Investigating the absorption of the products of digestion using Visking tubing
Visking tubing (sometimes referred to as dialysis tubing) is a non-living partially permeable membrane made from cellulose
It is sometimes used to model the process of absorption that occurs in the small intestine
Pores in the membrane are small enough to prevent the passage of large molecules (such as starch and sucrose) but allow smaller molecules (such as glucose) to pass through by diffusion
Image showing how a visking tubing membrane can be used to mimic the walls of the small intestine
Method
Fill a section of Visking tubing with a mixture of starch and amylase solutions
Suspend the tubing in a beaker of water for a set period of time
Take samples from the liquid outside of the visking tubing at regular intervals and test for the presence of starch and glucose
Starch is tested for using iodine. A blue-black colour is produced in the presence of starch
Glucose is tested for using Benedict's reagent. An orange-red precipitate is formed in the presence of glucose
The amylase present inside the visking tube digests and breaks down starch into glucose
Glucose is small enough to diffuse across the partially permeable membrane
Over time the concentration of glucose in the liquid outside the visking tube should increase as more starch (substrate) has been digested
As a result, the amount of precipitate produced from the Benedict's reagent test will increase over time
The rate of absorption/diffusion can be investigated more quantitatively by:
Estimating the concentration of glucose that has diffused into the liquid surrounding the Visking tubing at each time interval (separate beakers are set up for each time interval) using the semi-quantitative Benedict’s test
Comparisons between the time intervals can be made with a set of colour standards (known glucose concentrations) or a colorimeter to give a more quantitative set of results
A graph could be drawn showing how the rate of absorption changes with the concentration gradient between the inside and outside of the tubing
Limitations
Using visking tubing membrane as a substitute for the membrane of the small intestine:
Both are selectively/partially permeable
The small intestine has a much larger surface area due to the presence of villi
Using distilled water as a substitute for blood:
Both have an initially low solute concentration
The distilled water does not flow and so does not maintain the concentration gradient the way blood does