Department of Plastic and Hand Surgery, Medical Center-University of Freiburg, Faculty of Medicine, University of Freiburg, 79106 Freiburg, Germany.
Division of Hand, Plastic and Aesthetic Surgery, University Hospital, Ludwig Maximilian University of Munich, 80336 Munich, Germany.
Int J Mol Sci. 2022 Sep 6;23(18):10215. doi: 10.3390/ijms231810215.
Soft tissue sarcomas (STS) are rare tumors of mesenchymal origin with high mortality. After curative resection, about one third of patients suffer from distant metastases. Tumor follow-up only covers a portion of recurrences and is associated with high cost and radiation burden. For metastasized STS, only limited inferences can be drawn from imaging data regarding therapy response. To date there are no established and evidence-based diagnostic biomarkers for STS due to their rarity and diversity. In a proof-of-concept study, circulating tumor DNA (ctDNA) was quantified in ( = 25) plasma samples obtained from ( = 3) patients with complex karyotype STS collected over three years. Genotyping of tumor tissue was performed by exome sequencing. Patient-individual mini-panels for targeted next-generation sequencing were designed encompassing up to 30 mutated regions of interest. Circulating free DNA (cfDNA) was purified from plasma and ctDNA quantified therein. ctDNA values were correlated with clinical parameters. ctDNA concentrations correlated with the tumor burden. In case of full remission, no ctDNA was detectable. Patients with a recurrence at a later stage showed low levels of ctDNA during clinical remission, indicating minimal residual disease. In active disease (primary tumor or metastatic disease), ctDNA was highly elevated. We observed direct response to treatment, with a ctDNA decline after tumor resections, radiotherapy, and chemotherapy. Quantification of ctDNA allows for the early detection of recurrence or metastases and can be used to monitor treatment response in STS. Therapeutic decisions can be made earlier, such as the continuation of a targeted adjuvant therapy or the implementation of extended imaging to detect recurrences. In metastatic disease, therapy can be adjusted promptly in case of no response. These advantages may lead to a survival benefit for patients in the future.
软组织肉瘤 (STS) 是一种罕见的间充质来源的肿瘤,死亡率很高。在根治性切除后,约三分之一的患者会发生远处转移。肿瘤随访仅覆盖部分复发情况,且费用高、辐射负担大。对于转移性 STS,仅能从影像学数据中对治疗反应进行有限推断。由于 STS 的罕见性和多样性,目前尚无用于 STS 的既定和基于证据的诊断生物标志物。在一项概念验证研究中,对三年间收集的 3 名复杂核型 STS 患者的 25 份血浆样本中的循环肿瘤 DNA (ctDNA) 进行了定量分析。对肿瘤组织进行了外显子组测序基因分型。针对每个患者设计了个体化的靶向下一代测序迷你面板,涵盖多达 30 个感兴趣的突变区域。从血浆中纯化出游离循环 DNA (cfDNA),并对其中的 ctDNA 进行定量。ctDNA 值与临床参数相关。ctDNA 浓度与肿瘤负荷相关。在完全缓解的情况下,无法检测到 ctDNA。在晚期复发的患者中,在临床缓解期时 ctDNA 水平较低,表明存在微小残留病。在疾病活跃期(原发性肿瘤或转移性疾病),ctDNA 显著升高。我们观察到治疗的直接反应,在肿瘤切除、放疗和化疗后,ctDNA 水平下降。ctDNA 的定量分析可用于早期发现复发或转移,并可用于监测 STS 的治疗反应。可以更早地做出治疗决策,例如继续靶向辅助治疗或实施扩展影像学检查以检测复发。在转移性疾病中,如果没有反应,可以及时调整治疗。这些优势可能会为未来的患者带来生存获益。
