Annette Kent

Exercise performance falls over time in patients with chronic kidney disease despite maintenance of hemoglobin concentration.

Physical function is limited in patients with kidney disease, although previous studies have been confounded by anemia. What is not clear is how physical performance changes over time as renal function deteriorates. A cohort of 12 patients (10 male, two female; mean +/- SD age 49 +/- 11 yr) who had stages 3 to 4 chronic kidney disease without previous anemia were examined, and nine were followed for a 2-yr period. Assessments were made of peak oxygen consumption (VO2peak) by cycle ergometry, leg extension strength, and fatigue on an isokinetic dynamometer and thigh muscle cross-sectional area (TMCSA) by computed tomography. At baseline, creatinine clearance was 31 +/- 13 ml/min and hemoglobin concentration ([Hb]) was 129 +/- 9 g/L. VO2peak was low (1.88 L/min, 82% of predicted), and maximal isometric voluntary contraction was 188 +/- 42 Nm, with a TMCSA of 144 +/- 27 cm2. VO2peak correlated with creatinine clearance corrected for body surface area (r = 0.613, P = 0.034) but not to [Hb]. VO2peak adjusted for patient weight correlated with leg fatigue (r = -0.693, P = 0.012). For those with follow-up tests, there were falls in renal function by 28% (P = 0.007) and VO2peak by 9% (P = 0.03), whereas [Hb] did not change. Leg strength fell across a range of isokinetic speeds (P = 0.04), whereas no change in TMCSA was observed. In conclusion, exercise performance as measured by aerobic (VO2peak) and leg strength tests were reduced in patients with stages 3 to 4 chronic kidney disease. As renal function declined over time, there was a corresponding decline in exercise performance even when [Hb] was maintained.

Prediction of pre-eclampsia in early pregnancy by estimating the spot urinary albumin: Creatinine ratio using high-performance liquid chromatography

Please cite this paper as: Baweja S, Kent A, Masterson R, Roberts S, McMahon L. Prediction of pre‐eclampsia in early pregnancy by estimating the spot urinary albumin: creatinine ratio using high‐performance liquid chromatography. BJOG 2011;118:1126–1132.

Effects of endurance training on extrarenal potassium regulation and exercise performance in patients on haemodialysis

BACKGROUND Haemodialysis patients (HDP) with anaemia display impaired plasma K(+) regulation during exercise and poor exercise performance. Epoetin treatment and exercise training improve exercise performance in HDP, but whether this is associated with improved K(+) regulation is unknown. METHODS Six HDP with near-normal [Hb] were tested for aerobic power ( ) and plasma [K(+)] during incremental exercise; quadriceps muscle strength (peak torque, PT) from 0 to 360 degrees s(-1) and fatiguability (decline in strength during thirty contractions). Tests were conducted at baseline, after 6 weeks of normal activity (pre-train) and following 6 weeks cycle training (post-train). Six healthy untrained controls (CON) matched for age, sex, mass and height were tested at baseline. RESULTS In HDP at baseline, and PT from 0 to 360 degrees s(-1) were respectively reduced by 37% and 27-42%, compared to CON (P < 0.05). Plasma [K(+)], the rise in [K(+)] (Delta[K(+)]) and the Delta[K(+)] relative to total work done (Delta[K(+)] work(-1) ratio) during incremental exercise were all higher in HDP at baseline compared to CON (P < 0.05). Exercise training increased time to fatigue by 12% (P < 0.05) but did not improve K(+) regulation or . An inverse correlation was found between the Delta[K(+)] work(-1) ratio and for pooled CON and HDP data. CONCLUSIONS In HDP treated with epoetin, poor exercise performance was related to impaired extrarenal K(+) regulation, whilst training improved exercise performance but not K(+) regulation. Thus, although impaired extrarenal K(+) regulation may contribute to poor exercise performance in HDP, exercise performance can still improve with training despite unchanged K(+) regulation.

Maintenance of elevated versus physiological iron indices in non-anaemic patients with chronic kidney disease: a randomized controlled trial

BACKGROUND An optimal haemoglobin (Hb) response to erythropoietin requires elevated iron indices in dialysis patients; however, it is unknown if the same applies in chronic kidney disease (CKD). METHODS One hundred patients [CKD Stages 3-5, Hb >or= 110 g/L, iron replete, erythropoietin-stimulating agent (ESA)-naive, 47% diabetic, median age 69.5 years] were block-randomized in an open-label study to receive up to 200 mg intravenous iron sucrose (Group A, n = 52) bimonthly or oral iron sulphate (Group B) to maintain raised and normal iron indices (respectively) over 12 months. The primary endpoint was the change in Hb concentration at 12 months or at termination after at least 6 months of treatment. RESULTS Eighty-five patients reached the primary endpoint (43, Group A; 42, Group B). Initial Hb was 119 +/- 7 vs 116 +/- 12 g/L (mean +/- standard deviation); ferritin 122 (71-176), median (inter-quartile range), vs 90 microg/L (58-150); transferrin saturation (TSat) 22 (18-26) vs 21% (15-24); and creatinine 240 (195-313) vs 230 micromol/L (184-352). Ferritin and TSat differed by month 2 [157 (103-220) vs 96 microg/L (73-162), P = 0.003] and month 6 [25 (20-31) vs 21% (17-27), P = 0.02], respectively. At study end, Hb did not differ between groups (121 +/- 10 vs 117 +/- 13 g/L). Ferritin was 362 (310-458) vs 125 microg/L (84-190), P < 0.001; TSat 30 (23-34) vs 21% (18-24), P < 0.001; and creatinine 229 (188-326) vs 272 micromol/L (195-413), P = NS. For patients (Groups A and B, n = 27 in each group) whose creatinine regression slope increased (indicating worsening function), the fall in Hb over 12 months also did not differ between groups despite adequate separation in iron indices. Serious adverse events overall did not differ between groups. CONCLUSIONS Elevated iron indices did not increase Hb synthesis in ESA-naive, iron replete, pre-dialysis patients with Hb >110 g/L.

