Mirror therapy or mirror visual feedback is a therapy for pain or disability that affects one side of the patient more than the other side. It was invented by Vilayanur S. Ramachandran to treat post-amputation patients who suffered from phantom-limb pain. Ramachandran created a visual illusion of two intact limbs by putting the patient's intact limb into a "mirror box," with a mirror down the center. The patient then looks into the mirror on the side with the good limb and makes "mirror symmetric" movements, as a symphony conductor might, or as a person does when they clap their hands. The goal is for the patient to imagine regaining control over a missing limb. Because the subject is seeing the reflected image of the good limb moving, it appears as if the phantom limb is also moving. Through the use of this artificial visual feedback it becomes possible for the patient to "move" the phantom limb, and to unclench it from potentially painful positions. Mirror therapy has expanded beyond its origin in treating phantom limb pain to treatment of other kinds of one-sided pain or disability, for instance hemiparesis in post-stroke patients and limb pain in patients with chronic regional pain syndrome.
Post-amputation phantom limb pain
Based on the observation that phantom limb patients were much more likely to report paralyzed and painful phantoms if the actual limb had been paralyzed prior to amputation, Ramachandran and Rogers-Ramachandran proposed the "learned paralysis" hypothesis of painful phantom limbs Their hypothesis was that every time the patient attempted to move the paralyzed limb, they received sensory feedback that the limb did not move. This feedback stamped itself into the brain circuitry through a process of Hebbian learning, so that, even when the limb was no longer present, the brain had learned that the limb was paralyzed. Ramachandran created the mirror box to relieve pain by helping an amputee imagine motor control over a missing limb. Mirror therapy is now also widely used for treatment of motor disorders such as hemiplegia or cerebral palsy. As Deconick et al. state in a 2014 review, the mechanism of improved motor control and pain relief may differ from the mechanism of pain relief. Deconick et al., who reviewed only the effects of MVF on sensorimotor control, found that MVF can exert a strong influence on the motor network, mainly through increased cognitive penetration in action control. Although there has been much research on MVT, authors of many review articles complain about the poor methodology often used, for example, small sample sizes or lack of control groups. For this reason, one 2016 review concluded that the level of evidence was insufficient to recommend MT as a first intention treatment for phantom limb pain. A 2018 review, also criticized the quality of many reports on mirror therapy, but concluded that "MT seems to be effective in relieving PLP, reducing the intensity and duration of daily pain episodes. It is a valid, simple, and inexpensive treatment for PLP." A 2018 literature review of phantom limb pain stated that, in randomized controlled trials, mirror therapy reduced pain.
Post-stroke hemiparesis
Treatment with mirror therapy soon expanded beyond its origin in treating phantom limb pain to treatment of other kinds of one-sided pain and loss of motor control, for example in stroke patients suffering from hemiparesis. In 1999 Ramachandran and Eric Altschuler expanded the mirror technique from amputees to improving the muscle control of stroke patients with weakened limbs. A review article published in 2016 concluded that "Mirror therapy is a valuable method for enhancing motor recovery in poststroke hemiparesis." According to a 2017 review of fifteen studies that compared mirror therapy to conventional rehabilitation for the recovery of upper-limb function in stroke survivors, mirror therapy was more successful than CR in promoting recovery. A 2018 review based on 1685 patients recovering from hemiplegic stroke found mirror therapy provided significant pain relief, while improving motor functions and activities of daily living. Thirteen out of seventeen randomized controlled trials found that MT was beneficial for post-stroke patients' legs and feet, according to a 2019 review paper. Despite considerable research, as of 2016 the underlying neural mechanisms of mirror therapy for stroke were still unclear. As Deconick et al. state in a 2014 review, the mechanism of improved motor control may differ from the mechanism of pain relief.
Since the 2000s, the visual illusion of regaining control of a damaged limb, which mirror therapy provides, has also been available through virtual reality or robotics.