Open Partial Horizontal Laryngectomy as a Conservative Salvage Treatment for Laser-Recurrent Laryngeal Cancer: A Multi-Institutional Series

Early-stage laryngeal cancer (T1-T2) is commonly treated with organ-preserving techniques such as transoral laser microsurgery (TOLMS) or radiation therapy (RT), both providing comparable oncological outcomes but differing in functional results. Local recurrence occurs in approximately 10% of cases, making salvage surgery a crucial therapeutic option. This multi-institutional study investigates the efficacy of open partial horizontal laryngectomy (OPHL) as a salvage treatment, following recurrent laryngeal squamous-cell carcinoma (LSCC) after failed TOLMS. This analysis includes 66 patients who underwent OPHL between 1995 and 2017, reporting favorable oncological outcomes with overall survival (OS) of 87.4%, disease-specific survival (DSS) of 93.4%, and disease-free survival (DFS) of 85.5%. A recurrence rate of 10.6% was observed post-salvage OPHL, with vascular invasion and advanced pathological staging identified as significant predictors of recurrence. OPHL emerged as an effective organ-preserving alternative to total laryngectomy (TL) in select patients, especially those with limited tumor spread and preserved laryngeal function. The study highlights the importance of careful patient selection and thorough preoperative assessment to improve outcomes, positioning OPHL as a key option in treating recurrent laryngeal cancer and offering oncological control while preserving laryngeal functions.

Posttreatment Head and Neck Cancer Imaging: Anatomic Considerations Based on Cancer Subsites

Posttreatment imaging surveillance of head and neck cancer is challenging owing to complex anatomic subsites and diverse treatment modalities. Early detection of residual disease or recurrence through surveillance imaging is crucial for devising optimal treatment strategies. Posttreatment imaging surveillance is performed using CT, fluorine 18-fluorodeoxyglucose PET/CT, and MRI. Radiologists should be familiar with postoperative imaging findings that can vary depending on surgical procedures and reconstruction methods that are used, which is dictated by the primary subsite and extent of the tumor. Morphologic changes in normal structures or denervation of muscles within the musculocutaneous flap may mimic recurrent tumors. Recurrence is more likely to occur at the resection margin, margin of the reconstructed flap, and deep sites that are difficult to access surgically. Radiation therapy also has a varying dose distribution depending on the primary site, resulting in various posttreatment changes. Normal tissues are affected by radiation, with edema and inflammation occurring in the early stages and fibrosis in the late stages. Distinguishing scar tissue from residual tumor becomes necessary, as radiation therapy may leave behind residual scar tissue. Local recurrence should be carefully evaluated within areas where these postradiation changes occur. Head and Neck Imaging Reporting and Data System (NI-RADS) is a standardized reporting and risk classification system with guidance for subsequent management. Familiarity with NI-RADS has implications for establishing surveillance protocols, interpreting posttreatment images, and management decisions. Knowledge of posttreatment imaging characteristics of each subsite of head and neck cancers and the areas prone to recurrence empowers radiologists to detect recurrences at early stages. ©RSNA, 2024 Test Your Knowledge questions in the supplemental material and the slide presentation from the RSNA Annual Meeting are available for this article.

Postoperative Pharynx and Larynx

Cancers of the pharynx and larynx are treated using a combination of chemotherapeutic, radiation, and surgical techniques, depending on the cancer type, biology, location, and stage, as well as patient and other factors. When imaging in the postsurgical setting, the knowledge of the type of tumor, preoperative appearance, and type of surgery performed is essential for accurate interpretation. Surgical anatomic changes, surgical implants/devices, and potential postsurgical complications must be differentiated from suspected recurrent tumors.

Optimizing detection of postoperative leaks on upper gastrointestinal fluoroscopy: a step-by-step guide

Postoperative leaks after gastrointestinal surgery are important to identify to decrease patient morbidity and mortality. Fluoroscopic studies are commonly employed to detect postoperative leak. While the literature addresses the sensitivity and specificity of these examinations, there is generally a lack of description of the fluoroscopic technique itself and there may be variability between radiologists in how these studies are performed. It is important to balance a standardized fluoroscopy protocol while tailoring the exam for each surgical and patient situation. Here we will briefly review common postoperative anatomy in the upper gastrointestinal tract, propose fluoroscopic techniques to improve postoperative leak detection, and illustrate teaching points with clinical cases.

Imaging of the post-treatment neck

Post-treatment imaging of the neck is complex. It is important to have an understanding of the expected treatment related appearances as well as the possible complications. Common findings after radiation therapy include generalised soft-tissue oedema and thickening of the skin and platysma muscle. There are a number of complications of radiation that may be seen on imaging, including osteoradionecrosis, chondronecrosis, and accelerated atherosclerosis. Surgical procedures are variable depending on the primary tumour site and extent. The use of flap reconstructions can further complicate the imaging appearances. Any new nodule of enhancement or bone/cartilage erosion should raise concern for tumour recurrence. It is also important to assess for nodal recurrence. A standardised approach to reporting may help to increase accuracy and guide treatment decisions.

Total laryngectomy for squamous cell carcinoma: recognizing disease patterns to aid detection of tumor recurrence

OBJECTIVE

Posttreatment head and neck scans are among the most difficult to read due to the potentially complex surgical resection and reconstruction performed and additional radiation therapy changes. We aimed to determine the most common patterns and the timing of tumor recurrence following total laryngectomy for squamous cell carcinoma (SCCa).

METHODS AND MATERIALS

Retrospective review of imaging studies from January 2005 to May 2013 of patients with recurrent disease following prior total laryngectomy for locally advanced or locally recurrent SCCa. Patients were only included if recurrence was pathologically proven.

RESULTS

Twenty-one patients met inclusion criteria in the study period. The median time to recurrence following laryngectomy was 13.3 months (range, 1-138 months). Recurrences were most common locoregional to the resection site. The most common site of recurrence as a distant metastasis was the lung. In addition, many patients demonstrated recurrent disease at multiple sites. Four patients demonstrated a second recurrence after salvage therapy of the first, 75% of whom had lung metastases. Subgroup analyses revealed a more rapid average time to nodal recurrence (median: 9.4 months, standard deviation: 5.2) than local recurrence (median: 12.0 months, standard deviation: 37.3). Lung metastases had the longest time to recurrence (median: 20.0 months, standard deviation: 20.5).

CONCLUSION

Trends of location-specific temporal recurrence for SCCa following total laryngectomy may help the interpreting radiologist to more carefully evaluate particular sites based on the postsurgical time frame. Specifically, in the first 12 months lymph nodes and the surgical anastomoses should be carefully evaluated for new masses. Pulmonary metastases were found with a median onset of 20 months.

Post-treatment imaging appearances in head and neck cancer patients

Surgery and radiotherapy (with or without chemotherapy) for head and neck cancer can create a daunting array of radiological appearances post-treatment. The role of the radiologist lies not only in detecting recurrent neoplastic disease, but also identifying non-neoplastic changes that may account for clinical presentation and symptoms in this patient group. There are a number of non-neoplastic as well as neoplastic changes and disease entities that can present on surveillance imaging, such as primary resection and reconstructive surgical change, surgical neck dissection changes, radionecrosis, post-treatment denervation change, and radiotherapy-related secondary tumours. Some of these require conservative management, while others require more active treatment. Awareness and recognition of the imaging appearances of these post-treatment changes is therefore critical for the radiologist involved in the multidisciplinary care of the head and neck cancer patient.