Prediction of outcome after rectus femoris surgery in cerebral palsy: the role of cocontraction of the rectus femoris and vastus lateralis

Rectus femoris surgery was performed on 70 patients with cerebral palsy and stiff-knee gait. Fifty-three patients underwent distal rectus transfer, and 17 patients had distal rectus release with complete muscle mobilization. Gait analysis was performed preoperatively and postoperatively at a minimum of 1 year. Swing-phase peak knee flexion (PKF) was improved in the transfer group, allowing improved foot clearance and more efficient gait (p = 0.04). PKF in swing deteriorated slightly in the release group (p = 0.04). The presence of abnormal swing-phase electromyogram (EMG) activity in the rectus alone or abnormal combined rectus and vastus lateralis activity did not influence the PKF results in either surgery (p < 0.05). The Ely test had no predictive value in identifying patients with abnormal EMG activity (p > 0.05). Preoperative knee range of motion was not a significant variable in determining relative success of rectus surgery. No deleterious effects were observed in stance phase in either group (p > 0.05).

Anatomical and technical considerations in surface electromyography

Despite the technical and clinical limitations of surface EMG, it is essential in the physical medicine and rehabilitation field. Surface EMG has evolved from a secondary means of clinical assessment to a primary factor in determining and predicting clinical outcomes. Computer models of electrical muscular activity are currently implemented to assist in designing proper instrumentation and electrode with optimum dimensions. These models could be expanded to simulate pathological motor functions to help understand functional abnormalities even before clinical interventions. Currently, several groups all over the world are investigating the use of multichannel surface EMG. This technological advancement would have an immediate impact on several medical fields. For instance, tendon transfers are performed to improve function in peripheral nerve injury, brachial plexus lesion, spinal cord injury, and cerebral palsy. There are potential uses for multichannel surface EMG, both preoperatively and postoperatively. Preoperatively choosing the muscle for transfer has been largely based on clinical grounds. Multichannel surface EMG could give a more objective database to assess prognosis and determine which muscle to transfer. Postoperatively, multichannel surface EMG can provide a systematic way of assessing changes in gross muscle topography caused by the tendon transfer. Other applications of multichannel surface EMG would be for bony and soft tissue deformity from arthritis, heterotopic ossification, amputation, or burns. Multichannel surface EMG would allow clinicians to get a broader picture of the skeletal muscle activity despite the fact that it is physically impossible for the patient to assume the anatomic position used for traditional isolated electrode placement. Individuals with physical disabilities that affect their ability to assume the usual posture for electrophysiologic testing may benefit considerably from development of multichannel electrophysiologic testing. Patients with abnormalities of tone from various causes such as stroke, traumatic brain injury, and cerebral palsy are at times evaluated with kinesiologic EMG to assess motor control. Multichannel surface EMG could potentially give us much greater insight into motor control disorders.

Effect of hamstring and psoas lengthening on pelvic tilt in patients with spastic diplegic cerebral palsy

The purpose of this study was to evaluate the effects of hamstring lengthenings and psoas recessions over the brim of the pelvis (OTB) on pelvic function in the gait of patients with spastic cerebral palsy. Seventy-three patients were divided into four groups based on surgical intervention: medial hamstrings (n = 37), medial and lateral hamstrings (n = 12), medial hamstrings with psoas OTB (n = 9), and medial and lateral hamstrings with psoas OTB (n = 15). Three-dimensional gait analysis was completed both before and approximately 1 year after surgery. When pelvic position in gait was normal or posterior of normal preoperatively, there was a significant increase in pelvic tilt (p < 0.05) when medial and lateral hamstrings were lengthened, irrespective of simultaneous psoas OTB surgery. Medial hamstrings alone, with or without simultaneous psoas OTB, did not result in a significant change in pelvic position, irrespective of preoperative pelvic position. The only surgical combination that caused a reduction in excessive preoperative anterior pelvic tilt was medial and lateral hamstrings with psoas OTB, a 4 degrees change of limited clinical significance. In general, psoas and medial hamstring surgery have minimal effect on the pelvic position during gait. Medial and lateral hamstring lengthening will increase pelvic tilt if preoperative pelvic position is normal or slightly posteriorly tilted. The results of this study suggest that the fundamental determinants of pelvic position during gait postoperatively are the extent of hamstring surgery (medial only vs. both medial and lateral hamstring lengthening) and the preoperative position of the pelvis.

