Abstract
A 3-year-old boy was found to have a painless mass over his right anterior lateral knee for the previous 6 months. The mass was hardly identified during knee extension and became visible upon squatting. There was no specific finding on ultrasound imaging over his right knee at the supine extended position. During squatting, ultrasound imaging showed an ill-demarcated hyperechoic mass protruding next to the cartilage overlying the distal femur towards the subcutaneous layer through a slit over the lateral patellar retinaculum. Herniation of the fat pad through a defect in the lateral patellar retinaculum was diagnosed. Our case highlights the usefulness of ultrasound examination as regards the lateral patellar retinaculum defect in pediatric knees, as well as its capability for dynamic scanning to capture the exact “pathological moment”.
Keywords: knee, child, sonography, fat pad, diagnostic imaging
A 3-year-old boy was found to have a painless mass over his right anterior lateral knee. The onset of the mass was about 6 months prior to examination. Besides the mass, there was no obvious swelling at other compartments of his right knee. His mother did not recall any trauma in the affected knee. The mass was hardly identified during knee extension and became visible upon squatting. The mass was soft and elastic. No associated skin-color change was visualized. He was brought to the pediatric orthopedic clinic, where physical examination revealed normal bony alignment of his knees. Based on the initial impression of a ganglion cyst, he was referred for an ultrasound check-up. All of the sonographic images presented in this case report were obtained using a 13–18 MHz high-frequency linear transducer (Aplio 500, Canon Medical Systems Europe B.V., Zoetermeer, The Netherlands). The scanning depth was set between 2 and 3 cm, with the focus fixed at 1 cm deep.
With his right knee extended in the supine position, ultrasound imaging over the suprapatellar region demonstrated no effusion, an intact quadriceps tendon, a non-ossified patella, prominent femoral cartilage, and a clear epiphyseal growth plate (Figure 1A). The transducer was relocated distally to scan the infrapatellar area. Likewise, the fibrillar appearance of the patellar tendon remained without any remarkable pathologies (Figure 1B).
Figure 1.
Ultrasound imaging and schematic drawing of the (A) suprapatellar and (B) infrapatellar regions. QT: quadriceps tendon; FP: fat pad; PT: patellar tendon; *: hyaline cartilage; black arrowheads: growth plate.
As no obvious mass was identified in the supine position, we then asked him to squat so as to make the mass more visible (Figure 2).
Figure 2.
A mass (black arrow) was seen protruding from the lateral infrapatellar region when squatting.
Ultrasound imaging showed an ill-demarcated hyperechoic mass protruding next to the cartilage overlying the distal femur towards the subcutaneous layer through a slit over the lateral patellar retinaculum (Figure 3A and Video S1). No increased vascularity was visualized inside or surrounding the lesion (Figure 3B). Repositioning the knee back to extension while lying supine, the mass was seen sinking to the space underneath the lateral patellar retinaculum (Figure 3C). Accordingly, herniation of the fat pad through a defect in the lateral patellar retinaculum was diagnosed.
Figure 3.
Hyperechoic fat pad (white arrowheads) was seen protruding through a defect in the lateral patellar retinaculum (black arrows) (A). There was no vascularity surrounding or inside the protruded fat pad during squatting (B). The fat pad was visualized sinking underneath the lateral retinaculum upon knee extension (C). *: hyaline cartilage.
Concerning musculoskeletal sonography, substantial differences might exist between children and adults [1,2]. Compared with those of adults, children’s bones harbor growth plates, profound cartilage, and visible juxta-articular vascularity [3]. At the knee region in a 3-year-old child, the non-ossified patella appeared anechoic, mimicking effusion or a ganglion cyst. Furthermore, the growth plates manifest as discontinuity over the end of long bones, which can be misrecognized as fractures [4]. All of the aforementioned factors might lead to difficulty in interpreting pediatric knee ultrasound examinations. In children with unilateral signs/symptoms, comparison with the asymptomatic side would be helpful in determining whether the finding is normal or pathological.
The anterior lateral knee component is a multilayer structure, whereas a two-layered or a three-layered model has been proposed by previous studies [5,6]. A recent study investigating the anatomical, histological, and radiological aspects of the anterior lateral knee compartment revealed that the lateral patellar retinaculum could actually be differentiated from the lateral patellar femoral ligament [7]. A focal defect over the lateral patellar femoral retinaculum is not rare and is mostly asymptomatic. One magnetic resonance imaging study on adult patients revealed that the defect was associated with a decrease in the infrapatellar fat pad thickness, but not a lower Kellgren–Lawrence radiological grade of the knee joint [8]. The authors also found that the correlation of the defect size with age, body weight, height, subcutaneous fat thickness, or the infrapatellar fat pad area was not statistically significant. Another ultrasound study on 48 healthy adult volunteers demonstrated that vessels could be consistently identified lateral to the patellar tendon, penetrating the defect to reach to the subcutaneous layer [9]. The aforementioned research also revealed that the mean transverse diameter of the defect was 2.75 mm. Compared with magnetic resonance imaging, dynamic examination is more easily conducted under ultrasound [10]. A case report of a 45-year-old man demonstrated that herniation of the fat pad through a slit of the lateral patellar retinaculum could be provoked after knee flexion and readily identified with ultrasound imaging [11]. The defect in the above-discussed case might be derived from the anterolateral portal during the antecedent arthroscopic surgery. Similarly, the herniated fat pad in our patient could only be seen during squatting. To this end, our case highlighted the usefulness of ultrasound examination as regards pediatric knee problems, as well as its capability for dynamic scanning to capture the exact “pathological moment”.
Supplementary Materials
The following supporting information can be downloaded at: https://www.mdpi.com/article/10.3390/diagnostics12102523/s1: Video S1: Dynamic ultrasound examination for the defect in the lateral patellar retinaculum.
Author Contributions
Conceptualization, W.-T.W. and K.-V.C.; methodology, K.-V.C.; software, K.-W.W.; validation, K.M., V.R., and L.Ö.; writing—original draft preparation, W.-T.W.; writing—review and editing, K.-V.C.; funding acquisition, K.-V.C. All authors have read and agreed to the published version of the manuscript.
Institutional Review Board Statement
Not applicable.
Informed Consent Statement
Patient consent was obtained.
Data Availability Statement
Data are contained within the main text of the manuscript.
Conflicts of Interest
The authors declare no conflict of interest.
Funding Statement
This study was made possible by (1) research funding from the Community and Geriatric Medicine Research Center, National Taiwan University Hospital, Bei-Hu Branch, Taipei, Taiwan; (2) Ministry of Science and Technology (MOST 106-2314-B-002-180-MY3, 109-2314-B-002-114-MY3, and 109-2314-B-002-127), and (3) the Taiwan Society of Ultrasound in Medicine.
Footnotes
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Associated Data
This section collects any data citations, data availability statements, or supplementary materials included in this article.
Supplementary Materials
Data Availability Statement
Data are contained within the main text of the manuscript.