Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Urolithiasis
Published in: Urolithiasis 2/2020

01-04-2020 | Original Paper

Association of spontaneous expulsion with C-reactive protein and other clinico-demographic factors in patients with lower ureteric stone

Authors: Amit Jain, Sreerag Kodakkattil Sreenivasan, Ramanitharan Manikandan, Lalgudi Narayanan Dorairajan, Sujatha Sistla, Subathra Adithan

Published in: Urolithiasis | Issue 2/2020

Login to get access

Abstract

The purpose of our study is to analyze the definitive relation of C-reactive protein (CRP) and other factors with the spontaneous stone passage in patients with distal ureteric calculus of 5–10 mm and to calculate the risk of failure of expectant management in patients. 185 patients of ureteric colic, who were subjected to medical expulsive therapy (MET), were included prospectively from August 2016 to May 2018 and followed up for 4 weeks. Patients were divided into two groups. Group A included successful spontaneous passage patients and group B included failure in the same. The parameters analyzed were age, gender, longitudinal and transverse diameter of stone, CRP, total leucocyte count, ureteric diameter and hydroureteronephrosis (HUN). We performed univariate and multivariate analysis. Receiver operating characteristics curve was used to determine the cutoff value for significantly associated variables. 122 (65.90%) and 63 (34.10%) patients were included in group A and B, respectively. In univariate analysis, CRP, longitudinal and transverse diameter of stone, HUN, proximal and distal ureteric diameters were statistically significant. However, in multivariate analysis, only negative CRP (p = 0.002), smaller longitudinal diameter of stone (p < 0.001) and absence of HUN (p = 0.005) were significantly associated with successful expulsion. Cutoff for CRP was 0.41 mg/dl and longitudinal diameter was 6.7 mm. The success rate in the group of patients with no risk factor was 96.7% and with all three risk factors was 16.7%. Patients with a longitudinal diameter of stone > 6.7 mm, HUN, and CRP > 0.41 mg/dl should be considered for early intervention. The success rate of MET can be increased to 86% after exclusion of patients with all three risk factors.
Literature
1.
Rukin N, Siddiqui Z, Chedgy E, Somani B (2016) Trends in upper tract stone disease in England: evidence from the hospital episodes statistics database. Urologia Internationalis 98(4):391–396CrossRef
2.
Elton T, Roth C, Berquist T, Silverstein D (1993) A clinical prediction rule for the diagnosis of ureteral calculi in emergency departments. J Gen Intern Med 8(2):57–62CrossRef
3.
Dellabella M, Milanese G, Muzzonigro G (2003) Efficacy of tamsulosin in the medical management of juxtavesical ureteral stones. J Urol 170(6):2202–2205CrossRef
4.
Wang H, Man L, Huang G, Li G, Wang J (2016) Comparative efficacy of tamsulosin versus nifedipine for distal ureteral calculi: a meta-analysis. Drug Des Dev Ther 10:1257–1265CrossRef
5.
Sfoungaristos S, Kavouras A, Perimenis P (2011) Predictors for spontaneous stone passage in patients with renal colic secondary to ureteral calculi. Int Urol Nephrol 44(1):71–79CrossRef
6.
Celik S, Akdeniz F, Yildirim M, Bozkurt O, Bulut M, Hacihasanoglu M et al (2017) Computed tomography findings predicting the success of silodosin for medical expulsive therapy of ureteral stones. Kaohsiung J Med Sci 33(6):290–294CrossRef
7.
Ahmed A, Al-Sayed A (2010) Tamsulosin versus alfuzosin in the treatment of patients with distal ureteral stones: prospective, randomized, comparative study. Korean J Urol 51(3):193CrossRef
8.
Furyk J, Chu K, Banks C, Greenslade J, Keijzers G, Thom O et al (2016) Distal ureteric stones and tamsulosin: a double-blind, placebo-controlled, randomized multicenter trial. Ann Emerg Med 67(1):86–95.e2CrossRef
9.
Hollingsworth J, Canales B, Rogers M, Sukumar S, Yan P, Kuntz G et al (2016) Alpha blockers for treatment of ureteric stones: systematic review and meta-analysis. BMJ 355:i6112CrossRef
10.
Wang C, Huang S, Chang C (2008) Efficacy of an α1 blocker in expulsive therapy of lower ureteral stones. J Endourol 22(1):41–46CrossRef
11.
Savić S, Vukotić V, Lazić M, Savić N (2014) Management of calculus anuria using ureteroscopic lithotripsy as a first line treatment: its efficacy and safety. Urol J 11(2):1392–1399PubMed
12.
Pepys M, Hirschfield G (2003) C-reactive protein: a critical update. J Clin Investig 111(12):1805–1812CrossRef
13.
