phosphorous product&#44; or alkaline phosphatase&#46; In some studies&#44; particularly in patients on dialysis&#44; a negative correlation has been observed with iPTH levels&#46;<span class="elsevierStyleSup">26</span> We found no relationship with active vitamin D levels or vitamin D analogues&#44; although most of our patients were on low dosages &#40;1 &#181;g per week of calcitriol or 3 &#181;g per weeks of paricalcitol&#41; and had not been on the treatment for very long&#46;</p><p class="elsevierStylePara">In the general population&#44; vitamin D deficiencies have been related to the development of arterial hypertension&#46;<span class="elsevierStyleSup">27&#44;28</span> In our study&#44; we found a correlation between 25&#40;OH&#41;D levels and the blood pressure parameters measured by ABPM&#46; We observed a weak inverse correlation of these levels with mean SBP and PP in all periods of the day&#46; We did not observe any relation with mean DBP or nocturnal depression patterns&#46; These data are consistent with results from other studies that relate vitamin D deficiency in chronic kidney disease with vascular calcifications and increased rigidity of the arterial wall&#44; which above all is reflected in the increase in PP&#46;<span class="elsevierStyleSup">29&#44;30</span> Vascular calcifications and the reduction in arterial elasticity with a consequent increase in PP have all been related to increased cardiovascular mortality from chronic kidney failure<span class="elsevierStyleSup">31&#44;32</span>&#46;</p><p class="elsevierStylePara">Several studies have related vitamin D deficiency with cardiovascular disease&#44; both in the general population and in patients with chronic kidney disease&#59;<span class="elsevierStyleSup">33-35</span> in our study&#44; we observed an association between low or very low 25&#40;OH&#41;D levels and a background of cardiovascular disease &#40;51&#37; of patients presented with some background of cardiovascular disease as opposed to 25&#37; of patients with normal 25&#40;OH&#41;D levels&#41;&#46; However&#44; it is difficult to infer causality of this relationship in a transverse study since the low levels could be a consequence of increased comorbility in this group&#44; being associated with advanced age&#44; the presence of diabetes&#44; and obesity&#46; Various mechanisms by which vitamin D deficiency could increase cardiovascular morbidity have been considered&#46; On the one hand&#44; we have already commented on the role that a vitamin D deficiency can play on the vascular wall&#44; decreasing distensibility and favouring vascular calcification&#59; on the other hand&#44; due to its immunomodulating and anti-proliferative effects&#44; a vitamin D deficiency could produce a pro-inflammatory state&#44; which has been widely recognized as a cause of cardiovascular disease in chronic kidney disease&#46;<span class="elsevierStyleSup">36-38</span> Finally&#44; vitamin D has been implicated in the inhibition of the renin-angiotensin system&#44; this being one of the mechanisms implicated in causing hypertension&#46;<span class="elsevierStyleSup">39</span> Experimental studies on the absence of vitamin D have related it to hypertrophy of myocardiac muscle cells&#44;<span class="elsevierStyleSup">40</span> which could favour left ventricular hypertrophy&#59; it is well-known that left ventricular hypertrophy is one of the main predictive factors for cardiovascular mortality in chronic kidney disease&#46;<span class="elsevierStyleSup">41</span> However&#44; according to our knowledge on the subject&#44; no study has been able to relate a deficiency in 25&#40;OH&#41;D with left ventricular hypertrophy in chronic kidney disease&#46; We found no relationship between the two in our study&#44; although this lack of association could be due to the limited number of patients in the program and the high prevalence of left ventricular hypertrophy in the group studied &#40;73&#46;7&#37; of patients presented this condition&#41;&#46; On the other hand&#44; there does appear to be a tendency of a different geometry of the left ventricular hypertrophy&#44; since the group with insufficient or deficient 25&#40;OH&#41;D levels reported a greater proportion of concentric hypertrophy than patients with normal levels&#44; while these tended to have normal geometry or eccentric hypertrophy&#46;</p><p class="elsevierStylePara">In our study&#44; we found no difference in the level of proteinuria among patients with normal or low 25&#40;OH&#41;D levels&#46; However&#44; we did find greater proteinuria in patients with low levels of 1-25 dihydroxyvitamin D&#46; It has been suggested that patients with nephrotic proteinuria should be excluded from studies that evaluate vitamin D levels because of the increase in 25&#40;OH&#41;D loss in the urine&#44; and of the protein that binds to the vitamin D receptor&#46;<span class="elsevierStyleSup">42</span> In our study&#44; 18&#37; of patients presented proteinuria in the nephrotic range &#40;&#62;3 g&#47;24 h&#41;&#44; and we decided not to exclude them from the study in spite of the fact that this could have created a limitation&#44; but the exclusion would not have affected the results regarding 25&#40;OH&#41;D&#46; There was no correlation between proteinuria and 25&#40;OH&#41;D levels and the percentage of patients with nephrotic proteinuria does not vary significantly between patients with low or very low levels and patients with normal levels of 25&#40;OH&#41;D &#40;17 vs&#46; 22 &#37;&#41; and the mean of 25&#40;OH&#41;D levels in patients with nephrotic proteinuria was similar to that of the rest of the patients &#40;21&#46;8 &#177; 9 vs&#46; 22&#46;6 &#177; 6&#59; p &#61; 0&#46;518&#41;&#46; Perhaps the difference lies in that in the study by Saha&#44;<span class="elsevierStyleSup">42</span> 50 patients with nephrotic syndrome and normal kidney function were studied&#44; making this population different&#46; However&#44; our results are consistent with the findings from Koening<span class="elsevierStyleSup">43</span> on the inverse correlation of proteinuria with 1-25 dihydroxyvitamin D levels &#40;r &#61; &#8212;0&#46;428&#59; p &#60;0&#46;005&#41;&#46; The percentage of patients with nephrotic proteinuria is greater in patients with lower 1-25 dihydroxyvitamin D levels &#40;25 vs&#46; 13&#37;&#59; p &#60;0&#46;005&#41;&#46;</p><p class="elsevierStylePara">We are aware of the fact that this study has several limitations&#44; specially the fact that it is a transverse observational study&#44; which allows for an observation of some