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Arthroscopic Meniscus Repair
Don Johnson MD
Director Sports Medicine Clinic Carleton University
Associate Professor Orthopedic Surgery University of Ottawa
Ottawa ON Canada
Introduction
Sutures, stingers, arrows, darts, and screws. Does all this sound
confusing? You bet it is. The hot topic in meniscal repair is the use of
bioabsorbable devices to repair the tear. This is a complex topic, and it is difficultto separate fact from hype. Each company has their own device made with
various combinations of polymers with appropriate lab pullout strength studies to
justify their use. This summary will hopefully unravel some of the truths and
myths.
Indications and Contraindications.
First of all, who is a candidate for meniscal repair? The algorithm for meniscal
repair should consider the following factors
Location
o The ideal type of meniscal tear to consider repairing is the
peripheral tear. This is also referred to as the red on red tear,
indicating the degree of vascularity. This tear is amenable only to
suture repair. Most commonly the tear is in the red on white region,
which also has an acceptable successful repair rate when
bioabsorbable devices are used. Morphology of the tear
o Size
The short tear of 1-2 cm has a better successful repair rate
o Appearance
The vertical longitudinal tear is ideal for repair
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Dont consider repairing degenerative horizontal cleavage
tears or flap tears.
Patient factors
o Non compliant patient should not be considered for repair
o The younger patient has a higher success rate. The older patient
often has the type of degenerative tear that is non repairable.
o The rehab must be modified to avoid flexion in the immediate post-
op period.
o 50% of ACL tears are associated with meniscal tears.
In summary, the best candidate for meniscal repair is the young compliant patient
with a 2 cm long peripheral longitudinal meniscal tear. You should always
consider a meniscal repair, rather than a menisectomy in the young athlete to
protect his articular cartilage for the future.
Which tears can you leave alone?
Shelbourne has shown that the short 1 cm stable tear that is associated
with the ACL tear can be left alone. The follow up of the untreated tears shows
no increase in late meniscal symptoms or increase in the late menisectomy rate.
This is an incomplete posterior horn lateral tear that is stable. This tear can be
left alone.
Some of the incomplete tears can also be treated by trephination.
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This stable incomplete tear of the medial meniscus is trephinated in 3 places with
a number 18 gauge needle. In a study by Zhongnan, good results were obtained
by trephination alone in this type of tear.
This is a repairable longitudinal posterior segment tear of the medial meniscus.
This tear should be repaired early to prevent its extension into a bucket handle
tear.
The techniques of meniscal repair.
Inside out Suture repair.
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The suture repair of the meniscus using non-absorbable vertical loop sutures
placed from inside out.
The arthroscopic inside out suture repair originally described by Henning
is the gold standard. Rosenberg popularized the double cannula system to place
the horizontal sutures. The success rate of this type of repair is about 80%.
Johnson described the outside in suture technique. The vertical loop suture was
shown by Dervin to be twice as strong as the horizontal loop suture. Multiple
vertical loops of non-absorbable material placed 5 mm apart on the superior and
inferior surface provides the best repair. Morgan, using the spectrum tissue
repair system, described all inside repairs. With the advent of the bioabsorbable
devices this technique has largely been abandoned. The advantages of the
suture repair technique are that it is proven to be efficacious and cost effective.
The disadvantages of the suture technique is that the second incision is required
that requires more time and usually a second assistant. There is also a potential
for needle sticks and neuro-vascular complications. There is also a significant
learning curve in placing and tying the sutures. The medial meniscus is repaired
in extension and the lateral meniscus is repaired in the figure four position.
In light of the proven success of the suture repair we should think seriously about
abandoning this technique in favour of the easier to perform repair with the
bioabsorbable devices.
Inside out suture repair The technique
Examining the meniscus and preparing the edges of the tear
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The displaced meniscus tear is reduced and the edges are rasped.
Making the posterior incision on the medial side
The posteromedial incision is made just behind the MCL and anterior to
the saphenous nerve. The incision should be centered with 2/3 below the
joint line. The superficial fascia is incised, and by blunt dissection the
posterior capsule is exposed. A retractor is placed posteriorly to guide the
needles anteriorly and to protect the saphenous nerve.
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Making the posterior incision on the lateral side
The posterolateral incision is made just behind the lateral collateral
ligament. The LCL can be palpated by placing a varus force on the knee.
The incision should be 2/3 below the joint line. The superficial fascia and
then the ilio-tibial band is divided. The posterior capsule is exposed by
blunt dissection. A retractor is placed posteriorly to protect the peroneal
nerve.
Placing the sutures into the meniscus
The sutures are placed with long needles down the zone specific cannula. Thesutures may be placed either in a vertical or horizontal fashion. The vertical have
a better pullout strength. The sutures may be placed on top or under the
meniscus. In this series of pictures the needle is initially placed through the
capsule, and then through the meniscal fragment.
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Retrieving and tying the sutures
The sutures are retrieved through the posterior incision and tied over the capsule
with the knee in extension. To ensure that the sutures are tight the anterior group
of sutures can be tied to the posterior sutures.
