Certified Neuro-Specialists
General physios don't treat strokes. Our team consists exclusively of advanced therapists trained in NDT, Bobath, and PNF techniques to target brain-body relearning.
Leveraging neuroplasticity and motor relearning for Stroke, Parkinson's, and MS recovery. Our licensed neuro-physiotherapists deliver targeted, research-based physical rehabilitation directly to your home.
Licensed specialists delivering measurable outcomes, not just generic exercises. We track real recovery progress.
Fast, reliable dispatch across the city. We navigate the traffic so your loved ones don't have to endure painful travel.
Consistent home therapy prevents relapses, reduces hospital infection risks, and keeps patients in a stress-free environment.
Essential immediately following post-op surgery, stroke, or sudden mobility loss. We bring the clinic directly to your living room.
Neurological recovery requires more than just exercises; it demands patience, psychological support, and clinical precision. Here is how we ensure safe and measurable progress.
General physios don't treat strokes. Our team consists exclusively of advanced therapists trained in NDT, Bobath, and PNF techniques to target brain-body relearning.
Neurological patients are at the highest risk for falls. We conduct an immediate environmental safety audit of your home to eliminate hazards before therapy begins.
Rehab fails if the patient is agitated. Our therapists are trained in psychological pacing and behavioral de-escalation for patients with cognitive decline.
We don't just move limbs; we rewire the brain. Our protocols use high-repetition, task-specific training to help healthy brain cells take over damaged functions.
You are part of the recovery team. We dedicate session time to actively training family members on safe transfer techniques and avoiding caregiver burnout.
Every phase of recovery—from sitting balance to unsupported walking—is tracked against strict clinical SOPs. We adjust protocols dynamically to prevent plateaus.
Neurological damage resulting from a central nervous system (CNS) event does not have to dictate a permanent loss of independence. At CareMotion, we leverage the scientifically proven principles of Neuroplasticity—the brain's inherent ability to reorganize itself by forming new neural connections throughout life. When disease, trauma, or ischemia damages specific neural pathways, targeted physical therapy can effectively "rewire" the brain, allowing healthy cortical tissue to compensate for damaged areas.
Our evidence-based motor relearning protocols are designed to aggressively combat muscle atrophy, mitigate severe spasticity, and restore precise biomechanical function. Whether you are transitioning from acute hospital care back to your home in Sarsuna, or managing a progressive neuromuscular disorder, early clinical intervention is the single most critical factor in achieving maximum functional recovery and preventing irreversible joint contractures.
Following a Cerebrovascular Accident (CVA), patients often experience hemiplegia (one-sided paralysis) or hemiparesis. Our rapid-response rehabilitation focuses on repetitive, task-oriented training to stimulate cortical reorganization. We treat abnormal synergistic movement patterns, improve core trunk stability, and correct drop-foot gait dysfunctions to restore independent walking.
A progressive basal ganglia disorder characterized by bradykinesia (slowness of movement), resting tremors, and postural instability. We utilize high-amplitude movement therapies (such as LSVT BIG protocols) to recalibrate sensorimotor perception, aggressively combat muscle rigidity, and implement rhythmic auditory cueing to break episodes of "freezing" gait.
As a demyelinating disease, MS presents highly variable symptoms including severe fatigue, ataxia, and loss of proprioception. Our therapy focuses on energy conservation techniques, vestibular rehabilitation to resolve vertigo, and targeted stretching protocols to manage debilitating extensor spasticity without exacerbating core body temperature.
Whether recovering from the acute ascending paralysis of GBS or managing chronic diabetic peripheral neuropathy, our clinicians focus on precise sensory re-education. We employ graded neuromuscular electrical stimulation (NMES), balance compensation strategies, and careful progressive resistive exercises to rebuild strength while protecting repairing nerve sheaths.
Severe trauma requires highly specialized, long-term intervention. For paraplegia and tetraplegia, our goals prioritize wheelchair ergonomics, safe transfer training (bed to chair), respiratory clearance techniques, and the prevention of pressure ulcers. For TBI patients, cognitive-motor dual-tasking is integrated to bridge the gap between physical movement and cognitive processing delays.
