Table 4.
Summary of skeletal and systematic diseases associated with vasculature pathological alterations
| Skeletal/Systematic diseases | Potential effects/mechanisms | References |
|---|---|---|
| Aging |
• Reduction of type H EC quantity and osterix-positive osteoprogenitor abundance. • Accumulation of defective HSCs and alterations in bone marrow stroma. |
8,206,207 |
| Osteoporosis |
• Estrogen decrease causes EC dysfunction, leads to alterations of bone perfusion and bone mass. • Secondary risk factors like glucocorticoid inhibits PDGF-BB, leads to blood flow reduction and osteogenesis impairment. |
141,144,206 |
| Osteoarthritis |
• The preosteoclasts secrete an excessive amount of PDGF-BB, mediating the development of aberrant subchondral bone angiogenesis. • Vascular signal production prompts mTORC1 activation in eroding articular cartilage. • Elevated pro-angiogenic factors mediate inflammatory infiltration, structural damage and nociceptive transmission in OA. |
143,216,218 |
| Fracture Nonunion |
• Abnormal vasculature reduces local bone nutrient sources, increases metabolite deposition and impedes fracture healing efficiency. • Vascular dysfunction exerts detrimental impacts on osteogenic differentiation process and disruption of osteoblast-osteoclast equilibrium. • Inflammatory cells secret and recruit negative regulators towards local injury sites. |
223,225,227 |
| Avascular Necrosis |
• EC damage and grume formation cause blood flow interruption and osteocyte death, articular surface collapse. • Decreased EC abundance and pro-angiogenic factor expression lead to decreased migration ability and increased senescence tendency. |
232–234 |
| Heterotopic Ossification |
• Mesenchymal progenitors function as the major niche in expressing VEGF-A for accelerating ectopic bone formation. • Activation of modulators (BMPs and chondrogenic transcription factors) and loss of mineralization inhibitors (pyrophosphate) lead to HO-vascular calcification. |
236–239 |
| Diabetes Mellitus |
• Microangiopathy causes impaired vasoconstriction and blood flow. • Hyperglycemia diverts BMSCs to a metabolically stressed adipogenic pathway instead of osteogenesis. • AGEs leads to EC dysfunction, pro-angiogenic factor deficiency and a cross-linked imbalance of bone-vessel equilibrium. |
242–244 |
| Osseous Neoplasm/Metastasis |
• Matrix-abundant vascular microenvironment within bone provides fertile soils for metastatic growth. • PDGF-B from vessels provides arteriolar niches for HSCs and DTCs long-term maintaining. • Blood flow decline within bone conduce to interactions between tumor cells and skeletal ECs, thus developing into macrometastasis. |
252–254 |
EC endothelial cell, HSC hematopoietic stem cell, mTORC1 mechanistic target of rapamycin complex 1, OA osteoarthritis, AGEs advanced glycation end products, DTC disseminated tumor cell