The behavior-analytic origins of constraint-induced movement therapy: an example of behavioral neurorehabilitation.

Constraint-induced movement therapy after stroke. Lancet Neurol (2015) 1.09

Closed-loop brain training: the science of neurofeedback. Nat Rev Neurosci (2016) 0.90

Dose and timing in neurorehabilitation: prescribing motor therapy after stroke. Curr Opin Neurol (2015) 0.87

Functional testing in animal models of spinal cord injury: not as straight forward as one would think. Front Integr Neurosci (2013) 0.83

Implications of CI therapy for visual deficit training. Front Integr Neurosci (2014) 0.81

Web-based cognitive training: patient adherence and intensity of treatment in an outpatient memory clinic. J Med Internet Res (2014) 0.80

Effect of forced use of the lower extremity on gait performance and mobility of post-acute stroke patients. J Phys Ther Sci (2015) 0.79

Editorial. Behav Anal (2013) 0.75

Introduction to "the behavior-analytic origins of constraint-induced movement therapy: an example of behavioral neurorehabilitation". Behav Anal (2012) 0.75

Right hemisphere structural adaptation and changing language skills years after left hemisphere stroke. Brain (2017) 0.75

Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. JAMA (2006) 9.55

Navigation-related structural change in the hippocampi of taxi drivers. Proc Natl Acad Sci U S A (2000) 8.17

Neuroplasticity: changes in grey matter induced by training. Nature (2004) 7.35

Neural substrates for the effects of rehabilitative training on motor recovery after ischemic infarct. Science (1996) 5.57

Increased cortical representation of the fingers of the left hand in string players. Science (1995) 4.25

Treatment-induced cortical reorganization after stroke in humans. Stroke (2000) 3.83

Constraint-Induced Movement Therapy: a new family of techniques with broad application to physical rehabilitation--a clinical review. J Rehabil Res Dev (1999) 3.67

Intensity of aphasia therapy, impact on recovery. Stroke (2003) 3.63

Technique to improve chronic motor deficit after stroke. Arch Phys Med Rehabil (1993) 3.50

Phantom-limb pain as a perceptual correlate of cortical reorganization following arm amputation. Nature (1995) 3.44

Topographic reorganization of somatosensory cortical areas 3b and 1 in adult monkeys following restricted deafferentation. Neuroscience (1983) 3.30

Functional reorganization of primary somatosensory cortex in adult owl monkeys after behaviorally controlled tactile stimulation. J Neurophysiol (1990) 3.18

Constraint-induced therapy of chronic aphasia after stroke. Stroke (2001) 2.59

The Motor Activity Log-28: assessing daily use of the hemiparetic arm after stroke. Neurology (2006) 2.29

The learned nonuse phenomenon: implications for rehabilitation. Eura Medicophys (2006) 2.11

Reliability and validity of the upper-extremity Motor Activity Log-14 for measuring real-world arm use. Stroke (2005) 2.04

A placebo-controlled trial of constraint-induced movement therapy for upper extremity after stroke. Stroke (2006) 2.03

Remodeling the brain: plastic structural brain changes produced by different motor therapies after stroke. Stroke (2008) 1.99

An operant approach to rehabilitation medicine: overcoming learned nonuse by shaping. J Exp Anal Behav (1994) 1.96

Constraint-induced therapy in stroke: magnetic-stimulation motor maps and cerebral activation. Neurorehabil Neural Repair (2003) 1.83

Constraint-induced movement therapy for motor recovery in chronic stroke patients. Arch Phys Med Rehabil (1999) 1.78

Constraint-induced movement therapy for focal hand dystonia in musicians. Lancet (1999) 1.69

Efficacy of constraint-induced movement therapy for children with cerebral palsy with asymmetric motor impairment. Pediatrics (2004) 1.62

A pilot study of use-dependent learning in the context of Constraint Induced Language Therapy. J Int Neuropsychol Soc (2006) 1.43

Sensory factors in purposive movement. J Neurophysiol (1954) 1.40

Longer versus shorter daily constraint-induced movement therapy of chronic hemiparesis: an exploratory study. Arch Phys Med Rehabil (2002) 1.40

Decrease of thalamic gray matter following limb amputation. Neuroimage (2006) 1.38

Effects of constraint-induced movement therapy on patients with chronic motor deficits after stroke: a replication. Stroke (1999) 1.36

Behavior systems and reinforcement: an integrative approach. J Exp Anal Behav (1993) 1.25

Sensory motor retuning: a behavioral treatment for focal hand dystonia of pianists and guitarists. Arch Phys Med Rehabil (2002) 1.25

Constraint-induced movement therapy and rehabilitation exercises lessen motor deficits and volume of brain injury after striatal hemorrhagic stroke in rats. Stroke (2003) 1.22

Intensive language training enhances brain plasticity in chronic aphasia. BMC Biol (2004) 1.22

Plasticity in the motor system related to therapy-induced improvement of movement after stroke. Neuroreport (1999) 1.20

Pediatric CI therapy for stroke-induced hemiparesis in young children. Dev Neurorehabil (2007) 1.17

Movements in monkeys with deafferented forelimbs. Exp Neurol (1963) 1.14

Movement in nonhuman primates deprived of somatosensory feedback. Exerc Sport Sci Rev (1976) 1.14

Translational research in aphasia: from neuroscience to neurorehabilitation. J Speech Lang Hear Res (2008) 1.13

Distributed form of constraint-induced movement therapy improves functional outcome and quality of life after stroke. Arch Phys Med Rehabil (2005) 1.12

Extending the Constraint-Induced Movement Therapy (CIMT) approach to cognitive functions: Constraint-Induced Aphasia Therapy (CIAT) of chronic aphasia. NeuroRehabilitation (2007) 1.10

Contribution of the shaping and restraint components of Constraint-Induced Movement therapy to treatment outcome. NeuroRehabilitation (2006) 1.04

AVOIDANCE CONDITIONING IN THE ABSENCE OF RELEVANT PROPRIOCEPTIVE AND EXTEROCEPTIVE FEEDBACK. J Comp Physiol Psychol (1963) 0.99

Constraint-Induced Movement therapy can improve hemiparetic progressive multiple sclerosis. Preliminary findings. Mult Scler (2008) 0.96

Deafferentation in monkeys: effect on conditioned grasp response. Science (1966) 0.96

Deafferentation in monkeys: pointing at a target without visual feedback. Exp Neurol (1975) 0.95

Treatment of congenital hemiparesis with pediatric constraint-induced movement therapy. J Child Neurol (2011) 0.93

Decrease in phantom limb pain associated with prosthesis-induced increased use of an amputation stump in humans. Neurosci Lett (1999) 0.92

Alertness, level of activity, and purposive movement following somatosensory deafferentation in monkeys. Ann N Y Acad Sci (1977) 0.91

Comparison of the performance of deafferented and intact monkeys on continuous and fixed ration schedules of reinforcement. Exp Neurol (1978) 0.87

Diminution of early environmental control through perinatal and prenatal somatosensory deafferentation. Biol Psychiatry (1975) 0.85

Inactivation of voluntary motor function following rhizotomy. J Neuropathol Exp Neurol (1953) 0.85

Behavioral development after forelimb deafferentation on day of birth in monkeys with and without blinding. Science (1973) 0.83

Behavioral and neuronal changes during treatment of mixed transcortical aphasia: a case study. Cognition (1993) 0.82

Constraint-induced movement therapy. Arch Phys Med Rehabil (1999) 0.78

Conditioned response following deafferentation in the monkey. Trans Am Neurol Assoc (1959) 0.78