Novel Locator-Positioner Device for Temporomandibular Joint Arthroscopy (TMJ-LOPO)

Temporomandibular joint arthroscopy allows for direct visualization and access to the joint, enabling surgeons the ability to diagnose and perform a wide range of procedures. Arthroscopic surgery mandates the insertion of at least two portals into the joint cavity. The first is the arthroscope and is usually made through a lateral approach into the posterior recess of the superior joint space. Generally this is an easy puncture as the glenoid fossa is easily palpated and the target point is just deep to the skin and joint capsule. The second puncture is intended to incorporate the working cannula, through which instruments are introduced into the joint cavity, and is generally targeted to the anterior recess of the superior joint space. For the second or working cannula to be readily visualized by the arthroscope and functional, skin puncture site, angulation of insertion, and insertion depth must be accurate and precise. The site and technique of the second puncture are dictated by the anatomy and volume of the anterior recess of the superior joint space which has great variability between individuals and joint conditions. The target point is the juncture between the anterior aspect of the anterior slope of the articular eminence and the continuation of the zygoma, which is generally not palpable. To overcome this difficulty, the triangulation technique was adapted for the temporomandibular joint by pioneer arthroscopists such as K Murakami and J P McCain. The rationale behind using it was to facilitate easier and more predictable entry of the second portal to avoid unnecessary scuffing or damaging of the joint surfaces. It enables a repeatable, safe, and strategic insertion and placement for the second cannula that provides access to different areas in the joint while being fully visualized by the arthroscope.

Adherence to the triangulation principles is essential for achieving a successful placement of the second or working cannula. However, it takes a considerable amount of time to become proficient in this technique. Furthermore, maintaining the optimal spatial alignment of the working cannula with the arthroscope throughout the surgery necessitates additional practice, experience, and synchronized collaboration between the surgeon and assistant.

The main author developed a Locator-Positioner (LOPO) guide device to assist the surgeon in inserting the working cannula and in maintaining its' three-dimensional position relative to the arthroscope throughout surgery, while permitting movement of both portals. The desired benefit was to achieve an easy and accurate method to insert and position the working cannula and help minimize intra-articular scuffing and surgical risks. The purpose of the present study was to examine the accuracy, safety, and efficiency of the LOPO guide device.

The guide device consists of two arms of equal length, each being a double parallelogram. A connector holds both arms and permits movement by changing the angle between them. One arm is intended to hold the arthroscope while the other is intended for the insertion of the working cannula. After the arthroscope is introduced into the joint cavity, the guide device is mounted on the base of the arthroscope via one arm. The other arm receives the working cannula, and owing to the double parallelogram design, it directs it to the ideal puncture site and insertion vector and depth into the joint cavity, where it has to meet the tip of the arthroscope. This results in immediate visualization of the working cannula by the arthroscope and maintains optimal spatial positions between the two portals. The connector between the two arms of the device enables changing the angle between them while maintaining the relative position of the tip of the cannula to the tip of the arthroscope. The connector can also be locked thus fixating the angle between the two arms.

During surgery, the surgeon holds the LOPO device with the two cannulas mounted on it with one hand, while the other hand is free to perform surgical instrumentation through the working cannula. All this is performed while the ideal position of the working cannula relative to the arthroscope is maintained due to the double parallelogram design. The guide device can be mounted and dismounted at any time during the operation without the need to remove the cannulas from the joint. It is a Patent No. US 11,517,348 B2.

Approval for conducting an experiment with human subjects using the LOPO device was granted by the Institutional Review Board (IRB approval 4657-17-SMC) and the National Ministry of Health (MOH_2018-08-27_003619). The clinical trial was registered before enrolment of patients.