Discoid lateral meniscus: importance, diagnosis, and treatment

Plain radiography

Patients with DLM often show normal plain radiography findings but may also show subtle indirect signs; thus, radiology is considered a supplementary modality for the diagnosis of DLM. The indirect signs of DLM include widening of the lateral joint space, squaring of the lateral femoral condyle, cupping of the lateral tibial plateau, lateral tibial eminence hypoplasia, elevation of the fibular head, and condylar cutoff sign [26, 27, 43, 52, 57]. Recent studies showed that the condylar cut-off sign on tunnel-view radiography has a high specificity, indicating its diagnostic utility for complete DLM in children and adolescents [26, 27, 52]. In addition, Kim et al. [37] reported a significant association between meniscal tear of the contralateral knee and the presence of one or more than two indirect signs on plain radiographs.

MRI

MRI is an important diagnostic tool adjunct to the clinical features of the DLM and a useful modality for diagnosing DLM and for the assessment of the peripheral detachment in the DLM. Samato et al. [60] proposed criteria including a ratio of the minimal meniscal width to maximal tibial width on the coronal plane of more than 20% and a ratio of the sum of the width of both lateral horns to the meniscal diameter on the sagittal plane of more than 75% for the accurate diagnostic of a DLM on MRI. A minimal width of > 15 mm on the coronal plane and three or more 5-mm thick consecutive sagittal slices showing continuity between the anterior and posterior horns of the lateral meniscus are also suggestive diagnostic criteria for the presence of a DLM [13, 61].

MRI can also provide information on meniscal substance, meniscal tear, and the presence of accompanying osteochondritis dissecans. MRI findings such as the signal change of intra-meniscal substance and parameniscal edema have been described as an indirect sign of meniscal tear in patients with symptomatic DLM [58]. Meniscal deformation, such as abnormal infolding or buckling and meniscal shifting, are valuable indicators for the peripheral detachment of the DLM [58]. In this respect, Ahn et al. [5] proposed the MRI classification of the DLM for providing information for surgical planning with respect to the direction of meniscal shifting based on peripheral detachment of the DLM in cases of meniscus repair. Horizontal tears are commonly observed in the DLM not only in older patients, but also in children because of the characteristic fragile structure of the DLM; the presence of horizontal tears is concerning as the treats may extend to the periphery [58]. However, it is difficult to confirming the instability of the DLM on MRI because of the dynamic features of DLM with peripheral detachment and incomplete DLM mimicking a normal meniscus. Thus, MRI should not be considered markedly superior for the diagnosis of DLM compared to clinical examination, particularly in light of the significant differences in the sensitivity for detecting the DLM between the two methods (MRI, 39.8%; clinical examination, 88.9%) [41]. These modalities should be used concurrently to aid decision-making regarding the management of patients with DLM.

Arthroscopy

Arthroscopy may be necessary to confirm the diagnosis of DLM in symptomatic patients with peripheral detachment or instability, although tears and DLM are not visible in MRI scans.

Decision making

The principle of treatment for patients with DLM is simple; asymptomatic patients with incidentally detected DLM require non-operative treatment with periodic follow-up, while symptomatic patients with DLM may need operative treatment, such as arthroscopic partial meniscectomy with or without meniscal repair, and subtotal or total meniscectomy. Subtle symptoms, such as snapping remain under debate whether to fix immediately or to wait for significant symptoms to develop [35, 44]. Previous review articles on the DLM indicated that snapping knee with no other symptoms could wait until the condition becomes significantly symptomatic because the knee may have adapted to the DLM anatomy [35, 42, 44, 70]. However, we consider that the surgical indication should depend on the age of the patients with DLM. Children with mechanical symptoms, such as snapping and clicking often present with a complete DLM, which is prone to tearing. Thus, careful and thorough evaluation is necessary because a DLM with peripheral tears is often detected during arthroscopy in pediatric patients with complete DLM presenting with only snapping. Meanwhile, older patients presenting slight clicking or snapping without pain or locking symptoms usually have an incomplete DLM; thus, close follow-up is required rather than operation because they have adapted to the knee with a DLM. However, if any patients experience pain or locking symptoms, surgical intervention is warranted (Fig. 2).