Delaying physical therapy allows compensatory, incorrect movement patterns to become permanently wired into the brain. If you observe any of these functional deficits, professional assessment is required:
Directly from our specialized catalog, we offer highly targeted motor-relearning and neuro-rehabilitation services in the comfort of your home in Sarsuna.
Neuroplasticity-driven motor retraining, balance recovery, ADL restoration and gait training after stroke.
Amplitude-based movement training, cueing strategies and gait improvement for rigidity, freezing and balance issues.
Structured movement programs to maintain mobility, reduce agitation and support safe ADLs for cognitive decline.
Energy conservation, spasticity management, balance and mobility programs for demyelinating/neuromuscular disorders.
Gradual strengthening, functional retraining and fatigue management following acute neuromuscular illness.
Balance compensation, sensory retraining, orthotic advice and foot-care education for diabetic/age-related neuropathy.
The central and peripheral nervous systems require highly specialized, evidence-based rehabilitation protocols. Our neuro-physiotherapists in Sarsuna are clinically trained to manage and rehabilitate the following complex neuropathologies directly in your home environment.
A cerebrovascular accident disrupts blood flow to the brain, leading to localized neural death. Our rehabilitation leverages neuroplasticity to train healthy brain regions to take over the functions of the damaged areas.
Task-oriented motor relearning, constraint-induced movement therapy (CIMT), mirror therapy for upper extremity function, and intensive functional gait training.
Restoration of independent walking, improved ADL (Activities of Daily Living) participation, and prevention of secondary complications like shoulder subluxation.
A progressive disorder of the basal ganglia that depletes dopamine, severely impacting movement regulation. Therapy cannot stop the disease, but it can dramatically slow motor decline.
Amplitude-based training (LSVT BIG protocols) to recalibrate sensorimotor perception, rhythmic auditory cueing to break freezing episodes, and dynamic balance recovery.
Larger, safer steps, improved trunk rotation, reduced freezing episodes, and prolonged physical independence.
An autoimmune disease where the body attacks the protective myelin sheath of nerves, causing disrupted communication between the brain and body. Symptoms are highly variable and fluctuate.
Energy conservation pacing, cooling strategies during exercise, vestibular integration for dizziness, and carefully dosed stretching routines to manage spasticity without triggering fatigue.
Optimized energy levels for daily tasks, reduced fall frequency, and better management of acute exacerbation phases.
Cognitive impairment heavily impacts physical mobility. Patients with dementia face a significantly higher risk of falls due to poor judgment, altered gait, and apraxia (inability to perform learned movements).
Errorless learning techniques, highly structured and simplified movement cues, environmental hazard removal, and caregiver training for safe physical assistance.
Maintenance of safe home mobility, reduced caregiver physical strain, and decreased frequency of fall-related hospitalizations.
An acute, immune-mediated polyneuropathy causing rapid-onset muscle weakness, often requiring ICU care. Recovery is a long, delicate process requiring highly specialized pacing to avoid permanent nerve damage.
Acute phase positioning and passive ROM. In the sub-acute phase: gravity-eliminated exercises, avoiding "overwork weakness," and progressive functional reintegration.
Gradual weaning from assistive devices, restoration of functional independence, and prevention of long-term fatigue syndromes.
Damage to the peripheral nerves (often due to diabetes or age) that disrupts sensory feedback to the brain, severely impairing proprioception and leading to a highly unsteady gait.
Visual compensation training (teaching the brain to use eyes instead of feet for balance), specialized balance board exercises, sensory discrimination, and orthotic footwear guidance.
Dramatically reduced fall risk, improved walking confidence, and prevention of diabetic foot ulcers through proper mechanical loading.
Neurological damage is highly individualized. We also treat Traumatic Brain Injuries (TBI), Spinal Cord Injuries (SCI), Amyotrophic Lateral Sclerosis (ALS), and rare neuromuscular disorders. Contact our clinical director to discuss a customized pathway.
Speak to a SpecialistStandard physiotherapy is insufficient for severe neurological trauma. Our specialists deploy internationally recognized, evidence-based clinical frameworks to aggressively stimulate brain-body reconnection right in your home.
We utilize targeted electrical impulses to artificially bypass damaged central nervous system pathways. This stimulates paralyzed or severe paretic muscles (such as in foot drop), preventing atrophy and assisting in active motor relearning.
