Etiology, pathogenesis, and management of angiosarcoma associated with implants and foreign body: Clinical cases and research updates.
Ramy SamargandiPublished in: Medicine (2024)
Angiosarcomas are rare and highly malignant soft tissue sarcomas originating from endothelial cells lining the lymphatic or vascular system. While they predominantly emerge from (sub)cutaneous regions, occurrences have been reported throughout the body. The etiology of angiosarcoma remains elusive in most clinical cases. Nevertheless, several prognosis risk factors play a pivotal role, including chronic lymphedema, therapeutic irradiation, environmental carcinogens, familial syndromes, and the presence of foreign materials like metallic objects and biomedical implants. Despite evidence implicating retained foreign material in angiosarcoma development, understanding its prognosis and pathogenesis remains limited. The pathogenesis of angiosarcoma appears to involve a complex interplay of chronic inflammation, tissue remodeling, and genetic factors that create a conducive microenvironment for malignant transformation. Management of these sarcomas remains challenging due to their infiltrative nature owing to the high chance of metastasis and local recurrence. The primary treatment modalities currently include surgery, radiotherapy, and chemotherapy, but recent advances in targeted immunotherapy and gene therapy hold promise for more effective approaches. This comprehensive review delves into the potential etiological and pathogenic roles of foreign materials, such as metallic objects, biomedical implants, and biomaterials, in the development of angiosarcoma. Further research into the underlying molecular mechanisms could provide valuable insights for tailored management and developing novel targeted therapeutic strategies.
Keyphrases
- soft tissue
- gene therapy
- risk factors
- endothelial cells
- oxidative stress
- locally advanced
- minimally invasive
- early stage
- stem cells
- dna methylation
- radiation induced
- lymph node
- cancer therapy
- coronary artery bypass
- climate change
- coronary artery disease
- human health
- acute coronary syndrome
- smoking cessation
- machine learning
- big data
- replacement therapy