BRIEF COMMUNICATION
Year : 2019 | Volume
: 27 | Issue : 1 | Page : 40--42
Consistency of the sonographic image (double contour sign) in patients with gout after ambulation
Angel Checa
Lourdes Medical Center of Burlington County, Endoscopy Unit, Willingboro, New Jersey; Former Research Faculty of the Division of Rheumatology, Drexel University College of Medicine, Philadelphia, Pennsylvania, USA
Correspondence Address:
Dr. Angel Checa
Lourdes Medical Center of Burlington County, Willingboro, New Jersey 08046
USA
Abstract
The aim of this study was to know whether or not any crystal shedding occurs after ambulation in patients with gout and how it affects the consistency of the sonographic image of crystal deposition on hyaline cartilage. A total of 18 consecutive patients (29 knees), 11 with early gout (17 knees) and seven with chondrocalcinosis (12 knees), were prospectively scanned by ultrasound. Examination at rest and after ambulation was performed in each patient. Crystal aggregates were measured in a transverse view. Crystal shedding after ambulation was noted in two patients (two knees) with gout. However, crystal deposits on the surface of the articular cartilage in gout kept invariable size. In patients with chondrocalcinosis, crystal shedding by ambulation was absent. The conclusion of this study is that the size of crystal deposits on the hyaline cartilage in gout and chondrocalcinosis assessed by ultrasound is not modifiable by ambulation.
How to cite this article:
Checa A. Consistency of the sonographic image (double contour sign) in patients with gout after ambulation.J Med Ultrasound 2019;27:40-42
|
How to cite this URL:
Checa A. Consistency of the sonographic image (double contour sign) in patients with gout after ambulation. J Med Ultrasound [serial online] 2019 [cited 2023 Mar 30 ];27:40-42
Available from: http://www.jmuonline.org/text.asp?2019/27/1/40/249635 |
Full Text
Introduction
Sonographic diagnosis of gout and chondrocalcinosis is based on the appearance and location of the crystal aggregates, either on the surface or within of the articular cartilage. The crystal deposits seen in gout called double contour is characterized by a linear hyperechoic enhancement on the surface of the articular cartilage, while in chondrocalcinosis, calcium deposits appear as hyperechoic foci within the intermediate layer of the cartilage.[1]
Arthroscopic observations, on the other hand, demonstrate that crystals in gout in addition to the superficial fashion noted ultrasonographically appear poorly adhered to the hyaline cartilage.[2],[3] Therefore, it is very intriguing whether or not ambulation might affect the consistency of the sonographic image of monosodium urate (MSU) deposition, particularly on the hyaline cartilage.
Two concerns regarding a mechanical shedding of crystal deposits by ambulation might be raised from the aforementioned arthroscopic findings. First, it is about a true diagnostic accuracy of ultrasound in gout. Second, it is concerning the possibility to get equivocal measurements of MSU deposition on hyaline cartilage and attribute these changes to a treatment efficacy.
Materials and Methods
The aim of this study was to know whether or not any crystal shedding occurs after ambulation and how it affects the consistency of the sonographic image of crystal deposition on hyaline cartilage in patients with gout and chondrocalcinosis, with particular interest in patients with gout. A total of 18 consecutive patients (29 knees), 11 with early gout (17 knees) and seven with chondrocalcinosis (12 knees), were prospectively recruited. All of them were scanned by ultrasound using a machine equipped with a 7.5-MHz linear transducer. All patients were instructed to avoid walking and use a wheelchair once they arrived at the clinic. A first sonographic examination was performed after the arrival to the clinic and resting for at least 30 min, followed by a second examination after walking 200 m around the clinic.
Following standard protocols for ultrasound examination of the knee,[4] a transverse sonographic view with the knee fully flexed and the transducer placed perpendicularly at the suprapatellar area as close as to the superior pole of the patella was performed. This view was feasible to measure long and width of the cartilage deposits of MSU and calcium pyrophosphate dihydrate (CPPD) in patients with gout and chondrocalcinosis, respectively. Furthermore, it was utilized in the assessment of the hyaline cartilage width at the lateral and medial femoral condyles.
Cartilage was measured using two electronic calipers, which included from the subchondral bone side of the articular cartilage to the hyperechoic chondrosynovial margins at the point of maximal naked eye thickness. The average value of two measurements was considered as a final hyaline cartilage thickness in each knee. All measurements were performed by a single operator.
Five knees in patients with gout and one in chondrocalcinosis were excluded due to a decreased range of motion and poor acoustic window. Another knee in a patient with chondrocalcinosis was excluded due to a total knee replacement.
Results
In all patients included in this study, except one with chondrocalcinosis, a diagnosis of crystal-induced arthritis was confirmed by synovial fluid analysis. In addition, those with chondrocalcinosis showed characteristic deposits of calcium on conventional radiographies and on ultrasound. One patient with chondrocalcinosis and hyperuricemia attributable to a kidney failure showed only CPPD crystals in the analysis of synovial fluid under polarizing microscopy. High levels of serum uric acid (mean 9.81 mg/dl) were encountered in all patients with gout ranged between 8.6 and 11.3 mg/dl.