Division of C8 nerve root for treatment of spastic cerebral palsy in the upper limbs: a preliminary report

OBJECTIVE

To investigate the effect of C8 nerve root division on the treatment of spastic cerebral palsy in the upper limbs.

METHODS

Two patients were treated with division of the C8 never root. Supraclavicular incision was made to expose the C5-T1 nerve roots. The intraoperative electromyographic recording technique was used to monitor the responses from the flexor digitorum and flexor carpi ulnaris muscle groups simultaneously. The C5-T1 nerve roots were stimulated and the evoked muscle amplitude potentials (EMAP) were recorded from the muscle groups. The EMAP of the muscle groups obtained during electrical stimulation of the C8 nerve root was the largest, which was used as the basis for C8 nerve root division.

RESULTS

Division of the C8 nerve root slightly affected the function of the upper limb, and reduced the muscle tone of the flexor wrist and digitorum.

CONCLUSION

Division of the C8 nerve root can reduce the muscle tone of the flexor wrist and digitorum in a short time. The long-term effects need to be followed up further.

Upper extremity performance and self-care skill changes in children with spastic cerebral palsy following selective posterior rhizotomy

Changes in upper extremity and self-care performance following selective posterior rhizotomy (SPR) are reported frequently, but rarely quantified. In this study, 36 children with spastic cerebral palsy were assessed preoperatively and 1 year following SPR using the Quality of Upper Extremity Skills Test (QUEST). Twenty-six children were assessed at similar intervals using the Functional Independence Measure for Children (WeeFIM) as a measure of self-care performance. Wilcoxon matched-pair signed-rank tests were used to compare the QUEST total scores and the WeeFIM motor, cognitive, and total scores before and after SPR. One year after SPR, the total QUEST scores were significantly better (median improvement = 3.2%, p < 0.0001), as were the WeeFIM motor (median improvement = 9.5, p < 0. 0001), cognitive (median improvement = 1.0, p < 0.008), and total (median improvement = 11.0, p < 0.0001) scores. The results indicate quantifiable improvements in upper extremity function, and motor and cognitive self-care skills in children 1 year after SPR.

Hand function in children with cerebral palsy after upper-limb tendon transfer and muscle release

Thirty-two children with hand dysfunction due to cerebral palsy were examined before tendon transfer and muscle release, and 9 months postoperatively. All children improved their performance regardless of the degree of impaired hand function. The main advantage of surgery was a more functional position of the hand with increased wrist extension and forearm supination. There were also increased functionality of handgrips, grip strength, and dexterity. Impaired sensibility before surgery did not influence the outcome. Individual goals were set preoperatively. Individual functional goals outlined before surgery were met by most children. Children identified as having mild impairments gained new functional skills related to everyday activity (self-care and leisure), while children with severely impaired hand function demonstrated enhanced grasping ability, as well as a better cosmetic appearance.

Microsurgical selective peripheral neurotomy in the treatment of spasticity in cerebral-palsy children

Spasticity represents the most handicapping sequelae of cerebral palsy in children. In this study, 28 children with spastic cerebral palsy were treated over the last 4 years by microsurgical selective peripheral neurotomy: 28 times the posterior tibial nerve for spastic foot deformity, 3 times the ulnar and median nerves for spastic flexion of wrist and fingers, 2 times the sciatic nerve for spastic knee flexion associated with spastic foot deformity and 3 times obturator nerves for spastic adductors. Results on spasticity with follow-up ranging from 3 to 48 months were as follows: spastic foot deformity was corrected in all patients with pure spasticity, 2 out of the 3 children with ulnar and median neurotomy improved, knee flexion and hip adduction were improved in the other 5 patients. Selective peripheral neurotomy is an effective procedure in the treatment of segmental harmful spasticity after failure of a well-conducted conservative treatment associating physiotherapy and antispasmodic medications. It must be performed before the fixed deformities and other orthopedic complications arise.

