Arquivos na pesquisa do câncer

  • ISSN: 2254-6081
  • Índice h do diário: 13
  • Pontuação de citação de diário: 3.58
  • Fator de impacto do periódico: 3.12
Indexado em
  • Infraestrutura Nacional de Conhecimento da China (CNKI)
  • CiteFactor
  • OCLC- WorldCat
  • publons
  • Fundação de Genebra para Educação e Pesquisa Médica
  • Google Scholar
  • Laboratórios secretos do mecanismo de pesquisa
Compartilhe esta página

Abstrato

Bone Mineral Content and Mechanical Characteristics Fluctuate Both Temporally and Spatially During Breast Cancer Bone Metastases

Luise Mcmra

The leading factor in cancer patient mortality, metastasis occurs when cancer cells spread from a primary tumour location and colonise an additional organ. For 70–80% of patients with metastatic breast cancer, cancer cells prefer to metastasize to bone tissue. They can cause bone disintegration (osteolysis) or tissue creation through a process known as osteoplastic metastasis. Invasion of the skeletal environment by metastatic disease causes excruciating pain, a higher risk of fracture, compression of the nerves, and hypercalcemia. The coordinated actions of osteocytes, osteoblasts, and osteoclasts in healthy bone regulate bone tissue composition and structure and guarantee a continuous remodelling process in response to mechanical cues brought on by skeletal loads .To comprehend crack defencelessness following metastasis, bone mineral thickness (BMD) investigation and mechanical appraisal have been led to portray bone tissue from patients with bone metastases. Miniature CT examinations of the femoral diaphysis of patients with blended disease metastases (lung, bosom, prostate, 53-78 years of age) uncovered essentially diminished mean BMD in cadaveric cortical bone in patients with metastases. Mechanical tests were performed on persistent cortical bone examples with metastatic sores and contrasted with malignant growth free bone areas which uncovered fundamentally bring down Young's modulus, yield strength and extreme strength under pressure, as well as lower Young's modulus under strain.

Isenção de responsabilidade: Este resumo foi traduzido usando ferramentas de inteligência artificial e ainda não foi revisado ou verificado