The sonographic measurement of crystal deposits on the articular cartilage at rest and after ambulation showed no changes in any of the patients included in this study. Crystal shedding, considered by the presence of hyperechoic dots within the synovial effusion in knees after ambulation and absence of this pictorial feature at rest, was noted in two patients (two knees) with gout. None of the patients with chondrocalcinosis revealed crystals release by ambulation. However, seven (73%) knees of this group presented severe loss of cartilage and crystal exposure on the articular cartilage surface.
Discussion
Sonographic diagnosis of gout and chondrocalcinosis in this study was based on the appearance and location of the crystal aggregates, either on the surface or within of the articular cartilage [Figure 1]. Crystal deposition in gout has been described as a linear hyperechoic enhancement on the superficial margin of the hyaline cartilage, while in chondrocalcinosis, calcium deposits showed hyperechoic foci within the intermediate layer of the cartilage.[1]{Figure 1}
Hyperechogenic foci within the synovial effusion after ambulation observed in knees from two patients with gout with 8-month disease duration could have been consequent to a less adherent MSU deposits at early stages of the disease [Figure 2]. Elsaman et al.,[5] in a cross-sectional study, found echogenic foci within the effusion among cases with gout with median disease duration of 2 years, while it was not detected in those with a disease duration longer than 5 years.{Figure 2}
Considering the predominant appearance of MSU deposits at the surface of intra-articular tissues, the “mechanical shedding” after ambulation observed in those participants with gout, which showed an invariable size of the double contour sign by ultrasound, could have been caused by crystals releasing from the synovial membrane, cruciate ligaments, and menisci, rather from the articular cartilage.
The absence of crystal shedding in patients with chondrocalcinosis might explained by its deeper location and a firm attachment within the articular cartilage and menisci.[6],[7] On the other hand, synovial membrane is probably an uncommon source for mechanical shedding because crystal deposits in chondrocalcinosis have been identified subsynovially.[7]
Structural changes on the cartilage were not the main goal in this study; nonetheless, a smaller width of the femoral hyaline cartilage [Table 1] was observed in chondrocalcinosis (mean 1.6 mm) compared with gout (mean 2.0 mm, P= 0.056). Although osteoarthritis is a well-recognized finding in chondrocalcinosis, evidence of severe knee osteoarthritis and a prediction for progressive joint damage have been described in gout and in nongout participants with elevated urates.[8],[9],[10]{Table 1}
While a poor adherence of crystal deposits in gout has been described by arthroscopy, no changes of the size of crystal deposits under ultrasound seem to occur by the ambulation. As a result, this consistency on the sonographic image supports that an assessment of patients with gout under urate-lowering therapy can rely on this diagnostic modality.
Main limitations of this study are related to the small number of patients and the absence of controlled groups with early and late stage gout. On the other hand, the results can be influenced by the fact that all measurements were performed by a single operator.
Acknowledgment
I want to thank Michael Rawls for his valuable review and commentaries about the original manuscript.
Financial support and sponsorship
Nil.
Conflicts of interest
There are no conflicts of interest.
References
| 1 | Filippucci E, Riveros MG, Georgescu D, Salaffi F, Grassi W. Hyaline cartilage involvement in patients with gout and calcium pyrophosphate deposition disease. An ultrasound study. Osteoarthritis Cartilage 2009;17:178-81. |
| 2 | Checa A, O'Connor CR. Clinical images: Gout attack and stiff knee in an airline passenger in economy class. Arthritis Rheum 2009;60:1361. |
| 3 | Checa A. Asymptomatic gout in a male with meniscus injury. J Clin Rheumatol 2010;16:399. |
| 4 | Özçakar L, Kara M, Chang KV, Tok F, Hung CY, Akkaya N, et al. EURO-MUSCULUS/USPRM. Basic scanning protocols for knee. Eur J Phys Rehabil Med 2015;51:641-6. |
| 5 | Elsaman AM, Muhammad EM, Pessler F. Sonographic findings in gouty arthritis: Diagnostic value and association with disease duration. Ultrasound Med Biol 2016;42:1330-6. |
| 6 | Checa A, Chun W. Rates of meniscal tearing in patients with chondrocalcinosis. Clin Rheumatol 2015;34:573-7. |
| 7 | O'Connor RL. The arthroscope in the management of crystal-induced synovitis of the knee. J Bone Joint Surg Am 1973;55:1443-9. |
| 8 | Howard RG, Samuels J, Gyftopoulos S, Krasnokutsky S, Leung J, Swearingen CJ, et al. Presence of gout is associated with increased prevalence and severity of knee osteoarthritis among older men: Results of a pilot study. J Clin Rheumatol 2015;21:63-71. |
| 9 | Krasnokutsky S, Oshinsky C, Attur M, Ma S, Zhou H, Zheng F, et al. Serum urate levels predict joint space narrowing in non-gout patients with medial knee osteoarthritis. Arthritis Rheumatol 2017;69:1213-20. |
| 10 | Teng GG, Leung YY, Ang LW, Yuan JM, Koh WP. Gout and risk of knee replacement for severe knee osteoarthritis in the Singapore Chinese health study. Osteoarthritis Cartilage 2017;25:1962-8. |
|
