Diagnosing a ureteral colic is sometimes difficult; however, clinicians should not fail to detect a surgical emergency. This is why diagnostic strategies depend on the imaging examinations, especially ultrasound. Prior studies have investigated the accuracy of Point of Care Ultrasound (PoCUS), but there are relatively few. This study aimed to evaluate the performance of the PoCUS in the diagnosis of renal colic. The secondary objective was to evaluate the relationship between the imaging results and the treatment performed.
Methods
After the clinical evaluation of patients aged > 18 years with suspected ureteral colic, the Emergency Physician (EP) trained in ultrasound performed PoCUS to conclude whether a diagnosis of “renal colic” should be made. A computed tomography (CT) examination was subsequently performed, to determine whether ureteral or bladder lithiasis was present to diagnose a ureteral colic. The patient’s management was decided according to the to degree of urinary tract dilatation, presence of perinephric fluid, size, and localization of stones.
Results
Of the 12 Eps in our units, seven met the training criteria for the inclusion of patients. A total of 103 patients were analyzed, and the renal colic diagnosis was retained in 85 cases after the CT examination. The accuracy of PoCUS was 91% (86; 95%) for detecting urinary tract dilatation, 83% (76; 90%) for detecting perinephric fluid, and 54% (44; 64%) for detecting lithiasis. Only high urinary tract stones with ≥ 6 mm diameter were surgically managed (p < 0.01). Conversely, distal ureteral stones with a diameter of < 6 mm were managed with medical ambulatory treatment (p < 0.05).
Conclusion
PoCUS is a good diagnostic tool, for renal colic, and could help reduce the requirement for the CT examinations and, hence, reduce induced radiation exposure.
Hinweise
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Abkürzungen
EP
Emergency physician
BUS
Bedside ultrasound
CT
Computerized tomography
PPV
Positive predictive value
NPV
Negative predictive value
Se
Sensitivity
Sp
Specificity
Introduction
Ureteral colic, which is usually revealed by the occurrence of acute lumbar or abdominal pain accounts for 1–5% of the admissions in emergency Unit [1]. Some of its clinical symptoms are similar to those of other pathologies, such as appendicitis, renal infarction, or aortic aneurysm fissuration. Furthermore, in 5% of the cases, ureteral colic is complicated by condition, such as obstructive acute renal failure, suppurated urinary retention, and rupture of the urinary tract, and may require emergency drainage [2, 3]. This is why imaging is often necessary from the initial stage of the patient’s management. Computed tomography (CT) without the injection of a contrast agent is the gold standard imaging modality; however, its reasonable use is necessary owing to the involved radiation exposure [4]. Moreover, CT equipment or a radiologist is not always immediately available [5]. Point of Care Ultrasound (PoCUS), performed by the emergency physician (EP), eliminates these drawbacks; however, its reliability remains to be demonstrated [6, 7].
In addition, although imaging is recommended, the impact on patient management is unclear [8‐10].
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Therefore, the aim of this study was to compare the performance of PoCUS performed by the emergency physician relative to a CT scan interpreted by a radiologist.
The secondary goal was to evaluate the impact of the imaging findings on the patients management.
Patients and methods
Study design
This was a 1-year, single-center, prospective observational study in an emergency unit recording 19,000 visits per year.
Ethic approval statement
The study protocol was approved by ethics Committee of our institution (PV 170216), according to the Jardé law (France). The IRB (Institutional Review Board) considered that the standard of care was not modified. Indeed, in our institution, we did not have access to ultrasound performed by a radiologist. That is why CT scan was the first line examination in case of suspected nephritic colic.
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Patients
Any patient aged ≥ 18 years old presenting at the emergency department with a nontraumatic pain suggesting a ureteral colic (i.e., lumbar and/or pelvic pain that suddenly appeared, with or without pollakiuria and hematuria) was considered eligible, by EP. Patients were included if their attending physician was trained in clinical ultrasound.
Physician qualification was based on the completing a 5-day theoretical and practical training session at a certified center, followed by 18 months of e-learning. This course was in accordance with the recommendations of the American College of Emergency Physicians [11].
Pregnant women and patients with the previous imaging examinations were excluded. Patients who did not have an imaging session or without imaging report were also excluded.
Clinical–biological data
After the patient interview and clinical examination, the patients received an analgesia and underwent routine blood and urinary examinations.
The EP searched for dilatation of the pyelocalyceal cavities,which was graded according to severity, as follow: grade 1, pyelic dilatation alone; grade 2 with confluent calyceal dilatation of > 1 cm; grade 3 same as grade 2, but with a confluent dilatation of 1.5 cm diameter; grade 4 same as grade 3, but with additional cortical thinning. Grade 3 or 4 dilatation was considered severe [12]. An equal focus was given to detect peri-renal effusion, which indicates a rupture of the excretory tract.
The proximal ureter was evaluated to detect lithiasis in the pyelo-ureteral junction. The EP also ultrasonologically examine the area next to the iliac vessels and the supra pubic region, to detect lithiasis in the iliac or pelvic ureter, or in uretero-vesical meatus (Figs. 1 and 2).
