Increased mortality after kidney transplantation in mildly frail recipients

Background

Physical Frailty Phenotype (PFP) is the most used frailty instrument among kidney transplant recipients, classifying patients as pre-frail if they have 1–2 criteria and as frail if they have ≥3. However, different definitions of robustness have been used among renal patients, including only those who have 0 criteria, or those with 0–1 criteria. Our aim was to determine the impact of one PFP criterion on transplant outcomes.

Methods

We undertook a retrospective study of 296 kidney transplant recipients who had been evaluated for frailty by PFP at the time of evaluating for transplantation.

Results

Only 30.4% of patients had 0 criteria, and an additional 42.9% showed one PFP criterion. As PFP score increased, a higher percentage of women and cerebrovascular disease were found. Recipients with 0–1 criteria had lower 1-year mortality after transplant than those with ≥2 (1.8% vs 10.1%), but this difference was already present when we only considered those who scored 0 (mortality 1.1%) and 1 (mortality 2.4%) separately. The multivariable analysis confirmed that one PFP criterion was associated to a higher risk of patient death after kidney transplantation [hazard ratio 3.52 (95% confidence interval 1.03–15.9)].

Conclusions

Listed kidney transplant candidates frequently show only one PFP frailty criterion. This has an independent impact on patient survival after transplantation.

Is fetuin-A a biomarker of dialysis access dysfunction?

BACKGROUND

The arteriovenous (AV) access function of hemodialysis (HD) patients can be impaired by afferent artery stiffness due to preexisting microcalcification and by venous stenosis secondary to neointimal hyperplasia in whose development participates an upregulated local inflammatory process. Fetuin-A is a circulating potent inhibitor of vascular calcification and plays an important anti-inflammatory role. The aims of this prospective study were to investigate the relationship between baseline serum fetuin-A levels and: blood flow (Q_A) values at baseline, AV access failure (thrombosis or intervention for stenosis) during follow-up and primary unassisted AV access patency.

METHODS

We measured baseline serum fetuin-A levels and Q_A values of the AV access in 64 HD patients under routine Q_A surveillance for stenosis. Patients were classified into tertiles according to their baseline fetuin-A levels (g/L): <0.5 (tertile-1), 0.5-1.20 (tertile-2), and >1.20 (tertile-3).

RESULTS

Fetuin-A was positively correlated with Q_A (Spearman coefficient = 0.311, p = 0.012). Fourteen patients (21.9%) underwent AV access failure and they had lower fetuin-A (0.59 ± 0.32 g/L) and lower Q_A (739.4 ± 438.8 mL/min) values at baseline compared with the remaining patients (1.05 ± 0.65 g/L and 1273.0 ± 596.3 mL/min, respectively) (p = 0.027 and p < 0.001, respectively). The AV access failure rate was highest (34.8%) in tertile-1 (lowest fetuin-A level). Unadjusted Cox regression analysis showed a decrease in the risk of AV access patency loss by increasing fetuin-A concentration (hazard ratio 0.395 (95% confidence interval: 1.42-1.69), p = 0.044) but it was not confirmed in the adjusted model, although the hazard ratio was low (0.523). Kaplan-Meier analysis showed that patients in tertile-3 (highest fetuin-A concentration) had the highest primary unassisted AV access patency (λ² = 4.68, p = 0.030, log-rank test).

CONCLUSION

If our results are confirmed in further studies, fetuin-A could be used as a circulating biomarker to identify HD patients at greater risk for AV access dysfunction, who would benefit from much closer dialysis access surveillance.

Functional vascular access evaluation after elective intervention for stenosis

Purpose

To evaluate the functional effects of preventive vascular access (VA) intervention through periodic blood flow (QA) measurements during hemodialysis (HD) by the delta-H method.

