Tc-99m Dimercaptosuccinic Acid (DMSA) Renal Scintigraphy in Patients with Acute Pyelonephritis

Article information

Korean J Intern Med. 1995;10(1):43-47

doi : https://doi.org/10.3904/kjim.1995.10.1.43

Kang Wook Lee, M.D., Ki Tae Bin, M.D., Min Soo Jeong, M.D., Min Ho Shong, M.D., Young Tai Shin, M.D., Heung Kyu Ro, M.D.

Department of Internal Medicine, College of Medicine Chungnam National University Hospital, Taejon, Korea

Address reprint requests to: Heung Kyu Ro M.D., Department of Internal medicine. College of Medicine, Chungnam National University 640 Daesa-Dong, Chung-Ku, Taejon, 301-040, South Korea

Abstract

Objectives

Recently, several authors reported that Tc-99m DMSA renal scan frequently showed cortical defects of the involved kidneys even in the patients with acute pyelonephritis who did not show abnormal findings in the ultrasonography and intravenous pyelography IVP).

Methods

In order to evaluate the utilities of Tc-99m DMSA renal scan and the clinical meanig of cortical defects in the Tc-99m DMSA renal scan of the patients with acute pyelonephritis, ninety two patients with acute pyelonephritis, from March 1991 to February 1994 in Chungnam National University Hospital(CNUH), were included in this study. Patients were subdivided as Group A:Patients showing normal Tc-99m DMSA renal scan(n=42) and Group B:Patients with definit cortical defects on the Tc-99m DMSA renal scan(n=50). We compared clinical characteristics such as age and sex, recurrency, duration of fever, bacterial culture study, incidence of renal insufficiency and the results of renal ultrasonography and intravenous pyelography between the two groups.

Results

Fifty four percents of 92 patients with acute pyelonephritis showed a significantly longer febrile period after admission, higher positive rates on the urine and blood culture studies and higher incidence of renal insufficiency than those of the Group A patients. Sixty nine percents of Group B patients showed normal results in ultrasonography or IVP study.

Conclusions

Tc-99m DMSA renal scan was a more sensitive imaging test than ultrasonography in kidneys and IVP to detect pyelonephritis lesions and may be useful to predict the patient group with a severe disease course. These patients may need more careful management and further studies to evaluate the possibility of complications.

Keywords: Tc-99m DMSA renal scan; Acute pyelonephritis

INTRODUCTION

Acute pyelonephritis is a common acute bacterial infectious disease of the kidneys accompanying fever, tenderness on the costovertebral angle, and urinary symptoms, such as dysuria, frequency, and can cause renal or perirenal abscess and may leave some sequelae such as cortical scar, hypertension and renal insufficiency. Sometimes, it is not easy to differentiate the upper urinary tract infection from other febrile disease accompanying pyuria.

Recently, many better imaging methods including ultrasonography, intravenous pyelography, computerized tomography and magnetic resonance imaging were developed. However, such diagnostic imaging does not show active pyelonephritic lesions in the kidneys^1,2).

Normally, Tc-99m DMSA used in the static renal scintigraphy accumulates on the renal cortical proximal tubule cells, 2–3 hours after intravenous injection. Tc-99m DMSA has been used in renal imaging to estimate the functional renal mass and relative renal function, especially in pediatric patients with urinary tract infection^3–5). Recently, several authors reported that Tc-99m DMSA renal scan frequently showed cortical defects even in patients with acute pyelonephritis who did not show abnormal findings in the ultrasonography and intravenous pyelography(IVP)^5–10). The pathophysiologic mechanisms about the renal cortical defects of Tc-99m DMSA renal scan in the patients with acute pyelonephritis were not known. But several upkae mechanisms ¹¹⁾ such as 1) direct tubular defect due to bacterial infection¹²⁾, 2) interstitial edema and tubular defect by intratubular aggregation of white blood cells¹³⁾,3) perinephronal capillary occlusion by aggregated inflammatory cells had been postulated¹⁴⁾.

