Introduction: The aim of the study was to explore the causes and clinical significance of hyperechoic renal medulla observed by ultrasonography in patients with primary gout. Methods: This study included 2,107 patients with primary gout treated in the Gout Clinic of our hospital from 2016 to 2022. The clinical data and biochemical data of these patients were collected and analyzed. According to the presence or absence of punctate hyperechogenicity in the renal medulla on ultrasound examination, the patients were divided into the hyperechoic medulla (HM) and the normal hypoechoic medulla (NM) groups, and the HM group was further divided into the partial HM (P-HM) and fulfilled HM (F-HM) subgroups according to the distribution range of hyperechogenicity. Results: Among the 2,107 patients with primary gout, 380 had hyperechoic renal medulla on renal ultrasound, including 106 patients with F-HM and 274 with P-HM. There were significant differences in the gout duration, urate arthropathy number, serum urate (SU) level, clinical tophi number, blood urea nitrogen, serum creatinine (sCr), and estimated glomerular filtration rate between the HM and NM groups or between the F-HM and P-HM subgroups (p < 0.05). Multivariate regression analysis showed that the presence of HM was positively correlated with gout duration, urate arthropathy number, gout attack frequency, SU, and sCr. The number of clinical tophi and sCr were closely related to F-HM. Conclusion: Ultrasound examination showed that a high medulla echo in patients with gout was often related to renal function damage. P-HM may be a transitory condition between NM and F-HM in patients with gout.

1.
Jin
M
,
Yang
F
,
Yang
I
,
Yin
Y
,
Luo
JJ
,
Wang
H
, et al
.
Uric acid, hyperuricemia and vascular diseases
.
Front Biosci
.
2012
;
17
(
2
):
656
69
.
2.
Roughley
MJ
,
Belcher
J
,
Mallen
CD
,
Roddy
E
.
Gout and risk of chronic kidney disease and nephrolithiasis: meta-analysis of observational studies
.
Arthritis Res Ther
.
2015
;
17
(
1
):
90
.
3.
Piani
F
,
Johnson
RJ
.
Does gouty nephropathy exist, and is it more common than we think
.
Kidney Int
.
2021
;
99
(
1
):
31
3
.
4.
Krishnan
E
.
Chronic kidney disease and the risk of incident gout among middle-aged men: a seven-year prospective observational study
.
Arthritis Rheum
.
2013
;
65
(
12
):
3271
8
.
5.
Bao
D
,
Lv
N
,
Duan
X
,
Zhang
X
,
Wang
J
,
Wang
S
, et al
.
Prevalence and clinical association of hyperechoic crystal deposits on ultrasonography in patients with chronic kidney disease: a cross-sectional study from a single center
.
J Nephrol
.
2023
;
36
(
9
):
2467
75
.
6.
Scirocco
C
,
Rutigliano
IM
,
Finucci
A
,
Iagnocco
A
.
Musculoskeletal ultrasonography in gout
.
Med Ultrason
.
2015
;
17
(
4
):
535
40
.
7.
Bardin
T
,
Nguyen
QD
,
Tran
KM
,
Le
NH
,
Do
MD
,
Richette
P
, et al
.
A cross-sectional study of 502 patients found a diffuse hyperechoic kidney medulla pattern in patients with severe gout
.
Kidney Int
.
2021
;
99
(
1
):
218
26
.
8.
Tsujimoto
F
,
Tada
S
.
Ultrasonography of the gouty kidney
.
Nihon Igaku Hoshasen Gakkai Zasshi
.
1985
;
45
(
7
):
977
81
.
9.
Richette
P
,
Doherty
M
,
Pascual
E
,
Barskova
V
,
Becce
F
,
Castañeda-Sanabria
J
, et al
.
2016 updated EULAR evidence-based recommendations for the management of gout
.
Ann Rheum Dis
.
2017
;
76
(
1
):
29
42
.
10.
Yamanaka
H
;
Japanese Society of Gout and Nucleic Acid Metabolism
.
Japanese guideline for the management of hyperuricemia and gout: second edition
.
Nucleosides, Nucleotides Nucleic Acids
.
2011
;
30
(
12
):
1018
29
.
11.
Tsai
H-M
,
Yao
W-J
,
Yu
C-Y
,
Su
C-T
,
Shu
GH-F
,
Huang
J-J
.
Hyperechoic medulla of the kidney on ultrasonography: correlation with CT scan
.
Taiwan J Radiological Sci
.
1991
;
16
(
2
):
183
92
.
12.
Kriz
W
.
Structural organization of the renal medulla: comparative and functional aspects
.
Am J Physiol
.
1981
;
241
(
1
):
R3
16
.
13.
Toyoda
K
,
Miyamoto
Y
,
Ida
M
,
Tada
S
,
Utsunomiya
M
.