Selective dorsal rhizotomy in children with cerebral palsy. Results in 18 cases at one year postoperatively

OBJECTIVE

Effects of selective dorsal rhizotomy (SDR) were studied in children with spastic cerebral palsy in orthopaedic and functional fields.

METHODS

In a prospective study, we compared the same population before SDR and 1 year after SDR. This population included children with spastic cerebral palsy, when spasticity was responsible for a halt in the motor skill acquisitions or for orthopaedic complications. All the children had intensive physiotherapy for 6 months postoperatively. We observed spasticity by a 4-point scale, isolation of movement by a 3-point scale, and orthopaedic status by the measure of range of motion, hip migration on the radiography, and function by Gross Motor Function Measure (GMFM) and Abbott scale. All the assessments were done by the same physiotherapist. We compared the results with a Wilcoxon statistic test.

RESULTS

18 quadriplegic children had spastic cerebral palsy; their mean age was 9 years (5.5-16.5 years). We observed a decrease in spasticity in all the muscular groups; increase in range of motion only on abduction and extension of the hips; no evolution of hip migration; an increase of 3.2% in the total GMFM score; 1 child was classified IV before SDR and V after SDR on the Abbott scale; 3 children had planned orthopaedic surgery in the year after SDR; 16 children and their families were highly satisfied with the result of the surgery.

CONCLUSIONS

The decrease in spasticity does not entail prevention of orthopaedic problems in children with quadriplegic spastic cerebral palsy. However, we observed an improvement in qualitative function that is outside the scope of current assessment scales.

Somatosensory evoked potentials following functional posterior rhizotomy in spastic children

Ten children with cerebral palsy and severe lower limb spasticity were treated by functional posterior rhizotomy (FPR). Somatosensory evoked potential recordings were performed preoperatively, intraoperatively (directly on the surface of the spinal cord) and 6 months after surgery, to evaluate the effects of FPR on lower limb somatosensory function. Before surgery, 7/10 patients showed abnormal cortical responses after tibial stimulation. In all patients, intraoperative recordings showed a reduction in the amplitude of segmental responses (N22) (50 +/- 25% of reference value) after the section of a mean 50% of L2-S2 dorsal rootlets. The modifications of segmental responses (N22) were maintained 6 months after surgery, whereas reduction of cortical responses (P39) did not reach the significance level when compared with preoperative recordings.

MRI-guided stereotactic thalamotomy for cerebral palsy patients with mixed dyskinesia

The author has performed 108 stereotactic thalamotomies using MRI (MGSTs) without ventriculography in 77 cerebral palsy (CP) patients with dyskinesia(s) from January 1992 to January 1997. The clinical results were verified in terms of improvement of major preoperative symptom and patient's (or relative's) satisfaction using pre- and postoperative video recording and simple questionnaires. The results were as follows: excellent in 12 MGSTs, good in 69 and fair in 27. Postoperative morbidity was transient in all patients except for 2. Recurrences were noted in 6 MGSTs (5.6%). There was no death. MGST is thus a beneficial procedure for reducing dyskinetic symptom(s) of CP patients.

