A 35 years-old male patient presented with posterior pain in the right ankle for at least six months with no recent history of trauma. On physical examination, there was pain anterior to the Achilles tendon with worsening by plantar flexion.
A conventional radiography was performed, which showed an elongated posterior process of the talus representing a Stieda process (SP). The patient underwent Magnetic Resonance Imaging for further evaluation, which confirmed the presence of SP and showed bony inflammatory changes involving the SP, posterior aspect of the talus, calcaneus and distal tibia, with high signal intensity on STIR sequences and low signal intensity on T1-weighted images. Additionally, MR demonstrated signal changes compatible with inflammatory process involving soft tissues near SP, anteriorly to the Achilles tendon and joint effusion.
A. Background
Stieda process (SP) is related to an elongated lateral tubercle of the posterior process of the talus. It is considered an anatomical variant and results from the fusion of a secondary ossification center at the postero-lateral aspect of the talus with rest of the bone (which typically occurs between 11 to 13 years of age in boys and 8 to 10 years in girls). When this process results in a separate ossicle, it is called os trigonum, which is the main differential diagnosis. SP per se is not pathological, however, it increases the risk of posterior ankle impingement syndrome. [1, 2]
B.Clinical Perspective
On clinical examination, posterior ankle impingement typically induces posterior ankle pain exacerbated by plantar flexion or dorsiflexion, posterior tenderness anterior to the Achilles tendon and, occasionally, a palpable soft-tissue thickening. [2]
C.Imaging Prospective
Conventional radiography may show a prominent lateral talar (Stieda) process, still it is not sufficient to confirm the diagnosis of posterior ankle impingement related to SP. Computed Tomography can assess the posterior aspect of talus more accurately and may show a fracture not obvious on conventional radiography. However, the best imaging modality to study posterior ankle impingement is Magnetic Resonance Imaging (MRI). It usually shows abnormal signal intensity in SP, such as, high signal intensity on fat suppressed T2-weighted images/STIR sequences and low signal intensity on T1-weighted images. These signal abnormalities are related to bone marrow edema, bone contusions or hidden fractures, which result from repeated bone trauma. MRI can also detect inflammatory abnormalities in the soft tissues of the posterior ankle, such as, the posterior synovial recess of the subtalar and tibiotalar joints and the flexor hallucis longus tendon sheath. The occurrence of these two findings (bone marrow edema and posterior ankle synovitis) suggests the diagnosis of posterior ankle impingement syndrome. Furthermore, MRI is also very good to reveal associated flexor hallucis longus abnormality or other internal deformities which can modify surgical attitude. [1, 2]
D.Outcome
Conservative treatment comprises local corticosteroid injection and 4 to 6 weeks of immobilization. Arthroscopic excision can be used in refractory cases and complete recovery is attained in a shorter time than with open excision. [3]
E.Take home message
SP is a rare cause of posterior ankle impingement syndrome and radiologists must be aware of this differential diagnosis.
Written informed patient consent for publication has been obtained.
Stieda process with posterior ankle impingement syndrome
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Based on the provided X-ray and MRI images, a marked elongation of the lateral tubercle at the posterior aspect of the right talus is observed, forming the so-called Stieda process (i.e., hypertrophy or extension of the lateral talar tubercle). On MRI sequences, this area appears relatively low signal on T1-weighted images and high signal on fat-suppressed T2-weighted or STIR sequences, suggesting bone marrow edema or a potential occult fracture. In addition, a small amount of joint effusion and synovial thickening can be seen in the posterior ankle soft tissue region, especially posterior to the subtalar or tibiotalar joint, along with some degree of inflammatory changes around the flexor hallucis longus (FHL) tendon sheath. These findings are consistent with repetitive soft tissue friction or impingement changes.
Taking into account the patient’s age (35 years), chronic history of posterior ankle pain (at least 6 months), and the imaging findings of a Stieda process with local bone marrow edema and synovitis, the most likely diagnosis is:
“Posterior Ankle Impingement Syndrome Caused by the Stieda Process.”
1. Conservative Treatment: Initially, local corticosteroid injection and 4–6 weeks of immobilization or ankle brace protection can be employed to reduce posterior ankle impingement and repetitive friction. Depending on symptom improvement, anti-inflammatory or analgesic medications and physical therapy (such as ultrasound, shockwave, or other physical modalities) may help alleviate local inflammation and pain.
2. Surgical Treatment: If symptoms are refractory and do not respond to conservative treatment, arthroscopic resection of the hypertrophied Stieda process or debridement of scar tissue and thickened synovium can be considered. Arthroscopic surgery is minimally invasive and offers faster recovery, particularly suited for those with high functional demands (e.g., athletes).
3. Rehabilitation and Exercise Prescription: Following a gradual and individualized approach, the process can be divided into the following stages:
For patients with lower bone density or limited cardiopulmonary function, ensure exercise methods are safe and controllable. Avoid excessive relaxation of immobilization and high-impact activities. Seek guidance from specialized rehabilitation therapists or sports medicine teams if necessary.
This report is based on available information for reference purposes only and cannot replace an in-person consultation or the opinion of a professional physician. If you have any questions or if your condition changes, please visit a regular medical institution promptly and follow the advice of a specialized doctor.
Stieda process with posterior ankle impingement syndrome