A highly aggressive, evidence-based protocol for stroke survivors. By physically restraining the unaffected limb, we force the brain to exclusively use and rewire the neural pathways of the paralyzed or weaker limb.
An intensive, amplitude-focused physical therapy specifically designed for Parkinson's Disease. It recalibrates the patient's flawed sensorimotor perception, teaching them to use bigger, faster, and safer movements to combat rigidity.
By placing a mirror between the arms or legs, we trick the brain into seeing the paralyzed limb moving perfectly (by reflecting the healthy limb). This visual illusion aggressively stimulates the premotor cortex to trigger neuroplasticity.
Neurological damage often destroys the brain's awareness of where the body is in space. We utilize specialized unstable surfaces and gaze-stabilization protocols to retrain the inner ear and nervous system to prevent falls.
Brain tissue does not reorganize through passive stretching. We employ high-intensity, functionally relevant repetitions (e.g., practicing the exact mechanics of standing up 50 times) to engrain new neural motor engrams.
All modalities are administered by licensed specialists.
Schedule a Clinical AssessmentRehabilitation should never involve guesswork. From your first call to your final discharge, we follow a rigorous, 5-step clinical protocol designed to ensure safety, track progress, and deliver measurable results in Sarsuna.
Your journey begins with a detailed phone consultation. Our medical dispatch team assesses your specific condition (e.g., Post-Stroke, TKR, Parkinson's) and matches you with the exact specialized physiotherapist suited for your pathology.
On day one, the therapist conducts a rigorous 45-minute clinical evaluation in your home. This includes a motor-function test, spasticity grading, joint ROM measurement, and a crucial environmental fall-risk audit.
We do not use generic exercise sheets. Based on your assessment, we formulate a customized, phase-by-phase recovery protocol. We set transparent, measurable goals with the patient and family (e.g., "Walking 10 meters unassisted within 4 weeks").
Execution of the treatment plan using advanced modalities (NMES, LSVT BIG, Task-Specific Training). Sessions are highly structured. We also dedicate specific time to training caregivers on safe transfer techniques to ensure continuous support.
Recovery is tracked via clinical SOPs. Once independent functional goals are met and plateaus are broken, we transition you to a self-managed maintenance program, ensuring you sustain your recovery long after formal sessions end.
A neurological event is a life-altering crisis. Choosing the right rehabilitation partner determines whether a patient merely survives, or actively regains their physical independence. We bridge the critical gap between hospital discharge and full, at-home mobility through uncompromising clinical excellence.
Orthopedic physical therapy focuses on muscles and bones; neurological physical therapy focuses on rewiring the brain. We strictly deploy specialized therapists trained in advanced neuro-rehabilitation techniques, including Neuro-Developmental Treatment (NDT), the Bobath Concept, and Proprioceptive Neuromuscular Facilitation (PNF). When you choose , you are not getting a general fitness trainer; you are getting a clinical expert who understands cortical reorganization, spasticity management, and the intricate science of motor relearning after a central nervous system injury.
Hospitals and clinics offer controlled, artificial environments. But true independence means being able to navigate your own bedroom, use your own bathroom, and walk across your own living room rugs. By conducting intensive neuro-rehab directly in your home, we eliminate the "transfer gap." We train stroke and Parkinson's patients to overcome the exact environmental obstacles they face daily. Furthermore, for patients with Alzheimer’s or vascular dementia, remaining in a familiar environment drastically reduces confusion, agitation, and cognitive resistance to therapy.
Neurological recovery is a 24/7 process that does not stop when the therapist leaves. A core pillar of the methodology is comprehensive family education. We dedicate specific session time to teaching spouses, children, and home-nurses how to safely assist with bed transfers, how to prevent pressure ulcers (bedsores) in bedridden patients, and how to execute passive range-of-motion exercises. We empower your family with the knowledge to accelerate recovery and prevent devastating caregiver burnout.
We understand the unique logistical and cultural challenges of healthcare in our city. Our localized approach removes every barrier to your recovery.
