Novel vs clinical organ preservation solutions: improved cardiac mitochondrial protection

Ferng, Alice S., Schipper, David, Connell, Alana M., Marsh, Katherine M., Knapp, Shannon, Khalpey, Zain

26 January 2017

Background: Heart transplantation remains the gold standard for end-stage heart failure, with current ex vivo organ storage times limited to 4 to 6 h before critical tissue damage occurs. Many preservation solutions exist in an attempt to limit both ischemic and reperfusion damage. In order to compare the effects of various storage solutions, mitochondrial function can be used to provide a sensitive analysis of cellular metabolic function. Methods: Experimental plates were seeded with cardiac myoblasts and kept in suspended animation for either 4 or 8 h at either 4(o) or 21 degrees C, in Celsior (R), Perfadex (R), or Somah storage solutions. Cells were then reanimated for 1 h at 37 degrees C to simulate a reperfusion or clinical transplant scenario. Cellular bioenergetics were measured immediately thereafter to examine biochemical differences between preservation solutions and their effectiveness on preserving metabolic function. Results: The oxygen consumption rates of Somah solution were significantly higher than Celsior (R) and Perfadex (R) at 4 degrees C, with the exception of Perfadex (R) at 4(o) for 4 h. This effect was sustained up to 8 h. At 21 degrees C, oxygen consumption rates of Somah solution are significantly higher than Celsior (R) and Perfadex (R) at basal conditions after 4 h, but this effect is not sustained after 8 h. Conclusions: The purpose of this experiment was to study the efficacy of various preservation solutions on a mitochondrial level. The significantly higher oxygen consumption rates of Somah at 4 degrees C suggests that Somah solution may have the ability to protect cellular mitochondrial integrity, improve transplanted organ function by reducing ischemic-reperfusion injury, and thereby improve transplant outcomes. Given that Somah offers benefits over Celsior (R) and Perfadex (R) at 4 degrees C, it should be a target in future organ preservation solution research.

Organ preservation solution

Cardiac myoblasts

Mitochondria

Bioenergetics

Somah

Celsior

Perfadex

Ranaspumin Protein Characterization and Applications for Both Environmental and Medical Purposes

Koerber, Rachel

12 1900

The Túngara frog (Engystomops pustulosus) from Central America creates a bio-foam that protects their young from dehydration, microbial degradation, and even predators during early development. The foam is composed of unique proteins known as Ranaspumin 1-6 (RSN 1-6). These RSN proteins have been synthetically synthesized and verified with Circular Dichroism (CD) to determine their critical micelle concentration, antimicrobial properties, and stability at varying temperatures and pH ranges. Throughout these characterizations, RSN 2 was determined to establish/produce antimicrobial properties, express stability at temperatures between 20 – 60oC, and express stability at a pH range of 5-8. Therefore, RSN 2 was isolated and utilized for medical and environmental applications. With the addition of RSN 2, the separation of aromatics was achieved in tar-sands with the assistance of a Tangential Flow Filtration (TFF) system. With only three passes through the TFF system, the RSN 2 solution isolated approximately 35% of the aliphatic region, and approximately 70% of the aromatic region. Finally, RSN 2 was implemented into an organ preservation solution for organ transplant surgery. By observing two different biomarkers, including Cardiolipin (CL) and alkali metals/alkaline earth metals for a change in concentration to verify organ viability. Resulting in the RSN 2 solution as well as a 50:50 solution composed of RSN 2 and a ‘gold standard' solution, has the potential to replace the on the market preservation solutions. Therefore, a simple bio-foam such as RSN 2 has the potential to advance both the medical and environmental fields.

Ranaspumin 2

Circular Dichroism

medical

environmental

Tangential Flow Filtration

organ preservation solution

Cardiolipin

alkali metals/alkaline earth metals

Chemistry, Analytical