Endourology and Stone Disease

142 Urology Journal    Vol 4    No 3    Summer 2007

Family History and Age at the Onset of Upper 
Urinary Tract Calculi 
Yadollah Ahmadi Asr Badr, Samad Hazhir, Kamaleddin Hasanzadeh

Introduction: The aim of  this study was to evaluate the effect of  family history 
on the age of  urinary calculus formation and its relation with characteristics of  the 
calculi and patients.
Materials and Methods: In a cross-sectional study in Tabriz, a total of  210 
patients with upper urinary tract calculi were evaluated. Their demographics 
and clinical characteristics and detailed information on their family history were 
recorded.
Results: Of  the patients, 28.6% had a positive family history for urinary calculi. 
Siblings were the majority of  the affected family members (71.1%). The rate of  a 
positive family history was slightly higher in women than in men (30.0% versus 
28.1%; P = .20). The mean age at the disease onset of  the men with and without a 
positive family history was 37.2 years versus 39.3 years, respectively (P = .20). Such 
a difference was not detected in the female patients, either (P = .63). In general, the 
calculi were more detected on the left renal unit, but more prevalent on the right 
side in patients with a positive family history (P = .008). No relation was found 
between the number and size of  the calculi and the family history.
Conclusion: About one-third of  the patients with urinary calculi had a positive 
family history too. Men with affected family members are slightly more susceptible 
to the disease at younger ages. There might be differences in the side of  the calculi 
and family members with a history of  disease that warrants further studies.

Urol J. 2007;4:142-6. 
www.uj.unrc.ir

Keywords: urinary calculi, family 
history, age, inheritance

Department of Urology, Sina 
Hospital, Tabriz University of 

Medical Sciences, Tabriz, Iran

Corresponding Author: 
Yadollah Ahmadi Asr Badr, MD

Department of Urology, Sina 
Hospital, Tabriz, Iran

Tel: +98 411 541 2101
Fax: +98 411 541 2151

E-mail: yadollahahmadi@yahoo.com

Received September 2006
Accepted May 2007 

INTRODUCTION
Urinary calculi are more prevalent 
between 20 and 40 years of  age 
and men are affected 3 times more 
than women.(1) Age is one of  the 
factors evaluated in association with 
the risk of  calculus formation. In a 
prospective study on patients with 
urinary calculus in Italy, the authors 
found that patients who had 2 or 
more calculi during the follow-up 
were younger at the onset of  the 
disease than those who had only 1 
calculus or no recurrence.(1) Having 
a positive family history of  urinary 
calculus and its effect on different 
factors is another important issue 

in this condition. It has been shown 
that a positive family history is more 
common in patients with calculi than 
healthy individuals.(2,3) Among patients 
with a positive family history, the 
prevalence rate of  the disease reaches 
25%.(4) Also, recurrence of  the calculi 
is more common in these patients and 
occurs faster.(2) Although could be 
related to the genetic factors, patients’ 
relatives may be at risk of  common 
environmental factors participating 
in calculi formation.(2,5) The cause 
(either genetic or environmental) put 
the family in a higher risk of  calculus 
formation. We designed a study to 
evaluate the relationship between 



Family History and Age of Calculi Onset—Ahmadi Asr Badr et al

Urology Journal    Vol 4    No 3    Summer 2007 143

upper urinary tract calculi and family history of  
urinary calculi and sex of  the patients.

MATERIALS AND METHODS
In a cross-sectional study performed between 
November 2003 and May 2003, we evaluated 210 
patients. They had presented to the urology clinic of  
Imam and Sina hospitals in Tabriz, Iran, and were 
between 25 and 55 years old. The cause of  referral 
was a diagnosed upper urinary tract calculus or flank 
pain that was found to be due to upper urinary tract 
calculi in our diagnostic evaluation. Patients with 
systemic disorders and those who were receiving 
medical therapy were excluded. Informed consent 
was obtained from all eligible patients. Demographic 
and clinical characteristics of  the patients including 
sex, age, occupation, place of  living during the last 
10 years, previous episodes of  urinary calculi, the 
age at the onset of  the first discovered calculus, 
and documented history of  calculi in the patients 
or their first-degree relatives (father, mother, 
sister, and brother) were recorded. To confirm the 
collected data, a second interview was planned for 
the patients who were not sure of  their information. 
Characteristics of  the calculi including location, 
number, and size were recorded according to the 
results of  ultrasonography and plain abdominal 
radiography. If  there was more than 1 calculus, the 
largest one was evaluated. 