[Stereotaxy during intravenous anesthesia with propofol]

A series of 30 patients, who underwent stereotactic surgery for movement disorder under intravenous propofol anesthesia between March, 1995 and December, 1997, was retrospectively reviewed. In 28 patients with Parkinson's disease including seven juvenile cases of parkinsonism, the postoperative motor and ADL scores on the Unified Parkinson's Disease Rating Scale significantly improved. In the other two patients, one of whom had severe posttraumatic tremor and the other had cerebral palsy, the stereotactic surgery produced considerable alleviation of their symptoms. We evaluated and discussed the usefulness of intravenous propofol anesthesia in stereotaxy. Except for one patient who had an allergic reaction against propofol, none of the patients complained of intraoperative pain postoperatively. Wake-up tests were performed to record neural noise levels in 26 cases. This recording was performed under propofol anesthesia in two cases with advanced Parkinson's disease and one with cerebral palsy. In these patients, neural noise levels were recorded and were useful for identifying the target. Although the tremor disappeared under propofol anesthesia in 17 patients presenting with moderate or severe tremor, it was presented again after discontinuation of propofol. Wake-up test, therefore, made a good evaluation of Vim thalamotomy for tremor. In juvenile parkinsonian patients, three presented with dopa-induced dyskinesia (DID) during propofol infusion. In two of them, the DID emerged immediately after posteroventral pallidotomy and continued 4 or 10 hours after stereotaxy. These findings suggest that propofol possibly has an anti-parkinsonian effect. Intravenous propofol anesthesia is a useful method to use with stereotactic surgery for movement disorders.

Neurosurgical intervention for cervical disk disease in dystonic cerebral palsy

We report five young patients with athetoid-spastic cerebral palsy who had deteriorated neurologically. Magnetic resonance imaging (MRI) was used to investigate suspected compressive cervical spine lesion. Cervical spondylosis with disk protrusions was found in all patients. Four patients underwent surgery by an anterior approach with insertion of a bone graft resulting in substantial clinical improvement. The other patient, diagnosed 8 years after onset of symptoms, was treated conservatively. The availability of MRI makes early recognition of cervical cord compression possible, allowing effective surgical intervention in this special group of patients.

Pathologic morphology of the dislocated proximal femur in children with cerebral palsy

We describe the gross and microscopic anatomic changes in the hip that result from the deforming forces in children with neuromuscular imbalance. Twelve dislocated proximal femora that had been resected from children with spastic diplegia or tetraplegia were evaluated with respect to their gross, microscopic, and radiographic structure. The epiphyses were wedge shaped with deformation of the femoral head apparent in all cases. In addition to a severe loss of articular cartilage, a furrowed erosion of epiphyseal bone suggested a sustained, blunt, band-like force across the surface of the hip where it opposed the acetabular labrum. The underlying physis of the capital femur was irregular with aberrant histologic structure, whereas that of the lesser trochanter was hypertrophic and angulated in a superior and anterior direction. A significant degree of valgus was not noticeable in most specimens. In summary, the spastic adductor and iliopsoas, responsible for the changes in the lesser trochanter, work in conjunction with the hip flexor and internal rotator muscles to subluxate the proximal femur. In the process, the superior rim of the acetabulum and capsule causes focal deformation of the superolateral femoral head, creating a fulcrum upon which the hip then progressively subluxates. The indentation locks the femoral head at the lateral acetabular margin, preventing complete dislocation, but leading to bone pain consequent to cartilage erosion.

Surgery of the spastic hand in cerebral palsy. Improvement in stereognosis and hand function after surgery

Thirty-six patients with hemiplegic cerebral palsy had surgical treatment for the upper limb and were followed up for 18 months postoperatively. Various operations were done. A striking finding was a significant improvement of stereognosis (ability to describe and recognize objects without vision). Most patients had improvement in different functional grasps following surgical reconstruction. Range of movement in the forearm and wrist also increased in most patients. The thumb-in-palm deformity was completely corrected in 31 of the patients and improved in the other five. Most patients had some or all of their expectations of the procedure fulfilled.

Intrathecal baclofen infusion and subsequent orthopedic surgery in patients with spastic cerebral palsy

Intrathecal baclofen infusion (IBI) is an effective treatment for spasticity secondary to cerebral palsy (CP).

