Meniscus Tears

What exactly is a meniscus?

The meniscus consists of two crescent-shaped pieces of cartilage within your knee joint (called the menisci) that help provide cushioning and shock absorption as you move. Each time you step, the menisci spread the impact of your body weight across the larger knee area and prevent the bones of your knee from impacting each other. As your knee bends, the incredibly smooth and strong surface of menisci also prevent the bones from grinding against each other as your knee goes through its full range of motion. The shape of the menisci helps keep the bones in place and add to the overall stability of your knee.

What causes a meniscus to tear?

Unfortunately, as strong as the menisci are, it can take something as simple as an awkward twist or contact to the knee to cause the meniscus to tear. Because of this, meniscus tears are fairly common in sports that require movements like twisting, squatting, jumping or changing direction quickly. In fact, meniscus tears are one of the most common knee injuries, affecting approximately 1 million people in the US each year.¹

The meniscus can tear from acute injury to the knee or from normal wear and tear over time. And while tears can happen to anyone of any age, older athletes are at a higher risk because the meniscus weakens over time.

Regardless of how they happen, meniscus tears can be extremely painful and, in some cases, cause the knee to stop functioning.

Myth: "I'd know if I tore my meniscus"

Fact: The only person who can accurately diagnose a torn meniscus is a doctor. Some of the symptoms associated with a torn meniscus are:

A popping noise or feeling at the time of the injury
Pain or stiffness in the knee joint
Swelling
Difficulty bending or straightening your knee
A tendency for your knee to get stuck or "lock up" when you try to move
An audible "clicking" sound when your knee moves

Like many soft tissue injuries, the initial pain might not be that bad, even allowing you to continue the activity that caused the injury. However, as your body responds to the tear and the swelling begins, the amount of pain often increases.

Myth: "A torn meniscus will heal itself"

Fact: Unfortunately, the reality is that many meniscal tears won't heal on their own. This is because there are actually several different types of meniscus tears that affect different areas of the menisci. For example, a small tear in the outer edges of the meniscus, where there is a rich supply of blood, may be able to repair itself over time. However, a tear closer to the center of the meniscus where there is no blood flow, will require intervention. If left untreated, a torn meniscus will continue to cause pain, limit your activity, and in some cases, get worse or develop into long-term problems such as arthritis.

If I have a torn meniscus, what are my options?

Non-surgical Treatments

Meniscus tears can sometimes be treated without surgery, depending on the severity and location of the injury.

Some common, non-surgical treatments include:

Anti-inflammatory medication (i.e. aspirin and ibuprofen)
The RICE protocol - Rest, Ice, Compression, Elevation
Physical therapy

Surgical Treatment Options

The goal of any meniscal surgery is to provide pain relief and restore function to the knee. Surgeons also try to reduce the opportunity for further damage to the knee as a result of the injury. Currently, surgeons have two primary treatment options to address a torn meniscus: repair it or remove at least the damaged portion.

Important safety notes

Individual results may vary. There are risks associated with any surgical procedure including meniscus repair. Meniscus repair is not recommended for everyone. Consult your physician to determine if this procedure is right for you.

The information listed on this site is for informational and educational purposes and is not meant as medical advice. Every patient's case is unique and each patient should follow his or her doctor's specific instructions. Please discuss nutrition, medication and treatment options with your doctor to make sure you are getting the proper care for your particular situation.

Postoperative care is individualized and is determined by the physician based on the patient's symptoms, injury pattern, unique patient anatomy, patient medical history, and individual treatment requirements. Not all patients will have the same surgical procedure or timelines for rehabilitation.

References

Kim S, Bosque J, Meehan JP, Jamali A, Marder R. Increase in Outpatient Knee Arthroscopy in the United States: A Comparison of National Surveys of Ambulatory Surgery, 1996 and 2006. J Bone Joint Surg Am. 2011;93:994-1000.

All information provided on this website is for information purposes only. Please see a healthcare professional for medical advice. If you are seeking this information in an emergency situation, please call 911 and seek emergency help.

The information listed on this site is for informational and educational purposes and is not meant as medical advice. Every patient’s case is unique and each patient should follow his or her doctor’s specific instructions. Please discuss nutrition, medication and treatment options with your doctor to make sure you are getting the proper care for your particular situation.

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References

*Journey II BCS.

