Platinum vs Osmium. Platinum vs Iridium. Platinum vs Gold. Platinum vs Mercury. Platinum vs Rutherfordium. Platinum vs Dubnium. Platinum vs Seaborgium.
Platinum vs Bohrium. Platinum vs Hassium. Platinum vs Meitnerium. Platinum vs Roentgenium. Platinum vs Copernicium. Compare Chromium with other Group 6 elements Chromium vs Molybdenum. Chromium vs Tungsten. Chromium vs Seaborgium.
Chromium vs Scandium. Chromium vs Titanium. Chromium vs Vanadium. Chromium vs Manganese. Chromium vs Iron. Chromium vs Cobalt. Chromium vs Nickel. Chromium vs Copper. Chromium vs Zinc.
Chromium vs Yttrium. Chromium vs Zirconium. Chromium vs Niobium. Chromium vs Molybdenum. Chromium vs Technetium. Chromium vs Ruthenium. Chromium vs Rhodium. Chromium vs Palladium. Chromium vs Silver. Chromium vs Cadmium. Chromium vs Hafnium. Chromium vs Tantalum. Chromium vs Rhenium. Chromium vs Osmium. After eye contact Rinse opened eye for several minutes under running water. If symptoms persist, consult a doctor. After swallowing If symptoms persist consult doctor.
Information for doctor Most important symptoms and effects, both acute and delayed No further relevant information available. Indication of any immediate medical attention and special treatment needed No further relevant information available. Extinguishing media Suitable extinguishing agents Special powder for metal fires.
Do not use water. For safety reasons unsuitable extinguishing agents Water Special hazards arising from the substance or mixture If this product is involved in a fire, the following can be released: Cobalt oxides Advice for firefighters Protective equipment: No special measures required. Personal precautions, protective equipment and emergency procedures Not required. Environmental precautions: Do not allow material to be released to the environment without proper governmental permits.
Methods and material for containment and cleaning up: Dispose of contaminated material as waste according to section Prevention of secondary hazards: No special measures required.
Reference to other sections See Section 7 for information on safe handling See Section 8 for information on personal protection equipment. See Section 13 for disposal information.
Handling Precautions for safe handling Keep container tightly sealed. Store in cool, dry place in tightly closed containers. Ensure good ventilation at the workplace.
Prevent formation of dust. Information about protection against explosions and fires: No special measures required. Conditions for safe storage, including any incompatibilities Storage Requirements to be met by storerooms and receptacles: No special requirements. Information about storage in one common storage facility: Do not store together with acids. Further information about storage conditions: Keep container tightly sealed. Store in cool, dry conditions in well sealed containers.
Specific end use s No further relevant information available. Exposure controls Personal protective equipment General protective and hygienic measures The usual precautionary measures for handling chemicals should be followed.
Maintain an ergonomically appropriate working environment. Breathing equipment: Not required. Protection of hands: Not required. Penetration time of glove material in minutes Not determined Eye protection: Safety glasses Body protection: Protective work clothing. Ignition temperature: Not determined Decomposition temperature: Not determined Auto igniting: Not determined. Danger of explosion: Not determined. Relative density Not determined.
Vapor density Not applicable. Evaporation rate Not applicable. Viscosity: dynamic: Not applicable. Other information No further relevant information available. Reactivity No information known. Chemical stability Stable under recommended storage conditions. Possibility of hazardous reactions No dangerous reactions known Conditions to avoid No further relevant information available.
Incompatible materials: Acids Hazardous decomposition products: Cobalt oxides. It is used to harden the steel and produces a stainless steel and other various alloys. It is also used to give proper finish to polished mirrors. Its chromium plates are used in bathroom fittings. Compare Transition Metals » More. Platinum vs Manganese.
Platinum vs Tungsten. Platinum vs Iridium. Propensity score matching was used to adjust for covariate imbalance between groups. The data from this programme will support the regulatory submissions for the US and Japan. The objective was to compile acute day clinical outcome data and nine-month angiographic and IVUS data.
There were no additional major cardiac events or deaths up to 12 months see Table 5. This late loss is similar to the eight-month in-stent late loss of 0. The mechanical properties of the stent particularly its low recoil and high conformability could result in a lower risk of ISA.
This could also be related to other factors, including the extensive use Vessel and lumen volumes were similar at nine months compared to post-procedure, with low neointimal volume and net volume obstruction observed at nine months. The analysis set for the primary end-point was the per protocol population defined as patients who received the assigned study stent.
The month rate of TLF was not significantly different between the two stent groups regardless of whether the per protocol population primary endpoint definition or the intention-to-treat population was examined. Technical success was achieved in There were no significant differences in any safety or efficacy measure between the stent types. The one-year rate of TLR was 1. The primary endpoint was met with a month TLF rate of 2.
In the intent-to-treat group, there were three cardiac deaths, no MIs and no STs. The thin-strut PtCr stent series has fulfilled the design goals of improved acute performance while maintaining excellent safety and efficacy in patients undergoing PCI.
The PtCr stent is a highly deliverable, flexible and conformable thin-strut stent with excellent radiopacity, recoil and radial strength. Pre-clinical data with the PtCr stent demonstrated safety and vascular compatibility equivalent to the predicate devices.
Clinical outcomes directly support the safety and efficacy of the PtCr stents in patients undergoing PCI. Dominic J Allocco ,. Mary V Jacoski ,. Barbara Huibregtse ,. Tim Mickley ,.
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