×
×
The ultrasound examination also included the detection of peritoneal effusion and measurement of the abdominal aortic caliber to exclude an aneurysm.
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Once PoCUS was completed, the EP wrote a report of the examination findings, including: the degree of dilatation, presence, or absence of lithiasis including the size and location of stone, if present; and the presence or absence of perinephric fluid. Finally, the EP concluded whether the patient had “ureteral colic or not”.
The diagnosis of ureteral colic was retained when ureteral lithiasis with or without an upstream dilatation or bladder lithiasis was detected on CT. It was also retained if the expulsion of the stones had been clinically confirmed.
Judgment criteria
The primary end point of the study was the diagnostic agreement rate between PoCUS and CT.
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The secondary objective was to evaluate the relationship between the result of the ultrasound examination and the treatment performed.
Statistical analysis
A physician not involved in the study, but collected the results of the examinations (PoCUS and CT scan) for analysis and comparison.
To assess the impact of imaging on treatment, a Fischer’s exact test was performed for severe dilatation of the urinary tract, perinephric fluid, and size and location of stones, with a significance level set at 0.05.
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Results
Patient characteristics
Of the 12 EPs on duty, seven met the training criteria for the inclusion of patients.
A total of 184 patients suspected to have renal colic from July 2017 to June 2018 were eligible, and 103 patients were finally analyzed (Fig. 3). The patients’ demographic data are reported in Table 1.
Table 1
Characteristics of patients with confirmed ureteral colic
Ureteral colic (n = 85)
Differential diagnosis (n = 18)
Age years (mean ± standard deviation)
52.1 ± 15.9
52 ± 12.3
Sex
Female
28 (33%)
11 (61%)
Male
57 (67%)
7 (39%)
Antecedents
Ureteral colic
38 (44%)
6 (33%)
Uropathy
6 (7%)
4 (22%)
Pain relief
Level 1
44 (52%)
8 (44%)
Level 2
11 (13%)
5 (28%)
Level 3
28 (34%)
5 (28%)
NA
2 (2%)
0
Pain duration before admission
< 6 h
51 (60%)
4 (22%)
6–24 h
6 (7%)
5 (28%)
> 24 h
20 (24%)
9 (50%)
NA
8 (9%)
0
Size of stone, mm
< 6
60 (70%)
0
> 6
25 (30%)
0
Location of stone
Pyelo-ureteral junction
7 (8%)
0
Lumbar ureter
21 (25%)
0
Lower third of the urinary tract
57 (67%)
0
Hospitalization
16 (18%)
2 (11%)
NA, not applicable
×
Main results
Clinical and ultrasound examinations revealed that 18 patients were mistakenly suspected of having ureteral colic. Further, in 15 of these 18 patients, ultrasound examinations mainly found pyelocalyceal dilatation. The diagnoses after the CT were as follow: pyelonephritis (n = 4), kidney neoplasia (n = 1), adrenal hematoma (n = 1), renal cyst (n = 1), prostatism (n = 1), uncomplicated diverticulitis (n = 2), uncomplicated appendicitis (n = 1), nonspecific inflammation of the digestive tract (n = 2), uncomplicated ovarian cyst (n = 1), nonspecific abdominal pain (n = 3), and low back pain (n = 1). PoCUS detected one case of ovarian cyst and one case of diverticulitis. Before CT, ultrasound examinations did not exclude any diagnosis of ureteral colic. The PoCUS finding compared to CT are reproted in Table 2.
Table 2
PoCUS findings compared to CT
CT
Pyelo-caliceal dilatation +
Pyelo-caliceal dilatation −
Total
PoCUS
Pyelo-caliceal dilatation +
83
5
88
Pyelo-caliceal dilatation −
4
11
15
Total
87
16
103
CT
Perinephric fluid +
Perinpehric fluid −
Total
PoCUS
Perinephric fluid +
12
8
20
Perinephric fluid −
9
74
83
Total
21
82
103
CT
Stone +
Stone −
Total
PoCUS
Stone +
34
2
36
Stone −
45
22
67
Total
79
24
103
Eight patients diagnosed with renal colic had no ureteral lithiasis on CT, but had pyelocalyceal cavity dilatation. Six of them had bladder lithiasis and two had spontaneous elimination of stones between the PoCUS and CT examinations.
The performance of PoCUS in detecting the abnormalities sought as compared to CT is reported in Table 3.
Table 3
Summary of diagnosis performance of PoCUS
Pyelocalyceal dilatation
Lithiasis
Perinephric fluid
Se [95% CI]
95 [89–100]
43 [32–54]
57 [36–78]
Sp [95% CI]
68 [58–77]
92 [80–100]
90 [83–97]
PPV [95% CI]
94 [88–99]
94 [87–99]
60 [38–81]
NPV [95% CI]
73 [63–82]
33 [21–44]
89 [82–95]
A [95% CI]
91 [86–95]
54 [44–64]
83 [76–90]
Se, sensitivity; Sp, specificity; PPV, positive predictive value; NPV, negative predictive value; A, accuracy
Among the 85 patients diagnosed with ureteral colic, 43 had lithiasis not detected on ultrasound (14 in the bladder–ureteral junction, six in the pelvic ureter, 21 in the lumbar ureter, and two in the proximal ureter) (Table 4).