We designed a clinical study to evaluate the utilities of Tc-99m DMSA renal scan and the clinical meaning of cortical defects of the Tc-99m DMSA renal scan in the patients with acute pyelonephritis.

MATERIALS AND METHODS

Ninety two patients with acute pyelonephritis showing typical symptoms and signs such as acute fever, urinary symptoms, tenderness on costovertebral angle areas and pyuria were included in this study from March 1991 to February 1994. But the patients finally diagnosed with chronic pyelonephritis or renal tuberculosis were excluded. Patients with a vesicoureteral reflux or severe obstructive uropathy were also excluded because of the possibility of chronic pyelonephritis.

For the Tc-99m DMSA renal scan, all patients were injected 5mCi of Tc-99m DMSA intravenously and, two or three hours after injection, we took renal images with planar image gamma camera(Siemens Co.) on anterior, posterior, left posterior and right posterior oblique view. All Tc-99m DMSA renal scintigraphys were performed within 1 week after admission.

Patients were subdivided as Group A(n=42): patients showing normal Tc-99m DMSA renal scan, and Group B(n=50):patients with the definite cortical defects on the Tc-99m DMSA renal scan(Fig. 1) We compared clinical characteristics such as age and sex, recurrency, duration of fever, bacterial culture study, incidence of renal insufficiency and the results of renal ultrasonography and intravenous pyelography between the two groups.

Fig. 1.

Tc-99m DMSA renal scintigraphy(posterior view):A. Normal scintigraphy finding. B. 34 year old woman with acute pyelonephritis who complained of pain and tenderness on right costovertebral angle area. Tc-99m DMSA renal scintigraphy showed focal defect(arrow) on right kidney upper portion. However, renal ultrasongraphy and IVP study were normal.

All patients were treated with the same regimens of antibiotics for 2 weeks or more, such as cephalosporin and aminoglycosides. IVP and/or renal ultrasonographic examinations were performed within 1 week before or after Tc-99m DMSA renal scan.

RESULTS

Group A was 42 patients and Group B was 50 patients. Mean age of Group A and B patients was 44.3±16.5(range 19–81) and 46.8±17.5 (range 21–79), respectively(p>0.05). Most of the patients in the two groups were women (Table 1). On past history, the patients who experienced acute pyelonephritis more than two episodes was 11(22%) in Group A and 10(23%) in Group B(p>0.05). Duration of fever(>37.2’C oral)in the pre-admission period was not significantly different between the two groups. However, duration of fever after admission in Group A and B patients were 2.3±1.1 and 3.9±3.3 days, respectively(p<0.05, Table 2-A). White blood cell counts of the blood between the two groups was not significantly different at the time of the admission(p>0.05). Of Group B patients, 7 patients(16%) showed elevation of serum creatinine levels above 1.5mg/dl and that was more frequent than Group A patients(2%)(p<0.01). On the urine microbiologic culture study, 18 patients of 42 Group A patients(43%) showed positive culture results and 38patients of Group B(76%)disclosed positive culture results(p<0.01). Group B patients showed more frequent positive blood culture results(23%)than Group A patients, significantly(p<0.01, Table 2-B). Most of pathogen in blood and urine was E. coli.

Table 1.

Distributions of Age and Sex in the Group A and B Patients with Acute Pyelonephritis

Table 2-A.

Clinical Characteristics of the Patient Group A and B

Table 2-B.

Clinical Characteristics of the Patient Group A and B

IVP examinations were performed on 55 patients of all patients with acute pyelonephritis. Of Group A patients, 18 patients were given IVP study but there was no abnormality. Of Group B patients, 37 patients were gvien IVP study and 11 patients(30%) showed abnormalities. Among the 11 patients with abnormalities in the IVP study, delayed renal opacification was noted in 6 patients, calyceal blunting in 3 patients, double ureter and mild hydronephrosis in one patient, each respectively(Table 3-A.).