Surgical treatment

Total meniscectomy has been historically considered the treatment of choice for symptomatic DLM in order to avoid the risk of inherent anomaly in the remnant meniscal tissue [11]. However, studies have reported that resecting the meniscus results in a high risk of lateral compartment osteoarthritis and poor clinical outcomes [21, 55]. Considering the nature of meniscal function, the aim of treatment planning should be to preserve the meniscus tissue as well as possible.

Partial meniscectomy, referred to as meniscal reshaping, meniscoplasty, or saucerization, is currently favored as the treatment of choice for patients with symptomatic stable DLM [4, 54, 70]. This technique aims to ensure that the DLM is of a normal size and shape so as to provide adequate meniscus function without re-tearing. The width of the remaining peripheral rim of the DLM is an important issue during partial meniscectomy; studies have recommended various guidelines, suggesting 4–5 mm and 6–8 mm as the adequate width [1, 4, 35, 47, 67, 70]. There are concerns that impingement or re-tears may develop in the remnant meniscal tissue [1, 35, 70]. Conversely, Yamasaki et al. [69] found that a remaining peripheral rim measuring less than 5 mm in width led to degenerative changes. Furthermore, Kinugasa et al. [39] reported that DLM repair without partial meniscectomy showed good clinical outcomes without re-tear at 2-year follow-up. Thus, there remains no clear consensus regarding the extent of peripheral rim preservation and what anatomic reference should be considered during arthroscopic partial meniscectomy. Recently, Kim et al. [37] suggested that the midbody of the medial meniscus should be considered the reference point for the remaining peripheral rim in partial meniscectomy for patients with complete DLM; this is identical to our practice regarding the reference (Fig. 3). Partial meniscectomy can be performed via the one-piece or piecemeal techniques [4]. In addition to the arthroscopic instruments, the iris scissors are useful for resecting and trimming the anterior and middle portions of the DLM (Fig. 3) [4].

Meniscal repair is necessary in patients with unstable DLM owing to peripheral detachment during arthroscopy; however, the repair is surgically demanding especially when surgeons unexpectedly face peripheral detachment. Thus, surgical planning and preparation are essential when treating patients with DLM; the classification proposed by Ahn et al. [5] provides useful information to surgeons for predicting the peripheral detachment of the DLM on MRI. Our preferred technical pearls, which are based on the classification proposed by Ahn et al., are as follows [4]: Our preferred principle for DLM repair is (1) reduction first, (2) reshaping DLM with reference to the midbody of the medial meniscus, and finally, (3) repair. Occasionally, meniscal morphology is distorted due to meniscal shifting; thus, 1-stitch sutures are used for reduction in cases with posterocentral or central shifting before partial meniscectomy. When the posterolateral corner loss of the DLM is considerable and reduction with a probe is impossible, subtotal meniscectomy is reluctantly considered. Once the partial meniscectomy is completed, the suture repair of the peripheral tear is performed. A posterolateral portal is used in cases requiring posterior horn examination or repair. All repairs are performed using No. 0 polydioxanone (PDS) absorbable sutures (Ethicon, Somerville, NJ) with a stitch interval of approximately 3–4 mm. Suture techniques are determined based on the location and extent of peripheral tear considering accessibility and handiness. To repair tears in the anterior horn to the midbody, a modified outside-in suture technique is performed using a suture hook (Linvatec, Largo, FL) with a spinal needle preloaded with No. 0 Maxon (Covidien, Mansfield, MA, USA) to pull out the sutures (Fig. 4) [9]. To repair tears in the midbody to the posterolateral corner, a modified inside-out suture technique is performed using a zone-specific cannula and double-arm needles [8]. To repair tears in the posterolateral corner to the posterior horn, a modified all-inside suture technique is performed using a suture hook via a posterolateral portal (Fig. 5) [6]. Meniscal repair even in the most posterior zone and popliteal zone can achieved with the modified all-inside suture technique using the posterolateral portal. Postoperatively, crutches were used for non-weight bearing for 4 weeks and partial weight bearing for additional 4 weeks. Also, range of motion gradually increased 2-days after surgery with a brace and reached 120° of knee flexion by 8 weeks. Running was permitted 3 months after surgery, and kneeling was avoided for 6 months. At 5–6 months after surgery, return to sports was allowed when recoveries of strength and neuromuscular coordination was confirmed, although we cautiously recommend not to perform high-impact sports activity considering the high risk of re-tear and avoidance of tear in the asymptomatic contralateral knee with DLM.

