Cell’s bilayer phospholipid membranes work as insulators that separate the extracellular matrix and cytoplasm,
creating a charge gradient across the cell membrane. Cell membrane capacitance, together with membrane
resistance, impacts how fast the cell responds to the flow of ions currents. And for neurons, it affects how the
neurons integrate electric signals and their synaptic efficacy. In this study, we performed logistic regression and
used statistical analysis, and found a significant correlation with a relatively large R-squared value between
depression and cell membrane capacitance.
Objective
This study aims to study if the lower cell membrane capacitance correlates with an increased rate of
depression in participants aged 8-49 years old.
Data collection
Data used in this study were collected in the 1999-2000 and 2001-2002 CDC National Health and Nutrition
Examination Survey (NHANES) database. 11,260 participants aged 8 – 49 years old in the 1999-2000 and 2001-
2002 NHANES database were examined for bioelectrical impedance analysis (BIA), which indicates the impedance
analyzing components in this study including the ECF volume, percent body fat, and cell membrane capacitance.
1,707 participants aging between 20-39 years old in the 1999-2000 and 2001-2002 NHANES database signed up for
a depression mental health examination, which indicates the diagnosis of depression in this study. Logistic
regression and statistical modeling were performed to study the association between cell membrane capacitance and
odds of depression.
Results
For unadjusted correlation between cell membrane capacitance and depression odds, with one standard deviation
decrease in cell membrane capacitance, the depression odds will increase by 3.742 [95%CI 3.598 - 3.885] times.
For demographics data adjusted correlation between cell membrane capacitance and depression odds, with one
standard deviation decrease in cell membrane capacitance, the depression odds will increase by 2.675 [95%CI 2.310
- 3.042] times.
For demographics data and bioelectrical impedance analysis data adjusted correlation between cell membrane
capacitance and depression odds, with one standard deviation decrease in cell membrane capacitance, the depression
odds will increase by 2.193 [95%CI 1.407 - 2.979] times.
For demographics data and bioelectrical impedance analysis data adjusted correlation between cell membrane
capacitance and depression odds, with one standard deviation decrease in cell membrane capacitance, the depression
odds will increase by 2.654 [95%CI 1.695 - 3.612] times.
Conclusion
This study shows the correlation between cell membrane capacitance and depression scores using data collected
from the 1999-2000 and 2001-2002 CDC National Health and Nutrition Examination Survey (NHANES) database.
Among participants aging from 8 to 49 years old, after adjusting for demographics data and bioelectrical impedance
analysis data as covariance, with one standard deviation decrease in cell membrane capacitance analysis, an increase
in odds of depression by 2.654 [95%CI 1.695 - 3.612] times was observed in this statistical analysis. The p-value of
cell membrane capacitance in logistic regression after being adjusted was significant (<0.05) and was in the 95%
confidence interval, so we may conclude that there’s a significant correlation between cell membrane capacitance
and depression scores and the coefficient obtained from the logistic regression was significant and valid.