Clinical manifestation and arthroscopic treatment of symptomatic posterior cruciate ligament cyst
- 61 Downloads
Ganglion cyst of cruciate ligaments is a rare lesion; the prevalence is 0.3–0.8%. The purpose of this study was to present clinical features of symptomatic posterior cruciate ligament (PCL) cyst, introduce the arthroscopic excision technique, and evaluate the clinical outcome.
A series of 11 patients with symptomatic PCL cyst from November 2012 to December 2014 were involved in this retrospective study. Detailed medical history collecting and physical examination were conducted. Magnetic resonance imaging (MRI) scan was used to confirm the diagnosis. Arthroscopic resection was performed, and the sample of the cyst was taken for pathologic examination. The follow-up averaged 30.7 months. International Knee Documentation Committee (IKDC) score, the range of motion (ROM), and MRI evaluations were obtained pre- and postoperatively to assess the surgical outcome. SPSS software was used for statistics analysis.
Eight males and 3 females with 6 left knees and 5 right knees were enrolled, the mean age was 34.4 years, and the duration of symptom was 19.0 months. All cases had a definite history of knee trauma or injury. The most common symptom was knee pain at flexion or in flexion-associated activities. MRI revealed the location and size of the cyst in each case. Pathologic examination showed the cyst wall was composed of dense fibroconnective tissue and widespread thick bundles of collagen, which is similar to the structure of ganglion cyst. At the final follow-up, MRI evaluation showed no cyst recurrence. The preoperative ROM and IKDC score were 2.3° to 108.6° and 40.5 ± 11.3, respectively, compared with the postoperative ROM and IKDC score which were 0° to 134.1° and 85.5 ± 4.8 (p < 0.05) separately.
We conclude that the etiology of symptomatic PCL cyst is most likely associated with trauma, pain on flexion is a typical manifestation of symptomatic PCL cyst, MRI evaluation is an ideal examination for the diagnosis, and arthroscopic resection of symptomatic PCL cysts has a good outcome with no recurrence.
KeywordsPosterior cruciate ligament Ganglion cyst Symptom Arthroscopic excision Magnetic resonance imaging
International Knee Documentation Committee
Posterior cruciate ligament
Range of motion
Ganglion cyst of cruciate ligaments is a rare lesion. The reported morbidity of cruciate ligament cyst is 0.36% by MRI examination and 0.8% by arthroscopy . The lesion is commonly seen in people aged 20–40 years old and involves more males than females [1, 2, 3]. Compared with anterior cruciate ligament (ACL) cyst, posterior cruciate ligament (PCL) cyst is relatively seldom seen [3, 4]. Since not all PCL cysts are symptomatic, the reports of PCL cysts were hardly found until the wide utilization of MRI and arthroscopy two decades ago . Most PCL cysts were incidentally detected by MRI or arthroscopy done for other knee lesions [2, 3, 6, 7, 8] in that symptomatic PCL cyst causing knee discomfort and restricted movements were exceedingly rare [4, 7].
Most scholars consider that the etiology of PCL cyst may be associated with trauma and chronic injury [6, 7, 8, 9]. The main clinical manifestation includes knee pain, pain in extreme knee flexion, restricted movements, etc. . Shetty et al.  have reported clinical manifestation of symptomatic PCL cysts as well as the process of arthroscopy-assisted operations. However, only a few studies have reported the surgical technique and outcomes of arthroscopic removal of PCL cyst. It is necessary to gain further insight into the entity of the disease, and the experience to diagnose and treat the lesion still needs accumulation. For this reason, we have retrospectively reviewed 11 cases of symptomatic PCL cyst treated with arthroscopy and systematically summarized the findings and experience in the aspects of clinical manifestation, MRI feature, arthroscopic operation, pathology, and the treatment outcome.
Inclusion and exclusion criteria of patients
Diagnosed as PCL cyst
After medical history collecting, thorough physical examinations, routine X-ray, and MRI examination of the knee were performed. Also, preoperative knee function was evaluated using International Knee Documentation Committee (IKDC) score. The mean follow-up period was 30.7 months (range from19 to 53 months).
Active circumduction of foot and ankle and straight leg raising were introduced immediately after surgery. During the fifth to seventh postoperative day, weight bearing was gradually increased from partial to full. The range of motion (ROM) was increased 30° per week for the next 3 weeks (total of 4 weeks reaching 90° flexion at the fourth week).
