Understanding Amylase: Sources, Functions, and Clinical Significance

Amylase is an essential enzyme found in saliva, pancreatic juice, and plants that aids in the breakdown of starch into sugars. This article explores the sources, physiological actions, and diagnostic uses of amylase in clinical practice, focusing on conditions such as acute pancreatitis. It also delves into the comparison between serum amylase and lipase levels for diagnosing acute pancreatitis, highlighting the importance of interpreting elevated amylase levels in the context of various medical conditions beyond pancreatic diseases.

• Amylase
• Enzyme
• Starch breakdown
• Clinical significance
• Pancreatitis

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Uploaded on Jul 20, 2024 | 0 Views

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1. Malabsorption Analysis of Serum Amylase

2. Q.1 What is amylase, and what are its sources in human body? Answer: Amylase are group of proteins found in saliva, pancreatic juice and parts of plants; they help to convert starch into sugar

3. Q. 2 What is the physiological action of amylase? Answer: Amylase hydrolyzes (breakdown) the dietary starch and glycogen into: - Short, branched oligosaccharides (e.g. maltotriose) - Disaccharides (maltose and iso-maltose).

4. Q. 3 Would you expect a high level of amylase in blood under a normal condition? Answer: No

5. Q. 4 a: What are the uses of amylase measurement in clinical practice? Answer: Acute Pancreatitis that can be measured in this clinical condition? Answer: Serum lipase Q. 4 b: What other diagnostic marker

6. Serum amylase vs. lipase for acute pancreatitis Serum amylase Serum Lipase Levels start rising 2-12 hrs 4-8 hrs Levels peak 12-72 hrs 24 hrs Levels return to normal One week 8-14 days Normal range: adults < 60yrs 25-125 IU/L 10-140IU/L Adults > 60 yrs 24-151 IU/L 18-181 IU/L Values more than three times the normal range along with the clinical picture is considered positive for acute pancreatitis. Even though the specificity and sensitivity of serum amylase are lower than those of serum lipase, serum amylase is widely used for diagnosing pancreatitis because it is relatively inexpensive.

7. Q. 4 c:If a patient has an elevated amylase levels, does this always mean that he has a pancreatic condition? Answer: No, Amylase levels may also be significantly increased in patients having conditions other than pancreatic disease. Example: Gallbladder diseases Acute appendicitis Intestinal obstruction Perforated intestinal ulcer

8. Q. 5 Changes in serum amylase activity during course of an injury (time course) Amylase activity (U/L) 1200 1000 Amylase activity (U/L) 800 600 400 200 0 20min 40min 60min 120min 12hr 2days 3days 6days Time Amylase levels will be increasing over time, and will reach a peak within 12-72 hours. It will return to normal in few days (~ a week).

9. Q5-a What are the possible factors responsible for these changes in the curve? Answer: Why does amylase level increase? Acute pancreatitis damage of the exocrine part of the pancreas release of the pancreatic enzymes into the circulation ( -Amylase is one of the pancreatic enzymes released). Why does it decrease? 1. The condition is self-limited 2. The circulating amylase will be excreted in urine 3. The circulating amylase will be degraded (protein turnover)

10. Q5-bWith knowledge about amylase activity overtime, what is the clinical application? Answer:Three points can be derived from such a curve: 1. Measurement of -amylase in the serum is limited by the time elapsed since the initiation of acute inflammation of the pancreas. If the patient presented late, and the condition was self limited, the diagnosis of acute pancreatitis based on the enzyme level at time of presentation could be missed. 2. The measurement of -amylase in serum should not be interpreted on its own; it has to be evaluated in association with the clinical picture (e.g. the nature of abdominal pain). 3. The rising trend of the levels of serum -amylase as the acute inflammation is taking place is more clinically significant than one single high reading.

11. SOURCES OF VARIATION IN TEST RESULTS For adequate interpretation of laboratory test results, you have to completely understand different reasons for variation in test results: Analytical factors: e.g., accuracy (reliability) and precision (reproducibility) Biological factors: e.g., sex, age, diet, drugs .. Pathological factors: e.g., progression of the disease, complications

12. Accuracy The reliability of the method in determining the true value of the analyte The extent to which the mean measurement is close to the true value It is useful for comparison of original, gold standard method with other methods

13. Precision The reproducibility of the method when it is run repeatedlyunder identical conditions

14. AccuracyVs Precision They are independent, e.g., an inaccurate result can be extremely precise The relation between accuracy and precision can be easily illustrated by its analogy to shooting at a target or dartboard

15. AccurateandPrecise X X X

16. Accurate but not Precise X X X

17. Inaccurate but Precise XX X

18. Both inaccurate and imprecise X X X

20. Measurement of Serum Amylase 1mL substrate 20uL serum sample 1 2 3 Mix Reaction Tube Note time of start of reaction 4 5 6 Take 3 minute reading (A2) at 405nm Take 1 minute reading (A1) at 405nm Transfer(Pour) to cuvette

21. Calculation & Interpretation A = A (3 Minutes) A (1 Minute) 3 Serum Amylase (U/L) = 4712 A Results: . U/L Normal reference values: Serum: up to 125 U/L (at room temperature) Normal range 25-125 U/L