Effect of adipose tissue processing procedures in culture result: a study preliminary.

Background: There are various methods of processing adipose tissue before culture, depending on the adipose tissue samples. The aim of this study is to compare several modifications of culturing and sub-culturing procedures of adipose tissue to fit the condition in our laboratory. Method: This is a descriptive study that was done in the Immunology and Endocrinology Integrated Laboratory, University of Indonesia, from October 2009 to April 2010. Three adipose tissue processing procedures, various amount of seeding and two subculture methods were compared in term of cell yield and time needed. In the first procedure, collagenase-1 digestion was done in 30minutes, cell seeding were 24,000 and 36,000 per flask; in the second procedure, collagenase-1 digestion was done in 60minutes, cell seeding were 24,000, 48,000, and 72,000 per flask; and in the third procedure, the adipose tissue remnants from the first procedure were again digested for another 45 minutes, cell seeding were 74,000, and 148,000 per flask. Difference in subculture methods were the presence or absence of washing step. Result: Procedure 1 yielded the lowest amount of cell, and after culture, the cells grew very slow, and was contaminated before harvest of primary culture. Procedure-2 and -3 succeeded to yield primary cultures. Some of the cultures were contaminated, so that further subculture was not applicable, and only one tissue processing procedure (procedure 2: 60 minute collagenase-1 digestion, without lysis buffer, cell seeding 48,000 and 72,000) could complete the three subcultures. Though some of the procedures could not be completed, final result could be concluded. Conclusion: In this preliminary study, 60 minute colagenase-1 digestion with intermittent shaking every 5 minutes and cell seeding around 50,000 or more, followed by subculture method without washing step gave the best result.

Cytology technique: development of a simple spot method for cultured cell suspension.

Aim To develop a simple spot method to attach cultured cells in suspension on to a glass slide. Methods We compared three approaches using both conventional and special glass slide (Shandon-Polysin)., either without additional fetal bovine serum (FBS), or with addition of 3 or 10 μl of FBS to a 20 μl sample (altogether there were six approaches). The slides were examined qualitatively for the background color, boundary color and intactness, and whether there were folded and detached parts. Further, for each slide, the attached intact cells were counted, and the percentage of attached intact cells per number of spotted cells was calculated. The difference in attach intact cells between different approaches was analyzed by ANOVA using SPSS 13.0 for windows. Results There were no significant difference in the percentage of attached intact cells between the six approaches (P= 0.804), though the approach using special glass slide without additional FBS (FBS final concentration 5%) yield the highest percentage of attached intact cells, showed clean background without folded parts. Conclusions We have developed a simple spot method for cultured cell suspension, and the best approach to make spot specimen is using special glass slide with 5% FBS in the cell suspension.