associations&#44; but does not allow us to draw conclusions on causality&#46; Additionally&#44; the fact that our study was comprised of a limited number of patients with a profile of a high prevalence of diabetes&#44; cardiovascular disease&#44; and left ventricular hypertrophy corresponding to the population with chronic advanced kidney disease in the Canary Islands&#44; makes it difficult to establish stronger associations that might be ascertained in a larger study sample with a more favourable profile&#46; Thus&#44; it will be necessary to perform multicentre studies with a large number of cases and a longitudinal study design to better associate low 25&#40;OH&#41;D levels and cardiovascular disease in chronic kidney disease&#44; and for the evaluation of possible therapeutic strategies in order to correct the vitamin D deficiency at early stages of chronic kidney disease&#44; since there is currently no evidence on the benefits of the correction of this proportion on the population in general&#46;</p><p class="elsevierStylePara">To conclude&#44; we believe that a high prevalence of 25&#40;OH&#41;D deficiency and insufficiency exists in our population of patients with advanced chronic kidney disease&#44; that this deficiency is greater in women and that it is associated with a greater proportion of backgroung of cardiovascular disease and higher cardiovascular risk&#44; since it is associated with advanced age&#44; diabetes&#44; obesity&#44; and arterial hypertension&#46; However&#44; we have observed no significant relationship between 25&#40;OH&#41;D levels and left ventricular hypertrophy in this study&#46;&#160;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">ACKNOWLEDGEMENTS</span></p><p class="elsevierStylePara">We would like to thank Dr&#46; Jos&#233; Mar&#237;a Limi&#241;ana Ca&#241;al&#44; of the research division at the Island University Hospital of Grand Canary&#44; for his great help in the statistical analysis&#46;</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7327&#95;en&#95;10288&#95;t1&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7327_en_10288_t1.jpg" alt="Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 25 hydroxyvitamin D"></img></a></p><p class="elsevierStylePara">Table 1&#46; Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 25 hydroxyvitamin D</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7328&#95;en&#95;10288&#95;t2&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7328_en_10288_t2.jpg" alt="Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 1-25 hydroxyvitamin D"></img></a></p><p class="elsevierStylePara">Table 2&#46; Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 1-25 hydroxyvitamin D</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7329&#95;en&#95;10288&#95;t3&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7329_en_10288_t3.jpg" alt="Multivariate analysis with logistic regression for normal&#47;inadequate 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Table 3&#46; Multivariate analysis with logistic regression for normal&#47;inadequate 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7330&#95;en&#95;10288&#95;f1&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7330_en_10288_f1.jpg" alt="Bivariate correlation between mean systolic blood pressure in the 24-hou4 ABPM and 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 1&#46; Bivariate correlation between mean systolic blood pressure in the 24-hou4 ABPM and 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7331&#95;en&#95;10288&#95;f2&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7331_en_10288_f2.jpg" alt="Bivariate correlation between pulse pressure calculated by the 24-hour ABPM and 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 2&#46; Bivariate correlation between pulse pressure calculated by the 24-hour ABPM and 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7332&#95;en&#95;10288&#95;f3&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7332_en_10288_f3.jpg" alt="Left ventricular mass index according to 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 3&#46; Left ventricular mass index according to 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7333&#95;en&#95;10288&#95;f4&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7333_en_10288_f4.jpg" alt="Geometry of the left ventricle according to levels of 25 hydroxyvitamin D above or below 30 ng&#47;mL"></img></a></p><p class="elsevierStylePara">Figure 4&#46; Geometry of the left ventricle according to levels of 25 hydroxyvitamin D above or below 30 ng&#47;mL</p>"
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        "resumen" => "<p class="elsevierStylePara"><span class="elsevierStyleBold">Introduci&#243;n&#58; </span>Los niveles bajos de 25 hidroxivitamina D han sido relacionados con un aumento de la morbimortalidad de origen cardiovascular en la poblaci&#243;n general y en pacientes con enfermedad renal cr&#243;nica&#46; <span class="elsevierStyleBold">Objetivo&#58;</span> Nuestro objetivo fue estudiar los niveles de 25 hidroxivitamina D en un grupo de pacientes con enfermedad renal cr&#243;nica estadios 4 y 5 predi&#225;lisis&#44; y relacionarlos con los antecedentes de enfermedad cardiovascular y con factores conocidos de riesgo cardiovascular&#46; <span class="elsevierStyleBold">Material y m&#233;todos&#58;</span> Se trata de un estudio observacional transversal de una cohorte de 171 pacientes seguidos en la consulta predi&#225;lisis de nuestro hospital&#44; media de edad 64&#44;16 &#177; 13 a&#241;os&#44; el 59&#44;6&#37; hombres&#44; el 64&#44;3&#37; diab&#233;ticos&#44; el 47&#44;3&#37; obesos y el 46&#44;8&#37; con antecedentes de enfermedad cardiovascular&#46; A todos los pacientes se les midieron los niveles s&#233;ricos de 25 hidroxivitamina D y de 1-25 dihidroxivitamina D&#44; se recogieron datos cl&#237;nicos&#160;y anal&#237;ticos de funci&#243;n renal&#44; anemia&#44; perfil lip&#237;dico y metabolismo &#243;seo-mineral&#59; tambi&#233;n se evalu&#243; la presi&#243;n arterial mediante registro ambulatorio de 24 horas &#40;MAPA&#41; y se realiz&#243; estudio ecocardiogr&#225;fico&#46; <span class="elsevierStyleBold">Resultados&#58;</span> La media de los niveles de 25 hidroxivitamina D fue de 22&#44;1 &#177; 13 ng&#47;ml&#44; s&#243;lo un 18&#44;7&#37; de los pacientes presentaban niveles normales&#44; un 58&#44;5&#37; presentaban niveles insuficientes o bajos y un 22&#44;8&#37; niveles deficientes o muy bajos&#46; Las variables que se asociaron con los niveles bajos de vitamina D fueron la edad&#44; la diabetes&#44; el sexo femenino&#44; la