The potential blunting effect of metformin and/or statin therapy on physical activity‐induced associations with HbA1c in type 2 diabetes

Highlights Our analysis indicates a potential blunting effect of metformin and/or statin therapy on physical activity‐induced associations with HbA1c. The benefit of daily physical activity on glycemic control in people with type 2 diabetes is potentially more apparent in those prescribed neither metformin nor statin therapy. As physical activity is rarely prescribed in isolation of other background medications used to manage type 2 diabetes, the results of this analysis may help to maximize interventions delivered through routine clinical care, while allowing for personalization in prescribed physical activity and pharmacotherapy.

Lifestyle modifications (such as physical activity) are fundamental therapeutic interventions in the management of people living with type 2 diabetes mellitus (T2DM).Similarly, metformin is the established first-line and thus widely prescribed therapy for T2DM.Their combination would appear complimentary, as they primarily target different tissues (skeletal muscle and liver, respectively).2][3] Likewise, statins, prescribed as standard of care for individuals who have experienced a cardiovascular event and those with type 2 diabetes, may also blunt the adaptations expected with structured exercise. 4As previous investigations have typically been conducted in acute, experimental contexts, potential interactions may not necessarily be generalizable to levels of habitual daily activity or reflected in long-term glycemic control.

METHODS
As part of the ongoing Chronotype of Patients with Type 2 Diabetes and Effect on Glycaemic Control (CODEC) study 824 participants with established type 2 diabetes (aged 18-75 years) had data collected between 2016 and 2021. 5All participants were recruited from primary and specialist health care settings in Leicester, Nottingham, Derby, and Lincoln, United Kingdom.Briefly, participants had established T2DM for more than 6 months, glycated hemoglobin (HbA1c) ≤86 mmol/mol (10%), and were aged between 18 and 75 years. 5Ethical approval was obtained from the West Midlands-Black Country Research Ethics Committee (16/WM/0457) and all participants gave informed written consent.

Physical activity
Participants were asked to wear an accelerometer (GENEActiv, ActivInsights Ltd, Kimbolton, UK) on their nondominant wrist, 24 h per day for up to 7 days to quantify physical behaviors.The files were processed using R-package GGIR version 1.8-1 (http://cran.rproject.org). 6utcomes, averaged across valid days, included time accumulated in sedentary behavior (defined as time accumulated during the waking day below 40 mg), light activity (defined as time accumulated with an acceleration between 40 and 100 mg), moderate-to-vigorous physical activity (MVPA) in 1-min bouts (defined as time accumulated in 1-min bouts above an acceleration of 100 mg), average acceleration in mg (a proxy for total physical activity), and the average acceleration of the most active continuous 10-min bouts of physical activity (M10 CONT ).

Statistical analyses
Generalized linear models assessed whether physical activity metrics were associated with HbA1c across medication categories.All models included, as independent variables, age, sex, ethnicity, deprivation, duration of T2DM, number of days the accelerometer was worn, and number of diabetes medications (not including metformin).In the first instance, interaction terms were entered simultaneously into the same model to investigate whether the effect of physical activity metrics (measured continuously) on HbA1c was modified by medication category (prescribed metformin and/or statins, not prescribed).In order to aid interpretability, significant interactions were then stratified into the following groups using median splits: 1 = low physical activity, no prescribed medication (reference) 2 = high physical activity, no prescribed medication, 3 = low physical activity, statins and/or metformin prescribed, 4 = high physical activity, statins and/or metformin prescribed) and presented as estimated marginal means.We also mutually adjusted intensity and volume metrics (MVPA and total physical activity, respectively) for one another.Given the divergent mechanisms of action between metformin and statins, we also ran a sensitivity analysis to examine the associations between physical behavior metrics and HbA1c when stratified into the following groups: prescribed neither metformin or statin therapy; prescribed metformin, not statins; prescribed statins, not metformin; and prescribed both statins and metformin.All data were analyzed using SPSS (version 26.0).p values of <.05 and <0.1 (for interactions) were considered statistically significant.
Significant interactions were observed for MVPA (p = .020),total physical activity ( p = .069),and M10 CONT ( p = .052)with HbA1c (measured continuously) but not for light activity or sedentary time.
After mutual adjustment for physical activity intensity (MVPA) and volume (total physical activity), the overall pattern was unaffected for intensity.Conversely, the association between volume and HbA1c was attenuated after adjustment for intensity (Figure 1).
The results of the sensitivity analysis demonstrated that the associations between physical activity metrics (per SD) and HbA1c (presented in Figure 2 as differences) were consistent across specific medication categories (prescribed metformin, prescribed statins, prescribed both).

COMMENT
Our analysis indicates a potential blunting effect of metformin and/or statin therapy on physical activity-induced associations with HbA1c.Only those individuals in the higher physical activity category, who were not taking medication, displayed lower HbA1c levels compared to the low physical activity, no medication group.Importantly, these findings were independent of key confounders (eg, duration of T2DM, number of other T2DM medications and deprivation).Moreover, total physical activity volume was not associated with HbA1c after adjustment for MVPA, further highlighting the potential importance of movement intensity (vs volume).
Despite the increased interest around the potential interaction between metformin, statins, and physical activity/exercise, the limited evidence is conflicting. 7,8etformin has previously been shown to attenuate exercise-induced improvements in cardiometabolic risk markers and peripheral insulin sensitivity, 2,3,9,10 potentially driven by a juxtaposition of exercise and metformin, F I G U R E 1 The effect of physical activity metrics on HbA1c, when stratified into medication and physical activity categories.HbA1c, glycated hemoglobin; MVPA, moderate-to-vigorous physical activity; M10 CONT , minimum acceleration for the most continuous active 10 min.
at the level of the mitochondria.For example, a typical physiological response to meet the energy demands of exercise involves increasing biogenesis and mitochondrial respiration at the site of skeletal muscle.However, when combined with metformin treatment the outcomes are less pronounced (albeit with significant heterogeneity), which may be driven by the inhibition of mitochondrial respiration. 11Similarly, statins have been shown to prevent the exercise-induced increase in mitochondrial content in skeletal muscle. 12Our study adds to this emerging body of evidence by suggesting that statin and/or metformin therapy could also blunt the associations between habitual physical activity levels and HbA1c, as an extension to the evidence for exercise training.
The cross-sectional design limits inference about the direction of causality; as such, reverse causality remains a possibility.We have also analyzed these data as if all medication is the same irrespective of dose and did not directly measure medication compliance.Moreover, wrist-worn accelerometers may lead to an underestimation of physical activity, particularly when lower-body movement occurs without simultaneous upper-body movement (eg, cycling).
Although we included a subgroup of individuals who were not prescribed metformin and/or statins, physical activity is rarely prescribed in isolation of other background medications used to manage T2DM.Therefore, the results of this analysis need to be replicated and investigated further in order to help guide clinical practice.
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