Voumed
Romatem Move Çamlıca
Romatem Move Çamlıca

Romatem Move Çamlıca

istanbul

Specialties
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About

Romatem Move Çamlıca is the flagship rehabilitation center of the Romatem group, located in the Çamlıca area of Üsküdar on the Anatolian side of Istanbul. With a 48-bed capacity, it provides both outpatient and residential physical therapy focused on neurological and orthopaedic rehabilitation. The center combines a multidisciplinary team with advanced rehabilitation technologies, including robotic rehabilitation and AI-supported systems that analyse a patient's movement to tailor each programme, alongside ergotherapy and comfortable inpatient accommodation. It welcomes international patients seeking intensive, structured recovery.

Specialties

Physical Medicine and Rehabilitation

Procedures

International patient services

  • International patient office
  • Interpreter and translation services
  • Visa and travel assistance
  • Airport transfer
  • Accommodation assistance

Technologies and equipment

ESWT (Extracorporeal Shock Wave Therapy)

Extracorporeal shock wave therapy (ESWT) is a non-surgical, drug-free treatment that delivers high-energy acoustic waves generated outside the body to a painful or slow-healing tissue. The waves pass harmlessly through the skin and concentrate on the target area, where they stimulate the body's own repair processes. ESWT is used mainly for long-standing tendon, joint and soft-tissue problems that have not responded well to rest, medication or standard physiotherapy. Sessions are short, done in the clinic without anaesthesia, and afterwards most people return straight to their day. It is delivered as part of a rehabilitation plan rather than on its own.

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Functional Exercise and Performance System

The functional exercise and performance system is a smart, sensor-based rehabilitation platform that helps rebuild muscle strength, endurance and functional movement. The patient works through a series of exercise stations that target different muscle groups, while built-in sensors measure the force and motion produced and automatically adjust the resistance and speed to match real-time performance. Because every repetition is recorded, the therapy team can see objective progress and keep each session safe, controlled and efficient. It is a core tool when rehabilitation needs to be measured and progressed accurately rather than guessed.

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Body-Weight-Supported Gait System (Anti-Gravity Treadmill)

The body-weight-supported gait system, often called an anti-gravity treadmill, is a rehabilitation device that carries part of a patient's body weight so they can walk and train safely without the fear of falling. Some systems use an overhead harness, while others enclose the lower body in an air-pressure chamber that gently lifts the patient. By reducing the load that passes through the legs and joints, it lets people start walking earlier and practice far more repetitions than they could manage on their own feet. It is used inside a wider rehabilitation programme, always under the guidance of a physiotherapist.

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Early Mobilization and Robotic Standing System

The early mobilization and robotic standing system is a rehabilitation device that lets treatment begin while a patient is still bedbound or able to move very little. Instead of waiting until someone can sit or stand on their own, the device safely brings the body upright and gently exercises the legs, so recovery can start in the very first days. It usually combines three actions in one session: slowly tilting the patient toward standing to support circulation, moving the joints through a continuous gentle range to prevent stiffness, and using mild electrical stimulation to wake the muscles. It is always used under supervision as part of an early rehabilitation programme.

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Hippotherapy Simulator (Equine-Movement Neuromotor Rehabilitation)

The hippotherapy simulator is an advanced rehabilitation device that recreates the gentle, three-dimensional movement of a walking horse without using a real animal. Riding a horse has long been used in therapy because the rhythmic swaying it produces through the rider's pelvis activates the muscles and reflexes that control posture and balance. The simulator brings these same effects into a safe, controlled clinical room: the patient sits securely on a moving seat that mimics a horse's gait, while a therapist adjusts the speed, rhythm and direction. It is a comfortable, motivating way to train balance and trunk control, and it can be used by people who could not safely ride a real horse.

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Hydrotherapy Pool

A hydrotherapy pool is a specially designed therapy pool that uses the natural buoyancy, warmth and resistance of water to make rehabilitation exercises safer and more comfortable. In the water the body becomes much lighter, so joints carry far less load and painful or weak movements become easier to perform. Guided by a physiotherapist, patients can start moving earlier and more confidently than they could on land, which makes the pool a valuable part of many rehabilitation programmes.

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Functional Balance and Coordination System

The functional balance and coordination system is an interactive rehabilitation platform that helps people stand, move and react more steadily. The patient performs guided exercises on a moving platform fitted with smart sensors that track posture and weight shift in real time and show the results on a screen. By reacting to this live feedback, the patient learns to correct posture, sharpen balance and activate the right muscles at the right moment. Because the training is turned into engaging game-like tasks, sessions stay motivating, which encourages the many repetitions that retraining balance requires.

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Gait Training Robot (Adult)

A gait training robot is an advanced rehabilitation device that helps adults relearn to walk after the ability has been lost or impaired. It works on the principle of neuroplasticity: by guiding the legs through the correct walking pattern many times over, it helps the brain and muscles rebuild their connections and form new pathways, so walking becomes possible again. The patient is held safely in a support harness that takes much of the body weight, while the robot moves the legs and sensors track every step. Because it allows far more repetitions than a therapist could deliver by hand, it can speed up recovery and make early walking practice safe.

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Hand and Finger Rehabilitation Robot

A hand and finger rehabilitation robot is an advanced device that helps people regain movement and control in the hand after illness or injury. The hand is rested comfortably in the device, which gently moves the hand and each finger through natural grasping and opening patterns while sensors track every motion. By delivering many precise, repeated movements, it helps retrain the connections between the brain, nerves and muscles that control fine hand use. Because the hand carries out so much of daily life, restoring its function can make a real difference to independence in tasks such as dressing, eating and writing.