obesidad&#44; el filtrado glomerular y el antecedente de enfermedad cardiovascular&#46; Dentro de los par&#225;metros asociados a la presi&#243;n arterial&#44; la presi&#243;n del pulso fur la que m&#225;s se relacion&#243; con los niveles de vitamina D&#46; No se encontr&#243; asociaci&#243;n entre los niveles de 25 hidroxivitamina D con otros par&#225;metros del metabolismo &#243;seo mineral ni con los valores ecogr&#225;ficos de hipertrofia ventricular izquierda&#46; En el an&#225;lisis multivariante las variables que m&#225;s se asociaron al d&#233;ficit de 25 hidroxivitamina D fueron el sexo femenino&#44; el antecedente de enfermedad cardiovascular&#44; el filtrado glomerular y la presi&#243;n del pulso del MAPA&#46; <span class="elsevierStyleBold">Conclusiones&#58;</span> Nuestro estudio confirma una alta prevalencia de insuficiencia y deficiencia de 25 hidroxivitamina D en la poblaci&#243;n con enfermedad renal cr&#243;nica avanzada&#59; este d&#233;ficit se asocia con la presencia de factores de riesgo cardiovascular y con el&#160;antecedente de enfermedad cardiovascular&#46; Sin embargo&#44; no se encontr&#243; ninguna asociaci&#243;n con uno de los principales predictores de eventos cardiovasculares como es la hipertrofia ventricular izquierda&#46;</p>"
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      "en" => array:1 [
        "resumen" => "<p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">Background&#58;</span> Decreased 25 hydroxyvitamin D serum levels have been related to an increase in cardiovascular morbility and mortality in both general population and chronic kidney disease patients&#46; The aim of this study was to evaluate the relationship between 25 hydroxyvitamin D serum level&#44; cardiovascular risk factors and previous established cardiovascular disease in a group of patients with advanced chronic kidney disease&#46; <span class="elsevierStyleBold">Objective&#58;</span> Our aim was to study 25 hydroxyvitamin D levels in a group of patients with stage 4 and 5 chronic kidney disease on predialysis&#44; and link them to history of cardiovascular disease and its known risk factors&#46; <span class="elsevierStyleBold">Material and methods&#58;</span> We performed a cross-sectional observational study in a cohort of 171 stage 4 and 5 chronic kidney disease outpatients seen in our predialysis clinic&#44; mean age 64&#46;16 &#177; 13 years&#44; 59&#46;6&#37; were men&#44; 64&#46;3&#37; had diabetes&#44; 47&#46;3&#37; had obesity&#44; 46&#46;8&#37; had previous cardiovascular disease&#46; 25 hydroxyvitamin D and 1-25 dihydroxyvitamin D were measured&#44; we also determined other routine biochemical parameters&#46; All subjects underwent an echocardiogram and 24 hours ambulatory blood pressure monitoring was also performed&#46; <span class="elsevierStyleBold">Results&#58;</span> Mean 25 hydroxyvitamin D levels were 22&#46;1 &#177; 13 ng&#47;mL&#44; only 18&#46;7&#37; of the patients had adequate levels&#44; levels were insufficient in 58&#46;5&#37; of the patients and deficient in 22&#46;8&#37; of them&#46; Low 25 hydroxyvitamin D levels were significantly related with age&#44; diabetes&#44; female gender&#44; obesity&#44; MDRD glomerular filtration rate and previous cardiovascular disease&#46; Pulse pressure was the Ambulatory Blood Pressure Monitoring parameter that was better correlated with 25 hydroxyvitamin D levels&#46; We could not find any association between vitamin D levels and other bone and mineral metabolism parameters&#46; No relationship was seen between low vitamin D levels and left ventricular hypertrophy&#46; On multivariate analysis lower levels of 25 hydroxyvitamin D were independently associated with female gender&#44; previous cardiovascular disease&#44; MDRD4-GFR and higher pulse pressure&#46; <span class="elsevierStyleBold">Conclusions&#58;</span> Our study confirm a high prevalence of 25 hydroxyvitamin D insufficiency and deficiency in advanced chronic kidney disease patients&#44; this was associated with the presence of cardiovascular risk markers and previous established cardiovascular disease&#46; However we could not see any relationship with left ventricular hypertrophy which is a known predictor of future cardiovascular events in this population&#46;</span></p>"
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25 hydroxyvitamin D levels and cardiovascular risk in a cohort of patients with advanced chronic kidney disease
Niveles de 25 hidroxivitamina D y riesgo cardiovascular en una cohorte de pacientes con enfermedad renal crónica avanzada
C.. García-Cantóna, E.. Boscha, I.. Auyaneta, A.. Ramíreza, P.. Rossiquea, C.. Culebrasb, A.. Sánchezc, A.. Toledoa, M.. Lagoa, Noemi Esparzaa, Maria Dolores Checaa
a Servicio de Nefrología, Hospital Universitario Insular de Gran Canaria,
b Servicio de Cardiología, Hospital Universitario Insular de Gran Canaria,
c Servicio de Laboratorio y Bioquímica, Hospital Universitario Insular de Gran Canaria,
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    "titulo" => "25 hydroxyvitamin D levels and cardiovascular risk in a cohort of patients with advanced chronic kidney disease"
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    "textoCompleto" => "<p class="elsevierStylePara"><span class="elsevierStyleBold">INTRODUCTION</span></p><p class="elsevierStylePara">Growing interest has arisen in recent years in the role of Vitamin D in processes beyond its affect on mineral-bone metabolism&#46; There are many vitamin D receptors in the human body&#44; not just in the intestine&#44; kidney&#44; and bones&#44; but also in the brain&#44; heart&#44; skeletal muscle&#44; smooth vascular muscle&#44; the pancreas&#44; lymphocytes&#44; and monocytes&#44; whose activation could explain some of its effects on the autoimmune system&#44; cancer&#44; and cardiovascular system&#46;<span class="elsevierStyleSup">1&#44;2</span></p><p class="elsevierStylePara">Low levels of 25 hydroxyvitamin D &#40;25&#91;&#40;OH&#93;D&#41; have been correlated with the presence of arterial hypertension&#44; left ventricular hypertrophy&#44; and cardiovascular mortality in the general population&#46;<span class="elsevierStyleSup">3-7</span></p><p class="elsevierStylePara">Cardiovascular disease is the main cause of morbidity in patients with chronic kidney disease&#46;<span class="elsevierStyleSup">8</span> Various abnormalities in mineral-bone metabolism are frequent in these patients&#44; such as elevated calcium-phosphorous products&#44; hyperparathyroidism&#44; and vitamin D deficiency&#44; which have all been related to cardiovascular