Intertrochanteric Femur Fracture Patients Who Receive Metformin With a Placebo

This study team investigates a patient population that undergoes muscle atrophy and falls under the current IND indication of metformin usage to prevent muscle atrophy and enhance muscle growth. The investigators are now proposing to utilize metformin as a novel tool to enhance muscle recovery following a hip fracture in older adults. The investigators currently preparing an IRB protocol in which we plan to perform a pilot study where older adult hip fracture patients are randomized to metformin or placebo. The investigators propose to use metformin to help enhance muscle recovery outcomes in this experimental study design since there are no effective methods to maximize muscle regrowth in older adults following hip fracture.

Hip fracture is a common and costly injury for hundreds of thousands of U.S. older adults every year resulting in devastating health consequences for many. Muscle atrophy is evident at 1 month post-surgery and commonly persists at least 2-6 months afterwards. This is alarming considering that many are considered sarcopenic leaving little muscle reserve to spare to maintain physical function in this population. Consequently, many are not likely to return to pre-fracture functional level one year after fracture. Rehabilitation strategies following hip fracture has remained largely unchanged over the past several decades, suggesting that older adults recovering from hip fracture could benefit from new, innovative approaches that target muscle mass and function.

Local inflammation has received considerable attention as an underlying mechanism contributing to a decline in skeletal muscle health of older adults with physical function deficits. Skeletal muscle inflammation is heightened in older adults and further in older adults who are inactive. Therefore, it is not surprising that the severe physical trauma and associated physical inactivity that accompanies recovery from hip fracture surgery is characterized by a robust muscle inflammatory response as numerous investigators have previously noted. Though inflammation is clearly important for proper muscle regeneration, hyper- and prolonged inflammation can lead to atrophy possibly interfering with muscle and functional recovery in older adults after hip fracture. Indeed, senescent cells, defined as a state of cell-cycle arrest, are a source of inflammation and accumulate in muscle tissue during injury thereby impairing tissue function. Aging further heightens the accumulation of senescent cells due to poor removal by immune cells given that the immune system declines with age.

Metformin has gained attention for exerting pleiotropic effects targeting key hallmarks of aging. However, the role of metformin on regulating muscle cell size and function in patients following hip fracture is unknown. Metformin has recently been shown to lessen cellular senescence burden in a variety of cell and tissue types in experimental cell culture and rodent models. Metformin may preserve muscle mass by activating AMPKα thereby limiting skeletal muscle inflammation through pro-inflammatory pathways such as NFκB and TLR4 signaling. In prior rodent studies, metformin has shown to attenuate muscle atrophy, muscle proteolysis, and fibrosis during muscle wasting conditions. Moreover, metformin has been shown to increase satellite cell proliferation and improve muscle regeneration following burn injury in mice and reduce muscle fibrosis induced by knee joint immobilization in rat. Importantly, we have recently shown that a clinical dose of metformin given to older adults on bed rest was a safe and effective strategy to improve muscle recovery by reducing tissue fibrosis and muscle inflammation and senescent cell accumulation suggesting that such an approach may likewise show promising outcomes in patients recovering from hip fracture surgery.