Methods

We prospectively monitored the blood flow rate (QA) of 100 VA (arteriovenous fistula (AVF) 81% or AV graft (AVG) 19%; mean VA duration 24.6 ± 42.3 months) during HD in 89 end-stage renal disease patients (mean age 62.7 ± 13.6 yrs; mean time on HD 30.9 ± 43.9 months; 18% with diabetes) over a 3-yr period. QA was measured at least every 4 months by the delta-H method (Yarar (6)) using the Crit Line III Monitor (overall mean QA 1247.6 ± 519.7 ml/min). The mean arterial pressure (MAP) and Kt/V index were measured simultaneously with QA. Thirty-eight VA (38%) met the positive evaluation criteria (absolute QA <700 ml/min 50%, QA decreased >20% from baseline 50%). Most cases with positive evaluation underwent angiography (36/38, 95%) and had stenosis ≥50% (34/36, 94%). Of VA with significant stenosis, 17 (17/34, 50%) VA (AVF 76.5%, AVG 23.5%; mean VA duration 12.5 ± 22.4 months, mean percentage of VA stenosis 75.8%) in 15 patients (mean age 68.4 ± 9.8 yrs; mean time on HD 14.2 ± 18.2 months; 33.3% with diabetes) underwent corrective intervention by angioplasty, 35.3% (6/17), and revision surgery, 64.7% (11/17).

Results

Short-term results: Elective intervention was successful in 88% of treated VA (15/17). Mean QA increased from 563.8 ± 115.4 ml/min just before intervention (QA pre) to 975.7 ± 351.8 ml/min just after intervention (QA post) (mean ΔQA = 411.8 ± 290.1 ml/min) (p < 0.001). We found a significant difference between the overall mean QA before (689.6 ± 227.0 ml/min) vs after intervention (965.9 ± 396.8 ml/min) (p = 0.011). No difference was found when the highest recorded mean QA before intervention (877.7 ± 415.4 ml/min) and mean QA post were compared (p = 0.25). Mean MAP did not change after intervention (91.5 ± 12.5 vs 92.7 ± 14.2 mmHg, p = 0.46). Mean Kt/V index improved from 1.44 ± 0.24 just before intervention to 1.49 ± 0.23 just after intervention without any change in dialyzer type or HD duration (p = 0.025). Mean ΔQA was similar for diabetic patients vs non-diabetic patients (p = 0.34), for younger patients (age < 65 yrs) vs older patients (age ≥65 yrs) (p = 0.64) and for AVF vs AVG (p = 0.39). We found a positive correlation between mean ΔQA and mean QA post (r = 0.95, p < 0.001) or between mean ΔQA and overall mean QA after intervention (r = 0.77, p < 0.001).

Long-term results

Prevalence of VA thrombosis during the follow-up period (354.4 ± 293.1 days): 17.6% (3/17). Five (29.4%) treated VA showed restenosis and two of them (40%) underwent reintervention by surgery. Mean restenosis period and mean decrease in QA were 232.6 ± 74.1 days and 2.8 ± 0.6 ml/min/day, respectively. No significant correlation was found between mean ΔQA or QA pre and mean restenosis period or decrease in QA (p = ns).

Conclusions

1) Monitoring QA by the delta-H method is useful in assessing the hemodynamic response to elective VA intervention. 2) Mean QA post was similar to the highest recorded mean QA before intervention. 3) Mean ΔQA was related to mean QA post and overall mean QA after intervention. 4) The HD effectiveness (Kt/V index) improved after intervention.

[Functional profile of cephalic arch stenosis]

Cephalic arch stenosis (CAS) is a unique type of vascular access stenosis. For example, the etiology of CAS is under investigation and the prevalence of CAS can be lower in diabetic patients. Three cases of CAS were identified during our vascular access stenosis surveillance program by blood flow rate measurements using the Delta-H method. We evaluated the prevalence, etiology, relationship with diabetes and functional profile of CAS. To date, this is the first functional report published about this type of stenosis.

[Measurement of vascular access blood flow rate during hemodyalisis in 38 patients using the thermodilution technique. A comparative study with the Delta-H method]

INTRODUCTION

Periodic QA measurement is the preferred way for VA surveillance in end-stage renal disease (ESRD) patients (pts).