Table 3-A.

IVP Results of the Patient Group A and B

The kidney ultrasonographic examinations were performed on 69 patients. Of 34 Group A patients, only 3 patients(8%) showed abnormalities such as two cases of enlarged kidneys and one case of focal irregular increased renal echogenicity. However, 11 patients of 35 Group B patients(31%) disclosed abnormal results. six patients showed enlarged involved kidneys, 3 patients focal increased echogenicities and one patient showed an irregular renal cortical margin and the other a mild hydronephrosis(Table 3-B.).

Table 3-B.

Kidney Ultrasonographic Abnormalities of the Patient with Acute Pyelonephritis

Therefore ultrasonographic abnormalities in the Group B were significantly more frequent than Group A patients(P<0.05).

DISCUSSION

Acute pyelonephritis is a kind of bacterial infection of the upper urinary tract and sometimes it is not easy to differentiate it from the lower urinary tract infection. Although Ga-67 scan^15,16) can be used in the diagnosis of acute bacterial infection in the kidneys, it takes usually two or three days or more to get the scan image and there are many conditions of abnormal renal Ga-67 accumulation such as acute interstitial nephritis, renal abscess, perirenal abscess, tumor and glomerunonephritis. Tc-99m DMSA is an chelating radiopharmaceutical accumulating in renal proximal tubule cells³⁾. Tc-99m DMSA renal scan can be performed easily within several hours. After Davis et al⁵⁾ firstly reported clinical utilities of Tc-99m DMSA or Tc-99m glucoheptonate renal scan in patients with urinary tract infections, both renal scanning radiopharmaceuticals heve been commonly used as static renal imaging agents. The uptake ratio of renal cortex vs. medulla in Tc-99m DMSA scan is known as 22:1^3,5). Tc-99m DMSA renal scan has been used also on peiatric patients to estimate the functional mass in kidneys with vesicoureteral reflux^17,18). There are only a few reports about Tc-99m DMSA renal scan in adult patients with acute pyelonephritis^5,6,7). Although exact mechanisms were not known, several pathophysiologic mechanisms^11–14) about renal cortical defects on Tc-99m DMSA renal scintigraphy-1) direct tubular renal cortical defects on Tc-99m DMSA renal scintigraphy-1) direct tubular defect due to bacterial infection, 2) interstitial edema and tubular dysfunction by intratubular aggregation of white blood cells, and 3) perinephronal capillary occlusion by aggregated inflammatory cells were postulated. Because these conditions may decrease focal renal perfusion in an involved area, that may cause focal cortical defects. Majd et al¹⁹⁾ and Wikstad²⁰⁾ reported that Tc-99m DMSA renal scan could detect early focal ischemic lesions of the renal cortex defore functional tubular cell defects developed. Of course, other space-occupying lesions, such as renal tumor, cyst and scar, can induce focal renal cortical defects in Tc-99m DMSA renal scan.

Some authors²⁾ reported that less than 25% of the patients with acute pyelonephritis showed some abnormalities, such as focal decreased opacification, enlarged kidney or hydronephrosis in the IVP study. In the renal ultrasonography, most patients with acute pyelonephritis showed also nonspecific results unless there were obstructive uropathy, vesicoureteral reflux, abscess or other mass lesions¹⁾. In this study, 25% of the patients with the acute pyelonephritis showed abnormal results of IVP and most of them were delayed opacifications. Only twentyfive percent of the patients showed abnormalities in the renal ultrasonographic examination. Most of abnormalities on the renal ultrasonography were enlarged kidneys and focal increased echo-genicity in the involved kidneys. These abnormalities on the IVP or renal ultrasonographic examinations were more frequently found in Group B than Group A patients. Therefore, we thought that IVP or ultrasonography may be only useful to evaluate the complications or underlying anatomical urinary tract abnormalities.

