Owing to the deep location of the hip joint, landmark-guided (blind) injections suffer from a lack of accuracy, in addition to the possibility of damage to the neurovascular bundles in proximity to the joint. In the literature, the accuracy rates of landmark-guided injections vary from 50% to 80%, depending on the method used for treatment. The lateral approach is safer than the anterior approach for intraarticular injection of the hip using anatomic landmarks. In this way, there is less risk of nerve damage, and the success rate of intra-articular injections increases(1,2).
The accuracy of injections with ultrasound guidance has been reported to range from 97% to 100%. Intra-articular hip injections are used for both diagnostic and therapeutic purposes, such as fluid aspiration or injection of medications(3). There are two injection techniques: an indirect approach (free-hand technique) and a direct approach (real time, device-guided). There are several approaches, the authors’ preferred one being the longitudinal anteroinferior approach(4).
The target is the anterior synovial recess underneath the joint capsule at the femoral head-neck junction. A 22-gauge spinal needle is inserted in-plane from lateral to medial to the junction between the femoral head and neck. The needle is inserted through the fat tissue, rectus femoris, iliopsoas muscle and capsule until bone contact is made, and is then withdrawn 1 mm(5,6). The spread of the injectate is monitored in real time throughout the procedure; this is important to make sure that the injectate is spread within the joint space.
We suggest a US-guided approach for intra-articular hip injection as the most practical method. There are three simple steps for the injection: first, the patient is placed in the supine position, with the hip in the neutral position, and a pillow under the knee may provide support comfort.
The US-guided intra-articular hip injection technique has been shown to have very high rates of accuracy in correct needle placement into the anterior recess for subsequent hip injection. US imaging can also effectively provide real-time needle guidance for hip joint injections, completely avoiding neurovascular injury.