Select an Orthopaedic Specialty and Learn More
Use our specialty filter and search function to find information about specific orthopaedic conditions, treatments, anatomy, and more, quickly and easily.
GET THE HURT! APP FOR FREE INJURY ADVICE IN MINUTES
Shoreline Orthopaedics and the HURT! app have partnered to give you virtual access to a network of orthopaedic specialists, ready to offer guidance for injuries and ongoing bone or joint problems, 24/7/365.
Browse Specialties
-
- Joint Disorders
- Knee
Articular Cartilage Restoration
Articular cartilage can be damaged by injury or normal wear and tear, resulting in a joint surface that is no longer smooth. Damaged cartilage does not heal itself well, so doctors have developed surgical techniques to stimulate the growth of new cartilage. This procedure is used most commonly for the knee and most candidates are young adults with a single injury or lesion. Restoring articular cartilage can relieve pain, allow improved function, and delay or prevent the onset of arthritis.
More Info -
- Bone Health & Osteoporosis
- Foot & Ankle
- Fractures, Sprains & Strains
- Hand & Wrist
- Hip
- Knee
- Neck and Back (Spine)
Bone Health & Osteoporosis
One in two women and up to one in four men will break a bone in their lifetime due to osteoporosis. For women, the incidence is greater than that of heart attack, stroke and breast cancer combined. Shoreline Orthopaedics has opened the Bone Health and Osteoporosis Clinic to help patients prevent fractures and breaking of that second bone.
More Info -
- Fractures, Sprains & Strains
- Knee
- Ligament Disorders
- Sports Medicine
Collateral Ligament Injuries (MCL, LCL)
Knee ligament sprains or tears are a common sports injury, and the MCL is injured more often than the LCL. The MCL is the most commonly injured ligament in the knee. However, due to the complex anatomy of the outside of the knee, an injury to the LCL usually includes injury to other structures in the joint, as well. Athletes who participate in direct contact sports like football or soccer are more likely to injure their collateral ligaments.
More Info -
- Fractures, Sprains & Strains
- Knee
- Ligament Disorders
- Sports Medicine
Combined Knee Ligament Injuries
Because the knee joint relies just on ligaments and surrounding muscles for stability, it is easily injured. Direct contact to the knee or hard muscle contraction, such as changing direction rapidly while running, can injure a knee ligament. It is possible to injure two or more ligaments at the same time. Multiple injuries can have serious complications, such as disrupting blood supply to the leg or affecting nerves that supply the limb’s muscles.
More Info -
- Joint Disorders
- Knee
- Pediatric Injuries
- Sports Medicine
Jumper’s Knee
Repetitive contraction of the quadriceps muscles in the thigh can stress the patellar tendon where it attaches to the kneecap, causing inflammation and tissue damage (patellar tendinitis). For a child, this repetitive stress on the tendon can irritate and injure the growth plate, resulting in a condition referred to as Sinding-Larsen-Johansson disease.
More Info -
- Pediatric Injuries
- Sports Medicine
Overuse Injuries in Children
Although the benefits of athletic activity are significant, young athletes are at greater risk for injury than adults because they are still growing. Some children play on multiple team sat the same time while others participate in one sport, all year long. Repetitive use of the same muscle groups places unchanging stress to specific areas of the body, leading to muscle imbalances that, when combined with overtraining and inadequate rest periods, can put children at serious risk for overuse injuries.
More Info -
- Fractures, Sprains & Strains
- Hand & Wrist
- Joint Disorders
- Ligament Disorders
- Sports Medicine
Wrist Sprains
Sprained wrists are often caused by a fall, such as onto an outstretched hand, or when the joint is bent forcefully or suddenly twisted. Wrist sprains are graded according to the degree of injury to the ligaments, and they can range from mild to severe.
More Info