Background
Researchers have suggested that longitudinal trajectories of mammographic breast density (MD) can be used to understand changes in breast cancer (BC) risk over a woman’s lifetime. Some have suggested, based on biological arguments, that the cumulative trajectory of MD encapsulates the risk of BC across time. Others have tried to connect changes in MD to the risk of BC.
Methods
To summarize the MD–BC association, we jointly model longitudinal trajectories of MD and time to diagnosis using data from a large ($$N = 40{,}087$$
N
=
40
,
087
) mammography cohort of Swedish women aged 40–80 years. Five hundred eighteen women were diagnosed with BC during follow-up. We fitted three joint models (JMs) with different association structures; Cumulative, current value and slope, and current value association structures.
Results
All models showed evidence of an association between MD trajectory and BC risk ($$P < 0.001$$
P
<
0.001
for current value of MD, $$P < 0.001$$
P
<
0.001
and $$P =0.005$$
P
=
0.005
for current value and slope of MD respectively, and $$P < 0.001$$
P
<
0.001
for cumulative value of MD). Models with cumulative association structure and with current value and slope association structure had better goodness of fit than a model based only on current value. The JM with current value and slope structure suggested that a decrease in MD may be associated with an increased (instantaneous) BC risk. It is possible that this is because of increased screening sensitivity rather than being related to biology.
Conclusion
We argue that a JM with a cumulative association structure may be the most appropriate/biologically relevant model in this context.