Departments of Internal Medicine, 1 Division of Angiology, Kantonsspital, Frauenfeld, 2 Division of Angiology, University Hospital, Basle and 3 Division of Nephrology, Kantonsspital, Frauenfeld, Switzerland
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Abstract |
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Methods. Fifty-three subjects made up three groups: group 1, 12 young healthy volunteers (5 male, 7 female, 28±6 years); group 2, 21 older healthy volunteers (7 male, 14 female, 62±8 years); group 3, 20 patients (13 male, 7 female, 56±18 years) with mild diabetic nephropathy. The resistive index (RI) was measured in the interlobar arteries before, and 1, 3 and 5 min after administration of 0.8 mg sublingual nitroglycerine.
Results. The initial RI of 0.592 decreased in group 1 by 10.8% (P<0.01) after nitroglycerine, in group 2 the initial figure of 0.631 decreased by 5.9% (P<0.01), and in group 3 the initial figure of 0.669 decreased by 3.4% (P<0.01). Initial RI values differed significantly between groups 1 and 3 (P<0.01) and groups 1 and 2 (P<0.01), as did values between all healthy volunteers (groups 1 and 2, n=33) and patients with nephropathy (P<0.005). The extent of RI differed significantly between groups 1 and 3 (P<0.01), 1 and 2 (P<0.02), and between all volunteers and group 3 (P<0.003). In groups 1 and 2 the initial RI was dependent on age (P<0.03), in group 3 on age and creatinine clearance (P<0.02 and P<0.05 respectively).
RI correlated with age in the healthy subjects (P<0.01) and with duration of diabetes in diabetic nephropathy (P0.03).
Conclusions. Haemodynamic changes in renal perfusion caused by nitroglycerine can be detected using duplex ultrasonography. In healthy subjects, RI declines with increasing age. In diabetic nephropathy patients, the response to nitroglycerine is reduced. The increased initial RI in such patients suggests fixed arteriolar damage.
Keywords: age; diabetic nephropathy; duplex Doppler ultrasonography; nitric oxide; nitroglycerine; resistive indices
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Introduction |
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In addition to its effects on the heart, nitroglycerine causes vasodilatation of the arterioles, with reduction of peripheral resistance and a drop in systolic and diastolic blood pressure [2]. In recent years, there have been many reports of experimental and clinical trials regarding nitric oxide (NO) or endothelium-derived relaxing factor, the mediator of the action of nitroglycerine to the blood vessels [3]. One hypothesis, that in the early stages of diabetic nephropathy an NO-mediated dilatation of the vas afferens results in glomerular hyperfiltration followed by proteinuria, is worth noting [4,5].
For some years, duplex ultrasonography has provided an easily applicable and non-invasive method for investigating renal haemodynamics, which could, in principle, be appropriately used for evaluation of the effect of nitrate on the kidneys. The method is well established for investigating renal artery stenosis and for measuring vascular resistance in the renal parenchyma using various resistive indices [6,7]. The resistive indices determined using duplex ultrasonography are also used for diagnosis of dysfunction following kidney transplantation [8]. Pathologically high resistive indices also appear to be of negative prognostic significance with respect to recovery or improvement of the blood pressure in cases of renal revascularization procedures [9]. Increased intrarenal resistive indices have recently been shown as a function of creatinine clearance, age, and duration of diabetes in cases of diabetic nephropathy [10].
The aim of this study was threefold: firstly to find out whether duplex ultrasonography could be used to detect the changes in renal haemodynamics after administration of nitroglycerine, secondly to ascertain the parameters on which any change in these resistive indices is dependent, and thirdly to determine whether the change in resistance is less evident in patients with diabetic nephropathy because of the existing arteriolar dilatation caused by NO, mentioned above.
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Patients and methods |
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The following inclusion and exclusion criteria were used. For all groups, written declaration of consent and current good health was required.
Group 1, young, healthy volunteers: aged between 16 and 40 years, no history of or clinical indications of kidney disease. Exclusion criteria were arterial hypertension (values detected before, during and 24 h after duplex ultrasonography of over 150 mmHg systolic and 95 mmHg diastolic), smoking, diabetes mellitus, taking any medication except for hormonal contraceptives, and a kidney size of less than 9 cm. Twelve volunteers were finally included, the relevant characteristics of whom are listed in Table 1.