Hall, et al. Unicompartmental knee arthroplasty (alias uni-knee): an overview with nursing implications. Orthopaedic Nursing. 2004;23(3):163-171. Accessed April 25, 2019.
- Based on pre-surgical pain levels in UKA patients.
Mayman DJ, Patel AR, Carroll KM. Hospital related clinical and economic outcomes of a bicruciate knee system in total knee arthroplasty patients. Poster presented at: ISPOR Symposium; May 19-23, 2018; Baltimore, Maryland, USA.
Nodzo SR, Carroll KM, Mayman DJ. The Bicruciate Substituting Knee Design and Initial Experience. Techniques in Orthopaedics. 2018;33(1):37-41
- Compared to non-JOURNEY II knees; Based on BCS evidence
1Short-term Range of Motion is Increased after TKA with an asymmetric bicruciatestabilized implant.AcceptedPoster Presentation, AAOS 2018 New Orleans. Kaitlin M. Carroll, Peter K. Sculco, Brian CMichaels,RichardL. Murphy, Seth A, Jerabek, David J. Mayman
2J Orthop. 2017 Jan 7;14(1):201- 206. doi: 10.1016/j.jor.2016.12.005. eCollection 2017. Bi-cruciate substituting total knee arthroplasty improved medio-lateral instability in mid-flexion range
In Vivo Kinematic Comparison of a Bicruciate Stabilized Total Knee Arthroplasty and the Normal Knee Using Fluoroscopy Trevor F. Grieco, MS a, *, Adrija Sharma, PhD a, Garett M. Dessinger, BS a, Harold E. Cates, MD b, Richard D. Komistek, PhD. The Journal of Arthroplasty, September 2017
Testing concluded at 45 million cycles, ISO 14242-1 and 14243-3 define test completion at 5 million cycles. The results of laboratory wear simulation testing have not been proven to predict actual joint durability and performance in people. A reduction in wear alone may not result in improved joint durability and performance because other factors, such as bone structure, can affect joint durability and performance and cause medical conditions that may result in the need for additional surgery. These other factors were not studied as part of the testing.
Iriuchishima T, Ryu K. Bicruciate substituting total knee arthroplasty improves stair climbing ability when compared with cruciate-retain or posterior stabilizing total knee arthroplasty. Indian J Orthop. 2019. doi:10.4103/ortho.IJOrtho_392_18.
Smith JR, Picard F, Lonner J, et al. The accuracy of a robotically-controlled freehand sculpting tool for unicondylar knee arthroplasty. Congress of the International Society of Biomechanics. August 4-9, 2013. Natal, Brazil.
Zardiackas, Lyle D., Kraay, Matthew J., Freese, Howard L, editors. Titanium, Niobium, Zirconium, and Tantalum for Medical and Surgical Applications ASTM special technical publication; 1471. Ann Arbor, MI: ASTM, Dec. 2005

Additional claim statements and support regarding Smith+Nephew implants and Robotics-assisted surgery