Navigating the EM Bypass or navigating monsoon-flooded streets with a wheelchair-bound stroke survivor is physically dangerous and psychologically exhausting. We bring ICU-step-down quality care directly to your doorstep, anywhere in Sarsuna.
Communication is vital in neuro-rehab, especially for patients battling aphasia (speech loss). Our Sarsuna-based therapists speak fluent Bengali, Hindi, and English, ensuring your parents or grandparents feel deeply understood and respected.
Following prolonged ICU stays, neurological patients often have compromised immune systems. By recovering at home, you drastically reduce the risk of acquiring Hospital-Acquired Infections (HAIs), ensuring a safer healing trajectory.
The window for maximum neuroplasticity is critical in the first 3 to 6 months following a neurological event. Delaying structured therapy allows muscle contractures and incorrect compensatory habits to set in.
Recovering from a severe neurological event in Sarsuna requires more than a single therapist. It requires a coordinated clinical unit. Here is how our specialists divide and conquer your rehabilitation.
These are your frontline experts. Trained in advanced neuroplasticity protocols (Bobath, PNF, NDT), they execute the daily physical therapy. They focus entirely on rewiring the brain, breaking spasticity, and retraining paralyzed or weak limbs for functional use.
Neurological damage inherently destroys balance. This specialized arm of the team conducts home safety audits, implements vestibular (inner-ear) retraining, and prescribes the exact assistive devices (canes, walkers) needed to prevent devastating falls.
Recovery requires 24/7 support. These specialists do not just treat the patient; they train the family. They teach you ergonomic transfer techniques (bed to wheelchair), pressure-sore prevention, and cognitive de-escalation for dementia patients.
Working behind the scenes, senior clinicians audit your daily session notes. If a stroke patient plateaus or is not meeting their mobility goals within the expected timeframe, the coordinators instantly modify the clinical protocol to force further progress.
We remove the logistical friction of healthcare. Our clinical operations are designed to make high-level neuro-rehabilitation seamless, safe, and stress-free for your family.
For acute cases like recent hospital discharge post-stroke, we prioritize rapid assessment. We guarantee a therapist will be dispatched to your home within 24 to 48 hours of your initial consultation.
You do not need to buy equipment. Our specialists bring hospital-grade portable modalities directly to you, including NMES/TENS units, proprioception balance discs, clinical gait belts, and vital-monitoring tools.
Neurological fatigue is real. Sessions are meticulously paced between 45 and 60 minutes to maximize motor relearning and neuroplasticity without pushing the patient into detrimental exhaustion or overwork weakness.
We do not work in isolation. Our therapists actively coordinate with your primary neurologist or neurosurgeon, providing documented progress reports on spasticity scales and functional mobility to ensure cohesive medical care.
Neurological recovery is not determined by time alone; it is dictated by the precise application of clinical protocols, the management of neuroplasticity, and the meticulous tracking of functional milestones. The following database outlines our highly specialized, multi-phase rehabilitation pathways for severe nervous system pathologies. These extensive clinical blueprints demonstrate exactly how our specialists in Sarsuna transition patients from acute immobility to sustained functional independence.
A major ischemic infarction in the left MCA territory resulting in right-sided flaccid hemiplegia, expressive aphasia, and profound loss of trunk control. The clinical focus required an immediate shift from preventing secondary complications (contractures, subluxation) to aggressive neuroplastic motor relearning.
At initial evaluation, the patient presented with a 0/5 muscle grade on the Oxford Scale for the entire right upper and lower extremities. Berg Balance Scale (BBS) was 4/56, indicating an extreme fall risk and inability to maintain unsupported sitting posture. The right glenohumeral joint showed a 2-finger subluxation due to rotator cuff flaccidity. Transfers required maximum assist from two caregivers.
Weeks 1-6 (Acute Neuro-Facilitation): The primary objective was to inhibit the development of abnormal synergistic spasticity while stimulating the premotor cortex. We utilized the Bobath Concept for proper bed and wheelchair positioning to protect the subluxated shoulder. Neuromuscular Electrical Stimulation (NMES) was applied daily to the right wrist extensors and tibialis anterior to prevent disuse atrophy. Passive Range of Motion (PROM) was transitioned to Active-Assisted (AAROM) using gravity-eliminated suspension techniques.
