vanhaa MED sisältöä

Kirurgia

Professori (urologia):
Teuvo Tammela
puh. 03-311 64621
teuvo.tammela@uta.fi

Professori (ortopedia ja traumatologia, Seinäjoki):
Harri Pihlajamäki
harri.pihlajamaki@uta.fi

Professori (sydän- ja rintaelinkirurgia):
Jari Laurikka
puh. 03 3116 7669
jari.laurikka@sydansairaala.fi

Professori (verisuonikirurgia, erityisesti verisuonikirurgia):
Niku Oksala
puh. 03-311 64844
niku.oksala@uta.fi

Apulaisprofessori (gastroenterologinen kirurgia):
Johanna Laukkarinen
johanna.laukkarinen@pshp.fi

Kliiniset opettajat:
Timo Halonen (plastiikkakirurgia), Seinäjoki, e-mail: timo.halonen@epshp.fi
Ilona Helavirta (gastroenterologinen kirurgia), ilona.helavirta@uta.fi
Olli Leppänen (käsikirurgia), olli.leppanen@uta.fi
Teemu Murtola (urologia), e-mail: teemu.murtola@uta.fi
Essi Salonen (ortopedia ja traumatologia), e-mail: essi.salonen@uta.fi

Laboratory of Regenerative Medicine / Kudosregeneraatiolaboratorio >>

Sydän- ja rintaelinkirurgia >>

Urologian tutkimusryhmä >>

Verisuonikirurgia >>

Uusimmat julkaisut:

Uusimmat julkaisut – Latest Publications

Meneillään olevia tutkimuksia kirurgian oppialalla:

1. Kirurgisten sairauksien diagnostiikan ja perioperatiivisen monitoroinnin kehitysprojektit:

– Ionimobiliteettispektrometria, massaspektrometria ja kirurgisten sairauksien, erityisesti syövän diagnostiikassa ja hoitovasteen seurannassa
– Aivojen valkean aineen muutosten vaikutus kaulavaltimoleikattujen potilaiden ennusteeseen ja perioperatiivisiin komplikaatioihin
– Aivoinfarktin pitkän aikavälin ennustekijät (neuroradiologia, neuropsykologia, genetiikka)
– Aineenvaihdunnan perioperatiivinen monitorointi mikrodialyysitekniikkaa käyttäen
– Mikroverenkierron perioperatiivinen monitorointi intravitaalikapillaarimikroskooppia käyttäen

2. Ateroskleroosin genetiikka, transkriptomiikka, metabolomiikka ja molekyylibiologia: laskennallisen systeemibiologian sovellutukset kirurgisten potilaiden riskinarvioinnissa ja hoidossa

3. Stressiproteiinien ja verisuonikasvutekijöiden molekyylibiologia kirurgisten toimenpiteiden kannalta merkittävissä stressitilanteissa: iskemia, reperfuusio, hapetusstressi

Laboratory of Regenerative Medicine (kudosregeneraatiolaboratorio)

The main focus of our research is to develop systematically administered, target-seeking therapeutic molecules for the regenerative medicine. This would increase their therapeutic value in their target (“diseased”) organ while simultaneously reducing the harmful side-effects in the normal tissues.

Our approach is based on the fact that the blood vessels in each tissue have a unique molecular fingerprint that is specific for that given tissue, i.e. vascular “Zip code”. Furthermore, human diseases also cause molecular changes (induced expression of specific cell surface markers) in the blood vessels supplying the involved organ. For example, angiogenic blood vessels in tumors and in regenerating tissues express distinctive markers that are not present in vessels of normal tissues. These specific cell surface markers, in turn, can be specifically targeted by vascular homing peptides that home to their target organ when administered systemically. We have identified vascular homing peptides that specifically target the angiogenic blood vessels and the vasculature inflammatory diseases. Utilizing these target-tissue specific homing peptides, we have devised two novel delivery mechanisms: A) building multi-functional fusion-proteins consisting of separate domains for targeting (and tissue penetration) and therapeutic effects (Fig. 1; Järvinen & Ruoslahti 2010) and

Fig. 1. Schematic presentation of the mechanism of action of multi-functional therapeutic molecule CAR-decorin. CAR-decorin (1) is a systemically administered, target-seeking biotherapeutic that inhibits scar formation. The injury can happen in any organ of the body (2, 3) (or multiple organs simultaneously) and systemically administered vascular homing peptide CAR can find there through blood stream by targeting angiogenic vasculature forming at the site of the injury (4, 5). CAR-decorin binds to its receptor specific for the vasculature of the injured tissues and extravasates into surrounding tissue (6), where it binds to its receptor on the cell surface of the scar producing fibroblasts (7). The CAR binding to the HSPGs provides ideal docking for the therapeutic part of the molecule, decorin, for binding and neutralization of its molecular targets; TGF-b1 and -b2, the growth factors responsible for scar formation (8). The clinical outcome is reduced scarring (9).

B) recently published revolutionary tissue-penetrating transport pathway called “bystander effect”, to target the drugs without conjugating them to the delivery vehicle (Fig 2). The “bystander effect” provides the advantage of promoting delivery of a drug to its target tissue without the need of coupling of the drug to the peptide required in conventional drug targeting (Fig. 2).

“bystander effect”,

Fig. 2. Drug delivery by the cell penetrating, vascular homing peptides induced “bystander effect”. A) Targeting domain and the therapeutic molecule are fused together for tissue-specificity in conventional, conjugated delivery. B – C) Compounds co-injected with tissue-penetrating peptides are transported across the vessel wall and through tissue together with the cell penetrating, vascular homing peptides.

Selected publications:

Järvinen TAH, Ruoslahti E. Molecular profiling of vasculature in injured tissues. Am J Pathol 171:702-711, 2007.

Järvinen TAH, Ruoslahti E. Target seeking anti-fibrotic compound enhances wound healing and suppresses scar formation. Proc Natl Acad Sci USA 107:21671-21676, 2010.

Urakami T, Järvinen TAH, Oka M, Sawada J, Ambalavanan N, Mann D, McMurtry I, Ruoslahti E, Komatsu M. Peptide-Directed Highly Selective Targeting of Pulmonary Arterial Hypertension. Am J Pathol 178:2489-2495, 2011. Faculty of 1000-article (F1000).

Järvinen TAH, Ruoslahti E. Targeted anti-scarring therapy. Adv Wound Care 2:50-54, 2013.

For further information please contact.

Dr. Tero Järvinen, M.D., Ph.D.
Professor & Chief Surgeon
Departments of Anatomy and Orthopedics & Traumatology
Medical School, University of Tampere
Phone +358-44-285 4620
Email: blteja@uta.fi

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