The technique of meniscal repair using the BioStinger
The cannulated BioStinger. The cannulated devices make placement of the
device more accurate and the reduction of the tear easier.
Preparing the meniscus
The tear should be initially probed to determine if it is suitable for repair.
The edges of the tear should be debrided of fibrous tissue with a rasp or a small
shaver. Pavlovich has described the technique of stimulation of the meniscal
synovial border with electrocautery. The principle is to lightly burn the synovium
to produce a healing response.
The monopolar electrode is used to stimulate the synovium at the tear.
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Zhongnan demonstrated that the meniscus and the rim may be
trephinated to produce vascular access channels.
The sutures and the bioabsorbable devices must be placed accurately to
reduce the tear and hold it until it is healed. A hybrid approach for large bucket
handle tears is to use sutures in the middle segment to reduce and hold the
bucket tear and then use the bioabsorbable devices in the difficult to repair
posterior horn region.
The technique of the Biostinger insertion
The appropriate length of BioStinger is selected, usually 13 mm, and loaded on
the cannulated wire of the delivery unit.
The cannula is placed against the meniscus, 2 mm of cannulated wire is
delivered into the torn fragment. The fragment is then reduced to the peripheral
rim. This step is similar to the inside out suture repair using the zone specific
cannulas with the long meniscus repair needles.
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When the torn fragment is reduced, the cannulated wire is advanced into the rim
using the slider bar on the side of the device.
The BioStinger is inserted into the meniscus by depressing the plunger on the
end. The meniscus can be felt to ratchet into the meniscus.
Alternately, the insertion of the wire and BioStinger can be done with a 3
step trigger on the meniscus gun. This pushes the fixator into the tissue, but does
not shoot it in. The first pull advances the wire 2 mm to reduce the tissue. The
second pull advances the wire 13 mm into the tissue and the 3 pull advances the
BioStinger along the wire into the meniscus.
To prevent the cannulated wire from bending, firm pressure must be
exerted on the cannula to keep this against the meniscus. The cannula is backed
up 5 mm and the head of the BioStinger inspected to be sure that it is
countersunk under the surface of the meniscus.
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This photo demonstrates that the meniscal fixator must be countersunk below the
surface of the meniscus.
BioStinger Advantages
Low profile head
Molder PLLA
4 rows of prongs
cannulated insertion similar to inside out suture repair
same load to failure as the horizontal suture
fast and easy to perform
BioStinger Disadvantages
Expensive
Damage to articular surface due to prominent head
Damage to neurovascular structures due to over penetration with the
BioStinger
Learning curve for insertion at the correct angle and position in the
meniscus.
Difficult in tight, small knee
Prolonged time for resorption of the PLLA material
Relative Contraindications for the use of meniscal fixators
Peripheral tear at the meniscal synovial junction. The fixator must have 3+
mm of tissue to grasp
Lateral meniscal tear at the popliteus junction. This is an open space
around the tendon that requires sutures to approximate the tissue.
Chronic displaced bucket handle tear. This may be repaired with a hybrid
technique of sutures and fixators.
Small tight knee in young patient. It is difficult to insert the cannula under
the condyle and into the correct position on the meniscus. The long
needles of the sutures can be bent and directed into the correct position.
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Clinical Results
Peter Kurzweil reported on the results at the AANA 1999 fall course in San
Diego.
Albrecht-Olsen 34 patients 21% failure
Saul Schrieber 37 patients 5% failure
Peter Kurzweil 40 patients 12%
Kurzweil discussed and commented on his failures of repairs with the use of the
bioabsorbable arrow. The 5 failures in the 40 patients all occurred in the first 10
patients related to the learning curve. He found that 2 failures were due to flexion
injuries in the first 3-5 weeks. 3 were due to large peripheral bucket tears that
were displaced at the time of diagnosis. Based on his experience he suggested
that there should be no accelerated rehab with no flexion or squatting for 4
months. He suggests that you combine the repair techniques of suture and
arrows for large displaced bucket tears. He also cycles the knee after the repair
to make sure that the bucket tear does not re-dislocate into the notch. He avoids
the bioabsorbable devices in the red on red tears, in the popliteal tendon region,
in small tight knees, and in large displaced bucket handle tears.
Schepis reported on his results with bioabsorbable arrows in a poster at the
Academy in 2001
His suture repair rate was 6.9%. This increased to 19% with the introduction of
arrows. He followed 38 patients over 2 years. ACL reconstruction was performed
in 22/38 cases. The successful repair rate was 94% as assessed by chart review,
phone interview and clinical evaluation. There was a 7% failure rate in stable non
ACL reconstruction cases. However, 31% had temporary local irritability to the
arrow, but only 1 had persistent symptoms.
We reported on our meniscal repair results in a poster at the AANA spring
meeting and a podium presentation at the annual Canadian Orthopedic Meeting.