Meniscal allograft transplantation may be considered a treatment option in symptomatic patient after subtotal or total meniscectomy of DLM and some authors have described good clinical results [36, 72]; however, long-term studies are need to establish the durability of the results.

Clinical outcomes

Studies have reported favorable clinical outcomes after both partial and subtotal meniscectomy in patients with DLM during the short-, mid-, and long-term follow-up; however, degenerative changes have been noted in subtotal meniscectomy [2, 4, 10, 11, 34, 39, 47, 55, 56, 71]. Thus, several systematic reviews on DLM treatment have been reported recently [46, 48, 63]. Lee et al. [48] performed a systematic review of the long-term surgical outcomes of DLM in 2017, including 11 studies involving 422 DLM cases. The pooled studies in the systematic review included arthroscopic partial meniscectomy with/without meniscal repair, subtotal meniscectomy, and total meniscectomy with a minimum of 5.5 years of follow-up. Good clinical results were shown in most of the included studies, with mild joint space narrowing in the lateral compartment without moderate or severe changes [48]. In 2017, Smuin et al. [63] performed a systematic review of partial versus total meniscectomy of symptomatic DLM during the short- and long-term follow-up. Postoperative clinical outcomes were analyzed by use of the Ikeuchi grading system [29] and classified as excellent (full range of motion, no knee snapping, and no pain), good (infrequent pain with exertion and full range of motion), fair (slight pain, knee snapping on motion, and full range of motion), or poor (constant pain and/or recurrent locking of knee). The four studies included for quantitative synthesis of the short-term outcomes (follow-up < 4 years) showed that 221 of 293 knees (75.3%) demonstrated excellent Ikeuchi outcomes in the partial meniscectomy group, similar to those in the total meniscectomy group (49 of 65 knees, 75.4%) [63]. However, five studies included to assess long-term outcomes (follow-up ≥4 years) showed that 277 of 517 knees (53.6%) in the partial meniscectomy group demonstrated excellent Ikeuchi outcomes, which differed significantly from total meniscectomy group (70 of 183 knees, 38.2%) (P < .001) [63]. Lee et al. [46] performed a systematic review and meta-analysis of the clinical and radiographic results of partial versus total meniscectomy in patients with symptomatic DLM. They included eight studies and found significantly higher proportions of cases with normal cartilage status or mild chondral wear (grade 0 or 1 of the Tapper and Hoover classification) for partial meniscectomy than for total meniscectomy (228 of 261 [87.4%] vs. 94 of 169 [55.6%], odds ratio [OR] 9.08; P < .001) [46]. However, the clinical outcomes were similar between the two groups [46]. Based on the clinical and radiographic results of recent systematic reviews, partial meniscectomy should be the first treatment option in patients with symptomatic DLM.

Prognostic factors

A recent systematic review reported that older age at surgery, longer follow-up period, and subtotal or total meniscectomy were risk factors for degenerative change after surgical treatment of the DLM [48]. Another recent review article on the DLM reported that younger patients were more likely to achieve satisfactory clinical results and that, compared to partial meniscectomy, subtotal or total meniscectomy led to increased contact pressure on the cartilage, resulting in degenerative changes [35]. Additionally, correlation and logistic regression analysis have identified the following prognostic factors: (1) re-tear is associated with younger age and open growth plate [59]; (2) higher Lysholm knee score is related to shorter duration of symptoms prior to surgery and larger varus alignment [45] as well as age < 10 years [71]; (3) degenerative changes in the lateral compartment are associated with older age [16, 59], high body mass index (BMI, ≥30 kg/m²) [59], subtotal meniscectomy (vs. partial meniscectomy with or without repair) [2], and other meniscal tear types (vs. horizontal tear) [16]; (4) preoperative meniscal shifting is a risk factor for decreased remaining meniscal width, representing a potential risk for degenerative changes (Table 1).