OBJECTIVE

The aims of this study were to measure QA by TDT and to compare the functional results with Delta-H method.

PATIENTS AND METHODS

We measured Q(A) non invasively in 38 VA (mean VA duration: 48.7 +/- 69.8 months) during HD in 38 stable ESRD (mean age 63.8 +/- 15.1 yr, mean time on HD 47.6 +/- 53.9 months, diabetic nephropathy 18.4%) pts by the TDT. Fourteen pts (36.8%) had history of previous VA that were ipsilateral to the VA under study in most cases (11/14, 78.6%). Thirteen pts (34.2%) had history of any comorbidity (coronary artery or cerebrovascular or peripheral vascular diseases). Q(A) was calculated from the recirculation values obtained by means of the blood temperature monitor (BTM), integrated into the Fresenius Medical Care 4008-S machine, at normal and reverse configurations of the HD blood lines. Q(A) was measured within the first hour of two consecutive HD sessions (the values were averaged). Mean arterial pressure MAP and distance between needles (DBN) were measured simultaneous with Q(A). In addition, the VA blood flow was also determined by Delta-H method using Crit-Line III Monitor (ABF-) between 1000 and 1500 ml/min. The mean DBN and MAP were 6.2 +/- 2.9 cm, 91.9 +/- 12.4 mmHg, respectively. Mean Q(A) was similar for pts with mean MAP<100 mmHg (n=26) and for pts with mean MAP>or=100 mmHg (n=12) (p=0.85). Pts with diabetic nephropathy showed lower mean Q(A) (836.1 +/- 395.8 ml/min) compared to the remaining pts (1,245.9 +/- 449.9 ml/min) (p=0.033). No differences in mean Q(A) was found when pts with any comorbidity and without comorbidities were compared (p=0.62). Brachial AVF tended to have higher mean Q(A) (1,323.6 +/- 465.3 ml/min) compared to radial AVF (1,017.4 +/- 447.3 ml/min) (p=0.052). Pts with history of previous VA showed higher mean Q(A) (1,410.6 +/- 377.7 ml/min) compared to the remaining pts (1,030.4 +/- 458.7 ml/min) (p=0.013). No correlation was found between mean Q(A) and: mean age, DBN, MAP, Kt/V index, time on HD and VA duration. Mean Q(A) obtained by TDT was not different when compared with mean ABF determined by Delta-H method (1,151.3 +/- 479.0 ml/min) (p=0.89). The calculated values of VA blood flow obtained by TDT were highly correlated with those determined by the Delta-H method (intraclass correlation coefficient =0.95, p<0.001).

CONCLUSIONS

The TDT is an indicator of QA during HD. The functional profile of VA was worse in pts with diabetic nephropathy or without history of previous VA. The VA blood flow values obtained by TDT and Delta-H techniques correlated highly with each other.

[Noninvasive assessment of forearm vessels by color Doppler ultrasonography (CDU) before and after radiocephalic fistula (RCF) placement]

INTRODUCTION

The CDU is a noninvasive vascular access (VA) monitoring technique that provides both structural and hemodynamic information from vessels.

OBJECTIVE

The aim of this prospective study was to analyze some parameters of forearm vessels by CDU before and after RCF creation at the wrist.