The incidence of renal cortical defects on the Tc-99m DMSA renal scan performed on patients with acute pyelonephritis is variable. Rushton et al⁸⁾ reported that the sensitivity and specificity of Tc-99m DMSA renal scan for the detection of acute pyelonephritis in experimental animal study were 91% and 98%, respectively. In this study, 47 of 92 acute pyelonephritis patients showed unilateral cortical defects and 3 patients had bilateral defects. Therefore, the total incidence of cortical defects was 54% in this study. This is somewhat lower than those of the other studies ^6,7). We thought that the reason for this low incidence rate is due to low resolution power of our single head planar gamma camera and exclusion of the patients with vesicoureteral reflux, obstructive uropathy and patients with chronic pyelonephritis. One study⁷⁾ using SPECT(single photon emission computerized tomograpy)in Korea showed 83% of sensitivity in acute pyelonephritis.

All patients included in this study recovered completely and even the patients showing transient renal insufficiency or bacteremia showed the recovery of the renal function also. The patients showing cortical defects(Group B)disclosed a longer febrile period after admission, higher positive rates of the urine and blood culture study, higher incidence of renal insufficiency significantly than those of Group A patients. Therefore we thought that Tc-99m DMSA renal scan in the acute pyelonephritis may predict the patients group with more severe disease course and the cortical defects may suggest the focal functional defects insted of anatomical lesions. Because we did not perform follow up Tc-99m DMSA renal scintigraphy, we could not examine whether the cortical defects could disappear or not after recovery. Mok et al⁶⁾ and Ryu et al⁷⁾ reported that the patients who initially showed focal cortical defects in the involved kidneys showed a tendency of resolution of cortical defects several weeks after clinical recovery.

In summary, Tc-99m DMSA renal scan was a more sensitive imaging test than ultrasonography and intravenous pyelography to detect pylonephritis lesions and may be useful to predict the patient group with severe disease course. These patients may need more careful management and further studies to evaluate the possibility of complications.

References

1. Schneider M, Becker JA, Staiano S. Sonographic-radiographic correlation of renal and perirenal infections. Am J Roentgenol 127:1007. 1976;

2. Little PJ, McPherson DR, de Wardener HE. The appearence of the intravenous pyelogram during after acute pyelonephritis. Lancet 1:1186. 1965;

3. Kawamura J, Hosokawa S, Yoshida O. Validity of Tc-99m DMSM renal uptake for an assessment of individual kidney function. J Urol 119:305. 1978;

4. Conway JJ. The role of scintigraphy in urinary tract infection. Semin Nucl Med 18(4):308. 1988;

5. Davies ER, Roberts M, Roylance J. The renal scintigram in pyelonephritis. Clin Radiol 23:370. 1972;

6. Mok CS, Shin DJ, Choi HC, Kim GW, Lee KW, Choi DS. Clinical significance of Tc-99m DMSA renal scan in patients with acute pyelonephritis. Kor J Nucl Med (Korean Ed.) 23(2):201. 1989;

7. Ryu JS, Bae WG, Moon DH, Lee MH, Kim SB, Park JS, Hong CG, Cho KS. Triple detector SPECT imaging with Tc-99m DMSA in adult patients with urinary tract infection. Kor J Nucl Med (Korean Ed.) 26(2):290. 1992;

8. Rushton HG, Majd M, Chandra R, Yim D. Evaluation Tc-99m-dimercaptosuccinic acid renal scan experimental acute pyelonephritis in piglets. J Urol 140:1169. 1988;

9. Majd M, Rushton HG. Renal cortical scintigraphy in the diagnosis of acute pyelonephritis. Semin Nucl Med 12(2):98. 1992;

10. Handmaker H. Nuclear renal imaging in acute pyelonephritis. Semin Nucl Med 12:246. 1982;

11. Hill GS, Clark RL. A comparative angiographic, microangiographic and histologic study of experimental pyelonephritis. Invest Radiol 7:33–47. 1972;

