Homocysteine plasma levels correlate with intimal carotid artery thickness in haemodialysis patients

Carmelo Libetta, Giuseppe Villa, Stefano Pirrelli, Vincenzo Sepe, Elena Gori, Manuela Zucchi and Antonio Dal Canton

Units of Nephrology and Vascular Surgery, University and IRCCS Policlinico San Matteo, Pavia and Division of Nephrology S. Maugeri, Pavia, Italy

Sir,

Contradictory findings have recently been published, showing either a relation [1,2] or no relation [3] between plasma levels of homocysteine (Hcy) and vascular changes in dialysis patients. However, since Hcy accumulates in uraemic patients [4] and increased plasma Hcy levels are already present in the early stage of renal failure, a possible role for uraemia-associated hyperhomocysteinaemia (HHcy) should be considered. Recent data from a murine model of atherosclerosis showed that atherosclerotic lesions increased when mice were fed with a diet enriched in methionine but depleted in folate and vitamins B6 and B12 [5]. These changes were suppressed when diet was supplemented with folate and vitamins B6 and B12, implicating Hcy directly in atherosclerotic plaque progression.

In the present investigation, we evaluated whether plasma Hcy levels correlate with an index of generalized atherosclerosis (i.e. intimal wall thickness (IWT)) of the extracranial carotid artery (CA). We studied 85 patients (age 62.5±14 years, range 22–78; dialysis duration 66.7±53.4 months, range 12–238) who were on regular dialysis treatment (RDT) for at least 1 year. Patients with CA plaques were excluded. Standard bicarbonate dialysis was performed three times a week (180–270 min/session to achieve a Kt/V >1.2). Plasma levels of total Hcy (including both homocysteine–homocysteine disulfide and mixed homocysteine–cysteine disulfide) were measured by automated high performance liquid chromatography with reversed-phase and fluorescence detection in venous blood collected from fasting patients just before the start of a dialysis session. Serum total cholesterol and triglycerides were measured by a Technicon Chem 1 assay. All patients underwent ultrasound examination (Acuson instrument, 7.5 MHz, Milan, Italy) to evaluate IWT-CA (measured 10 mm distal from common carotid artery). Data are presented as mean±SD. Linear regression analysis was used to examine a possible relation between Hcy and other variables.

Plasma Hcy levels were increased in 71 out of 85 RDT patients (83.5%) RDT patients in comparison with the normal range 5–15 µmol/l. In RTD patients, IWT-CA (mm) averaged 0.68±0.23 on the right and 0.65±0.27 on the left side, overall 0.67±0.25. Patients with plasma Hcy levels greater than 15 µmol/l also showed a thicker ITW echostructure than patients with plasma Hcy levels within the normal range (0.71±0.09, n=71 vs 0.57±0.07, n=14; P<0.001). Linear regression analysis showed a significant positive relation between Hcy levels and mean IWT-CA (r=0.74; P<0.01) (Figure 1Go). IWT-CA was also correlated with age (r=0.57; P<0.03), dialysis duration (r=0.48; P<0.05), and systolic blood pressure (r=0.63; P<0.01). No significant correlation was found between IWT-CA thickness and plasma levels of cholesterol (r=0.14) or triglycerides (r=0.19).



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Fig. 1. Relationship between plasma total homocysteine (Hcy) and intimal wall thickness of the extracranial carotid artery (IWT-CA) in haemodialysis patients. Statistical analysis was performed using linear regression analysis, (r=0.74; P<0.01).

 
Our results confirm that haemodialysis patients are prone to develop high Hcy plasma levels, probably due to the combination of reduced renal clearance and impaired Hcy catabolism [6]. The strong correlation between plasma Hcy, but not plasma lipids, and IWT-CA emphasizes the role of HHcy as a major risk factor for atherosclerosis in chronic haemodialysis patients. This might represent an incentive to administer to such patients a Hcy-lowering therapy.

References

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  2. Churchill DN. Comparative morbidity among hemodialysis and continuous ambulatory peritoneal dialysis patients. Kidney Int1993; 43: S16–S20[ISI]
  3. Blacher J, Demuth K, Guerin AP, Safar ME, Moatti N, London GM. Influence of biochemical alteration on arterial stiffness in patients with end-stage renal disease. Arterioscler Thromb Vasc Biol1988; 18: 535–541[Abstract/Free Full Text]
  4. Tremblay R, Bonnardeaux A, Geadah D et al. Hyperhomocysteinemia in hemodialysis patients: Effects of 12-month supplementation with hydrosoluble vitamins. Kidney Int2000; 58: 851–858[ISI][Medline]
  5. Hofman MA, Lalla E, Lu Y et al. Hyperhomocysteinemia enhances vascular inflammation and accelerates atherosclerosis in a murine model. J Clin Invest2001; 107: 675–683[Abstract/Free Full Text]
  6. Guittormsen AB, Ueland PM, Svarstad E, Refsum H. Kinetic basis of hyperhomocysteinemia in patients with chronic renal failure. Kidney Int1997; 52: 495–502[ISI][Medline]




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