Follow-up and evaluation
All the patients underwent clinical and radiographic assessments during the follow-up. Measurement of ROM and MRI scan were performed at the final follow-up after the operation. Moreover, the IKDC were used to evaluate the functional recovery.
The statistical analysis was conducted with SPSS 21.0 for windows. Comparisons of IKDC score of knee functions between preoperative and postoperative were made with the paired-sample t test. All stated p values were two-tailed and considered significant when < 0.05.
Of the 11 patients, 7 complained of varying degrees of knee pain on active or passive flexion while 3 complained of knee pain on squatting and 1 had knee pain when climbing stairs. Five patients had definite history of knee trauma. Among them, one patient who experienced avulsion fracture of the tibial attachment of the PCL had been treated conservatively, and another one had MRI evidence of haematoma formation around PCL in the acute phase. Although the rests denied the obvious major traumatic event, they confirmed a history of chronic injuries when questioned in detail. For physical examination, hyperflexion pain was found in 10 cases while hyperextension pain also existed in 3 of them. Limited ROM was found in all the involved knees.
Pre- and postoperative ROM and IKDC score
106.4 ± 3.7
134.1 ± 1.8*
40.5 ± 11.3
Intra-articular ganglion cysts including PCL cyst are usually classified as “asymptomatic” and “symptomatic” [10, 11]. The cyst which is soley responsible for intermittent or chronic knee discomfort without any accompanied intra-articular lesions is defined as “symptomatic.” The cyst which has no clear etiology is difficult to be diagnosed clearly in time comparing with other intra-articular lesions or injuries in that it presents nonspecific clinical signs and symptoms. The results of this study showed that the most common manifestation of symptomatic PCL cyst was knee pain at flexion or in flexion-associated activities. Physical examination demonstrated that knee pain at hyperflexion and the resultantly reduced ROM appeared in almost all the patients. Literatures showed that the changes in the length and torsion of PCL induced by knee flexion might cause traction or compression on cysts, which may stimulate the nerve endings on synovium and result in limited ROM secondary to pain and abnormal sensation [1, 2, 12, 13]. Previous studies reported that the clinical manifestations of symptomatic PCL cyst might include arthralgia, joint swelling and effusion, and restricted ROM induced by pain [1, 2, 3, 4, 6, 7, 8, 12, 14, 15, 16, 17]. Our results are similar to the above reports. And furthermore, the findings of this series of cases indicate that knee pain at flexion may be the specific clinical manifestation of symptomatic PCL cyst.
Since MRI examination could sensitively and specifically identify the anatomic and morphologic interrelation of the synovial tissues with their surrounding structures without invasion, it has been suggested as the primary choice for diagnosing cystic lesions of the knees [18, 19, 20]. The cyst showed by MRI exhibits well-defined and homogeneous low-signal intensity on T1W, high-signal intensity both on T2W, and fat-suppressed T2-weighted SE, while the cystic wall manifests middle or low signal in T2W [1, 2, 3, 7, 8, 12, 17, 21, 22, 23]. The PCL cysts are usually single or multiloculated ones who are separated by soft tissue . The MRI pictures in our series of cases were in accordance with these imaging features. The precise location of the PCL cyst is important for planning an arthroscopic approach. At present, posteromedial or posterolateral portals are not routine approach and the posterior compartment is not visualized regularly. Once the cyst is located posterior to PCL, it would be difficult to found the cyst for subsequent diagnosis. Therefore, the preoperative MRI scan is essential.
