SeHCAT
SeHCAT | ||
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IUPAC name (75Se)-2-[[[[(3α,5α,7α,12α,20S)-3,7,12-trihydroxy-20-methylpregnan-21-yl]seleno]acetyl]amino]ethanesulfonic acid, | ||
Other names 23-Seleno-25-homo-tauro-cholic acid; Selenium homocholic acid taurine; Tauroselcholic acid | ||
Identifiers | ||
CAS number | 75018-71-2 | |
PubChem | 123829 | |
ATC code | V09 | |
Jmol-3D images | {{#if:C[C@H](C[75Se]CC(NCCS(O)(=O)=O)=O)[C@@]1([H])CC[C@@]2([H])[C@]3([H])[C@H](O)C[C@]4([H])C[C@H](O)CC[C@]4(C)[C@@]3([H])C[C@H](O)[C@@]21C|Image 1 | |
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Properties | ||
Molecular formula | C26H45NO7SSe | |
Molar mass | 594.66 g mol−1 | |
(verify) (what is: / ?) Except where noted otherwise, data are given for materials in their standard state (at 25 °C (77 °F), 100 kPa) | ||
Infobox references | ||
SeHCAT is the usual name for 23-seleno-25-homo-tauro-cholic acid (selenium homocholic acid taurine or tauroselcholic acid).[1] It is used in a clinical test to diagnose bile acid malabsorption.
Development
SeHCAT is a taurine-conjugated bile acid analog which was synthesized for use as a radiopharmaceutical to investigate in vivo the enterohepatic circulation of bile salts.[2] By incorporating the gamma-emitter 75Se into the SeHCAT molecule, the retention in the body or the loss of this compound into the feces could be studied easily using a standard gamma camera, available in most clinical nuclear medicine departments.
SeHCAT has been shown to be absorbed from the gut and excreted into the bile at the same rate as cholic acid, one of the major natural bile acids in humans. It undergoes secretion into the biliary tree, gallbladder and intestine in response to food, and is reabsorbed efficiently in the ileum, with kinetics similar to natural bile acids.[2][3] It was soon shown to be the most convenient and accurate method available to assess and measure bile acid turnover in the intestine.[4] SeHCAT testing was commercially developed by Amersham International Ltd (Amersham plc is now part of GE Healthcare Medical Diagnostics division) for clinical use to investigate malabsorption in patients with diarrhea. This test has replaced 14C-labeled glycocholic acid (or taurocholic acid) breath tests and fecal bile acid measurements, which now have no place in the routine clinical investigation of malabsorption.
SeHCAT test procedure
A capsule containing radiolabelled 75SeHCAT (with 370kBq of Selenium-75 and less than 0.1 mg SeHCAT) is taken orally. The physical half life of 75Se is approximately 118 days; activity is adjusted to a standard reference date. Patients are often fasted before taking the capsule and swallow water to ensure passage of the capsule into the gastrointestinal tract. The effective dose of radiation for an adult given 370kBq of SeHCAT is 0.26mSv.[5] (For comparison, the radiation exposure from an abdominal CT scan is quoted at 5.3mSv and annual background exposure in the UK 1-3mSv.[6]) Measurements were originally performed with a whole body counter but are usually performed now with an uncollimated gamma camera. The patient is scanned supine or prone with anterior and posterior acquisition from head to thigh 1 to 3 hours after taking the capsule. Scanning is repeated after 7 days. Background values are subtracted and care must be taken to avoid external sources of radiation in a nuclear medicine department.
From these measurements, the percent retention of SeHCAT at 7 days is calculated. A 7-day SeHCAT retention value greater than 15% is considered to be normal, with values less than 15% signifing excessive bile acid loss, as found in bile acid malabsorption.
With more frequent measurements, it is possible to calculate SeHCAT retention whole body half-life; this is not routinely measured in a clinical setting. A half-life of greater than 2.8 days has been quoted as normal.[7]
Clinical use of the SeHCAT test
The SeHCAT test is used to investigate patients with suspected bile acid malabsorption, who usually experience chronic diarrhea, often passing watery feces 5 to 10 times each day. When ileum has been removed following surgery, or is inflamed in Crohn's disease, the 7-day SeHCAT retention usually is abnormal, and most of these patients will benefit from treatment with bile acid sequestrants.[8][9] The enterohepatic circulation of bile acids is reduced in these patients with ileal abnormalities and, as the normal bile acid retention exceeds 95%, only a small degree of change is needed. Bile acid malabsorption can also be secondary to cholecystectomy, vagotomy and other disorders affecting intestinal motility or digestion such as radiation enteritis, celiac disease and small intestinal bacterial overgrowth.