Hyperechoic medulla of the kidneys
.
Radiology
.
1989
;
173
(
2
):
431
4
.
14.
Cacciarelli
AA
,
Young
N
,
Levine
AJ
.
Gray-scale ultrasonic demonstration of nephrocalcinosis
.
Radiology
.
1978
;
128
(
2
):
459
60
.
15.
Foley
LC
,
Luisiri
A
,
Graviss
E
,
Campbell
JB
.
Nephrocalcinosis: sonographic detection in Cushing syndrome
.
AJR Am J Roentgenol
.
1982
;
139
(
3
):
610
2
.
16.
Shavit
L
,
Jaeger
P
,
Unwin
RJ
.
What is nephrocalcinosis
.
Kidney Int
.
2015
;
88
(
1
):
35
43
.
17.
Doizi
S
,
Rodgers
K
,
Poindexter
J
,
Sakhaee
K
,
Maalouf
NM
.
Assessment of urinary inhibitor or promoter activity in uric acid nephrolithiasis
.
J Urol
.
2016
;
195
(
6
):
1799
804
.
18.
Pascual
E
,
Addadi
L
,
Andrés
M
,
Sivera
F
.
Mechanisms of crystal formation in gout: a structural approach
.
Nat Rev Rheumatol
.
2015
;
11
(
12
):
725
30
.
19.
Major
TJ
,
Dalbeth
N
,
Stahl
EA
,
Merriman
TR
.
An update on the genetics of hyperuricaemia and gout
.
Nat Rev Rheumatol
.
2018
;
14
(
6
):
341
53
.
20.
Nickeleit
V
,
Mihatsch
M
.
Uric acid nephropathy and end-stage renal disease: review of a non-disease
.
Nephrol Dial Transpl
.
1997
;
12
(
9
):
1832
8
.
21.
Cuppage
F
,
Chonko
A
.
Urate and uric acid nephropathy, cystinosis and oxalosis
. In:
Renal pathology with clinical functional correlations
.
Philadelphia, PA
:
Lippincott
;
1989
; p.
1335
62
.
22.
Heptinstall
R
.
Tubular disorders and various metabolic disease
.
Pathol Kidney
.
1992
:
1989
2043
.
23.
Al-Awqati
Q
,
Goldberg
MR
.
Architectural patterns in branching morphogenesis in the kidney
.
Kidney Int
.
1998
;
54
(
6
):
1832
42
.
24.
Parikh
S
,
Haddad
N
,
Hebert
L
.
Retarding progression of kidney disease
. In:
Johnson
R
,
Feehally
J
,
Floege
J
, editors.
Comprehensive clinical nephrology
. 5th ed.
Philadelphia, PA
:
Elsevier Publications
;
2014
.
25.
Johnson
RJ
,
Nakagawa
T
,
Jalal
D
,
Sánchez-Lozada
LG
,
Kang
D-H
,
Ritz
E
.
Uric acid and chronic kidney disease: which is chasing which
.
Nephrol Dial Transpl
.
2013
;
28
(
9
):
2221
8
.
26.
Sellmayr
M
,
Hernandez Petzsche
MR
,
Ma
Q
,
Krüger
N
,
Liapis
H
,
Brink
A
, et al
.
Only hyperuricemia with crystalluria, but not asymptomatic hyperuricemia, drives progression of chronic kidney disease
.
J Am Soc Nephrol
.
2020
;
31
(
12
):
2773
92
.
27.
Beck
LH
.
Requiem for gouty nephropathy
.
Kidney Int
.
1986
;
30
(
2
):
280
7
.
28.
Kohagura
K
,
Kochi
M
,
Miyagi
T
,
Kinjyo
T
,
Maehara
Y
,
Nagahama
K
, et al
.
An association between uric acid levels and renal arteriolopathy in chronic kidney disease: a biopsy-based study
.
Hypertens Res
.
2013
;
36
(
1
):
43
9
.
29.
Russo
E
,
Drovandi
S
,
Salvidio
G
,
Verzola
D
,
Esposito
P
,
Garibotto
G
, et al
.
Increased serum uric acid levels are associated to renal arteriolopathy and predict poor outcome in IgA nephropathy
.
Nutr Metab Cardiovasc Dis
.
2020
;
30
(
12
):
2343
50
.
30.
Maki
K
,
Hata
J
,
Sakata
S
,
Oishi
E
,
Furuta
Y
,
Nakano
T
, et al
.
Serum uric acid levels and nephrosclerosis in a population-based autopsy study: the hisayama study
.
Am J Nephrol
.
2022
;
53
(
1
):
69
77
.
31.
Heinig
M
,
Johnson
RJ
.
Role of uric acid in hypertension, renal disease, and metabolic syndrome
.
Cleve Clin J Med
.
2006
;
73
(
12
):
1059
64
.
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