Abigail Mackey

Abigail Mackey

Clinical Professor

Current research

Skeletal muscle produces the forces required for movement of the human body. To perform this function, each muscle fibre is dependent on neural input to inititate contraction, and a strong attachment to the skeleton for force transmission. The overall aim of our group is to understand how these two components of physical function are affected during the ageing process, and how physical activity can help to slow some of the decline.

Muscle fiber denervation

Muscle fibres depend on neural input from a motoneurone, not only for contraction but also for survival. A loss of neural input therefore leads to a loss of muscle fibres and is a major contributor to functional decline with ageing. We study the muscle-nerve communication and how exercise maintains this to preserve physical function in old age.

Repair of injured human skeletal muscle

The point of attachment of the muscle fibre to the skeleton is the myotendinous junction. Despite a specialised morphology and molecular composition, the MTJ is also a frequent site of strain injury. We study the human MTJ in the intact and injured states to understand its molecular makeup compared to neighbouring muscle and tendon. 

Selected publications

  1. Published

    Fusion of myofibre branches is a physiological feature of healthy human skeletal muscle regeneration

    Højfeldt, Grith Stougaard, Sorenson, T., Gonzales, A., Kjær, Michael, Andersen, J. L. & Mackey, Abigail, 12 Aug 2023, In: Skeletal Muscle. 13, 1, p. 1-14 13.

    Research output: Contribution to journalJournal articlepeer-review

  2. Published

    Distinct myofibre domains of the human myotendinous junction revealed by single-nucleus RNA sequencing

    Karlsen, Anders, Yeung, Ching-Yan Chloé, Schjerling, Peter, Denz, L., Høgsbjerg, Christian, Jakobsen, J. R., Krogsgaard, Michael R., Koch, M., Schiaffino, S., Kjær, Michael & Mackey, Abigail, 2023, In: Journal of Cell Science. 136, 8, 14 p., jcs260913.

    Research output: Contribution to journalJournal articlepeer-review

ID: 920363