A similar picture of chronic diarrhea, an abnormal SeHCAT retention and a response to bile acid sequestrants, in the absence of other disorders of the intestine, is characteristic of idiopathic bile acid malabsorption – also called primary bile acid diarrhea. These patients are frequently misdiagnosed as having the irritable bowel syndrome, as clinicians fail to recognize the condition, do not think of performing a SeHCAT test, or do not have it available.[10]
There have been at least 18 studies of the use of SeHCAT testing in diarrhea-predominant irritable bowel syndrome patients. When these data were combined, 32% of 1223 patients had a SeHCAT 7-day retention of less than 10%, and 80% of these reported a response to cholestyramine, a bile acid sequestrant.[11]
References
- ↑ "23-seleno-25-homotaurocholic acid - Compound Summary". CID 123829. NCBI. Retrieved 3 April 2011.
- ↑ 2.0 2.1 Boyd, GS; Merrick, MV, Monks, R, Thomas, IL (1981). "Se-75-labeled bile acid analogs, new radiopharmaceuticals for investigating the enterohepatic circulation.". Journal of Nuclear Medicine 22 (8): 720–5. PMID 7264761.
- ↑ Jazrawi, RP; Ferraris, R, Bridges, C, Northfield, TC (1988). "Kinetics for the synthetic bile acid 75selenohomocholic acid-taurine in humans: comparison with [14C]taurocholate.". Gastroenterology 95 (1): 164–9. PMID 3371611.
- ↑ Thaysen, EH; Orholm, M, Arnfred, T, Carl, J, Rødbro, P (October 1982). "Assessment of ileal function by abdominal counting of the retention of a gamma emitting bile acid analogue.". Gut 23 (10): 862–5. doi:10.1136/gut.23.10.862. PMC 1419815. PMID 7117906.
- ↑ SeHCAT. SmPC 2008. GE Healthcare 1-7.
- ↑ Shrimpton, P.C; Miller, H.C; Lewis, M.A; Dunn, M. Doses from Computed Tomography (CT) examinations in the UK - 2003 Review
- ↑ van Tilburg, AJ; de Rooij, FW, van den Berg, JW, Kooij, PP, van Blankenstein, M (1991). "The selenium-75-homocholic acid taurine test reevaluated: combined measurement of fecal selenium-75 activity and 3 alpha-hydroxy bile acids in 211 patients.". Journal of Nuclear Medicine 32 (6): 1219–24. PMID 2045936.
- ↑ Nyhlin, H; Merrick, MV, Eastwood, MA (1994). "Bile acid malabsorption in Crohn's disease and indications for its assessment using SeHCAT.". Gut 35 (1): 90–3. doi:10.1136/gut.35.1.90. PMC 1374639. PMID 8307458.
- ↑ Smith, MJ; Cherian, P, Raju, GS, Dawson, BF, Mahon, S, Bardhan, KD (2000). "Bile acid malabsorption in persistent diarrhoea.". Journal of the Royal College of Physicians of London 34 (5): 448–51. PMID 11077656.
- ↑ Walters, JR (2010). "Defining primary bile acid diarrhea: making the diagnosis and recognizing the disorder.". Expert review of gastroenterology & hepatology 4 (5): 561–7. doi:10.1586/egh.10.54. PMID 20932141.
- ↑ Wedlake, L; A'Hern, R, Russell, D, Thomas, K, Walters, JR, Andreyev, HJ (2009). "Systematic review: the prevalence of idiopathic bile acid malabsorption as diagnosed by SeHCAT scanning in patients with diarrhoea-predominant irritable bowel syndrome.". Alimentary pharmacology & therapeutics 30 (7): 707–17. doi:10.1111/j.1365-2036.2009.04081.x. PMID 19570102.
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