PATIENTS AND METHODS

We explored by CDU the vessels of forearm in 34 CRF patients (pts) (mean age 63.915.1 yr, sex M:76.5%;F:23.5%, 26.5% diabetes, 73.5% already on HD at the time of RCF placement). Forearm CDU evaluation was planned twice: before RCF creation (first exploration FE) and after two months of successful RCF cannulation for HD by 2 needles at Qb>250 ml/min (second exploration SE). All CDU examinations were performed by the same radiologist with 5-10 MHz linear transducer (Doppler angle < or = 60 degrees) at two proximal and distal points of the forearm (the values were averaged) using the Aspen machine (Siemens-Acuson, Mountain View, CA). We measured by CDU parameters from radial artery RA (diameter RAd, peak systolic velocity PSV, resistive index RI, blood flow rate RAflow), cephalic vein CV (diameter CVd) and arterialized vein AV (diameter AVd, blood flow rate AVflow). RAflow or AVflow calculation by CDU: time average velocity (mean of three cardiac cycles) (m/s) x cross-sectional area (mm2) x 60. RCF outcome: functioning RCF (FRCF) suitable for routine HD 61.8% (mean age 61.214.5 yr, 23.8% diabetes), or non-functioning RCF 38.2% (mean age 68.215.5 yr, 30.8% diabetes) due to: early thrombosis (within 24 hours after operation, ETRCF) 14.7%, lack of RCF maturation (LMRCF) 5.9%, last thrombosis (between 24 hours after operation and SE by CDU, LTRCF) 17.6%.

RESULTS

Between FE and SE by CDU at RA, overall mean RAd (3.2 +/- 0.3 vs 5.5 +/- 1.0 mm), mean PSV (59.9 +/- 12.4 vs 166.6 +/- 58.2 cm/s) and mean RAflow (67.9 +/- 27.4 vs 1297.1 +/- 683.1 ml/min) increased significantly (for all comparisons, p<0.001), and mean RI (0.9 +/- 0.2 vs 0.40. +/- 0.1) decreased significantly (p<0.001); we also found a significant difference when overall mean CVd (2.9 +/- 0.6 mm) and mean AVd (5.7 +/- 1.1 mm) were compared (p<0.001). Overall and distal mean RAflow at FE by CDU were lower in pts with ETRCF (33.6 +/- 19.6 and 26.0 +/- 16.7 ml/min, respectively) compared to pts with FRCF (67.9 +/- 27.4 and 48.0 +/- 21.3 ml/min, respectively) (p=0.015 and p=0.029, respectively). Pts with ETRCF and LMRCF considered together (20.6%), had lower overall mean RAd (2.80.4 mm) and distal mean RAflow (28.1 +/ 15.2 ml/min) at FE by CDU compared to pts with FRCF (3.2 +/ 0.3 mm and 48.0 +/- 21.3 ml/min, respectively) (p=0.015 and p=0.031, respectively). No significant differences between pts with LTRCF and FRCF were found when overall and distal mean RAd, PSV, RI, RAflow and CVd obtained at FE by CDU were compared (for all comparisons, p=NS), but all pts with LTRCF underwent HD at the time of RCF creation compared to 57.1% of pts with FRCF (p=0.049). Pts with FRCF who had overall mean AVflow = 800 ml/min (38.1%, mean AVflow: 602.5167.3 ml/min) showed lower overall mean RAflow at SE by CDU compared to pts with FRCF who had overall mean AVflow>800 ml/min (61.9%, mean AVflow: 1113.9 +/- 160.1 ml/min): 820.1 +/- 188.7 vs 1590.7 +/- 715.4 ml/min (p=0.002). We found a positive correlation between overall mean AVflow and mean RAflow obtained at SE by CDU (r = 0.52, p = 0.016).

CONCLUSIONS

1) All parameters of forearm vessels measured by CDU changed after RCF placement. 2) Preoperative mean RAflow is predictive of RCF outcome. 3) Mean AVflow is related to mean RAflow obtained at SE by CDU.

[Tesio twin catheter system for hemodialysis tunnelized using an echo-guided technique. Retrospective analysis of 210 catheters]

PURPOSE

Review a large experience in the placement of tunnelled catheters to assess the outcomes with twin catheter system as hemodialysis access.

MATERIAL AND METHODS

We retrospectively reviewed clinical and hemodialysis data regarding of ESRD patients who were referred from 2 dialysis facilities for placement of tunnelled catheters hemodialysis access between 1996 March and 2005 July. For catheter insertion a real-time sonography technique was used (Site Rite II Dymax corporation) in performing vascular access procedure. The twin catheter system available during the study period consisted of 2 x 10-F12. Patients suspected to present bacteraemia related to catheter were followed with established protocols. Catheter suspected malfunction or thrombosis was treated with low dose Urokinase. To evaluated dialysis dose and adequacy, blood flow rates were recorded and Kt/v calculated by Daugirdas 2nd generation formula.