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Group 3, patients with diabetic nephropathy: diabetes mellitus type 1 or 2 [11], age 1781 years, mild to moderate proven nephropathy (serum creatinine <120 µmol/l, serum urea <8.5 mmol/l), combined with proteinuria, either detected as macroalbuminuria >0.041.0 g/24 h (Preciset® U/CSF Protein, photometric determination of protein after precipitation with trichloroacetic acid, Boehringer Mannheim, Germany), or, if the Preciset test was negative, as microalbuminuria, inclusion value >20 mg/l (Turbiquant®, photometric determination of the albumins on immunochemical reaction with specific antibody, detection limit 6 mg/l, Behring Diagnostik GmbH, Germany). Exclusion criteria were unstable diabetic metabolic status with blood glucose values of <4 or more than 15 mmol/l in the 48 h immediately prior to duplex ultrasonography, arterial hypertension, treatment with antihypertensives (exception, diuretics for mild heart failure), treatment with ACE inhibitors, prostaglandin synthesis inhibitors (exception: acetylsalicylic acid, 100 mg/day), smoking, creatinine clearance below 50 ml/min/1.73 m2 (determined by the Cockcroft formula [12]), kidney size less than 9 cm, or morphological abnormalities detected with duplex ultrasonography. An orientational preliminary selection yielded primarily 36 possible patients, 20 of these were included in the study. The chronic medication prescribed for seven patients (platelet aggregation inhibitors, diuretics, beta blockers) was stopped at least 24 h prior to the duplex ultrasonographic investigation and were not given again until after the ultrasonography. The patients' characteristics are shown in Table 1.
Duplex ultrasonographic measurements before and after administration of nitroglycerine
The measurements were commenced after 10 min rest in a horizontal position. All the examinations were performed by two experienced investigators (BF, PN) with an Acuson 128 XP 10 ultrasound unit (Acuson Corporation, Mountainview, CA, USA) using a 3.5 MHz or 4 MHz vector array transducer with wall-filter setting of 50 Hz. After recording pulse and blood pressure, the first measurement was the size of the left and right kidney. For orientation purposes, perfusion in the whole of the left and right kidneys was then checked using colour duplex ultrasonography and the main trunk of the renal artery was displayed. If the orientational duplex ultrasonography did not reveal any abnormalities in size or perfusion, three measurements each were taken within 5 min in the vicinity of the interlobar artery at the boundary of the centre of the kidney and the upper pole on the right side, using pulsed Doppler. To this end, the pulsed Doppler measured volume was located in the interlobar artery and the Doppler angle corrected in accordance with the course of the artery (a maximum of 60°). The maximum systolic and minimum diastolic flow rate was recorded in centimetres per second.
Subsequent to these first three measurements, the volunteers or patients were given two puffs of sublingual nitroglycerine (2x0.4 mg glyceryl trinitrate, Nitrolingual® Spray, Pohl-Boskamp, Germany). A first Doppler measurement was taken 1 min after administration and repeated after 3 and 5 min at the same place. Pulse and blood pressure were measured again 3 min after administering the drug. Any adverse reactions were noted.
Calculation of the resistance parameters
The resistive index (RI) according to Pourcelot [13] was calculated on the basis of the following formula:
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Since all the pulse measurements were between 52 and 90 beats per minute, the correction recommended by Mostbeck et al. for bradycardic or tachycardic values was not implemented [14].
Accuracy
To determine the accuracy of the RI measurements in our laboratory, we performed on 10 healthy volunteers an intra- and interobserver variability test with two blinded investigators. The two measurements were taken within 1 week and revealed an intraobserver variability of 3.5 and 5.1% respectively, and an interobserver variability of 4.7%.
Statistical analysis
Data input, basic evaluations, and graphic representations were carried out using Excel 97 table calculation program (Microsoft® Corporation, Bellevue, WA, USA). The Statistical Package for the Social Sciences (SPSS® Inc. Chicago, IL, USA) was used for more detailed statistical calculations. The data were checked for normal distribution (Q-Q plot) and combined as mean±SD. One-way ANOVA was used to calculate the differences between groups 1, 2 and 3. The paired t-test was used for analysis of the values before and after administration of nitroglycerine within the same group. Correlation calculations were performed using Pearson's test and multiple linear regression. The null hypothesis was tested at the significance level P<0.05.