events&#46;<span class="elsevierStyleSup">9&#44;10</span> Several studies have demonstrated that patients with chronic kidney disease on dialysis or predialysis report a high prevalence of 25&#40;OH&#41;D deficit&#46; Recent studies have suggested an inverse relationship between 25&#40;OH&#41;D levels and global or cardiovascular mortality in patients with chronic kidney disease&#46;<span class="elsevierStyleSup">11&#44;12</span></p><p class="elsevierStylePara">In the present study&#44; we attempt to evaluate the relationship between vitamin D levels&#44; arterial hypertension as measured by 24-hour ambulatory blood pressure monitoring &#40;ABPM&#41;&#44; echocardiographic parameters for left ventricular hypertrophy&#44; and cardiovascular disease in a cohort of patients with stage 4 and stage 5 chronic kidney disease followed during the predialysis visit&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">MATERIALS AND METHODS</span></p><p class="elsevierStylePara">This was a transverse observational study on a cohort of patients with stage 4 and 5 chronic kidney disease not on dialysis&#44; who were followed in advanced chronic kidney disease &#40;ACDK&#41; units at our hospital during 2008 and 2009&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">&#160;</span></span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">Patients</span></p><p class="elsevierStylePara">We studied 171 patients&#44; 59&#46;6&#37; of which were men&#44; with a mean age of 64&#46;16 &#177; 13 years &#40;range&#58; 21-91&#41;&#59; 64&#46;3&#37; were diabetic&#59; mean glomerular filtration &#40;GF&#41; by MDRD4 was 20&#46;5 &#177; 6&#160;mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span> &#40;range&#58; 10-30&#41;&#44; 76&#37; were in stage 4 and 24&#37; in stage 5&#44; with a mean body mass index &#40;BMI&#41; of 30 &#177; 6 kg&#47;cm<span class="elsevierStyleSup">2</span>&#160;&#40;range&#58; 18-49&#41; &#40;47&#46;3&#37; with BMI &#62;30 kg&#47;cm<span class="elsevierStyleSup">2</span>&#41;&#46; 26&#37; had a background of ischemic cardiopathy&#44; 13&#46;5&#37; had a background of cerebrovascular accidents&#44; and 24&#37; had a background of ischemia in the lower limbs&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">&#160;</span></span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">Laboratory analysis</span></p><p class="elsevierStylePara">Serum levels of 25&#40;OH&#41;D<span class="elsevierStyleInf">2 </span>&#43; D<span class="elsevierStyleInf">3</span> were measured in all patients using chemiluminescence immunoassays &#40;LIASON<span class="elsevierStyleSup">&#174;</span> 25 OH Vitamin D TOTAL Assay&#46; DiaSorin Inc&#46;&#41;&#44; and levels of 1-25 dihydroxyvitamin D<span class="elsevierStyleInf">3 </span>were measured by radioimmunoassays &#40;RIA INCSTAR Corporation&#41;&#46; We considered deficient or very low vitamin D levels to be below 15 ng&#47;mL of 25&#40;OH&#41;D&#44; insufficient or low levels to be between 15 and 30 ng&#47;mL&#44; and adequate or normal levels were those above 30 ng&#47;mL&#44; in accordance with the criteria published by K-DOQI guides&#46;<span class="elsevierStyleSup">13</span></p><p class="elsevierStylePara">Our system employed the following biochemical analyses&#58; haemogram&#44; kidney function as estimated by the MDRD4 formula&#44; albumin&#44; ions&#44; lipid profile&#44; calcium&#44; phosphorous&#44; alkaline phosphatase&#44; iPTH&#44; 24 hour proteinuria&#44; PCR&#44; and homocysteine&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Blood pressure record</span></p><p class="elsevierStylePara">A 24-hour ABPM analysis was made on each patient using a Spacelabs monitor&#44; model 90217-5&#44; with data registration every 20 minutes during the day &#40;from 0800 to 2100 hours&#41; and every hour during the night &#40;from 2200 to 0700 hours&#41;&#44; recording mean systolic blood pressure &#40;SBP&#41;&#44; mean diastolic blood pressure &#40;DBP&#41;&#44; mean blood pressure&#44; pulse pressure &#40;PP&#41;&#44; percentage of above-normal observations in each period&#44; and nocturnal depression patterns&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Echocardiographic parameters</span></p><p class="elsevierStylePara">Each patient received M-mode and Doppler echocardiograms in order to evaluate the left ventricular mass index according to the Deveroux formula<span class="elsevierStyleSup">14</span> &#40;considering left ventricular hypertrophy defined as greater than 110 g&#47;m<span class="elsevierStyleSup">2</span> in women and 130 g&#47;m<span class="elsevierStyleSup">2</span> in men&#41;&#59; we also measured the relative thickness of the posterior wall&#44; the geometry of the left ventricle&#44; the ejection fraction&#44; using the Teichhols method&#44;<span class="elsevierStyleSup">15</span> and diastolic function by measuring the relationship between peak velocity of early and late &#40;E&#47;A&#41; transmitral flow&#44; considering it to be a case of diastolic dysfunction if E&#47;A &#60;1 or E&#47;A &#62;1&#46;5 with DT &#60;130 ms&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">Statistical analysis</span></p><p class="elsevierStylePara">The statistical analysis was performed using SPSS 17&#46;0&#46; Data were expressed as percentages for categorical variables and as means with standard deviations for quantitative variables&#46; We used the Student&#8217;s T-test&#44; Mann-Whitney U test&#44; and Chi-squared test for data analysis&#44; in accordance with the nature of the variable measured&#46; We performed a univariance analysis using the Spearman correlation coefficient for measuring the correlation between quantitative variables&#46; We also performed a multivariance analysis using binary logistic regression&#44; using normal &#40;&#62;30 ng&#47;ml&#41; or low&#47;very low &#40;&#60;30 ng&#47;ml&#41; vitamin D levels as the dependent variable&#44; and introducing the main significant variables from the univariance analysis&#44; age&#44; sex&#44; diabetic condition&#44; background of cardiovascular disease&#44; BMI&#44; GF from MDRD-4&#44; SBP in ABPM&#44; and PP in ABPM&#46;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">RESULTS</span></p><p class="elsevierStylePara">Mean 25&#40;OH&#41;D levels were 22&#46;1 &#177; 13 ng&#47;mL &#40;range&#58; 5-65&#41;&#44; mean 1-25 dihydroxyvitamin D levels were 26&#46;2 &#177; 12 pg&#47;mL &#40;range&#58; 5-91&#41;&#44; and we observed a tendency towards correlation between the two variables&#44; although this was not statistically significant &#40;r &#61; 0&#46;133&#59; p &#61; 0&#46;08&#41;&#46; 39 patients &#40;22&#46;8&#37;&#41; reported deficiency or very low levels &#40;&#60;15 ng&#47;mL&#41;&#44; 100 patients &#40;58&#46;5&#37;&#41; had insufficiency or low levels &#40;15-30 ng&#47;mL&#41;&#44; and 32 patients &#40;18&#46;7&#37;&#41; had normal levels &#40;&#62;30 ng&#47;mL&#41; of 25&#40;OH&#41;D&#46; None of the patients had received native vitamin D supplements &#40;ergocalciferol&#44; colecalciferol&#44; or calcifediol&#41;&#59; 25&#37; of patients were on treatment with active metabolites or vitamin D analogues &#40;17&#37; on calcitriol and 8&#37; on paricalcitol&#41;&#59; we observed no significant differences in 25&#40;OH&#41;D or 1-25 dihydroxyvitamin D levels between patients on active vitamin D medication and those who were not &#40;20&#46;7 &#177; 9 vs&#46;&#160;22 &#177; 11&#59; p &#61; 0&#46;435 for 25&#91;OH&#93;D and 24&#46;2 &#177; 10 vs&#46; 27&#46;4 &#177; 12&#59; p &#61; 0&#46;133 for 1-25 dihydroxyvitamin D&#41;&#46; 26&#37; of patients with low or very low 25&#40;OH&#41;D levels and 24&#37; with normal levels were treated with active vitamin D medication &#40;not significant&#44; p &#61; 0&#46;757&#46;&#41;&#160;</p><p class="elsevierStylePara">Table 1 compares the demographic&#44; clinical&#44; and analytical variables between patients with 25&#40;OH&#41;D deficiency or insufficiency and patients with normal values&#46; It stands out that patients with inadequate values were generally older&#44; had a higher percentage of women and diabetes&#44; more cardiovascular disease background&#44; greater obesity&#44; and better GF&#46; Table 2 summarizes the differences in demographic&#44; clinical&#44; and analytical variables between patients with 1-25 dihydroxyvitamin D levels above and below 25 pg&#47;mL&#59; we arbitrarily chose a cut-off point at 25 pg&#47;ml to divide our population at approximately 50&#37; of lower and higher levels&#46; As the table demonstrates&#44; there were significant differences between the two groups only in the values of GF&#44; albumin&#44; proteinuria&#44; and lipoprotein A levels&#46;</p><p class="elsevierStylePara">When we compared 25&#40;OH&#41;D levels with blood pressure values obtained using the ABPM&#44; we observed a statistically significant inverse relationship between 25&#40;OH&#41;D levels and mean SBP during all time periods &#40;24-hour SBP r &#61; &#8212;0&#46;154&#59; p &#60;0&#44;05&#44; diurnal SBP r &#61; &#8212;0&#46;150&#59; p &#60;0&#46;05&#44; nocturnal SBP r &#61; &#8212;0&#46;155&#59; p &#60;0&#46;05&#41;&#44; that is&#44; as SBP increases&#44; 25&#40;OH&#41;D levels decrease&#46; Figure 1 shows the correlation between 25&#40;OH&#41;D and 24-hour SBP&#46; We observed no statistically significant correlation between mean DBP and 25&#40;OH&#41;D levels in any time period&#46; We did observe a statistically significant inverse correlation between PP in all periods and 25&#40;OH&#41;D levels&#44; such that as PP increases&#44; 25&#40;OH&#41;D levels decrease&#44; as observed in figure 2 for the 24-hour period &#40;24-hour PP r &#61; &#8212;0&#46;235&#59; p &#60;0&#46;005&#44; diurnal PP r &#61; &#8212;0&#46;231&#59; p &#60;0&#46;005&#44; nocturnal PP r &#61; &#8212;0&#46;204&#59; p &#60;0&#46;01&#41;&#46; No differences were observed in 25&#40;OH&#41;D levels in relation to nocturnal BP depression&#46; We also observed no significant correlations between 1-25 dihydroxyvitamin D levels and any of the blood pressure parameters measured with the ABPM&#46;</p><p class="elsevierStylePara">Upon analyzing the echocardiogram results&#44; we found no relation between 25&#40;OH&#41;D levels and left ventricular mass index &#40;Figure 3&#41;&#58; 150 g&#47;m<span class="elsevierStyleSup">2</span> &#40;95&#37; CI&#44; 133-166&#41; for patients with very low levels&#44; 160 g&#47;m<span class="elsevierStyleSup">2</span> &#40;95&#37; CI&#44; 150-171&#41; for patients with low levels&#44; and 152 g&#47;m<span class="elsevierStyleSup">2 </span>&#40;95&#37; CI&#44; 135-169&#41; for patients with normal levels &#40;p &#61; 0&#46;474&#41;&#46; 74&#46;5&#37; of patients with low or very low 25&#40;OH&#41;D levels and 68&#46;8&#37; of patients with adequate vitamin D levels had criteria for left ventricular hypertrophy &#40;not significant&#44; p &#61; 0&#46;482&#41;&#46; However&#44; figure 4 shows that patients with 25 vitamin D deficiency or insufficiency show a greater tendency for concentric hypertrophy than patients with normal levels&#44; while these show a higher percentage of normal geometry or eccentric hypertrophy&#46; We observed no significant differences in systolic or diastolic function according to vitamin D levels&#46;</p><p class="elsevierStylePara">The multivariance analysis showed that 25&#40;OH&#41;D levels were related to gender&#44; PP in the ABPM study&#44; a background of cardiovascular disease&#44; and GF from MDRD-4 &#40;Table 3&#41;&#46;</p><p class="elsevierStylePara">&#160;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">DISCUSSION</span></p><p class="elsevierStylePara">As other studies on various stages of chronic kidney disease have demonstrated&#44;<span class="elsevierStyleSup">16&#44;17</span> we found a high prevalence of 25&#40;OH&#41;D deficiency and insufficiency in patients with advanced renal failure&#46; This deficiency appears to be greater than in the general population&#44;<span class="elsevierStyleSup">18</span> and can be explained by several different reasons&#46; Patients with advanced chronic kidney disease can suffer a deficiency in nutrient assimilation from a reduction in the consumption of foods rich in vitamin D and in intestinal absorption&#59; also&#44; these patients tend to have comorbidities that cause a deterioration in physical health&#44; restricting outdoors activities&#44; and exposing them to less solar radiation&#46; It has also been suggested that uraemia itself could produce a deficiency in endogenous cutaneous vitamin D synthesis&#46;<span class="elsevierStyleSup">17</span> Our group of patients had a markedly high prevalence of low or very low 25&#40;OH&#41;D levels&#44; given that these were patients from the southern tip of Gran Canaria&#44; an island that presents one of the highest levels of mean solar radiation throughout the year in all of Europe&#46;</p><p class="elsevierStylePara">In our group of patients&#44; we found a relationship between 25&#40;OH&#41;D deficiency and advanced age and diabetes&#44; findings that have been described in other studies with patients both with and without kidney failure&#44;<span