Tenjet Procedure, Recovery Rate, Surgery, Hydrocision
Content
- What is Tenjet?
- Tenjet Procedure
- Tenjet Recovery Rate
- Tenjet Surgery
- Tenjet Hydrocision
What is Tenjet?
Tenjet is a medical device and procedure used in orthopedic medicine for the treatment of chronic tendonitis and soft tissue injuries. It involves a minimally invasive technique that utilizes a specialized device equipped with high-velocity saline irrigation and suction mechanisms to remove damaged tissue and debris from the affected tendon.
Tenjet Procedure
The Tenjet procedure is a minimally invasive technique designed to treat chronic tendonitis and soft tissue injuries, particularly those affecting the shoulder, elbow, knee, and ankle. It involves the use of a specialized device equipped with a high-velocity saline stream and a suction mechanism to remove damaged tissue and debris from the affected tendon.
During the procedure, the orthopedic surgeon inserts the Tenjet device into the affected tendon under ultrasound or fluoroscopic guidance. The device delivers a precise, high-velocity saline stream to break down and remove scar tissue, calcifications, and other abnormalities contributing to tendon inflammation and pain.
By selectively targeting the damaged tissue while preserving healthy tendon fibers, the Tenjet procedure aims to promote healing, reduce pain, and restore function in the affected joint. Its minimally invasive nature allows for shorter recovery times and reduced risk of complications compared to traditional open surgery.
Tenjet Recovery Rate
One of the key advantages of the Tenjet procedure is its favorable recovery rate and outcomes for patients. Clinical studies and real-world experiences have demonstrated significant improvements in pain relief, range of motion, and functional outcomes following Tenjet treatment for chronic tendonitis and related conditions.
Many patients experience noticeable pain reduction and improved joint function shortly after the procedure, with continued improvements over time as the tendon heals and regenerates. The minimally invasive nature of the Tenjet procedure also contributes to faster recovery times, allowing patients to resume their normal activities sooner compared to traditional surgical approaches.
Moreover, the targeted nature of the procedure minimizes damage to surrounding tissues and structures, further enhancing recovery and reducing the risk of postoperative complications. This makes Tenjet an attractive option for patients seeking effective treatment for chronic tendonitis with minimal disruption to their daily lives.
Tenjet Surgery
The Tenjet procedure is indicated for a variety of tendon and soft tissue injuries, including:
- Rotator cuff tendonitis and tears
- Tennis elbow (lateral epicondylitis)
- Golfer's elbow (medial epicondylitis)
- Achilles tendonitis
- Plantar fasciitis
- Patellar tendonitis (jumper's knee)
Orthopedic surgeons may recommend Tenjet surgery for patients who have failed to respond to conservative treatments such as rest, physical therapy, medications, and corticosteroid injections. The procedure offers a minimally invasive alternative to traditional open surgery, providing targeted relief for chronic tendonitis and related conditions.
Tenjet Hydrocision
At the heart of the Tenjet procedure is a revolutionary technology known as Tenjet Hydrocision. This innovative system combines high-velocity saline irrigation with precision suction to remove damaged tissue and debris from the affected tendon while minimizing trauma to surrounding structures.
The high-velocity saline stream generated by the Tenjet device breaks down scar tissue, calcifications, and other abnormalities within the tendon, allowing for thorough debridement and tissue removal. The suction mechanism then removes the dislodged tissue and debris from the joint, helping to promote a clean and optimal environment for healing.
By harnessing the power of Hydrocision technology, the Tenjet procedure offers precise, targeted treatment for chronic tendonitis and soft tissue injuries, with minimal disruption to healthy tissue and structures. This results in faster recovery times, reduced pain, and improved functional outcomes for patients seeking relief from tendon-related conditions.