Implants that are built to last
- Learn More
LEGION^◊CR Knee with VERILAST^◊ technology was lab-tested for 45 million cycles (estimating 30 years of wear performance) and showed 81% less wear than similar 5-million cycle cobalt chrome implant.
- Learn More
  - ISO 14243-3
  - VERILAST knee wear testing and results apply only to the VERILAST LEGION CR Primary Knee System only. Extended lab-testing for other VERILAST knee systems have not been performed. The results of laboratory wear simulation testing have not been proven to predict actual joint durability and performance in people. A reduction in wear alone may not result in improved joint durability and performance because other factors, such as bone structure, can affect joint durability and performance and cause medical conditions that may result in the need for additional surgery. These other factors were not studied as part of the testing.
Smith+Nephew implants may offer a more normal feeling knee
- Based on JOURNEY^◊ II BCS knee implant
- Learn More
  - Verstaete MA, Van Onsem S, Zambianchi F, et al. Multi-centre evaluation of knee kinematics during different activities for anatomic total knee design. Poster presented at: 2nd World Arthroplasty Congress; 19-21 April, 2018; Rome, Italy.
  - Sharma A, Dessinger G, Cates H, Komistesk R. In vivo kinematic comparison for subjects having a bi-cruciate substituting TKA vs the normal knee. Poster presented at: 2nd World Arthroplasty Congress; 19-21 April, 2018; Rome, Italy.
  - Kosse NM, Heesterbeek PJC, Defoort KC, Wymenga AB, van Hellemondt GG. Improved maximal flexion after minor adaptations in implant design bicruciate-substituted total knee arthroplasty. Poster presented at 19th Congress of the European Federation of National Associations of Orthopaedics and Traumatology (EFORT); May 30 – June 1 2018; Barcelona, Spain.
89% of patients were able to take the stairs again after surgery.
- Based on JOURNEY^◊ II BCS knee implant patients
  - Iriuchishima T and Ryu K. Bicruciate substituting total knee arthroplasty improves stair climbing ability when compared with cruciate-retain or posterior stabilizing total knee arthroplasty. Indian J Orthop. 2019. DOI:10.4103/ortho.IJOrtho_392_18
A robotics-assisted knee replacement with Smith+Nephew implants may get you back in the game six months sooner than traditional knee replacement surgery
- Based on UKA patients
  - Canetti R, Batailler C, Bankhead C, Neyret P, Servien E, Lustig S. Faster return to sport after robotic-assisted lateral unicompartmental knee arthroplasty: a comparative study. Arch Orthop Trauma Surg. 2018;138(12):1765-1771
Over 90% of patients who had a Smith+Nephew knee replacement surgery returned to work within 6 months.
- - Harris AI, Luo TD, Lang JE, Kopjar B. Short-term safety and effectiveness of a second-generation motion-guided total knee system. Arthroplast Today. 2018;4:240–243. 1
Robotics-assisted surgery with Smith+Nephew implants may lead to a faster rehabilitation and shorter recovery time than traditional knee surgery when following your doctor’s recovery plan and physical therapy recommendations.
- Claim 19 & 20 (PCS REC.015)
Due to its improved accuracy, Smith+Nephew robotics-assisted UKA has lower revision rates* compared to conventional techniques
- Shown in clinical studies with follow-up of up to 5.5 years
  - Batailler C, White N, Ranaldi FM, Neyret P, Servien E, Lustig S. Improved implant position and lower revision rate with robotic-assisted unicompartmental knee arthroplasty. Knee Surg Sports Traumatol Arthrosc. 2019;27(4):1232-1240.
  - Battenberg AK, Netravali NA, Lonner JH. A novel handheld robotic-assisted system for unicompartmental knee arthroplasty: surgical technique and early survivorship. J Robot Surg. 2019;14(1):55-60.
  - Gregori A. 5 Yr Experience Semi Active Robotic Partial Knee Replacement: The Financial Impact. Poster presented at: SICOT;October, 2018; Montreal, Canada.
A study has shown Smith+Nephew robotic technology has demonstrated faster return to sport (4.2 vs 10.5 months) when compared to conventional techniques*
- - - *n= 28 (n=11 robotic procedures), p<0.01
      - Canetti R, Batailler C, Bankhead C, Neyret P, Servien E, Lustig S. Faster return to sport after robotic-assisted lateral unicompartmental knee arthroplasty: a comparative study. Arch Orthop Trauma Surg. 2018;138(12):1765-1771

Robotics-assisted surgery with Smith+Nephew implants may help patient get discharged sooner
- Study of UKA patients
  - Sephton BM, et al. EKS Arthroplasty Conference. May 2-3, 2019; Valencia, Spain.
  - Shearman AD, et al. EKS Arthroplasty Conference. May 2-3, 2019; Valencia, Spain.
Robotics-assisted surgery with Smith+Nephew implants may provide patients with a smoother recovery
- Based on JOURNEY II family of implants
  - Mayman DJ, Patel AR, Carroll KM. Hospital Related Clinical and Economic Outcomes of a Bicruciate Knee System in Total Knee Arthroplasty Patients. Poster presented at: ISPOR Symposium; May 19-23, 2018; Baltimore, Maryland, USA.
Robotics-assisted surgery with Smith+Nephew implants may help patients regain function faster
- - Shearman AD, et al. EKS Arthroplasty Conference. May 2-3, 2019; Valencia, Spain.

Additional statements and support regarding Knee Replacement

More than 90% of people who have knee replacement surgery experience dramatic relief in knee pain and are better able to perform common activities.
- Based on pre-surgical pain levels
  - American Academy of Orthopaedic Surgeon website, http://orthoinfo.aaos.org/topic.cfm
The majority of patients experience profound improvements in their physical activity after having knee replacement surgery.
- Based on pre-surgical activity levels
  - Brandes M, et. al., “Changes in physical activity and health-related quality of life during the first year after total knee arthroplasty.” Clin Orthop Relat Res. 1991 Dec;(273):151-6. https://www.ncbi.nlm.nih.gov/pubmed/20981812 Accessed Wednesday, April 17, 2019