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1. Cesium Chloride, 133cs-labeled
2. Cesium Chloride, 137cs-labeled
3. Cesium Chloride, 35cl-labeled
4. Cscl
1. 7647-17-8
2. Caesium Chloride
3. Cesium Monochloride
4. Cscl
5. Cesium Chloride (cscl)
6. Cesiumchloride
7. Tricesium Trichloride
8. Cesium;chloride
9. Caesium Monochloride
10. Mfcd00010955
11. Gnr9hml8ba
12. Dicesium Dichloride
13. Cesium Monochloride; Nsc 15198
14. Nsc-15198
15. Cesium Chloride, Ultra Dry
16. Hsdb 7149
17. Unii-gnr9hml8ba
18. Einecs 231-600-2
19. Nsc 15198
20. Cesium(i) Chloride
21. Caesium(i) Chloride
22. Cesium Chloride, Ultrapure
23. Wln: Cs G
24. Ec 231-600-2
25. Cesium Chloride [mi]
26. Cesium Chloride, 99.99%
27. Cesium Chloride, >=99.8%
28. Cesium Chloride [hsdb]
29. Cesium Chloride (99.9%-cs)
30. Chembl4460016
31. Dtxsid3040435
32. Chebi:63039
33. Cesium Chloride [who-dd]
34. Cesium Chloride, P.a., 99.8%
35. Nsc15198
36. S3642
37. Cesium Chloride, Grade Ii, >=98%
38. Akos015902586
39. Akos024438091
40. Akos024458317
41. Ccg-266351
42. Cesium Chloride, Grade I, >=99.0%
43. Cesium Chloride, Cabot High-purity Grade
44. Sy009912
45. Cesium Chloride, Reagentplus(r), 99.9%
46. Hy-107754
47. Cesium Chloride, 99.99% Trace Metals Basis
48. Cesium Chloride, Puriss. P.a., >=99.5%
49. Cs-0029480
50. Ft-0623572
51. Cesium Chloride, Bioultra, >=99.0% (at)
52. Cesium Chloride, Trace Metals Grade, 99.9%
53. Cesium Chloride, For Molecular Biology, >=98%
54. F20343
55. Cesium Chloride, >=99.999% Trace Metals Basis
56. Cesium Chloride, Bioxtra, >=99.5% (titration)
57. Cesium Chloride, Ultrapure Grade, 99.99%, P.a.
58. Cesium Chloride, Vetec(tm) Reagent Grade, >=99%
59. Q296694
60. Cesium Chloride, Optical Grade, >=99.5% Trace Metals Basis
61. Cesium Chloride, Bioultra, For Molecular Biology, >=99.5% (at)
62. Cesium Chloride, Anhydrous, Beads, -10 Mesh, 99.999% Trace Metals Basis
63. Cesium Chloride, For Molecular Biology, >=99% (silver Nitrate Titration)
64. Cesium Chloride, Anhydrous, Free-flowing, Redi-dri(tm), Reagentplus(r), 99.9%
| Molecular Weight | 168.36 g/mol |
|---|---|
| Molecular Formula | ClCs |
| Hydrogen Bond Donor Count | 0 |
| Hydrogen Bond Acceptor Count | 1 |
| Rotatable Bond Count | 0 |
| Exact Mass | 167.8743047 g/mol |
| Monoisotopic Mass | 167.8743047 g/mol |
| Topological Polar Surface Area | 0 Ų |
| Heavy Atom Count | 2 |
| Formal Charge | 0 |
| Complexity | 2 |
| Isotope Atom Count | 0 |
| Defined Atom Stereocenter Count | 0 |
| Undefined Atom Stereocenter Count | 0 |
| Defined Bond Stereocenter Count | 0 |
| Undefined Bond Stereocenter Count | 0 |
| Covalently Bonded Unit Count | 2 |
Real and simulated particulate fallout solutions of 134CsCl were fed to 102 healthy volunteers. An average of 3% of the radioactivity of week-old fallout was absorbed: the range was 0-9%.
Leroy GV et al; Health Physics 13 (4): 449-473 (1966)
Data were obtained for the distribution-excretion pattern of 137Cs in guinea pigs over a period of 100 days after administration by three different routes. Three groups of twenty guinea pigs were used. Solutions of cesium chloride containing 137Cs as a tracer were administered to the animals by inhalation, by ingestion and by i.p. injection. Urine and feces were collected daily until sacrifice, and the time-tissue distribution patterns were determined after death. All measurements were made by gamma counting with a NaI (Tl) detector. Since cesium chloride is extremely soluble, it was absorbed rapidly from the lungs, the digestive tract and the abdominal cavity. After the first day, the skeletal muscle had the largest concentration of 137Cs. Its retention in muscle may be approximated by a single exponential function with an average biological half-life of 10 days. Concentration in other tissues did not differ significantly from that in the muscle. The 137Cs concentration in total excretion followed an exponential pattern with a rapidly and a slowly decreasing component. The average urine-to-feces ratio was 2.8. More than 95 per cent was excreted within 32 days; at this time, approximately 65 per cent of the remaining radioactivity was located in the skeletal muscle.
PMID:5879911 Stara JF; Health Physics 11(11): 1195-1202 (1965)
Absorption of CsCl, SrCl2, BaCl2 and CeCl3 deposited on nasal membranes directly into the general circulation was studied in Syrian hamsters and compared with gastrointestinal tract absorption. More than 50 % of the cesium, strontium and barium was absorbed directly from the nasal membranes but <4 % of the cerium. For all isotopes, nasal absorption was approximately = or >gastrointestinal absorption during the first 4 hr after administration. This study emphasized the importance of direct nasal absorption of deposited materials in inhalation toxicity evaluations especially with readily soluble aerosols having mass median aerodynamic diameters >5 m when nasopharyngeal deposition predominates.
PMID:4785408 Cuddihy RG, Ozog JA; Health Physics 25 (3): 219-224 (1973)
... potassium channel blocker ... capable of producing early after-depolarizations (EADs) and polymorphic ventricular tachyarrhythmias resembling torsades de pointes.
PMID:9786077 Satoh T, Zipes DP; J Cardiovasc Electrophysiol 9: 970-5 (1998)
Cesium ions block potassium channels in biological membranes in a voltage dependent manner. For example, external cesium blocks inward current with little or no effect on outward current. Consequently, it produces a characteristic N-shaped current-voltage relationship. /Cesium ions/
PMID:6325824 Clay JR, Shlesinger MF; J Theor Biol 107 (2): 189-201 (1984)
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