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HIL (High-Intensity Laser Therapy)

High-intensity laser therapy (HIL) is a modern physical-therapy treatment that uses a focused beam of laser light to reach deep tissues, ease pain and speed up healing. The laser energy is absorbed by the cells, where it raises their metabolism, improves blood flow, reduces inflammation and swelling, calms irritated nerves and supports tissue repair. Because it is more powerful than the low-level lasers used in older treatments, it can act on structures deeper under the skin, such as joints, tendons and the spine. It is a non-invasive, drug-free option, given in short sessions, that is often used alongside exercise and other physiotherapy.

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Gait Training Robot (Pediatric)

A pediatric gait training robot is an advanced rehabilitation device that helps children learn or relearn to walk safely and precisely. It guides a child's legs through the correct walking pattern many times, supporting neuroplasticity by strengthening the links between the brain and the muscles and encouraging new neural pathways. Because the young brain is still developing, this kind of intensive, early practice can be especially powerful for motor learning. The child is held in an age-appropriate support harness that takes their body weight, while the robot moves the legs and playful on-screen games keep the child motivated and actively involved throughout the session.

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Multi-Axis Robotic Rehabilitation System

A multi-axis robotic rehabilitation system is an advanced therapy device that supports the movements of the arms and legs and helps recovery by delivering a very high number of guided, accurate repetitions. The unit attaches to the patient's limb and moves it through the correct movement pattern in a safe, controlled way, assisting exactly as much as the person needs. Because the robot can repeat the same precise movement hundreds of times, it makes a kind of intensive practice possible that would be hard to achieve with hands-on therapy alone, which can speed up the return of movement.

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Robotic Spinal Mobilization and Traction System

A robotic spinal mobilization and traction system is a computer-controlled, non-surgical therapy device used to relieve back and neck pain, especially pain caused by a herniated disc. It applies precise, gentle and gradual stretching to the spine, which gently separates the vertebrae and eases pressure on the discs and the nerves running between them. Because a robot controls the force so accurately, the treatment is more comfortable and better targeted than traditional traction, and it forms part of a wider, non-surgical programme for spinal pain.

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Sensor-Based Dynamic Gait and Reaction Training System

The sensor-based dynamic gait and reaction training system is a rehabilitation device that turns walking practice into an interactive, game-like experience using augmented reality. Smart visuals and tasks are projected onto a treadmill, and the patient steps over obstacles, reaches targets, changes direction and adjusts speed in scenarios drawn from everyday life. As the person moves, the system measures every step, scores performance and gives instant on-screen feedback, so therapy stays functional, motivating and tailored to the individual. Built-in fall-prevention support keeps each session safe.

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Sensorimotor-Assisted Rehabilitation System

The sensorimotor-assisted rehabilitation system is a rehabilitation device that helps people rebuild muscle strength, posture and motor control. The patient wears a specially designed therapeutic suit fitted with elastic bands and support structures that gently align the body and provide multidirectional support. This correct alignment improves postural stability, activates the right muscles, sharpens balance and strengthens the communication between the nervous system and the muscles, so movement becomes steadier and more functional. Used with intensive, goal-directed and repetitive exercise, it supports the brain's natural ability to relearn movement.

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Shoulder and Arm Rehabilitation Robot

A shoulder and arm rehabilitation robot is a robotic arm trainer that helps people regain movement in the upper limb after it has been weakened or lost. The device gently supports the patient's shoulder and arm, then guides and assists the movement they cannot yet make on their own, delivering large numbers of accurate, repeated exercises. Throughout, it measures and records performance, so progress can be tracked objectively. Each well-aimed repetition strengthens the connection between the brain and the muscles and supports the nervous system's natural ability to relearn movement.

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Smart Exercise System

The smart exercise system is a connected gym of rehabilitation devices that delivers a personalised exercise programme and tracks performance in real time. Each machine recognises the user and automatically loads the right settings, then monitors movement, analyses technique and confirms whether every exercise is being performed correctly, giving instant feedback on screen. The programme is built around each person's age, muscle strength, movement capacity, health status and goals, and it adapts as they progress. By guiding correct technique and the right effort level, the system makes training safer, more measurable and more effective.

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Computer-Assisted Spinal Decompression System

Computer-assisted spinal decompression is a non-surgical treatment for spine-related pain, especially lumbar and cervical disc herniation. Using a motorised decompression table, the system very gently and gradually increases the space between two vertebrae, creating a slight negative pressure inside the disc. This helps draw herniated tissue back, eases the load on a pinched nerve root and improves the disc's nutrition and oxygen supply, supporting the body's own healing. The patient lies secured by special belts while a computer applies a precise, controlled pulling force at the angle best suited to the affected level.

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Supported Gait Training System

The supported gait training system is a body-weight-supported walking device that lets people with mobility or balance difficulties practise walking safely and early in their recovery. A specialised harness partially carries the patient's body weight, which greatly reduces fall risk and makes the legs feel lighter, so the person can take steps they could not yet manage on their own. Integrated sensors track movement and keep the patient within a protected walking zone, while the amount of weight support and the difficulty are tailored to each individual and reduced as strength and confidence return.

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TECAR (Focused Radiofrequency Deep-Tissue Therapy)

TECAR therapy is a TECAR therapy device that uses focused radiofrequency energy to create gentle, controlled warmth deep inside the body's tissues. This deep warming increases blood circulation, speeds up the cells' natural repair processes, reduces swelling and inflammation and relaxes tight muscles and connective tissue, which together can bring fast relief from both recent and long-standing pain. The therapist moves a handpiece over the treatment area, and most people feel only a pleasant, soothing heat. Sessions are short, comfortable and require no recovery time, so normal activities can continue straight afterward.

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Location

Çamlıca, Üsküdar/İstanbul

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