12. Roberts JA, Ruth JK Jr, Dominique GJ. Immunology of pyelonephritis in the model V. Effect of superoxide dismutase. J Urol 128:1394. 1982;

13. Androulakakis PA, Ransley PG, Risdon PA. Microvascular changes in the early stage of reflux pyelonephritis. An experimental study in the pig kidney. Eur Urol 13:219. 1987;

14. Haack MB, Dowling KJ, Patterson SM. Immunology of pyelonephritis VIII, E Coli causes granulocyte aggregation and renal ischemia. J Urol 136:1117. 1986;

15. Hurwitz SR, Kessler WO, Alazlaki NP. Gallium-67 imaging to localize urinary tract infections. Br J Radiol 49:156. 1976;

16. Frankel RS, Richman SD, Levenson SM. Renal localization of Galium-67 citrate. Radiology 114:393. 1975;

17. Moon TY, Son HJ, Kim IJ, Yoon CB, Lee SH, Kim BS. Tc-99m DMSA scintigram for renal functional recovery after therapy in infants and children. Kor J Nucl Med(Korean Ed.) 28:1. 1994;

18. Itoh K, Asano Y, Tsukamoto E, Kato C, Nakada K, Nagao K, Furudate M, Gotoh T. SPECT with Tc-99m DMSA in patient with upper UTI and/or vesicoureteral reflux. Ann Nucl Med 5(1):29. 1991;

19. Majd M, Rushton HG, Chandra RS. Focal intrarenal blood flow changes in experimental acute pyelonephritis in piglet. Radiology 177:142. 1990;

20. Wikstad I, Hannerz L, Karlsson A, Ekloef A, Olling S, Alperia A. Tc-99m dimercaptosuccinic acid scintigraphy in the diagnosis of acute pyelonephritis in rats. Pediatr Nephrol 4:331. 1990;

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Fig. 1.

Table 1.

Distributions of Age and Sex in the Group A and B Patients with Acute Pyelonephritis

	Group A (n = 42)	Group B (n = 50)	p Value
Mean age(years)	44.3±16.5	46.8±16.5	>0.05
Range(years)	19–81	21–79
M/F ratio	1/41	3/47

Table 2-A.

Clinical Characteristics of the Patient Group A and B

	Group A (n=42)	Group B (n = 50)	p Value
No. of patients with multiple attack	11(22%)	10(23%)	p>0.05
Duration of fever
pre-admission(days)	3.9±3.3	5.8±5.3	p>0.05
post-admission(days)	2.3±1.1	3.9±3.3	p<0.05

Table 2-B.

Clinical Characteristics of the Patient Group A and B

	Group A	Group B	p Value
WBC count on CBC(× 10³/mm³)	12.4±5.3	13.6 ±4.6	p>0.05
No. of patients with combined renal failure (s-Cr>1.5mg/dl)	1 (2%)	7(16%)	p<0.01
No. of patients with urine culture +	18/42(43%)	38/50(76%)	p<0.01
blood culture +	3/38(8%)	8/35(23%)	p<0.01

Table 3-A.

IVP Results of the Patient Group A and B

Results of IVP	Group A No. of Pt(%)		Group B No. of Pt(%)
Abnormal	0(0)		11(30)
Delayed opacification		6
Calyceal blunting		3
Double ureter		1
Mild Hydronephrosis		1
Normal	18(100)		26(70)

Total	18(100)		37(100)

Table 3-B.

Kidney Ultrasonographic Abnormalities of the Patient with Acute Pyelonephritis

Ultrasonography Findings	Group A No. of Case (%)		Group B No. of Case (%)
Abnormalities	3(8)		11(31)
Enlarged involved kidney	2	6
Focal increased echogenicity	1	3
Irregular cortical margin		1
Mild hydronephrosis		1
Normal	31(92)		24(69)

Total	34(100)		35(100)