RESULTS

Overall study period of 112 months, 210 catheters were inserted in 148 patients(93 males and 55 females, mean age 68,6 +/- 4,95 years). 101 catheters were inserted in internal jugular vein, 84 in femoral and 25 in subclavian. The successful insertion rate with only single needle pass was 87.8%, immediate procedural complications rate was 4.7%. The catheters were in place a total of 18,324 days during the study period (mean 87.2 days; range 4-1,280 days). The mean flow blood rate was 252,4 DS +/- 42.4 mL/min, Mean Kt/v was 1,21 DS +/- 0,07. Seventy-seven catheters malfunctioned during study period, in 55 cases urokinase was effective in recovering blood flow rate over 250 mL/min and 25 necessitated removal for ineffective urokinase. Infection incidence was 11.9% with bacteraemia related catheter rate of 2.8 episodes per 1,000 catheter-days, Gram positive bacteria was found in (84%), Gram negative in (12%) and others(4%).

CONCLUSION

Placement of tunnelled twin catheters system using real-time sonography technique can be performed with excellent technical success, safety and acceptable catheter performance and outcomes for effective hemodialysis.

[Prevalence and functional profile of unsuspected radial artery stenosis in native radiocephalic fistula dysfunction. Diagnosis by vascular access flow monitoring using Delta-H method]

OBJECTIVE

The aim of this study was to know the prevalence and functional profile of RA stenosis in RCF dysfunction detected as a result of our surveillance programme.

PATIENTS AND METHODS

We prospectively monitored QA of 116 VA (arteriovenous fistula 81% or graft 19%; mean VA duration 28.2 +/- 52.9 months) during hemodiaysis (HD) in 102 ESRD (mean age 63.0 +/- 13.0 yr; sex M: 56.9%, F: 43.1%; mean time on HD 31.4 +/- 44.0 months; 15.5% diabetes) patients (pts) over 4 yr period. QA was measured at least every 4 months by the Delta-H method using the Crit-Line III monitor (overall mean QA 1,193.4 +/- 490.3 ml/min) Forty-three VA (43/116, 37%) met criteria of positive evaluation (absolute QA < 700 ml/min: 48.8%; NQA > 20% from baseline: 51.2%) and were referred for angiography. Most VA explored by angiography showed stenosis > or = 50% (36/40, 90%) that were mainly located in RCF (25/36, 69.4%: RA 11/25, arterialized vein AV 14/25).

RESULTS

Eleven cases of RA stenosis (prevalence: 11/36, 30.5%; mean degree: 83.5 +/- 15.8%) were found in 11 RCF (mean VA duration 48.9 +/- 76.7 months) of 11 pts (mean age 67.5 +/- 11.5 yr; mean time on HD 54.0 +/- 75.8 months; 18.2% diabetes). Cause of positive evaluation: absolute QA < 700 ml/min 81.8%; NQA > 20% from baseline 18.2%. Mean QA of RCF just before angiography: 532.9 +/- 99.8 ml/min (range, 418-699 ml/min). Stenosis type: Type I (multiple stenoses) 9.1%, type II (isolated stenosis but critical > 90-95%) 36.4% and type III (isolated stenosis 50-90% with normal haemodynamic status of RCF) 54.5%. Followup: stenosis not reparable 36.4% (4/11), elective intervention by surgery 36.4% (4/11), lost of follow-up before intervention 27.3% (2/11 died, 1/11 transplantation). Mean QA of RCF tended to increase from 547.0 +/- 100.6 ml/min just before surgery to 872.3 +/- 526.5 ml/min just after surgery (n = 4, mean DQA = 325.2 +/- 431.3 ml/min (p = 0.068). Comparative study with 14 AV stenosis (mean degree 76.4 +/- 7.4%) in 11 RCF (mean VA duration 16.4 +/- 22.8 months) of 11 pts (mean age 64.3 +/- 10.5 yr; mean time on HD 17.0 +/- 18.9 months; 50% diabetes): higher prevalence of intervention (85.8%) compared to RA stenosis (p =0.011); without differences in degree of stenosis (p = 0.12) and QA before angiography (p = 0.78) or surgery (p = 1.00); mean QA increased significantly after surgery (n = 6 AV, 549.8 +/- 86.4 vs 1,033.0 +/- 216.6 ml/min) (p = 0.028).