The patients were categorized based on the family 

history of  urinary calculus. For evaluating the 
differences between the two groups in age and 
calculus size, the independent sample t test was used. 
The chi-square and Mann-Whitney tests were used 
for the evaluation of  the relation of  the patients’ sex, 
location of  the calculi, and number of  the calculi 
with the family history. Continuous variables were 
shown as mean ± standard deviation and the 95% 
confidence interval was calculated. A P value less than 
.05 was considered significant.

RESULTS
Of  210 patients, 60 (28.6%) had a positive family 
history for urinary calculus formation. Thirteen 
patients (21.7%) had the history in more than one 
person in their family. The affected family members 
were 30 brothers (39.5%), 24 sisters (31.6%), 14 
fathers (18.4%), and 8 mothers (10.5%). Therefore, a 
positive family history was more detected in patients’ 
siblings.

The mean age and sex distribution of  the patients are 
shown in Table 1. The age range of  the patients at 
the onset of  urinary calculus disease was 7 to 54 years 
and 15 to 55 in those with and without a positive 
family history, respectively. Although not statistically 
significant, the age at the onset of  the disease was 2 
years less in the men with a positive family history 
than the men without a family history. No significant 
relation was detected between the sex of  the patients 
and the family history of  urinary calculi (P = .20). 

Values
Characteristics All Patients Positive Family History Negative Family History P

Number of patients 210  60 (28.6)  150 (71.4)
Male-female ratio 3.2:1 3:1 3:1 .20
Men

Number of patients 160  45 (28.1)  115 (71.9)
Mean age (95%CI), y 40.9 ± 8.7  40.6 ± 8.5 (38.1 to 43.1)  41.0 ± 8.8 (39.4 to 42.6) .89
Mean age at disease onset (95%CI), y 38.7 ± 9.5  37.2 ± 9.3 (34.5 to 39.9)  39.3 ± 9.6 (37.6 to 41.1) .20

Women
Number of patients 50  15 (30.0)  35 (70.0)
Mean age (95%CI), y 39.2 ± 8.9  38.2 ± 8.9 (33.7 to 42.7)  39.5 ± 9.1 (36.4 to 42.5) .63
Mean age at disease onset (95%CI), y   36.8 ± 10.9  36.8 ± 11.0 (31.6 to 41.9)  36.7 ± 11.0 (33.1 to 40.4) .99

Single Calculi
Number of patients 132  41 (31.1)  91 (68.9)
Mean age at disease onset (95%CI), y   39.0 ± 10.3  36.3 ± 9.3 (33.5 to 39.2)  39.3 ± 9.8 (37.3 to 41.3) .10

Multiple Calculi
Number of patients 78  19 (24.4)  59 (75.6)
Mean age at disease onset (95%CI), y 38.5 ± 9.7  38.6 ± 10.5 (33.9 to 43.3)  37.8 ± 10.3 (35.2 to 40.5) .77

Table 1. Age and Sex Distribution of Patients With and Without a Positive Family History of Urinary Calculi*

*Values in parentheses are percents unless otherwise indicated. CI indicates confidence interval.



Family History and Age of Calculi Onset—Ahmadi Asr Badr et al

144 Urology Journal    Vol 4    No 3    Summer 2007

The most common site for calculus formation was 
the left kidney, while in the patients with a positive 
family history of  urinary calculi, it was the right 
kidney (Table 2). The side of  the involved renal 
unit was mostly right in the patients with a positive 
family history (P = .008); however, there was no 
relation between the bilaterality of  the calculi and 
family history. The number of  the calculi was 
between 1 and 6 in our patients, and 9 patients 
(4.3%) had undetermined number of  the calculi 
which had been reported to be a complex of  calculi 
on ultrasonography. There was no relation between 
the family history and the number or the maximum 
size of  the calculi.  The mean number of  the calculi 
was 1.6 ± 0.9 and 1.6 ± 1.2 in the patients with and 
without a positive family history, respectively  
(P = .90). The mean maximum size of  the calculi was 
12.0 ± 4.5 mm and 13.3 ± 5.6 mm, respectively  
(P = .08).

