• Publications
  • Influence

Claim Your Author Page
Ensure your research is discoverable on Semantic Scholar. Claiming your author page allows you to personalize the information displayed and manage your publications. Semantic Scholar automatically creates author pages based on data aggregated from public sources and our publisher partners.
  • Anna Lahti, Ville J. Kujala, +10 authors K. Aalto-Setälä
  • Biology, Medicine
  • Disease Models & Mechanisms
  • 2012 (First Publication: 3 November 2011)
  • SUMMARY Long QT syndrome (LQTS) is caused by functional alterations in cardiac ion channels and is associated with prolonged cardiac repolarization time and increased risk of ventricular arrhythmias.Expand
  • Michelangelo Paci, Jari Hyttinen, Katriina Aalto-Setälä, Stefano Severi
  • Medicine, Biology
  • Annals of Biomedical Engineering
  • 2013 (First Publication: 31 May 2013)
  • The clear importance of human induced pluripotent stem cell derived cardiomyocytes (hiPSC-CMs) as an in-vitro model highlights the relevance of studying these cells and their function also in-silico.Expand
  • Laura Tirkkonen, Heidi Halonen, +8 authors Suvi P. Haimi
  • Medicine, Biology
  • Journal of The Royal Society Interface
  • 2011 (First Publication: 7 December 2011)
  • Mechanical stimulation is an essential factor affecting the metabolism of bone cells and their precursors. We hypothesized that vibration loading would stimulate differentiation of human adipose stemExpand
  • Teemu Koivistoinen, Marko P. O. Virtanen, +9 authors Mika Kähönen
  • Medicine
  • Atherosclerosis
  • 2012 (First Publication: 1 February 2012)
  • OBJECTIVE Increased arterial pulse wave velocity (PWV) is a strong predictor of cardiovascular events and mortality. The data regarding the relationships between PWV and other indices of vascularExpand
  • Mari Pekkanen-Mattila, Erja Kerkelä, +6 authors Katriina Aalto-Setälä
  • Biology, Medicine
  • Annals of medicine
  • 2009 (First Publication: 1 January 2009)
  • Aim. The differentiation efficiencies of human embryonic stem cell (hESC) lines differ from each other. To assess this in more detail we studied the cardiac differentiation of eight hESC linesExpand
  • R. Lappalainen, Minna Salomäki, +6 authors S. Narkilahti
  • Biology, Medicine
  • Regenerative medicine
  • 2010 (First Publication: 27 September 2010)
  • BACKGROUND Human embryonic stem cells (hESCs) can differentiate into any human cell type, including CNS cells, and thus have high potential in regenerative medicine. Several protocols exist forExpand