CONCLUSIONS

1) One third of cases of VA dysfunction were related to feeding artery stenosis. 2) No differences in functional profile were found between RA and AV stenosis before angiography and surgery. 3) The functional results of elective surgery in RA stenosis were worse compared to AV stenosis.

[Study of vascular access (VA) by color Doppler ultrasonography (CDU). Comparison between delta-H and CDU methods in measuring VA blood flow rate]

INTRODUCTION

The color Doppler ultrasonography (CDU) is a noninvasive vascular access (VA) monitoring technique that provides both structural and hemodynamic information from VA. On the other hand, the delta-H (AH) method is another noninvasive technique that measures the VA blood flow rate during hemodialysis (HD).

OBJECTIVE

1) To analyze some anatomic and functional parameters of VA by CDU. 2) To compare AH and CDU methods in measuring VA blood flow rate.

PATIENTS AND METHODS

We explored the VA (radial arteriovenous fistula AVF 60.6%, brachial AVF 24.2%, femoral graft 15.2%; mean VA duration 33.5 +/- 31.5 months) of 33 stable ESRD (mean age 61.7 +/- 13.3 yr, sex M: 48.5%; F: 51.5%; mean time on hemodialysis HD 39.3 +/- 33.3 months; 9.1% diabetes) patients (pts) by CDU over 3 months period. All CDU examinations were performed off HD by the same radiologist using a 5-10 MHz linear transducer. The arterial and venous blood flow rates were calculated by CDU using the equation: flow (ml/min) = time average velocity (mean of three cardiac cycles) (m/s) x cross-sectional area (mm2) x 60. No VA explored had any sign of dysfunction prior to CDU evaluation. All pts with significant VA stenosis by CDU (> or = 50% reduction in the luminal diameter) were referred for angiography (AG). All functional parameters were measured in duplicate and the values were averaged. In addition, QA was also calculated in the same week by the deltaH method during HD using the Crit Line III Monitor.

RESULTS

Feeding artery (FA) results. Mean FA diameter (FAd): 0.7 +/- 0.2 cm. Mean peak systolic velocity: 161.8 +/- 44.5 m/s. Mean FA blood flow rate (FA flow) (n = 27): 2,030.8 +/-987.1 ml/min. We found a positive correlation between mean FA flow and mean FAd (R2 = 0.39, p < 0.001). Arterialized vein (AV) results. Mean AV diameter (AVd): 0.7 +/- 0.2 cm. Mean AV blood flow rate (AVflow): 1,783.8 +/- 1,009.7 ml/min (range, 398-5,843 ml/min). Mean coefficient of variation for duplicate AV flow measurements: 9.2%. We found a positive correlation between mean AV flow and: mean FAd (R2 = 0.22, p = 0.005), mean FAflow (R2 = 0. 19, p = 0.022) and mean AVd (R2 = 0.14, p = 0.034). Three pts (9.1%) showed significant VA stenosis by CDU and in, all cases, the location and degree of stenoses were confirmed by AG. The mean AVflow was lower in VA with significant stenosis (511.0 +/- 179.1 ml/min) compared to VA without stenosis (1,911.1 +/- 968.7 ml/min) (p = 0.006). The calculated values of VA blood flow rate obtained by the CDU technique (AV flow) were highly correlated with those determined by the AH method (QA) when considering all comparison values (n = 33, ICC = 0.74, p < 0.0001), for AV flow < 2,000 ml/min (n = 23, ICC = 0.82, p < 0.0001) and for AV flow < 1,500 ml/min (n = 14, ICC = 0.73, p = 0.001). No significant difference was found when QA (1,593.8 +/- 645.7 ml/min, range 559-2,778 ml/min) and AV flow were compared (p = 0.082).

