We previously reported that poly(2-methoxyethyl acrylate) (PMEA), which has excellent blood compatibility, contains a large amount of freezing bound water. In order to confirm the role of freezing bound water in determining blood compatibility, poly(tetrahydrofurfuryl acrylate) (PTHFA) was newly synthesized and the thermal properties of water in PTHFA were investigated by differential scanning calorimetry (DSC), as freezing bound water was observed as cold crystallization in DSC heating curves. In addition, the blood compatibility of PTHFA, including activations of platelets, the coagulation system and the complement system, was investigated. The temperature of cold crystallization of water in PTHFA was higher than that of water in PMEA; moreover, the amount of freezing bound water in PTHFA was smaller than that in PMEA. The effect of freezing bound water on blood compatibility was investigated by comparing PTHFA, PMEA, poly(2-hydroxyethyl methacrylate) (PHEMA) and poly(2-methoxyethyl methacrylate) (PMEMA). The latter two samples showed no cold crystallization. Activations of platelets, the coagulation system and the complement system were enhanced in the following order: PMEA < PHEMA < PTHFA < PMEMA, PMEA < PMEMA < PTHFA < PHEMA and PMEA < PTHFA < PMEMA < PHEMA, respectively. The above results were reasonably explained by the amount and/or the stability of freezing bound water.
We have been studying the blood compatibility of polymeric materials from the viewpoint of their water structure, and have proposed that freezable water interacting with polymer molecules plays an important role in determining that compatibility. As we found that water-soluble poly(acryloylmorpholine) interacted with water, resulting in the formation of 'bound water', we newly prepared water-non-soluble poly(acryloylmorpholine-r-butyl methacrylate) (denoted as ACMO co-polymer) with various composition ratios. In addition, the properties of a co-polymer based on N,N-diethylacrylamide (DEA co-polymer), where DEA has a similar chemical structure to ACMO, except that DEA has no ether oxygen, were compared with that of the ACMO co-polymer. Contact angle and DSC analysis revealed that an increase in the content of an N-substituted acrylamide unit in the co-polymers enhanced the hydrophilicity of the polymer and that the hydrophilicity of the ACMO co-polymer was stronger than that of the DEA co-polymer. As for the water structure, it was found that the ACMO co-polymer had a lot of bound water compared to the DEA co-polymer. The difference in these properties between the ACMO and DEA co-polymers was due to the ether oxygen of the morpholine group. At the same time, in vitro blood compatibility tests showed that the ACMO co-polymer exhibited a much better performance than the DEA co-polymer. The water structure and blood compatibility is discussed in detail.
The Large Size Telescopes, LSTs, located at the center of the Cherenkov Telescope Array, CTA, will be sensitive for low energy gamma-rays. The camera on the LST focal plane is optimized to detect low energy events based on a high photon detection efficiency and high speed electronics. Also the trigger system is designed to detect low energy showers as much as possible. In addition, the camera is required to work stably without maintenance in a few tens of years. In this contribution we present the design of the camera for the first LST and the status of its development and production.
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