Functional electrical stimulation (FES) Cycling is a well-researched modality with long-term benefits for those recovering from a spinal cord injury. Users can actively exercise the large muscles of the legs despite paralysis.[1][2]. Although there are some contraindications, it is a safe and effective technique for many and is used by hundreds of our clients who use these systems at home. After some 18 years of experience in the UK, we still find that this is a well-accepted and popular technique, with adoption primarily limited by the cost of the systems.

With the introduction of the new Stim2Go stimulator from Pajunk at the core of our UK FES bike offering, we’re unlocking exciting new possibilities thanks to its innovative and promising features.

In other articles, we have commented on particular features and benefits of the Stim2Go, including its ability to turn any passive-active bike into an FES cycling system. In this article, we're primarily focusing on applying tSCS within Stim2Go.

Home-based functional electrical stimulation (hbFES) is revolutionizing the treatment of complete lower motor neuron denervation injuries. Once considered an inevitable path to muscle deterioration, new research and clinical evidence show that properly timed and calibrated electrical stimulation can not only preserve muscle tissue but actually promote structural recovery. At Anatomical Concepts, we work with the RISE Stimulator from Schuhfried Medizintechnik GmbH, enabling clients to take control of their rehabilitation journey from home. This innovative approach has demonstrated remarkable results, including significant increases in muscle cross-sectional area and force output, challenging long-held assumptions about the irreversibility of denervation effects.

Curious about the science behind neuromuscular electrical stimulation (NMES) in rehabilitation? In our latest article, we dive deep into how this established yet evolving technology effectively strengthens skeletal muscles.

From optimal stimulation parameters to clinical applications, discover why the "art" of electrical stimulation goes far beyond simply making muscles contract. Drawing from recent research and clinical evidence, we explore the mechanisms, effectiveness, and practical considerations for healthcare professionals working with neurological injuries and various rehabilitation scenarios.

Whether you're a clinician, researcher, or rehabilitation specialist, this comprehensive review offers valuable insights into maximizing NMES outcomes for patient care.

At Anatomical Concepts, we look to other fields for insight and inspiration that we can bring to rehabilitation. For example, elite athletes like our rehabiliation clients will set training goals, undergo rigorous physical training and adhere to strict plans to achieve peak performance. This article explores the potential benefits of applying the principles of elite athlete training to help individuals recover from neurological conditions.

Pressure ulcers are a significant problem in the UK, particularly for bedridden patients or those with limited mobility. They occur in up to 23% of patients in acute care facilities and up to 33% of patients in long-term care facilities. At Anatomical Concepts, we are particularly interested in heel pressure ulcers, accounting for approximately 25% of all ulcers.

To prevent these ulcers, we should know the risk factors which are partly "mechanical" and partly "medical". We discuss the major ones and notice how these factors can overlap. We finish by looking at how the PRAFO range of orthoses can help

This article explores the role of electrical stimulation in the recovery of denervated muscles, detailing its mechanisms, clinical guidelines, and home-based applications. It highlights recent research, current limitations, and future directions, offering insights for medical professionals and patients.