OBJECT

To assess the need for orthopedic surgery of the lower extremities in such cases, the authors retrospectively reviewed the outcome in 48 patients with spastic CP who were treated with IBI.

METHODS

Pumps were placed in 40 patients (84%) suffering from spastic quadriplegia and eight patients (16%) with spastic diplegia. The patients' ages ranged from 5 to 43 years (mean 15 years). The mean follow-up period was 53 months (range 24-94 months). The mean baclofen dosage was 306 microg/day (range 25-1350 microg/day). At the time of pump placement, subsequent orthopedic surgery was planned in 28 patients (58%); however, only 10 (21%) underwent surgery after IBI therapy. In all 10 cases, the surgical procedure was planned at the time of initial evaluation for IBI therapy. In the remaining 18 patients, who did not subsequently undergo their planned orthopedic operation, it was believed that their lower-extremity spasticity had improved to the degree that intervention was no longer indicated. In addition, although six patients had undergone multiple orthopedic operations before their spasticity was treated, no patient required more than one operation after IBI treatment for spasticity.

CONCLUSIONS

The authors conclude that IBI for treatment of spastic CP reduces the need for subsequent orthopedic surgery for the effects of lower-extremity spasticity. In patients with spastic CP and lower-extremity contractures, spasticity should be treated before orthopedic procedures are performed.

Gait before and 10 years after rhizotomy in children with cerebral palsy spasticity

OBJECT

Selective dorsal rhizotomy is a neurosurgical procedure performed for the relief of spasticity in children with cerebral palsy, but its long-term functional efficacy is still unknown. The authors sought to address this issue by means of an objective, prospective study in which quantitative gait analysis was used.

METHODS

Eleven children with spastic diplegia (mean age at initial surgery 7.8 years) were evaluated preoperatively in 1985 and then at 1, 3, and at least 10 years after surgery. For comparison, 12 age-matched healthy individuals were also studied. Retroreflective targets were placed over the hip, knee, and ankle joints, and each individual's gait was videotaped. The video data were subsequently entered into a computer for extraction and analysis of the gait parameters. An analysis of variance yielded a significant time effect (p < 0.05), and post hoc comparisons revealed differences before and after surgery and with respect to the healthy volunteers. The knee and hip ranges of motion (59 degrees and 44 degrees, respectively, for healthy volunteers) were significantly restricted in children with spastic diplegia prior to surgery (41 degrees and 41 degrees, respectively), but were within normal limits after 10 years (52 degrees and 45 degrees, respectively). The knee and hip midrange values (31 degrees and 3 degrees, respectively, for healthy volunteers), indicative of posture, were significantly elevated preoperatively (42 degrees and 15 degrees) and increased sharply at 1 year (56 degrees and 18 degrees), but by 10 years they had decreased to within normal limits (36 degrees and 9 degrees). Step length and velocity improved postoperatively but were not within the normal range after 10 years. Ten years after surgery these patients not only had increased ranges of motion, but also used that movement at approximately a normal midrange point.

CONCLUSIONS

Selective dorsal rhizotomy is an effective method for alleviating spasticity. Furthermore, the authors provide evidence to show that lasting functional benefits, as measured by improved gait, can also be obtained.

Spasticity and strength changes as a function of selective dorsal rhizotomy

OBJECT

The goal of this investigation was to quantify changes in hamstring muscle spasticity and strength in children with cerebral palsy (CP) as a function of their having undergone a selective dorsal rhizotomy.

