ObjectiveTo analyze the influencing factors of fear of cancer recurrence (FCR) and its correlation with social support and quality of life in patients with differentiated thyroid cancer (DTC) at 5 years after surgery. MethodsA total of 116 patients with DTC from West China Hospital, Sichuan University at 5 years after surgery were selected as the research objects. The patients were investigated using the Fear of Progression Questionnaire-Short Form (FoP-Q-SF), Social Support Rating Scale (SSRS) and the European Organization for Reasearch and Treatment of Cancer Quality of Life Questionnare-Core 30 (EORTC QLQ-C30, hereinafter referred to as QLQ-C30). The χ2 test or Fisher exact probability method were used for univariate analysis, and multivariate logistic regression analysis was used for influencing factor analysis. The diagnostic value of variables with significant influence on FCR in multivariate logistic regression was further studied by receiver operating characteristic (ROC) curve, and Pearson correlation analysis was finally adopted to analyze the relationship between FCR and social support and quality of life in patients with DTC at 5 years after operation. ResultsThe questionnaire survey showed that the FoP-Q-SF score of 116 patients with DTC at 5 years after surgery was (35.92±2.52) scores, of which 75 patients had FoP-Q-SF score ≥34 scores, 41 patients had FoP-Q-SF score <34 scores, and the FCR rate was 64.66% (75/116). Multivariate logistic regression showed that gender, family annual income, SSRS score and total QLQ-C30 score were the main factors of FCR in patients with DTC at 5 years after surgery (P<0.05). Further ROC curve diagnosis showed that the accuracy rate of diagnosis of FCR with SSRS score ≤47.5 scores was 70.70%, the total score of QLQ-C30 ≤617.225 scores was 69.02%. The accuracy rate of diagnosis of FCR was 66.03% when the annual income of family was less than 150 000 yuan. The accuracy of women’s diagnosis of FCR was 62.28%. Pearson correlation analysis showed that FoP-Q-SF score was negatively correlated with SSRS score and total score of QLQ-C30 in DTC patients at 5 years after operation (r=–0.629 6, P=0.000 1; r=–0.568 5, P=0.000 1). ConclusionsThe proportion of patients who have FCR at 5 years after DTC operation is high, and gender, family annual income, SSRS score and total score of QLQ-C30 are the influencing factors. Therefore, we can develop targeted management strategies to reduce patients’ FCR and improve their quality of life.
ObjectiveTo summarize the experience of diagnosis and treatment of 2 cases of intrathyroid thymic carcinoma(ITTC).MethodThe clinical data of 2 patients with ITTC treated in West China Hospital of Sichuan University since July 2019 were analyzed retrospectively.ResultsAfter the discussion of the multidisciplinary team (MDT), the diagnosis and treatment of 2 cases of ITTC were discussed together, and the prognosis of the patients was actively improved through multidisciplinary cooperation.ConclusionMDT cooperative therapy mode should be adopted in the clinical diagnosis and treatment of patients with ITTC in order to provide a better treatment plan.
Objective To explore the efficacy and safety of levothyroxine (L-T4) combined with desiccated thyroid extract (DTE) in patients with differentiated thyroid cancer (DTC) who had suboptimal response to long-term (≥6 months) thyroid-stimulating hormone (TSH) suppression therapy with L-T4 alone after surgery. MethodsA total of 123 eligible patients were prospectively enrolled and received TSH suppression therapy with DTE combined with L-T4. The Kaplan?Meier (KM) curve was used to analyze the TSH suppression rate and assess the efficacy of this combination therapy. The Thyroid-Related Patient-Reported Outcome-39 (THyPRO-39) questionnaire was used to assess the patient-reported symptoms before medication adjustment and at 1, 3, 6, 9, and 12 months after adjustment. ResultsAmong the 123 patients, 100 were ultimately included and completed follow-up, with a follow-up period of one year. After the first adjustment to L-T4+DTE combination therapy, the rate of TSH suppression was raised to 71.0% (71/100). The KM curve revealed that the TSH suppression rate gradually increased during the follow-up period, with a cumulative rate of 82.0%. The median TSH suppression time to reach the standard was 1.4 months. Eighteen patients (18.0%) still did not meet the target after multiple regimen adjustments. Univariate analysis indicated that sex and pre-treatment serum free triiodothyronine (FT3) levels were associated with the attainment rate of TSH suppression therapy (P<0.05). However, multivariate logistic regression analysis revealed that neither sex (OR=0.353, P=0.148) nor pre-treatment serum FT3 level (OR=2.596, P=0.101) was an independent influencing factor of TSH suppression attainment rate. Following L-T4+DTE combination therapy, the serum FT3 level significantly increased [(4.5±0.6) pmol/L vs. (5.5±1.1) pmol/L, P<0.001] but remained within the normal range, whereas the free thyroxine (FT4) level did not significantly change [(21.9±2.1) pmol/L vs. (21.5±3.0) pmol/L, P=0.075]. However, patients who did not achieve target levels exhibited a decrease in serum FT4 levels compared to baseline, and the magnitude of this decrease was significantly greater than that observed in the target-achieved group [–0.8 (–2.1, –0.9) pmol/L vs. –2.5 (–3.8, –0.8) pmol/L, P=0.022]. The questionnaire results indicated that the combined L-T4+DTE treatment regimen had no significant impact on overall quality of life scores during the follow-up period (χ2=4.006, P=0.548). Conversely, the hyperthyroidism symptom scores showed significant improvement over the treatment period (χ2=23.120, P<0.001), with the median scores demonstrating an overall downward trend. ConclusionFor postoperative DTC patients who fail to achieve TSH suppression with L-T4 monotherapy, L-T4+DTE combination therapy can significantly increase the TSH suppression attainment rate while alleviating thyrotoxicosis-related symptoms.