Thanks to its precise unweighting technology, the AlterG Anti-Gravity Treadmill allows you to push your Physiotherapy rehabilitation and performance further than ever before. Reduce gravity’s impact by selecting any weight between 20% and 100% of your body weight by 1% increments Whether rehabilitating or returning from a sports related injury, or simply wishing to train with less stress, you can take your fitness to the next level with the AlterG® Anti-Gravity Treadmill®’s innovative NASA-patented technology. With this revolutionary athlete rehab and fitness treadmill, you can:

  • Push your training sessions further and longer with less risk of injury.
  • Maintain and develop fitness while rehabilitating from injury or surgery.
  • Easily track progress during training and rehabilitation with precise unweighting.
  • Potentially return to competition sooner.



Our bike fitting is state of the art using 6 optical HD infrared (IR) cameras in the ceiling we can analyse every angle we need to with an accuracy of 0.1mm from any position around the room. All relevant points are marked and the software picks up in realtime any movement from the IR High resolution cameras allowing the system to have millimetric accuracy.

Initially our Physiotherapists will do a complete history of your training and goals as well as injuries, followed by a comprehensive anatomical assessment. This lends to a very precise bespoke bike fit, combining the background of a highly qualified Physiotherapist with the absolute precision of the system used.

Every cyclist has a different body shape and injury history and these need to be taken into consideration along with the goal of the bike fit, wether it be to maximise power output, improve ride comfort and injury prevention or all of the above.

The total time of the Bife fit will take approximately 2-3 hours with a full report provided at the end of the session.


Our running analysis has a specific capture volume, therefore the individual performs the tracking on a treadmill. The system is made up of 6 optical HD infrared ceiling cameras, enabling measurements from every position in the room. The software handles the motion-capture process in an efficient and user-friendly way with a very intuitive interface to visualize and analyze the results. Using the system we can analyse in sub-millimetric precision everything we need to regarding your form/technique:

  • Vertical osscialtion
  • Pelvic rotation
  • Pelvic tilt
  • Pelvic lateral deviation
  • Knee and hip joint angles during swing phase and foot strike
  • Foot strike
  • Stride placement/length
  • Arm swing
  • Cadence

We can then put together a report with suggestions based on our findings for yourself or running coach to further improve performance and most importantly limit injury.

Performance Testing

1. Efficiency testing

Running and cycling efficiency is something that is often not considered and very difficult to assess when trying to improve performance. Many studies have shown that you can have multiple athletes with similar VO2 max values however the athlete that will perform best will be more efficient at any given running speed or power output on the bike.

We are able to measure sub maximal oxygen consumption at a given speed/wattage and compare this to normative values but more importantly having a base line for retesting to see if your interventions/training are making you more efficient. We can also give suggestions from the data as to what you may be able to do in order to improve performance.

2. V02 max testing

The term “VO2” is derived from V-volume of O2-oxygen. VO2max is the maximum volume of oxygen that the body can consume during intense, whole-body exercise. As exercise intensity increases so does oxygen consumption. However, a point is reached where exercise intensity can continue to increase without the associated rise in oxygen consumption. The point at which oxygen consumption plateaus defines the VO2 max or an individual’s maximal aerobic capacity. This volume is expressed either as an absolute rate in liters of oxygen per minute (l/min) or as a relative rate in millilitres of oxygen per kilogram of bodyweight per minute (ml/kg/min)

VO2 max testing is routinely done on professional endurance athletes. This metabolic profiling is now more readily available not only to professional and Olympic athletes but to amateur and recreational endurance athletes who may be seeking an option to improve their performance on a more scientific level. With this test we can determine an athlete’s unique metabolic profile which is a body’s precise response to exercise. If an endurance athlete has a comprehensive understanding of their VO2max and how to use this number, the biological changes that occur with incorporating VO2max training in their performance program will in turn help them to obtain peak performance.

Testing procedure

Prior to testing, all baseline measurements including heart rate, resting respiration and blood pressure will be recorded. During the test, the subjects is encouraged to exercise to exhaustion. The workload during the test would increase approximately every minute until maximum exertion is achieved. During the assessment, a small (pinprick) blood sample is taken at regular intervals from either a finger or ear-lobe to test blood lactate concentrations. Essentially, as the athlete progresses to higher intensity during the test, the muscles need an increasing volume of oxygen, a process, which is continued until the supply of oxygen becomes limiting or the ability of the muscle to utilize oxygen is exceeded. At this point, there would be no further increase in oxygen uptake. Again, once an athlete reaches their VO2max, intensity and heart rate response increase without the associated rise in oxygen consumption, but this is not always observed. A two to three minute recovery time is always included to obtain recovery heart rate. All data is recorded continuously throughout the test period and the test can be stopped by the subject at any time for whatever reason.

Data collection

From the data we can calculate your VO2 max and lactate thresholds which will give us a quantitive value of your current aerobic fitness. The lactate threshold will allow us to understand at what point in your heart rate and exertion levels do you start to produce more lactate than you are able to utilise which leads to fatigue. Knowing these values means we can validly guide you as to what physiological values to hover under in order to produce best times. The data produced will also give us tailored heart rate training zones to be used by yourself or your coach. It is often recommended to test at the beginning of the season and then at 2 month intervals to measure training progress.