DISCUSSION
Kidney calculus is the third common disease of  the 
urinary system in both men and women, and both 
genetic and environmental factors influence its 
development and characteristics.(6) Due to the high 
prevalence of  the calculi in different regions, it has 
always been an important issue. The prevalence 
of  urinary calculi has been reported to be 5.7% in 
Tehran, Iran.(7) Due to the diversity of  environmental 
factors, the prevalence of  kidney calculus is different 
in different countries. For example, in Greece, 
the prevalence of  kidney calculus reaches 15%.(6) 
Many studies have been performed evaluating 
the relationships between the history of  calculus 
formation and recurrence or between the patients’ 
sex and the characteristics of  the calculi.(1,8) The 
results of  our study were in accordance with other 
studies. However, it should be mentioned that our 
study was performed in the patients referring to 
general university hospitals and this may cause the 

evaluation of  the patients in only one socioeconomic 
class. In a study performed in Tehran, Iran, the 
prevalence of  urinary calculi was different in the east 
and south of  the city in comparison with the north 
and west.(7) 

A family history of  urinary calculus was reported in 
34.7% of  women and 31% of  men with the disease 
in Paris.(9) In our study, it was 30% and 28.1%, 
respectively, showing a greater likelihood of  a positive 
family history in women. The reason behind such a 
difference warrants further research. It has also been 
suggested that this prevalence is influenced by the 
recurrence rate of  the calculi.(8) In the study done in 
Paris, calculi had been diagnosed about 5 years earlier 
in men with a positive family history.(9) This figure 
is in accordance with our results; age at the onset 
of  calculi was 2 years less in the men with a positive 
family history than the men without a family history, 
but in the women, such an age difference was not 
observed. 

Kodama and Ohno reported that the prevalence 
rate of  urinary calculi is higher in the brothers and 
fathers of  the patients.(10) Also, in a study by Ljunghall 
and associates, calculus was more prevalent in the 
fathers than the mothers of  the patients.(8) It has 
also been shown that the history of  calculi is more 
prevalent in the parents and siblings of  the patients 
with calculi than that in general population, but such 
a difference is not seen in the spouses, suggesting the 
predominance of  genetic rather than environmental 
factors.(11) In the present study, brothers and sisters of  
the patients were the majority of  the family members 
with a history of  urinary calculi, and in agreement 
with other studies, calculi were less prevalent in the 
mothers of  our patients. These differences may be 
affected by the geographical, social, and racial factors, 
as well.

In our study, the patients with a positive family 

Patients
Calculus Location All Positive Family History Negative Family History

Right kidney  72 (34.3)  27 (45.0)  45 (30.0)
Right ureter  19 (9.0)  8 (13.3)  11 (7.3)
Left kidney  84 (40.0)  17 (28.3)  67 (44.7)
Left ureter  16 (7.7)  4 (6.7)  12 (8.0)
Bilateral  19 (9.0)  4 (6.7)  15 (10.0)

Table 2. Location of Urinary Calculi*

*Values in parentheses are percents.



Family History and Age of Calculi Onset—Ahmadi Asr Badr et al

Urology Journal    Vol 4    No 3    Summer 2007 145

history had a tendency to have the calculi in the right 
kidney which might be an accidental finding as it has 
not been reported in the previous studies; however, it 
needs more evaluations for the probable causes. We 
did not find a relation between the positive family 
history and the number of  the calculi; the Paris study 
supports our result.(9) Concerning the type of  the 
calculi, Ljunghall and coworkers showed that the 
family history was not related to the level of  the 
calcium and uric acid excretion in urine, which is in 
contrast to the study of  Marya and colleagues that 
showed the higher prevalence of  hypercalciuria in 
patients who had first-degree relatives with a history 
of  calculi in comparison with their spouses. It can be 
concluded that genetics is a factor more important 
than the environment.(8,12) More studies in this regard 
are warranted to come to a clear conclusion 

Finally, in our study there was no significant relation 
between the calculus size and family history. In our 
search, we found no article on this issue. We did not 
evaluate the recurrence of  urinary calculi; however, 
most of  the studies have a consensus of  conclusion 
on the effect of  family history on the recurrence of  
the disease.(1,2,10,12)

CONCLUSION
The age of  the first diagnosis of  urinary calculus 
is slightly less in men with a positive family history 
than those without a family history. The patients’ 
relatives are recommended to pay attention to the 
consumption of  the calculus-forming foods. More 
studies are needed to evaluate the risk of  calculus 
formation and its characteristics and complications in 
the patients’ family members.