class="elsevierStyleSup">19-21</span> and which can be explained in part by the lower exposure to solar radiation due to decreased activity of elderly patients&#44; lower consumption of vitamin D-rich foods in both groups&#44; and autonomic diabetic enteropathy&#44; involving a deficiency in absorbtion&#46;<span class="elsevierStyleSup">22</span> We also observed a relationship between BMI and abdominal perimeter&#44; which has been described in several studies relating vitamin D levels with obesity in the general population&#46;<span class="elsevierStyleSup">23-25</span> We have also found a greater prevalence of low levels in female patients&#59; this has been observed in other studies and still lacks a coherent explanation&#44; although hormonal differences between the two genders has been implicated in the cause of this difference&#46;<span class="elsevierStyleSup">3</span></p><p class="elsevierStylePara">We have observed that patients with normal 25&#40;OH&#41;D levels have higher serum creatinine levels and lower MDRD &#40;3&#46;7 mg&#47;dL vs&#46;&#160;3 mg&#47;dL&#59; p &#60;0&#46;05 and 18 mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span>&#160;vs&#46;&#160;21 mL&#47;min&#47;1&#46;73 m<span class="elsevierStyleSup">2</span>&#59; p &#60;0&#46;05&#41;&#59; in fact&#44; the percentage of patients with normal 25&#40;OH&#41;D&#160;levels is greater in the group of stage 5 CKD patients than stage 4 CKD patients &#40;35 vs&#46;&#160;13&#37;&#59; p &#60;0&#46;005&#41;&#44;&#160;not so for 1-25 dihydroxyvitamin D levels&#44; which decrease with GF&#46; We found no explanation for this trend&#44; which appears to contradict published results from the medical literature that indicate that 25&#40;OH&#41;D levels decrease with GF&#46;<span class="elsevierStyleSup">16</span></p><p class="elsevierStylePara">We found no relationship between 25&#40;OH&#41;D levels and other parameters of mineral-bone metabolism such as levels of iPTH&#44; calcium&#44; phosphorous&#44; calcium x phosphorous product&#44; or alkaline phosphatase&#46; In some studies&#44; particularly in patients on dialysis&#44; a negative correlation has been observed with iPTH levels&#46;<span class="elsevierStyleSup">26</span> We found no relationship with active vitamin D levels or vitamin D analogues&#44; although most of our patients were on low dosages &#40;1 &#181;g per week of calcitriol or 3 &#181;g per weeks of paricalcitol&#41; and had not been on the treatment for very long&#46;</p><p class="elsevierStylePara">In the general population&#44; vitamin D deficiencies have been related to the development of arterial hypertension&#46;<span class="elsevierStyleSup">27&#44;28</span> In our study&#44; we found a correlation between 25&#40;OH&#41;D levels and the blood pressure parameters measured by ABPM&#46; We observed a weak inverse correlation of these levels with mean SBP and PP in all periods of the day&#46; We did not observe any relation with mean DBP or nocturnal depression patterns&#46; These data are consistent with results from other studies that relate vitamin D deficiency in chronic kidney disease with vascular calcifications and increased rigidity of the arterial wall&#44; which above all is reflected in the increase in PP&#46;<span class="elsevierStyleSup">29&#44;30</span> Vascular calcifications and the reduction in arterial elasticity with a consequent increase in PP have all been related to increased cardiovascular mortality from chronic kidney failure<span class="elsevierStyleSup">31&#44;32</span>&#46;</p><p class="elsevierStylePara">Several studies have related vitamin D deficiency with cardiovascular disease&#44; both in the general population and in patients with chronic kidney disease&#59;<span class="elsevierStyleSup">33-35</span> in our study&#44; we observed an association between low or very low 25&#40;OH&#41;D levels and a background of cardiovascular disease &#40;51&#37; of patients presented with some background of cardiovascular disease as opposed to 25&#37; of patients with normal 25&#40;OH&#41;D levels&#41;&#46; However&#44; it is difficult to infer causality of this relationship in a transverse study since the low levels could be a consequence of increased comorbility in this group&#44; being associated with advanced age&#44; the presence of diabetes&#44; and obesity&#46; Various mechanisms by which vitamin D deficiency could increase cardiovascular morbidity have been considered&#46; On the one hand&#44; we have already commented on the role that a vitamin D deficiency can play on the vascular wall&#44; decreasing distensibility and favouring vascular calcification&#59; on the other hand&#44; due to its immunomodulating and anti-proliferative effects&#44; a vitamin D deficiency could produce a pro-inflammatory state&#44; which has been widely recognized as a cause of cardiovascular disease in chronic kidney disease&#46;<span class="elsevierStyleSup">36-38</span> Finally&#44; vitamin D has been implicated in the inhibition of the renin-angiotensin system&#44; this being one of the mechanisms implicated in causing hypertension&#46;<span class="elsevierStyleSup">39</span> Experimental studies on the absence of vitamin D have related it to hypertrophy of myocardiac muscle cells&#44;<span class="elsevierStyleSup">40</span> which could favour left ventricular hypertrophy&#59; it is well-known that left ventricular hypertrophy is one of the main predictive factors for cardiovascular mortality in chronic kidney disease&#46;<span class="elsevierStyleSup">41</span> However&#44; according to our knowledge on the subject&#44; no study has been able to relate a deficiency in 25&#40;OH&#41;D with left ventricular hypertrophy in chronic kidney disease&#46; We found no relationship between the two in our study&#44; although this lack of association could be due to the limited number of patients in the program and the high prevalence of left ventricular hypertrophy in the group studied &#40;73&#46;7&#37; of patients presented this condition&#41;&#46; On the other hand&#44; there does appear to be a tendency of a different geometry of the left ventricular hypertrophy&#44; since the group with insufficient or deficient 25&#40;OH&#41;D levels reported a greater proportion of concentric hypertrophy than patients with normal levels&#44; while these tended to have normal geometry or eccentric hypertrophy&#46;</p><p class="elsevierStylePara">In our study&#44; we found no difference in the level of proteinuria among patients with normal or low 25&#40;OH&#41;D levels&#46; However&#44; we did find greater proteinuria in patients with low