There were 262 meniscal repairs in 2100 ACL reconstructions. In 1990 the
suture repair rate was 8.9%, and this increased to 19% with the use of meniscal
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fixators. The outcome of suture repair, fixators repair and the hybrid repair was
the same as measured by the Tegner, Lysholm, and Cincinnati scale. The failure
rate was 4% for fixators, 12% for hybrids and 25% for sutures. The high failure
rate for the sutures was probably due to the repair of chronic displaced bucket
handle tears.
Summary
Meniscus repair in a suitable patient with the appropriate tear is
efficacious. The use of the bioabsorbable devices should be used judiciously and
in large tears in combination with sutures. At the present time we do not know
how much fixation is required to allow a torn meniscus to heal, consequently any
of the devices may work. The stimulation of the synovium with the subsequent
bleeding and the production of a fibrin clot may be all that is necessary to
promote healing of the meniscal tear. The final outcome of the procedure is
judged by the clinical result.
My current approach is to use non-absorbable sutures from inside out,
with a separate incision to retrieve the sutures and tie them over the capsule. I
use the bioabsorbable fixators in the posterior, difficult to access region. If he tear
is small, 2 cm, I may use the fixators alone.
Above all, do no harm.
References
1. Albrecht-Olsen PM, Kristensen G, Tormala P. Meniscus bucket handle
fixation with an absorbable Biofix tack: Development of a new technique.
Knee Surg, Sports Traumatology Arthroscopy 1993; 1: 104-6
2. Albrecht-Olsen PM, Lind T, Kristensen G, Falkenberg B. Failure strength
of a new meniscus arrow repair technique: Biomechanical comparison
with horizontal suture. Arthroscopy 1997; 13: 183-7
3. Anderson K MD, Marx RG MD, MSc, FRCSC, Hannafin J MD PhD,
Warren R. MD. Chondral Injury Following Meniscal Repair with a
Biodegradable Implant Arthroscopy 2000 16: 7 p
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4. Barber FA, Click CD. Meniscus repair rehabilitation with concurrent
anterior cruciate ligament reconstruction. Arthroscopy 1997; 13: 433-7
5. Barber FA: Accelerated rehabilitation for meniscus repairs. Arthroscopy
10:206-210, 1994
6. Cannon WD Jr, Morgan CD: Meniscal repair: II. Arthroscopic repair
techniques. J Bone Joint Surg Am 76:294-311, 1994
7. DeHaven KE, Decision making factors in the treatment of meniscal
lesions. Clin Orthop 1990; 252:49-54
8. DeHaven KE: Meniscus repair in the athlete. Clin Orthop 198:31-35, 1985
9. DeHaven KE: Peripheral meniscus repair: An alternative to meniscectomy.
J Bone Joint Surg Br 63:463, 1981
10. DeHaven KE, Arnoczky SP: Meniscal repair: 1. Basic science, indications
for repair, and open repair. J Bone Joint Surg Am 76:140-152, 1994
11. DeHaven KE, Black KP, Griffiths HJ: Open meniscus repair: Technique
and two- to nine-year results. Am J Sports Med 17:788-795, 1989
12. Dervin GF, Downing KJW, Keene GCR, McBride DG. Failure strength of
suture versus biodegradable arrow for meniscus repair: an in vitro study.
Arthroscopy 1997; 3: 296-300
13. Henning CE, Clark JR, Lynch MA, et al: Arthroscopic meniscus repair with
a posterior incision. Instr Course Lect 37:209-221, 1988
14. Johnson LL. Meniscus repair: the outside in technique: In, Reconstructive
Knee Surgery, Jackson DW, editor. New York Raven Press, 1995.
15. Money MF, Rosenberg TD. Meniscus repair: the inside out Technique. In,
Reconstructive Knee Surgery, Jackson DW, editor. New York Raven
Press, 1995.
16. Morgan CD. The all inside meniscal repair. Arthroscopy `1991; 7: 120-5
17. Pavlovich R, Strobel M, Vazquez-Vela G, Berumen-Nafarrete E, Mora-
Behar G. Basic Science on Hi-Frequency Currents in Arthroscopic Knee
Surgery. Am J Knee Surgery; 12: 176-9.
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18. Port J, Jackson DW, Lee TQ, Simon TM. Meniscal repair Supplemented
with Exogenous Fibrin Clot and Autogenous Cultured Marrow Cells in the
Goat Model. Am J Sports Med. 1996 (24): 547-55.
19. Rodeo S, Warren K. Meniscal repair using the outside to inside technique.
Clin Sports Med 1996;15:3
20. Ross G MD Grabill J RN, McDevitt E MD. Chondral Injury After Meniscal
Repair with Bioabsorbable Arrows. Arthroscopy 2000 16: 7
21. Shelbourne KD. Patel DV, Adsit WS, Porter DA. Rehabilitation after
meniscal repair
22. Shelbourne KD, Porter DA: Meniscal repair: Description of a surgical
technique. Am J Sports Med 21:870-873, 1993
23. Zhongnan A Arnold JA. Trephination and Suturing of Avascular Meniscal
Tears: A Clinical Study of the Trephination Procedure. Arthroscopy 1996;
12: 726-31
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