CONFLICT OF INTEREST
None declared.

REFERENCES
1. Trinchieri A, Ostini F, Nespoli R, Rovera F, Montanari 

E, Zanetti G. A prospective study of recurrence rate 
and risk factors for recurrence after a first renal stone. 
J Urol. 1999;162:27-30.

2. Ljunghall S, Hedstrand H. Epidemiology of renal 
stones in a middle-aged male population. Acta Med 
Scand. 1975;197:439-45.

3. Curhan GC, Willett WC, Rimm EB, Stampfer MJ. 
Family history and risk of kidney stones. J Am Soc 
Nephrol. 1997;8:1568-73.

4. Menon M, Resnick MI. Urinary lithiasis: etiology, 
diagnosis, and medical management. In: Walsh PC, 
Retik AB, Vaughan ED Jr, et al, editors. Campbell’s 
urology. 8th ed. Philadelphia: WB Saunders; 2002. p. 
3289-92.

5. Kodama H, Ohno Y. [Analytical epidemiology 
of urolithiasis] Hinyokika Kiyo. 1989;35:935-47. 
Japanese.

6. Stamatiou KN, Karanasiou VI, Lacroix RE, et al. 
Prevalence of urolithiasis in rural Thebes, Greece. 
Rural Remote Health. 2006;6:610. 

7. Safarinejad MR. Adult urolithiasis in a population-
based study in Iran: prevalence, incidence, and 
associated risk factors. Urol Res. 2007;35:73-82.

8. Ljunghall S, Danielson BG, Fellstrom B, Holmgren 
K, Johansson G, Wikstrom B. Family history of 
renal stones in recurrent stone patients. Br J Urol. 
1985;57:370-4.

9. Ulmann A, Clavel J, Destree D, Dubois C, Mombet A, 
Brisset JM. [Natural history of renal calcium lithiasis. 
Data obtained from a cohort of 667 patients. Presse 
Med]. 1991;20:499-502. French.

10. Kodama H, Ohno Y. [Descriptive epidemiology 
of urolithiasis. Hinyokika Kiyo]. 1989;35:923-34. 
Japanese.

11. Ishikawa Y, Konya E, Yamate T, et al. [Influence of 
genetic factors on family history of upper urinary 
stones]. Hinyokika Kiyo. 1995;41:349-53. Japanese.

12. Marya RK, Dadoo RC, Sharma NK. Genetic 
predisposition to renal stone disease in the first-degree 
relatives of stone-formers. Urol Int. 1981;36:245-7.

EDITORIAL COMMENT

A Lack of Difference Versus a Lack of 
Power: Do We Have Enough Soldiers to 
Liberate the Castle?
Ahmadi Asr Badr and colleagues conducted a cross-
sectional study to evaluate the impact of  family 
history on the age of  onset and other characteristics 
of  urolithiasis. While the study was based on an 
interesting question, the authors could not find 
any significant impact of  family history on the age 
at the onset of  the disease, neither in men nor in 
women. Nevertheless, they discussed the difference 
both in the text and in the conclusion. Although 
a nonsignificant result is not conclusive, it seems 
that this statistical failure in the present study is 
mainly due to a lack of  power rather than a lack of  
real difference. For instance, given the number of  
individuals and the mean and standard deviation for 
the age of  onset (Table 1 of  the paper), the power 
of  the t test for detecting a significant difference is 



Family History and Age of Calculi Onset—Ahmadi Asr Badr et al

146 Urology Journal    Vol 4    No 3    Summer 2007

only 26% in men and 5% in women! The same is also 
true for the other characteristics. In particular for the 
single calculi, it seems that increasing the sample size 
would reach to a significant difference (the current 
power is 38% for this group). 

Patients’ recruitment from a public hospital may be a 
source of  selection bias, as discussed by the authors; 

however, a systematic difference in family history 
of  calculus between the public and private hospitals 
is unlikely. Therefore, it is not a major issue in this 
study. 

Abbas Basiri,1 Ali Khoshdel2
1Editor, Urology Journal

2Department of Clinical Epidemiology, Artesh 
University of Medical Sciences, Tehran, Iran