METHODS

Nineteen children with CP (CP group) and six children with able bodies (AB group) underwent testing with a dynamometer. For the spasticity measure, the dynamometer measured the resistive torque of the hamstring muscles during passive knee extension at four different speeds. Torque-angle data were processed to calculate the work done by the machine to extend the knee for each speed. Linear regression was used to calculate the slope of the line of best fit for the work-velocity data. The slope simultaneously encompassed three key elements associated with spasticity (velocity, resistance, and stretch) and was considered the measure of spasticity. For the strength test, the dynamometer moved the leg from full knee extension to flexion while a maximum concentric contraction of the hamstring muscles was performed. Torque-angle data were processed to calculate the work done on the machine by the child. Hamstring spasticity values for the CP group were significantly greater than similar values for the AB group prior to surgery; however, they were not significantly different after surgery. Hamstring strength values for the CP group remained significantly less than those for the AB group after surgery, but were significantly increased relative to their presurgery values.

CONCLUSIONS

The results of spasticity testing in the present investigation agreed with those of previous studies, indicating a reduction in spasticity for the CP group. The results of strength testing did not agree with those in the previous literature; a significant increase in strength was observed for the CP group.

Complications after selective posterior rhizotomy for spasticity in children with cerebral palsy

Selective dorsal rhizotomy (SDR) has been shown to be an effective treatment for the spasticity of cerebral palsy, but few studies have addressed specifically the side effects of the procedure. A retrospective study was performed to determine the frequency and nature of complications in 158 children who had undergone SDR at British Columbia's Children's Hospital from 1987 to 1996. Intraoperative, preoperative (immediate postoperative until discharge at approximately 7 days) and postdischarge complications occurred in 3.8, 43.6 and 30% of patients, respectively. The most common intraoperative complication was aspiration pneumonia, which was experienced by 2 patients (1.3%). Perioperatively, sensory changes were found in 8.9% of the children, and transient urinary retention in 4.4%. Complications after discharge included back pain starting more than 6 months after surgery in 10.8%, sensory changes in 13.9%, and neurogenic bladder or bowel problems in 12.7%. Persistent sensory changes occurred in 3.8%, were not important functionally, and tended to occur in patients with the largest amount of dorsal root tissue cut. In 8 patients (5.1%), bladder and/or bowel dysfunction attributed to the SDR was present at the latest follow-up, although in only 2 patients (1.3%) this dysfunction was a definite complication of the rhizotomy. The use of pudendal monitoring and/or cutting less than 50% of the S2 roots may have been associated with a lower incidence of long-term sphincter dysfunction. Data about the nature and frequency of complications may result in further modifications to the SDR procedure, and is critical for counseling about SDR and alternative options available for treatment of the child with spastic cerebral palsy.

Flexor carpi ulnaris tendon transfers in cerebral palsy

Flexor carpi ulnaris tendon transfer to either the extensor carpi radialis longus or extensor carpi radialis brevis has become a standard procedure to improve function in patients with cerebral palsy. In this retrospective study of the procedure, we have compared preoperative and postoperative wrist position, analysed potential outcome predictors and assessed function by objective and subjective measures. Sixteen children, with flexor carpi ulnaris transfer to extensor carpi radialis longus or brevis or extensor digitorum, were tested at an average follow-up of 4 years (range, 1-9). General resting position improved and the centre of the arc of motion averaged 6 degrees pronation and 9 degrees extension. Subjectively, 14 of 16 parents felt there was an improvement in function, 16 of 16 felt that cosmesis was improved, 14 of 16 would recommend the procedure to others, and 15 of 16 were satisfied overall.

Latex hypersensitivity in only one uniovular twin: a case report

We present the clinical case of uniovular twins with cerebral palsy, confirming the development of sensitization to latex in one of the twins, due to the fact that he underwent surgery more times (nine) than his brother (four) as well as his different clinical evolution.