Weeks 7-14 (Cortical Reorganization): As trace movements appeared (Oxford Grade 2/5), the protocol escalated. We implemented Mirror Visual Feedback (MVF) therapy to trick the brain into perceiving movement in the paralyzed limb, accelerating neuroplasticity. We initiated intensive core-stabilization exercises on a Swiss ball to restore independent sitting. Sit-to-stand biomechanics were broken down and practiced repetitively using tactile cueing to ensure equal weight-bearing through the hemiparetic leg.
Weeks 15-24 (Functional Gait & CIMT): Once standing balance was achieved, we introduced Constraint-Induced Movement Therapy (CIMT) for the upper extremity, restricting the healthy arm to force utilization of the paretic arm during feeding and grooming. Gait training commenced using a custom-molded Ankle-Foot Orthosis (AFO) to correct residual foot drop. We utilized multi-surface walking drills to challenge proprioception.
The patient achieved independent indoor ambulation with a quad cane and AFO. Berg Balance Scale improved to 42/56. Upper extremity function recovered sufficiently to allow independent feeding and basic grooming. Caregiver physical burden was reduced by 95%, requiring only stand-by supervision for complex transfers.
A progressive neurodegenerative disorder of the basal ganglia characterized by severe dopamine depletion. The patient presented with advanced bradykinesia, rigidity, resting tremors, and debilitating episodes of Festinating Gait and Freezing of Gait (FOG), leading to multiple traumatic falls.
The patient exhibited a severe stooped posture (camptocormia) with a forward shift in center of gravity. Timed Up and Go (TUG) test resulted in 28 seconds (high fall risk). The patient experienced severe "freezing" episodes when initiating movement, turning, or passing through narrow doorways. Step length was severely reduced to a shuffling pattern with absent reciprocal arm swing.
Weeks 1-4 (Amplitude Recalibration): Standard physical therapy is ineffective for PD. We immediately initiated the LSVT BIG® protocol, an intensive, high-effort program forcing the patient to make exaggerated, large-amplitude movements. This directly combats the brain's flawed sensorimotor perception that tricks PD patients into thinking their small, shuffling steps are normal. Core extension exercises were prescribed to correct the stooped posture and realign the center of mass over the base of support.
Weeks 5-8 (Cognitive Override & Cueing): To address Freezing of Gait (FOG), we bypassed the damaged basal ganglia by engaging the frontal cortex. We trained the patient using external rhythmic auditory stimulation (metronomes set to specific cadences) and visual cues (laser lines on the floor). The patient learned cognitive "rescue strategies"—specifically the "Stop, Stand Tall, Shift Weight, Step Big" sequence—to independently break a freeze without panicking or falling.
Weeks 9-12 (Dual-Tasking Integration): PD patients struggle to perform two tasks simultaneously. We introduced cognitive-motor dual-tasking (e.g., carrying a tray of water while counting backward from 100). This forced the brain to maintain large-amplitude walking mechanics even when distracted, simulating real-world environments like grocery shopping or walking through crowded areas.
TUG test improved dramatically to 14 seconds. The patient successfully internalized the amplitude recalibration, resulting in a normalized stride length and restored arm swing. Freezing episodes were reduced by 80%, and the patient successfully utilized cognitive override strategies to independently break the remaining freezes. Zero falls recorded during the final 8 weeks of the protocol.
An acute, immune-mediated inflammatory polyneuropathy resulting in severe demyelination of the peripheral nervous system. Following a 4-week ICU admission for respiratory failure and ascending flaccid tetraplegia, the clinical focus was highly delicate neuromuscular re-education to avoid permanent nerve damage.
Patient presented fully bedbound with profound, symmetrical flaccid paralysis of all four limbs. Vital capacity was severely reduced. Patient suffered from severe neuropathic hyperalgesia (extreme pain response to light touch) and autonomic dysreflexia, unable to tolerate bed elevation beyond 30 degrees without syncope (fainting).
Months 1-2 (Autonomic Regulation & Protection): Aggressive therapy at this stage causes "overwork weakness," destroying repairing nerves. The protocol was strictly conservative. We implemented respiratory physiotherapy (incentive spirometry, assisted coughing) to prevent pneumonia. We utilized graded tilt-table protocols, increasing elevation by 5 degrees daily, to retrain the autonomic nervous system to regulate blood pressure. A rigorous positioning and splinting schedule was enforced to prevent irreversible plantarflexion (drop foot) contractures.