levels of 1-25 dihydroxyvitamin D&#46; It has been suggested that patients with nephrotic proteinuria should be excluded from studies that evaluate vitamin D levels because of the increase in 25&#40;OH&#41;D loss in the urine&#44; and of the protein that binds to the vitamin D receptor&#46;<span class="elsevierStyleSup">42</span> In our study&#44; 18&#37; of patients presented proteinuria in the nephrotic range &#40;&#62;3 g&#47;24 h&#41;&#44; and we decided not to exclude them from the study in spite of the fact that this could have created a limitation&#44; but the exclusion would not have affected the results regarding 25&#40;OH&#41;D&#46; There was no correlation between proteinuria and 25&#40;OH&#41;D levels and the percentage of patients with nephrotic proteinuria does not vary significantly between patients with low or very low levels and patients with normal levels of 25&#40;OH&#41;D &#40;17 vs&#46; 22 &#37;&#41; and the mean of 25&#40;OH&#41;D levels in patients with nephrotic proteinuria was similar to that of the rest of the patients &#40;21&#46;8 &#177; 9 vs&#46; 22&#46;6 &#177; 6&#59; p &#61; 0&#46;518&#41;&#46; Perhaps the difference lies in that in the study by Saha&#44;<span class="elsevierStyleSup">42</span> 50 patients with nephrotic syndrome and normal kidney function were studied&#44; making this population different&#46; However&#44; our results are consistent with the findings from Koening<span class="elsevierStyleSup">43</span> on the inverse correlation of proteinuria with 1-25 dihydroxyvitamin D levels &#40;r &#61; &#8212;0&#46;428&#59; p &#60;0&#46;005&#41;&#46; The percentage of patients with nephrotic proteinuria is greater in patients with lower 1-25 dihydroxyvitamin D levels &#40;25 vs&#46; 13&#37;&#59; p &#60;0&#46;005&#41;&#46;</p><p class="elsevierStylePara">We are aware of the fact that this study has several limitations&#44; specially the fact that it is a transverse observational study&#44; which allows for an observation of some associations&#44; but does not allow us to draw conclusions on causality&#46; Additionally&#44; the fact that our study was comprised of a limited number of patients with a profile of a high prevalence of diabetes&#44; cardiovascular disease&#44; and left ventricular hypertrophy corresponding to the population with chronic advanced kidney disease in the Canary Islands&#44; makes it difficult to establish stronger associations that might be ascertained in a larger study sample with a more favourable profile&#46; Thus&#44; it will be necessary to perform multicentre studies with a large number of cases and a longitudinal study design to better associate low 25&#40;OH&#41;D levels and cardiovascular disease in chronic kidney disease&#44; and for the evaluation of possible therapeutic strategies in order to correct the vitamin D deficiency at early stages of chronic kidney disease&#44; since there is currently no evidence on the benefits of the correction of this proportion on the population in general&#46;</p><p class="elsevierStylePara">To conclude&#44; we believe that a high prevalence of 25&#40;OH&#41;D deficiency and insufficiency exists in our population of patients with advanced chronic kidney disease&#44; that this deficiency is greater in women and that it is associated with a greater proportion of backgroung of cardiovascular disease and higher cardiovascular risk&#44; since it is associated with advanced age&#44; diabetes&#44; obesity&#44; and arterial hypertension&#46; However&#44; we have observed no significant relationship between 25&#40;OH&#41;D levels and left ventricular hypertrophy in this study&#46;&#160;</p><p class="elsevierStylePara"><span class="elsevierStyleBold">&#160;</span></p><p class="elsevierStylePara"><span class="elsevierStyleBold">ACKNOWLEDGEMENTS</span></p><p class="elsevierStylePara">We would like to thank Dr&#46; Jos&#233; Mar&#237;a Limi&#241;ana Ca&#241;al&#44; of the research division at the Island University Hospital of Grand Canary&#44; for his great help in the statistical analysis&#46;</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7327&#95;en&#95;10288&#95;t1&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7327_en_10288_t1.jpg" alt="Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 25 hydroxyvitamin D"></img></a></p><p class="elsevierStylePara">Table 1&#46; Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 25 hydroxyvitamin D</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7328&#95;en&#95;10288&#95;t2&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7328_en_10288_t2.jpg" alt="Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 1-25 hydroxyvitamin D"></img></a></p><p class="elsevierStylePara">Table 2&#46; Demographic&#44; clinical&#44; and analytical variables by normal or low levels of 1-25 hydroxyvitamin D</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7329&#95;en&#95;10288&#95;t3&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7329_en_10288_t3.jpg" alt="Multivariate analysis with logistic regression for normal&#47;inadequate 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Table 3&#46; Multivariate analysis with logistic regression for normal&#47;inadequate 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7330&#95;en&#95;10288&#95;f1&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7330_en_10288_f1.jpg" alt="Bivariate correlation between mean systolic blood pressure in the 24-hou4 ABPM and 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 1&#46; Bivariate correlation between mean systolic blood pressure in the 24-hou4 ABPM and 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7331&#95;en&#95;10288&#95;f2&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7331_en_10288_f2.jpg" alt="Bivariate correlation between pulse pressure calculated by the 24-hour ABPM and 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 2&#46; Bivariate correlation between pulse pressure calculated by the 24-hour ABPM and 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7332&#95;en&#95;10288&#95;f3&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7332_en_10288_f3.jpg" alt="Left ventricular mass index according to 25 hydroxyvitamin D levels"></img></a></p><p class="elsevierStylePara">Figure 3&#46; Left ventricular mass index according to 25 hydroxyvitamin D levels</p><p class="elsevierStylePara"><a href="grande&#47;10288&#95;108&#95;7333&#95;en&#95;10288&#95;f4&#46;jpg" class="elsevierStyleCrossRefs"><img src="10288_108_7333_en_10288_f4.jpg" alt="Geometry of the left ventricle according to levels of 25 hydroxyvitamin D above or below 30 ng&#47;mL"></img></a></p><p class="elsevierStylePara">Figure 4&#46; Geometry of the left ventricle according to levels of 25 hydroxyvitamin D above or below 30 ng&#47;mL</p>"
