Transcriptional regulation of vascular smooth muscle cell phenotype K. WalshA. Takahashi Pages: 12 - 16
Transforming growth factor-βs and CD105 expression in calcification and bone formation in human atherosclerotic lesions M. Jeziorska Pages: 23 - 26
Transcriptional regulation of matrix gla protein A. Farzaneh-FarP.L. WeissbergC.M. Shanahan Pages: 38 - 42
The role of apoptosis in the initiation of vascular calcification D. ProudfootJ.N. SkepperP.L. Weissberg Pages: 43 - 46
Systemic inhibition of spontaneous calcification by the serum protein α2-HS glycoprotein/fetuin W. Jahnen-DechentC. SchäferJ. Grötzinger Pages: 47 - 56
Role of vitamin K and vitamin K-dependent proteins in vascular calcification L.J. SchurgersP.E.P. DisselC. Vermeer Pages: 57 - 63
Simulating arterial wall calcification in vitro: biomimetic crystallization of calcium phosphates under controlled conditions F. PetersM. Epple Pages: 81 - 85
On how proteins interact with crystals and their effect on crystal formation L. AddadiS. WeinerM. Geva Pages: 92 - 98
Cellular mechanism of calcification and its prevention in glutaraldehyde treated vascular tissue K.M. Kim Pages: 99 - 105
Formation and transformation of calcium phosphates: relevance to vascular calcification R.Z. LeGeros Pages: 116 - 124
Peroxisome proliferator-activated receptors (PPARs): nuclear receptors with functions in the vascular wall G. ChinettiJ.-C. FruchartB. Staels Pages: 125 - 132
How much interdisciplinarity is required to understand vascular calcifications? Formulation of four basic principles of vascular calcification M. EppleP. Lanzer Pages: III2 - III5
Arterial calcifications: morphological aspects and their pathological implications J. JanzenP.N. Vuong Pages: III6 - III11