2. Thoroughly clean the lid of the bioreactor with 70% ethanol
prior to inverting it to the vented orientation.
3. Add 100 mL of prewarmed complete DMEM to the system.
4. Aspirate the medium from the HepG2 models after 7 days of
culture.
5. Using sterile forceps, lift the Alvetex® insert from the plate and
place it into the holder in the bioreactor system (see Note 2).
6. Replace the bioreactor lid and incubate it on a magnetic stirrer
set to 100 rpm for a further 7–14 days in a 37 �C, 5% CO2
humidified incubator. Perform a full media change on day 7 if
perfusing for 14 days.
3.3
Processing and
Analysis of the
Perfused Models
To investigate the function and morphology of in vitro tissue
equivalents, a wide range of analytical techniques can be used.
The figures shown in this chapter were generated through histo-
logical and immunofluorescent techniques for visual analysis of
gross morphology and expression of individual proteins, or
through the use of an MTT assay to measure cellular metabolism.
3.3.1
Processing
Samples for Paraffin Wax
Embedding
1. Carefully unclip the Alvetex® insert using blunt forceps and
place the membrane into a 12-well plate containing 2 mL
of PBS.
2. Aspirate the PBS and wash a further two times to remove
residual culture medium.
3. Fix in 4% paraformaldehyde at room temperature for 2 h, or
overnight at 4 �C.
4. Wash the fixed models three times in PBS to remove residual
paraformaldehyde.
5. Dehydrate the samples through a gradient of ethanol concen-
trations (30%, 50%, 70%, 80%, 90%, 95%) for 15 min each
before finally in 100% ethanol for 30 min.
6. Transfer the dehydrated samples into tissue processing cas-
settes and submerge in Histo-Clear II for 30 min.
7. Move the samples into a 1:1 mixture of Histo-Clear II and
molten paraffin wax, and incubate at 65 �C for 30 min.
8. Transfer the samples to pure molten paraffin wax and incubate
at 65 �C for 1 h.
9. Cut the tissue models in half across their diameter using a
surgical scalpel and embed in molten wax with the flat edge
orientated to the base of the plastic embedding mold.
10. Allow embedded models to completely set overnight at room
temperature prior to sectioning and downstream analysis.
Applying Stirred Perfusion to 3D Tissue Equivalents to Mimic the Dynamic In. . .
253