Although the pathogenesis of ganglion cysts of cruciate ligament is still unknown, most literature showed that trauma and chronic injuries played a key role in cyst formation [2, 3, 6, 7]. Bui-Mansfield et al.  found that 50% of the cruciate ganglion cysts had intra-articular lesion and degeneration, indicating that the cysts were associated with trauma and slight chronic injuries. Shetty et al.  reported that most cysts contained yellowish viscous fluid, while only a few cysts had bloody liquid. Lunhao et al.  explained that the cysts with bloody viscous liquid were associated with trauma, which resulted in a lesion of the PCL, synovial hernia, and formation of the hematoma. Along with the course of extension, the synovial tissue encases the hematoma and form a cyst gradually. In the early period, the content is bloody liquid and the hematoma would be absorbed and organized. The size of cyst increases as the synovial tissue keeps secreting mucus. At this stage, the contents turned to yellowish viscous fluid due to the breakdown of hemoglobin, while the cysts with transparent liquid contents coincided with a chronic injury. In the current study, 5 of the 11 patients had a definite history of trauma. The others memorized their experience of antecedent knee trauma or repeated slight knee injuries when questioned in detail. The findings in our study provided further evidence to support that the etiology of PCL cysts is closely associated with trauma and chronic injury. Pathologic examination of HE staining revealed inflammatory cell infiltration, widespread thick bundles of collagen, fibroplasia, and massive capillary proliferation in cyst wall. The inner surface of the cyst was covered by synoviocytes. Mucoid and lipoid degeneration, ruptured bundles of collagen (Fig. 3), were also found. All these indicated that the formation of PCL cyst might be associated with trauma which subsequently induced a synovial hernia and the degeneration of ligament secondary to trauma and chronic injury.
Treatment of ganglion cysts of cruciate ligaments mainly includes arthroscopic resection, ultrasound-, and CT-guided joint paracentesis [6, 7, 24]. However, postoperative recurrence occurred more often after paracentesis alone than after a complete resection . The reason is that the cystic wall will persist and it may recur as the aspirating hole acts as a one-way valve and the synovium continues secreting mucus after paracentesis. While arthroscopy could excise the cyst completely and manage other lesions at the same time, the recurrence is rare after a complete excision [7, 9, 16, 24]. In the present study, all cases were performed the arthroscopic excision of the PCL cysts, and no recurrence was observed on postoperative MRI images at final follow-up. The double posteromedial approach for the arthroscopic resection of PCL cyst in this study, which was different from the posterior trans-septal portal , had a good clinical outcome.
The present study is the first to systematically describe the findings of the symptoms, imaging diagnosis, etiology, pathologic changes, and arthroscopic treatments of PCL cyst. There were still several limitations of our study, such as the small number of patients, the retrospective design, and the lack of comparative control group, which need to be further improved in future research.
In conclusion, the etiology of symptomatic PCL cyst may be associated with trauma and chronic injuries. The knee pain at flexion could be considered as a typical manifestation of symptomatic PCL cyst. MRI examination is an ideal method for diagnosing PCL cyst in time. And arthroscopic resection of PCL cysts would lead to a good outcome for patients without any recurrence.
We thank Dr. A. Gibson for his contribution to the language editing of the manuscript.
This work was financially supported by the National Natural Science Foundation of China (No. 81371940) and Hubei Province health and family planning scientific research project (No. WJ2017Q012).
Availability of data and materials
The dataset supporting the conclusions of this article is included in Additional file 1.
LBC contributed to the conception, design of the study, and the revision of the manuscript. HW conceived and designed the study. ZXY collected and analyzed the data. YT and JQ collected the data. KT analyzed the data and drafted the manuscript. All authors read and approved the final manuscript.
Ethics approval and consent to participate
This study was approved by the ethics committee of the Zhongnan Hospital of Wuhan University.
Informed consent was obtained from all the participants.
Consent for publication
Written informed consent was obtained from each patient to authorize the publication of their images and pathologic documentation.
The authors declare that they have no competing interests.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
- 13.Nam D, Macaulay A, Cross M, Shindle MK, Warren RF. Posterior cruciate ligament resection for ganglion cyst and associated ligament degeneration. Am J Orthop (Belle Mead NJ). 2011;40:E110–4.Google Scholar
- 16.Hameed SA, Sujir P, Naik MA, Rao SK. Ganglion cyst of the posterior cruciate ligament in a child. Singap Med J. 2012;53:e80–2.Google Scholar
- 21.Burk DL Jr, Dalinka MK, Kanal E, Schiebler ML, Cohen EK, Prorok RJ, Gefter WB, Kressel HY. Meniscal and ganglion cysts of the knee: MR evaluation. Am J Radiol. 1988;150:331–6.Google Scholar
- 23.Derman P, Kamath AF, Kelly IJ. Ganglion cysts of the posterior cruciate ligament. Am J Orthop (Belle Mead NJ). 2011;40:257–8.Google Scholar
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.