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Results |
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Differences between groups 1, 2 and 3
The starting RI and RI values differed significantly between groups 1 and 3 (P<0.01 and. P<0.001 respectively). RI and RI reduction differed significantly also between groups 1 and 2 (P<0.01 and P<0.02 respectively) but not between groups 2 and 3 (P=0.071 and P=0.077 respectively). If all healthy volunteers were compared to all DN patients (n=33 vs 20, age 50±18 vs 56±18 years, n.s.) again significant differences for RI and
RI were found (0.616±0.042 vs 0.669±0.086 before,
RI 7.7 vs 3.4% after nitroglycerine, P<0.005 for initial RI and P<0.003 for
RI). Figure 1
illustrates the different response to nitroglycerine in diabetic nephropathy patients compared to the healthy volunteers.
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The starting RI and RI as a function of various parameters
Table 3 shows the different factors influencing starting RI and
RI. Significant correlations exist between age and RI and
RI in healthy subjects, between age and RI and creatinine clearance and RI in diabetic nephropathy, and between duration of diabetes and
RI.
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Pulse and blood pressure behaviour
As was expected, the systolic blood pressure in group 1 fell slightly but significantly by 3.4% after administration of nitroglycerine (P<0.01). Among the healthy older subjects, the decrease in blood pressure was slightly more marked with respect to systolic pressure, at 4.3% (P<0.01); the diastolic decrease was not significant. In the patients with nephropathy, nitroglycerine caused a decrease in blood pressure of 3.0%, n.s.; the decrease in diastolic pressure of 0.3% was also not significant. In none of the groups was pulse statistically affected.
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Discussion |
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The parameter used in this paper to grade the intrarenal resistance, resistive index, or RI, represents the intrarenal resistance downstream of the measuring site and is the easiest of all the known resistance parameters to record [8]. The reproducibility of the RI measurements is demonstrated by our own intra- and interobserver variability results and data in the literature [6,15]. Despite the small absolute values of RI, the relative reduction of 50% and more between our different groups yields clear statistical results.
The starting values we recorded in our healthy volunteers compare well with figures from the literature. A statistically significant correlation between age and RI was found in this population. This relationship is known [16,17]. Blood pressure also correlates with age in these subjects. This fact was recently confirmed by Jacquet et al. in a larger population [18]. It is possible that the increased resistance parameter already represents arteriolar dysfunction or minimal arteriolar damage, even in older subjects who are still normotensive by definition.
The phenomena observed after administration of sublingual nitroglycerine are particularly interesting. We know of no study to date which has used duplex ultrasonography to investigate the influence on renal haemodynamics of this drug, which is frequently administered for cardiac indications. The rapid change in RI corresponds to the known rapid cardiac effect, which can be expected within 13 min [1].
The action measured by the fall in RI can probably be explained by a reduction in the tension of the resistive vessels, i.e. the afferent arterioles. The direct effects of this dilatation on the vas afferens are only partially known. In the rat kidney, nitroglycerine leads to increased renal plasma flow with a non-significant increase in glomerular filtration rate [19]. Inhibition of sodium transport by nitric oxide also results in increased elimination of sodium in the urine [20]. Bank and Aynedjian, in 1993, showed that inhibition of nitric oxide synthesis in healthy rat kidneys results in both a decrease in renal blood flow and in a reduction in the glomerular filtration rate [21]. Although it remains hypothetical in the final analysis, it could well be assumed that by lowering resistance at the vas afferens, nitroglycerine probably contributes to increased renal blood flow, increased glomerular filtration, and increased natriuresis. The clinical significance of this mechanism remains unknown at present.
In comparison with the healthy subjects, patients with mild diabetic nephropathy exhibit a limited reactivity to nitroglycerine, which depends on the duration of the diabetes. However, in addition the starting RI values are to be higher, thus confirming the results obtained by Ishimura et al. [10]. We presume that the higher starting RI as well as the decreased RI in patients at an early stage of nephropathy are influenced more by ultrastructurally probable glomerular damage and perhaps arteriolosclerosis than by pre-existing submaximal vasodilatation by nitric oxide [10,22]. It is worth noting that the RI decrease in the diabetic subjects does not depend on chronological age but on the duration of the diabetes. This is a further indication of a disease-specific restriction of responsiveness to nitroglycerine.
The existing figures in the literature for resistive indices in healthy volunteers and also in cases of diabetic nephropathy were confirmed. Although the clinical significance is actually unknown, the study reveals additional interesting phenomena of renal haemodynamics induced by nitroglycerine. Furthermore, it proves that duplex ultrasonography is also suitable for recording changes during therapy or in physiological studies.
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Acknowledgments |
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Notes |
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References |
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