2541 / ORTHOTEX KNEE STABILIZER - SPIRAL STAYS
The OTC 2541 knee stabilizer is made from Orthotex fabric, an open 3-dimensional knit that is a non-latex alternative to neoprene. It offers breathability, elasticity, therapeutic compression, comfort and heat control. It is less hot than neoprene, thus appropriate for long term wear or wear in warm climates, and ideal for wearers who are allergic to or irritated by neoprene fabric.
Indications Listed Below
• Open cell foam Orthotex material is breathable and allows for comfortable long-term wear
• Multidirectional stretch material provides even compression over the anatomical prominences of the joint
• Multi-function neoprene buttress surrounds kneecap and provides compression and stabilization. Slits on interior of buttress cover allows for a wide range of adjustability
• Spiral stays provide moderate side-to-side support and stability, yet flex and extend naturally with the joint
• Upper and lower hook-and-loop encircling straps maintain stabilizer in correct position; straps are adjustable, and removable
• Sheer mesh elastic opening over back of knee minimizes binding, enhances wearing comfort
• Latex free
Open cell foam Orthotex material is breathable and allows for comfortable long-term wear.
Multi-function neoprene buttress surrounds kneecap and provides compression and stabilization. Slits on interior of buttress cover allows for a wide range of adjustability.
Upper and lower hook-and-loop encircling straps maintain stabilizer in correct position; straps are adjustable, and removable.
Spiral stays provide moderate side-to-side support and stability, yet flex and extend naturally with the joint.
How to Measure for and Apply Knee Stabilizer
|SIZE||MEASURE AROUND THE BEND OF THE KNEE|
|SMALL||15” – 16” (38.1 - 40.6 CM)|
|MEDIUM||16” – 18” (40.6 – 45.7 CM)|
|LARGE||18” – 20” (45.7 – 50.8 CM)|
|X-LARGE||20” – 22” (50.8 – 55.9 CM)|
|2X-LARGE||22” – 24” (55.9 – 61.0 CM)|
|3X-LARGE||24” – 26” (61.0 – 66.0 CM)|
|4X-LARGE||26” – 28” (66.0 – 71.1 CM)|
A. Measure around the bend of the knee
1. Slip the support up and over the knee until the opening in the front is aligned over the kneecap.
2. If necessary, adjust so the stays on either side of the knee are uniform in appearance.
3. When properly applied, the support should fit snug but not so tight that it deeply depresses the skin.
Review the accompanying chart to determine the product that best suits your needs. On the left, you will find a variety of injuries that OTC products are specifically designed to treat and prevent. On the top, you will find the product numbers of all OTC Knee braces, supports, and stabilizers. If a red box is present where the column and row intersect, your injury is treated by the associated product.
|Compression & Support|
|Collateral Ligament Support|
|Cruciate Ligament Support|
|Hamstring Strain or Injury|
|Lateral Pressure Syndrome|
|Lateral Patella Syndrome|
|Medial/Lateral Cartilage Support|
|Medial Collateral Ligament Rupture|
|Osgood Schlatter Syndrome|
|Patellar Tendon Sprains and Strains|
|Patellar Fracture or Dislocation|
|Patellar Tendon Rupture|
|Sprains and Strains|
|Traumatic Knee Injuries|
CRUCIATE AND COLLATERAL LIGAMENT INJURIES
The conditions shown below may not be treated by the product listed on this page. Please view the above Medical Applications Chart to determine what conditions this page's associated product treats.
The anterior cruciate ligament (ACL) helps maintain knee stability by preventing the tibia (shin bone) from sliding forward beneath the femur (thigh bone). It can be injured in any number of ways, for example: changing direction rapidly, slowing down while running, landing from a jump, and direct injury (such as in a football tackle).
• A “popping”sound noted when injured
• Knee swelling within 6 hours
• Joint instability
• Pain on the medial (inner) side of the knee
Posterior cruciate ligament (PCL) injuries disrupt knee joint stability because the tibia can sag backwards. The PCL is usually injured by hyperextension (overextending the knee), or a direct blow to the flexed knee (the position of the knee when you bend the leg).
• Knee swelling and tenderness in the space behind the knee (popliteal fossa)
• Joint instability
• Joint pain
The medial collateral ligament (MCL) is located at the inner side the knee joint. The MCL connects the femur to the tibia and provides stability to the inner side of the knee. Injuries to the MCL are usually caused by contact on the inside of the knee.
• Sharp pain on the medial side (inside) of the knee
The lateral collateral ligament (LCL) is located at the outer side of the knee joint. The LCL connects the femur to the lateral bone in the lower leg, the fibula, and stabilizes the outer side. Injuries to the LCL are usually caused by contact to the outside of the knee.
• Pain and tenderness along the outside of the kneecap (patella)
• Possible swelling
• Chronic pain and weakness
soft tissues of the knee
A. Quadriceps Muscles
The large muscle group found in front of the thigh that traverses the femur and terminates at the supra-patellar tendon. The quadriceps muscles allow the knee to extend or straighten out.
B. Supra-Patellar Tendon
Attaches to the quadriceps muscles to the patella (kneecap).
C. Menisci (Medial and Lateral Meniscus)
Fibrous cartilage pads that distribute weight and provide a smooth surface for the joint to move on.
D. Infra-Patellar Tendon
Attaches the tibia to the patella.
Ligaments of the knee
A. PCL (Posterior Cruciate Ligament)
Attaches at the back of the tibia and the front of the femur. Prevents dislocation of the femur in a forward direction.
B. MCL (Medial Collateral Ligament)
Connects the femur to the tibia and provides stability to the inner side of the knee.
C. ACL (Anterior Cruciate Ligament)
Attaches at the back of the femur and the front of the tibia. Limits rotation and forward movement of the tibia.
D. LCL (Lateral Collateral Ligament)
Connects the femur to the fibula and stabilizes the outer side of the knee.