Özcan C, Aydoğdu O, Senocak C, Damar E, Eraslan A, Oztuna D et al (2015) Predictive factors for spontaneous stone passage and the potential role of serum C-reactive protein in patients with 4 to 10 mm distal ureteral stones: a prospective clinical study. J Urol 194(4):1009–1013CrossRef
14.
Sfoungaristos S, Kavouras A, Katafigiotis I, Perimenis P (2012) Role of white blood cell and neutrophil counts in predicting spontaneous stone passage in patients with renal colic. BJU Int 110(8b):E339–E345CrossRef
15.
Park C, Ha J, Park C, Kim C, Kim K, Kim B (2013) Relationship between spontaneous passage rates of ureteral stones less than 8 mm and serum C-reactive protein levels and neutrophil percentages. Korean J Urol 54(9):615CrossRef
16.
Lee K, Ha J, Koo K (2017) Significance of neutrophil-to-lymphocyte ratio as a novel indicator of spontaneous ureter stone passage. Yonsei Med J 58(5):988CrossRef
17.
Miller O, Kane C (1999) time to stone passage for observed ureteral calculi: a guide for patient education. J Urol 162(3):688–691CrossRef
18.
Paajanen H, Tainio H, Laato M (1996) A chance of misdiagnosis between acute appendicitis and renal colic. Scand J Urol Nephrol 30(5):363–366CrossRef
19.
Sandberg T, Lidin-Janson G, Edén C (1989) Host response in women with symptomatic urinary tract infection. Scand J Infect Dis 21(1):67–73CrossRef
20.
Shaoul R, Lahad A, Tamir A et al (2008) C-reactive protein (CRP) as a predictor for true bacteremia in children. Med Sci Monit 14:CR255–CR261PubMed
21.
Horcajada J, Velasco M, Filella X, Alvarez L, De Lazzari E, Marin J et al (2004) Evaluation of inflammatory and renal-injury markers in women treated with antibiotics for acute pyelonephritis caused by Escherichia coli. Clin Vaccine Immunol 11(1):142–146CrossRef
22.
Aldaqadossi H (2013) Stone expulsion rate of small distal ureteric calculi could be predicted with plasma C-reactive protein. Urolithiasis 41(3):235–239CrossRef
23.
Hada A, Yadav SS, Tomar V, Priyadarshi S, Agarwal N, Gulani A (2018) Assessment of factors affecting the spontaneous passage of lower ureteric calculus on the basis of lower ureteric calculus diameter, density, and plasma C-reactive protein level. Urol Ann 10:302–307CrossRef
24.
Angulo J, Gaspar M, Rodríguez N, García-Tello A, Torres G, Núñez C (2010) The value of C-reactive protein determination in patients with renal colic to decide urgent urinary diversion. Urology 76(2):301–306CrossRef
25.
McSorley S, Drury M, Majumdar P, Halsall A, Nalagatla S (2013) C-reactive protein to predict the need for surgical intervention in acute renal colic. J Clin Urol 7(6):380–383CrossRef
26.
Lee S, Jeon H, Park D, Choi Y (2012) Longitudinal stone diameter on coronal reconstruction of computed tomography as a predictor of ureteral stone expulsion in medical expulsive therapy. Urology 80(4):784–789CrossRef
27.
Hwang E, Kim Y, Yuk S, Sul C, Lim J (2010) Factors that predict spontaneous passage of a small distal ureteral stone %3c 5 mm. J Endourol 24(10):1681–1685CrossRef
28.
Hiller N, Berkovitz N, Lubashevsky N, Salaima S, Simanovsky N (2012) The relationship between ureteral stone characteristics and secondary signs in renal colic. Clin Imaging 36(6):768–772CrossRef
Metadata
Title
Association of spontaneous expulsion with C-reactive protein and other clinico-demographic factors in patients with lower ureteric stone
Authors
Amit Jain
Sreerag Kodakkattil Sreenivasan
Ramanitharan Manikandan
Lalgudi Narayanan Dorairajan
Sujatha Sistla
Subathra Adithan
Publication date
01-04-2020
Publisher
Springer Berlin Heidelberg
Published in
Urolithiasis / Issue 2/2020
Print ISSN: 2194-7228
Electronic ISSN: 2194-7236
DOI
https://doi.org/10.1007/s00240-019-01137-x

Other articles of this Issue 2/2020

Urolithiasis 2/2020 Go to the issue

Original Paper

Comparison of outcomes in totally tubeless percutaneous nephrolithotomy according to nephrostomy tract sealing with fibrin versus gelatin matrix: a propensity score matching study

Original Paper

In vitro bactericidal effect of Ho:YAG laser and pneumatic lithotripsy on ureteral stones colonized with Escherichia coli and Enterococcus faecalis

Original Paper

Fragmentation of brittle material by shock wave lithotripsy. Momentum transfer and inertia: a novel view on fragmentation mechanisms

Original Paper

miRNA-34a inhibits cell adhesion by targeting CD44 in human renal epithelial cells: implications for renal stone disease

Letter to the Editor

Letter to Editor

Letter to the Editor

Analgesic efficacy of combination therapy versus monotherapy on postoperative pain control in percutaneous nephrolithotomy: a meta-analysis of randomized controlled trials