Evaluation of selective dorsal rhizotomy for the reduction of spasticity in cerebral palsy: a randomized controlled tria

Selective dorsal rhizotomy (SDR) is widely used to treat spasticity in children with diplegic cerebral palsy (CP) but has never been shown conclusively to improve functional outcome. The study was designed to measure changes in gross motor function in children 1 year following rhizotomy compared with a control group receiving equivalent physiotherapy (PT) and occupational therapy (OT) with the exception that the rhizotomy group initially underwent a 6-week postoperative in-patient therapy program. Twenty-four children (mean age 58 months) with mild to moderate CP with spastic diplegia were randomly assigned to a therapy-only control group (CG) (N=12) or rhizotomy and therapy group (RG) (N=12). The Gross Motor Function Measure (GMFM) was administered at the baseline, 6-, and 12-month assessments. Extremity tone, range of motion (ROM), biomechanics of the ankle-stretch reflex, isometric contraction, and temporal gait components were also evaluated. GMFM scores in the RG improved by 12.1 percentage points versus 4.4 percentage points in the CG (P<0.02). RG knee and ankle tone was significantly reduced (P<0.005), associated with increased passive ankle ROM (P<0.001), and decreased soleus EMG reflex activity on forced dorsiflexion (P<0.008). Foot-floor contact pattern improved in the RG compared with the CG (P<0.05). In conclusion, SDR combined with PT and OT leads to significantly greater functional motor improvement at 1 year following surgery compared with PT and OT alone. This was achieved in part through reduced knee and ankle tone, increased ankle dorsiflexion ROM, and more normal foot-floor contact during walking.

Electrophysiological monitoring during selective dorsal rhizotomy, and spasticity and GMFM performance

The relation between abnormal electrophysiological responses to intraoperative stimulation during selective dorsal rhizotomy (SDR) and the degree of spasticity and motor dysfunction was explored in 92 children with spastic cerebral palsy (CP) who underwent SDR at a single center. The proportion of abnormally responding rootlets was compared with the degree of spasticity measured with the modified Ashworth Scale (MAS) and with the spasticity measurement system (SMS) at discrete segmental levels. Motor impairment measured with the Gross Motor Function Measure (GMFM) was also compared with the proportion of abnormally responding dorsal rootlets. A consistent relation between the proportion of abnormally responding rootlets and the degree of spasticity and gross motor abnormality at the corresponding muscles could not be demonstrated. There was also no consistent association between the proportion of rootlets ablated during SDR and the change in spasticity measured with the MAS and SMS, or to the change in motor function as measured with the GMFM. These data suggest that the intraoperative monitoring technique most commonly used for SDR is unlikely to identify accurately those neural elements which contribute to spasticity in children with CP.

Selective dorsal rhizotomy: efficacy and safety in an investigator-masked randomized clinical trial

The objective of this single-center investigator-masked randomized clinical trial was to investigate the efficacy and safety of selective dorsal rhizotomy (SDR) in children with spastic diplegia. Forty-three children with spastic diplegia were randomly assigned on an intention-to-treat basis to receive SDR plus physical therapy (PT), or PT alone. Thirty-eight children completed follow-up through 24 months. Twenty-one children received SDR (SDR+PT group) and 17 received PT (PT Only group). SDR was guided with electrophysiological monitoring and performed by one experienced neurosurgeon. All subjects received equivalent PT. Spasticity was quantified with an electromechanical torque measurement device (spasticity measurement system [SMS]). The Gross Motor Function Measure (GMFM) was used to document changes in functional mobility. Primary outcome measures were collected at baseline, 6, 12, and 24 months by evaluators masked to treatment. At 24 months, the SDR+PT group exceeded the PT Only group in mean reduction of spasticity by SMS measurement (-8.2 versus +5.1 newton meters/radian, P=0.02). The SDR+PT group and the PT Only group demonstrated similar improvements in independent mobility on the GMFM (7.0 versus 7.2 total percent score, P=0.94). Outcomes on secondary variables were consistent with primary outcomes. There were no serious adverse events. We conclude that SDR is safe and reduces spasticity in children with spastic diplegia. SDR plus PT and equivalent PT without SDR result in equal improvements in independent mobility at 24 months. SDR may not be an efficacious treatment for children with mild spastic diplegia.