Exact Mass: 180.9446

Exact Mass Matches: 180.9446

Found 17 metabolites which its exact mass value is equals to given mass value 180.9446, within given mass tolerance error 0.01 dalton. Try search metabolite list with more accurate mass tolerance error 0.001 dalton.

Tantalum

Tantalum metal and oxide dust

Ta (180.948)


Tantalum is a transition metal (atomic number 73; atomic weight 180.05) that remains relatively inert in vivo. Dating back to the mid-1900s multiple medical devices have been fabricated that utilize this material, including: pacemaker electrodes, foil and mesh for nerve repair, radiopaque markers, and cranioplasty plates. Tantalum-based implants have displayed an exceptional biocompatibility and safety record in orthopedic, cranio-facial, and dentistry literature. The basic structure of this porous tantalum metal yields a high volumetric porosity, a low modulus of elasticity, and relatively high frictional characteristics.; Tantalum is known to be relatively inert in vivo and is now used as plates, sutures, radio-markers, and prostheses covering a wide variety of medical subspecialties and procedures. Dental implants have yielded excellent 8-year follow-up with tantalum-based components used for osseous anchorage. The oxide formed on the surface of tantalum implants (self-passivation) in vivo has been found to be quite stable over a wide range of pH and potential ranges. On high-resolution examination, titanium was found to have no multi-nucleated macrophages in the tissue surrounding the metallic implant, while tantalum implants displayed an occasional peri-implant macrophage. Physiologically, it ; exists as an ion in the body.; Overall porous tantalum is corrosion resistant, may be associated with less peri-implant stress shielding, and has the potential to allow for immediate weight bearing (given its high frictional characteristics). These inherent properties and proven biocompatibility make porous tantalum an intriguing metal for the design and manufacture of: press-fit or cementless components for total joint arthroplasty, bone graft substitute, or a scaffold for potential cartilage resurfacing. (PMID: 16737737). Tantalum is found in many foods, some of which are orange bell pepper, green bell pepper, yellow zucchini, and common hazelnut. Tantalum is a transition metal (atomic number 73; atomic weight 180.05) that remains relatively inert in vivo. Dating back to the mid-1900s multiple medical devices have been fabricated that utilize this material, including: pacemaker electrodes, foil and mesh for nerve repair, radiopaque markers, and cranioplasty plates. Tantalum-based implants have displayed an exceptional biocompatibility and safety record in orthopedic, cranio-facial, and dentistry literature. The basic structure of this porous tantalum metal yields a high volumetric porosity, a low modulus of elasticity, and relatively high frictional characteristics. Tantalum is known to be relatively inert in vivo and is now used as plates, sutures, radio-markers, and prostheses covering a wide variety of medical subspecialties and procedures. Dental implants have yielded excellent 8-year follow-up with tantalum-based components used for osseous anchorage. The oxide formed on the surface of tantalum implants (self-passivation) in vivo has been found to be quite stable over a wide range of pH and potential ranges. On high-resolution examination, titanium was found to have no multi-nucleated macrophages in the tissue surrounding the metallic implant, while tantalum implants displayed an occasional peri-implant macrophage. Physiologically, it exists as an ion in the body. Overall porous tantalum is corrosion resistant, may be associated with less peri-implant stress shielding, and has the potential to allow for immediate weight bearing (given its high frictional characteristics). These inherent properties and proven biocompatibility make porous tantalum an intriguing metal for the design and manufacture of: press-fit or cementless components for total joint arthroplasty, bone graft substitute, or a scaffold for potential cartilage resurfacing. (PMID: 16737737).

   

3-phospho-hydroxypyruvate

2-oxo-3-(phosphonatooxy)propanoate

C3H2O7P (180.9538)


3-phosphonatooxypyruvate(3-), also known as phosphohydroxypyruvic acid or 3-P-oh-pyr, is a member of the class of compounds known as glycerone phosphates. Glycerone phosphates are organic compounds containing a glycerone moiety that carries a phosphate group at the O-1 or O-2 position. 3-phosphonatooxypyruvate(3-) is soluble (in water) and a moderately acidic compound (based on its pKa). 3-phosphonatooxypyruvate(3-) can be found in a number of food items such as buffalo currant, sour cherry, black mulberry, and rowanberry, which makes 3-phosphonatooxypyruvate(3-) a potential biomarker for the consumption of these food products. 3-phosphonatooxypyruvate(3-) may be a unique S.cerevisiae (yeast) metabolite.

   

1H-Imidazole,2,5-dichloro-4-nitro-

1H-Imidazole,2,5-dichloro-4-nitro-

C3HCl2N3O2 (180.9446)


   

2-Bromo-4-ethynylpyridine

2-Bromo-4-ethynylpyridine

C7H4BrN (180.9527)


   

4-Bromo-2-ethynylpyridine

4-Bromo-2-ethynylpyridine

C7H4BrN (180.9527)


   

4-Bromophenyl isocyanide

1-Bromo-4-isocyanobenzene

C7H4BrN (180.9527)


   

2-Bromo-6-ethynylpyridine

2-Bromo-6-ethynylpyridine

C7H4BrN (180.9527)


   

3-Bromobenzonitrile

3-Bromobenzonitrile

C7H4BrN (180.9527)


   

2-Bromo-5-ethynylpyridine

2-Bromo-5-ethynylpyridine

C7H4BrN (180.9527)


   

2-Bromobenzonitrile

2-Bromobenzonitrile

C7H4BrN (180.9527)


   

manganese(2+),diformate,dihydrate

manganese(2+),diformate,dihydrate

C2H6MnO6 (180.9545)


   

5-Bromo-2-ethynylpyridine

5-Bromo-2-ethynylpyridine

C7H4BrN (180.9527)


   

4-Bromobenzonitrile

4-Bromobenzonitrile

C7H4BrN (180.9527)


   

tantalum

tantalum hydride

Ta (180.948)


   

Tantalum(5+)

Tantalum(5+)

Ta+5 (180.948)


   

Phosphohydroxypyruvate

Phosphohydroxypyruvate

C3H2O7P-3 (180.9538)


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3-phosphonatooxypyruvate(3-)

3-phosphonatooxypyruvate(3-)

C3H2O7P (180.9538)


A carboxyalkyl phosphate oxoanion resuting from deprotonation of the carboxy and phosphate groups of 3-phosphooxypyruvic acid.