CONCLUSIONS

1) The CDU technique is a valuable and reproducible method for AV flow measurement and for early diagnosis of significant VA stenosis. 2) The AV flow is related to FA parameters. 3) Both methods, CDU and AH, correlated highly with each other when were applied on VA blood flow rate measurement.

[Vascular access surveillance with blood flow monitoring: a prospective study with 65 patients]

BACKGROUND

Periodic intra-access blood flow rate (QA) monitoring is the preferred method for vascular access (VA) surveillance (NKF-K/DOQI, update 2000).

OBJECTIVES

1) To determine the ultrafiltration (UF) method accuracy for early detection of VA stenosis. 2) To evaluate the hemodynamic effect of elective VA intervention (angioplasty or surgery). 3) To define the impact of periodic QA monitoring using the UF method combined by elective VA intervention on VA thrombosis.

PATIENTS AND METHODS

We prospectively monitored QA during hemodialysis (HD) in 65 ESRD (mean age 64.9 +/- 11.4 years, 20% diabetes) patients over 1 year period. All patients undergoing HD in the Hospital de Mollet by arteriovenous fistula (89.2%) or graft 10.8%. QA was measured at least every 4 months by the UF method using the Crit Line III Monitor. Fifty (77%) patients were included at the beginning of the study period and the remaining 15 (23%) were added later when they started HD. All patients with absolute QA <700 ml/min or decreased >20% from baseline met criteria of positive evaluation (PE) and were referred for angiography (AG) plus subsequent preventive intervention (angioplasty or surgery) if VA stenosis >50%. We also studied 94 not QA monitored patients since the beginning of the study period (mean age 64.6 +/- 13.7 years; 12.8% diabetes) that undergoing HD simultaneous in the Institut Nefrològic Granollers.

RESULTS

We performed 200 QA measurements in 509 months of follow-up. The overall mean QA was 1176.7 +/- 491.8 ml/min (range, 380.5-2904.0 ml/min). Three patients (4.6%) thrombosed VA. Nineteen (29.2%) patients had PE; none of them clotted VA. The AG was performed in 84.2% (16/19) patients with PE and all of them (16/16) showed VA stenosis > or =50%; 31.2% (5/16) were lost to follow-up (3 death, 2 transplantation); of the remaining explored patients (11/16), 72.7% (8/11) underwent intervention (3 angioplasty, 5 surgery). The mean QA increased from 577.2 +/- 108.2 ml/min to 878.1 +/- 264.4 ml/min postintervention (p=0.005). The positive predictive value, negative predictive value, sensitivity and specificity of UF method for VA stenosis were 84.2%, 93.5%, 84.2% and 93.5%, respectively. VA thrombosis rate in our 50 beginners QA monitored patients (mean age 64.5 +/- 1 1.4 years; 20% diabetes) was lower (2/50, 4%) compared to 94 not QA monitored patients (16/94, 17%) (p=0.024).

CONCLUSIONS

1) QA monitoring using the UF method allows an early diagnosis of VA stenosis. 2) Serial QA measurement by UF method can be used in assessing the functional response to corrective VA intervention. 3) Periodic VA surveillance by QA measurements using the UF method combined with elective intervention results in reduced VA thrombosis.

[Non-invasive monitoring of a humeral arteriovenous fistula with hemodynamic repercussions]

A 70-year-old woman, who undergoing hemodialysis due to chronic pyelonephritis, is reported. She suffered from dyspnea due to pulmonary artery hypertension secondary to volume overload as a complication of high-flow brachial AVF. The combined estimation of vascular access blood flow rate (QA) and systolic pulmonary artery pressure by noninvasive methods (ultrafiltration and Doppler echocardiography, respectively) allowed us the diagnosis, make a surgical indication and post-surgical follow-up of AVF with hemodynamic repercussion.