Impaired exercise performance and muscle Na+,K+-pump activity in renal transplantation and haemodialysis patients

BACKGROUND We examined whether abnormal skeletal muscle Na(+),K(+)-pumps underlie impaired exercise performance in haemodialysis patients (HDP) and whether these are improved in renal transplant recipients (RTx). METHODS Peak oxygen consumption ( O(2peak)) and plasma [K(+)] were measured during incremental exercise in 9RTx, 10 HDP and 10 healthy controls (CON). Quadriceps peak torque (PT), fatigability (decline in strength during thirty contractions), thigh muscle cross-sectional area (TMCSA) and vastus lateralis Na(+),K(+)-pump maximal activity, content and isoform (α(1)-α(3), β(1)-β(3)) abundance were measured. RESULTS O(2peak) was 32 and 35% lower in RTx and HDP than CON, respectively (P < 0.05). PT was less in RTx and HDP than CON (P < 0.05) but did not differ when expressed relative to TMCSA. Fatigability was ∼1.6-fold higher in RTx (24 ± 11%) and HDP (25 ± 4%) than CON (15 ± 5%, P < 0.05). Na(+),K(+)-pump activity was 28 and 31% lower in RTx and HDP, respectively than CON (P < 0.02), whereas content and isoform abundance did not differ. Pooled (n = 28) O(2peak) correlated with Na(+),K(+)-pump activity (r = 0.45, P = 0.02). CONCLUSIONS O(2peak) and muscle Na(+),K(+)-pump activity were depressed and muscle fatigability increased in HDP, with no difference observed in RTx. These findings are consistent with the possibility that impaired exercise performance in HDP and RTx may be partially due to depressed muscle Na(+),K(+)-pump activity and relative TMCSA.

Mortality in dialysis patients may not be associated with ESA dose: a 2-year prospective observational study

BackgroundAnaemia of chronic kidney disease increases the risk of death and adverse events, but can be managed using erythropoiesis stimulating agents (ESAs). However, recent evidence suggests that targeting a higher haemoglobin concentration ([Hb]) increases mortality risk, and both higher [Hb] targets and ESA doses have been implicated. Nonetheless, a causative role has not been demonstrated, and this potential relationship requires further appraisal in such a complex patient group.MethodsThe relationship between the haematopoietic response to ESAs and patient survival in 302 stable, prevalent dialysis patients was explored in a prospective, single-centre study. Clinical and laboratory parameters influencing mortality and ESA resistance were analysed. Patients were stratified into 5 groups, according to their [Hb] and ESA dosage, and were followed for 2 years.ResultsLittle difference in co-morbidities between groups was identified. 73 patients died and 36 were transplanted. Initial analysis suggested a direct relationship between mortality and ESA dosage. However, Cox proportional hazards multivariate analysis demonstrated mortality risk was associated only with age (adjusted HR per year: 1.061, 95% CI 1.031-1.092), dialysis duration (adjusted HR: 1.010, 95% CI 1.004-1.016), peripheral vascular disease (adjusted HR: 1.967, 95% CI 1.083-3.576) and CRP (adjusted HR: 1.024, 95% CI 1.011-1.039). Mortality was increased in patients poorly responsive to ESAs (55.5%).ConclusionESA dose does not appear to contribute substantially to mortality risk in dialysis patients. Instead, age and co-morbidities appear to be the critical determinants. A poor response to ESAs is a marker of overall poor health status.

CALCIPROTEIN PARTICLE FORMATION IN PERITONEAL DIALYSIS EFFLUENT IS DEPENDENT ON DIALYSATE CALCIUM CONCENTRATION

Background: The accumulation of fetuin-A-containing calciprotein particles (CPP) in the serum of patients with renal disease and those with chronic inflammation may be involved in driving sterile inflammation and extraosseous mineral deposition. We previously showed that both fetuin-A and CPP were present in the peritoneal dialysis (PD) effluent of stable PD patients. It is unknown whether different PD fluids might affect the formation of CPP in vivo. Method: Peritoneal effluent from 12 patients was collected after a 6-hour dwell with 7 different commercial PD fluids. Calciprotein particles and inflammatory cytokines were measured by flow cytometry. Results: High inter-subject variability in CPP concentration was observed. Peritoneal dialysis fluids containing 1.75 mmol/L calcium were associated with enhanced formation of CPP in vivo, compared with fluids containing 1.25 mmol/L calcium. Osmotic agent, fluid pH, and glucose concentration did not affect CPP formation. Peritoneal dialysis effluent CPP levels were not associated with changes in inflammatory cytokines. Conclusion: High calcium-containing PD fluids favor intraperitoneal CPP formation. This finding may have relevance for future PD fluid design.