Months 3-5 (Reinnervation & Gravity-Eliminated Training): As remyelination occurred (proximal to distal), we introduced highly specific, low-repetition active-assisted exercises. We utilized aquatic-simulated suspension systems to allow movement without the burden of gravity. Neuropathic pain was managed via gentle tactile desensitization protocols. Sitting balance was progressively challenged using a specialized trunk-support harness.
Months 6-8 (Eccentric Loading & Gait Mechanics): Once muscle grades reached 3/5, we introduced closed-chain kinematics and eccentric muscle loading to rebuild true functional strength. Parallel bar ambulation progressed to a wheeled walker, and eventually to bilateral forearm crutches. Exhaustion monitoring was paramount; sessions were strictly terminated at the first sign of motor fatigue to protect the fragile peripheral nervous system.
The patient successfully transitioned from a completely bedbound state to independent community ambulation without assistive devices. Pulmonary function returned to 96% of the pre-illness baseline. Upper extremity fine motor skills recovered sufficiently to allow the patient to return to complex computer-based professional work. Neuropathic pain resolved completely.
A severe deceleration/rotational injury leading to widespread microscopic nerve damage across the brain. The patient presented with profound cerebellar ataxia, severe neuro-fatigue, left-sided hemiparesis, and significant cognitive-processing delays that directly impeded physical mobility.
The patient exhibited severe truncal ataxia, unable to maintain sitting or standing balance without violent, uncoordinated swaying. Upper extremity dysmetria (inability to judge distance) made self-feeding impossible. The patient experienced rapid neuro-fatigue, able to participate in physical activity for a maximum of 12 minutes before profound motor collapse and cognitive confusion set in.
Weeks 1-6 (Sensory Integration & Core Stability): We established a low-stimulus environment to prevent cognitive overload. Rehabilitation began with static core stabilization on a mat, utilizing heavy proprioceptive taping and weighted vests to provide the damaged cerebellum with exaggerated sensory feedback regarding body position. Sessions were broken into ultra-short, high-frequency intervals (four 10-minute sessions per day) to respect the neuro-fatigue threshold.
Weeks 7-12 (Ataxia Management & Motor Control): As core stability improved, we addressed appendicular ataxia. We utilized Frenkel's Exercises—a highly structured system demanding extreme concentration and visual tracking to command smooth, deliberate movements. Rhythmic stabilization techniques (PNF) were applied to the major joints to teach the muscles how to co-contract and hold a steady posture against resistance.
Weeks 13-18 (Dual-Tasking & Real-World Simulation): A TBI patient may walk well in a quiet room but fall immediately in a noisy environment. We aggressively introduced environmental distractions. The patient practiced complex dynamic gait (stepping over obstacles, turning 180 degrees) while actively answering cognitive questions or catching a ball. This forced the brain to automate the walking process, freeing up cognitive resources.
Truncal ataxia was resolved, allowing for safe, independent ambulation on uneven outdoor surfaces. Dysmetria in the upper extremities improved to allow independent feeding and grooming. The neuro-fatigue threshold expanded dramatically, permitting continuous 60-minute bouts of physical exertion. The patient regained sufficient cognitive-motor integration to safely navigate public spaces independently.
The clinical pathways detailed above prove that severe neurological damage does not have to be permanent. Do not let muscle atrophy or incorrect compensatory habits set in. Let our neuro-specialists design a custom recovery protocol for your loved one today.
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The window for optimal neuroplasticity is finite. Delaying rehabilitation allows severe muscle contractures to develop and incorrect compensatory movements to become permanent. Secure your in-home clinical assessment anywhere in Sarsuna today.
Speak directly with a care coordinator to detail the patient's pathology, hospital discharge status, and immediate mobility risks.
We match you with the exact neuro-specialist required for the condition and schedule an in-home assessment within 24–48 hours.
The therapist arrives with all necessary clinical equipment to establish baselines, ensure home safety, and begin active rehabilitation.