Table 4
Patients’ management and imaging findings on CT
Pathological imaging findings
Surgical management < 24 h (n = 16)
Ambulatory management (n = 69)
Total (n = 85)
p
Perinephric fluid
9
12
21 (24%)
< 0.05
Severe pyelocalyceal dilatation
6
9
15 (17%)
< 0.05
Location and size of stones
Proximal > 6 mm
12a
4
16 (19%)
< 0.05
Proximal < 6 mm
2
10
12 (15%)
1
Distal > 6 mm
2
7
9 (10%)
0.67
Distal < 6 mm
0
48
48 (56%)
< 0.05
aThree patients who initially received ambulatory treatment were readmitted within 48 h and underwent surgical treatment
Sixteen patients underwent surgical treatment in the emergency setting, three of whom had ureteral obstruction and urinary sepsis (Table 3).
Among the nine patients who presented with pelvic stones > 6 mm, two underwent urgent drainage. Among the seven remaining patients, four were secondarily treated with extracorporeal lithotripsy.
Among the 69 outpatients, 3 (4%) had a secondary readmission for a recurrent pain and four others underwent delayed lithotripsy.
Discussion
This study assesses the performance of PoCUS compared with CT in the simultaneous detection of urinary tract dilatation, lithiasis, and perirenal effusion. Our results suggest that ultrasound allows the reasonable use of CT a secondary intervention when the ultrasound findings are inconclusive.
In this work, the accuracy of PoCUS in detecting a pyelocalyceal dilatation was 91%. This is comparable to what is reported in the literature, regardless of whether the examination was performed by an EP or a radiologist [13‐15]. Overestimations occur owing to the difficulty posed by structure, such as Malphigi pyramids, para-pyelic cysts, or cortical cysts, which can be incorrectly interpreted as a dilatation of the urinary tract (not central confluents findings). Moreover, ultrasound examinations were performed ≤ 6 h after the beginning of symptoms in 50% of the patients, explaining the false negative results due to delayed dilatation. Meanwhile, the dilatation found on ultrasound was sometimes due to other diseases such as appendicitis, colic inflammation, and kidney or pelvic mass. However, PoCUS did not exclude the diagnosis of renal colic. It would require widening the exploration of the digestive tract, with a high-frequency probe.
The accuracy of BUS in detecting a perinephric fluid was 83%, and we found no data in the literature about this topic.
The performance of PoCUS in detecting lithiasis, and therefore ureteral colic was as follow: accuracy, 54%; sensitivity, 43%; and specificity, 92%. These results are comparable to available data from examination performed by a radiologist [16‐18]. Our study is the only study to involve an EP in this setting. Among the 43 lithiasis cases not detected by ultrasound, 14 were located in the pelvic ureter or at the junction between bladder, and ureter and their detection could have been improved. An explanation for the failed detection was that bladder was often empty at the time of PoCUS owing to prior completion of a urine dipstick test.
In our study, a urinary bypass was performed only for stones ≥ 6 mm in diameter located in the proximal or lumbar ureter. Patients with stones < 6 mm were treated as outpatients.
Severe dilatation of the urinary tract (grade 3 or 4) was correlated with hospital stay in many studies [19], as in ours. However, in our study, there was a relationship between perinephric fluid and urgent surgical treatment. In the literature, this point is not clarified [10, 20].
In summary, our results suggests that findings on the ultrasound correlate well with the CT and ultimate surgical treatment such that the ED physician may be able to make an early decision regarding the referral pathway and possible discharge of patients with small distal stones [21, 22]. PoCUS could be sufficient to manage a subset of uncomplicated patients unlikely to require further surgical management. A “clinical-ultrasound” step can be recommended, as 40% of lithiasis cases were detected by PoCUS in our study. CT could be performed only as a secondary intervention in the other patients, to avoid radiation exposure and reduce the cost in this patient population [23, 24].
Moreover, PoCUS is immediately available after admission, thus allowing early evaluation, and is more comfortable and safer than CT. In addition, it does not require patients to be transferred from the emergency unit, which is beneficial for more severe cases.
Our study had some limitations. This was a single-center study involving a relatively small number of patients, in which 37% of eligible patients were not included because their EP did not meet the training criteria. Further, it would have been interesting to evaluate the patients’ length of stay in the emergency unit, as some studies demonstrated a clear decrease in this setting [25].
Our results suggest that patient management could follow the algorithm shown in Fig. 4 involving the complementary use of BUS and CT for detecting lithiasis.
×
Conclusion
PoCUS is a good tool for the diagnostic and therapeutic evaluation of patients for renal colic. Its availability at the bedside, in addition to allowing the reasonable use of CT could optimize patient care, particularly in the most acute cases.
Declarations
Ethics approval and consent to participate
The study protocol was approved by the ethics committee of Centre hospitalier de Lourdes (PV 170216), according to the Jardé law (France).
Consent for publication
Not applicable.
Competing interests
The authors declare that they have no competing interests.
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