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        "resumen" => "<p class="elsevierStylePara"><span class="elsevierStyleBold">Introduci&#243;n&#58; </span>Los niveles bajos de 25 hidroxivitamina D han sido relacionados con un aumento de la morbimortalidad de origen cardiovascular en la poblaci&#243;n general y en pacientes con enfermedad renal cr&#243;nica&#46; <span class="elsevierStyleBold">Objetivo&#58;</span> Nuestro objetivo fue estudiar los niveles de 25 hidroxivitamina D en un grupo de pacientes con enfermedad renal cr&#243;nica estadios 4 y 5 predi&#225;lisis&#44; y relacionarlos con los antecedentes de enfermedad cardiovascular y con factores conocidos de riesgo cardiovascular&#46; <span class="elsevierStyleBold">Material y m&#233;todos&#58;</span> Se trata de un estudio observacional transversal de una cohorte de 171 pacientes seguidos en la consulta predi&#225;lisis de nuestro hospital&#44; media de edad 64&#44;16 &#177; 13 a&#241;os&#44; el 59&#44;6&#37; hombres&#44; el 64&#44;3&#37; diab&#233;ticos&#44; el 47&#44;3&#37; obesos y el 46&#44;8&#37; con antecedentes de enfermedad cardiovascular&#46; A todos los pacientes se les midieron los niveles s&#233;ricos de 25 hidroxivitamina D y de 1-25 dihidroxivitamina D&#44; se recogieron datos cl&#237;nicos&#160;y anal&#237;ticos de funci&#243;n renal&#44; anemia&#44; perfil lip&#237;dico y metabolismo &#243;seo-mineral&#59; tambi&#233;n se evalu&#243; la presi&#243;n arterial mediante registro ambulatorio de 24 horas &#40;MAPA&#41; y se realiz&#243; estudio ecocardiogr&#225;fico&#46; <span class="elsevierStyleBold">Resultados&#58;</span> La media de los niveles de 25 hidroxivitamina D fue de 22&#44;1 &#177; 13 ng&#47;ml&#44; s&#243;lo un 18&#44;7&#37; de los pacientes presentaban niveles normales&#44; un 58&#44;5&#37; presentaban niveles insuficientes o bajos y un 22&#44;8&#37; niveles deficientes o muy bajos&#46; Las variables que se asociaron con los niveles bajos de vitamina D fueron la edad&#44; la diabetes&#44; el sexo femenino&#44; la obesidad&#44; el filtrado glomerular y el antecedente de enfermedad cardiovascular&#46; Dentro de los par&#225;metros asociados a la presi&#243;n arterial&#44; la presi&#243;n del pulso fur la que m&#225;s se relacion&#243; con los niveles de vitamina D&#46; No se encontr&#243; asociaci&#243;n entre los niveles de 25 hidroxivitamina D con otros par&#225;metros del metabolismo &#243;seo mineral ni con los valores ecogr&#225;ficos de hipertrofia ventricular izquierda&#46; En el an&#225;lisis multivariante las variables que m&#225;s se asociaron al d&#233;ficit de 25 hidroxivitamina D fueron el sexo femenino&#44; el antecedente de enfermedad cardiovascular&#44; el filtrado glomerular y la presi&#243;n del pulso del MAPA&#46; <span class="elsevierStyleBold">Conclusiones&#58;</span> Nuestro estudio confirma una alta prevalencia de insuficiencia y deficiencia de 25 hidroxivitamina D en la poblaci&#243;n con enfermedad renal cr&#243;nica avanzada&#59; este d&#233;ficit se asocia con la presencia de factores de riesgo cardiovascular y con el&#160;antecedente de enfermedad cardiovascular&#46; Sin embargo&#44; no se encontr&#243; ninguna asociaci&#243;n con uno de los principales predictores de eventos cardiovasculares como es la hipertrofia ventricular izquierda&#46;</p>"
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        "resumen" => "<p class="elsevierStylePara"><span class="elsevierStyleItalic"><span class="elsevierStyleBold">Background&#58;</span> Decreased 25 hydroxyvitamin D serum levels have been related to an increase in cardiovascular morbility and mortality in both general population and chronic kidney disease patients&#46; The aim of this study was to evaluate the relationship between 25 hydroxyvitamin D serum level&#44; cardiovascular risk factors and previous established cardiovascular disease in a group of patients with advanced chronic kidney disease&#46; <span class="elsevierStyleBold">Objective&#58;</span> Our aim was to study 25 hydroxyvitamin D levels in a group of patients with stage 4 and 5 chronic kidney disease on predialysis&#44; and link them to history of cardiovascular disease and its known risk factors&#46; <span class="elsevierStyleBold">Material and methods&#58;</span> We performed a cross-sectional observational study in a cohort of 171 stage 4 and 5 chronic kidney disease outpatients seen in our predialysis clinic&#44; mean age 64&#46;16 &#177; 13 years&#44; 59&#46;6&#37; were men&#44; 64&#46;3&#37; had diabetes&#44; 47&#46;3&#37; had obesity&#44; 46&#46;8&#37; had previous cardiovascular disease&#46; 25 hydroxyvitamin D and 1-25 dihydroxyvitamin D were measured&#44; we also determined other routine biochemical parameters&#46; All subjects underwent an echocardiogram and 24 hours ambulatory blood pressure monitoring was also performed&#46; <span class="elsevierStyleBold">Results&#58;</span> Mean 25 hydroxyvitamin D levels were 22&#46;1 &#177; 13 ng&#47;mL&#44; only 18&#46;7&#37; of the patients had adequate levels&#44; levels were insufficient in 58&#46;5&#37; of the patients and deficient in 22&#46;8&#37; of them&#46; Low 25 hydroxyvitamin D levels were significantly related with age&#44; diabetes&#44; female gender&#44; obesity&#44; MDRD glomerular filtration rate and previous cardiovascular disease&#46; Pulse pressure was the Ambulatory Blood Pressure Monitoring parameter that was better correlated with 25 hydroxyvitamin D levels&#46; We could not find any association between vitamin D levels and other bone and mineral metabolism parameters&#46; No relationship was seen between low vitamin D levels and left ventricular hypertrophy&#46; On multivariate analysis lower levels of 25 hydroxyvitamin D were independently associated with female gender&#44; previous cardiovascular disease&#44; MDRD4-GFR and higher pulse pressure&#46; <span class="elsevierStyleBold">Conclusions&#58;</span> Our study confirm a high prevalence of 25 hydroxyvitamin D insufficiency and deficiency in advanced chronic kidney disease patients&#44; this was associated with the presence of cardiovascular risk markers and previous established cardiovascular disease&#46; However we could not see any relationship with left ventricular hypertrophy which is a known predictor of future cardiovascular events in this population&#46;</span></p>"
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Idiomas
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