Cost of Thoracic Interbody Fusion in Major cities of Turkey
| City | Minimum Cost (USD) | Minimum Cost (TRY) | Maximum Cost (USD) | Maximum Cost (TRY) |
|---|---|---|---|---|
| Ankara | USD 12000 | 468720 | USD 22000 | 859320 |
| Antalya | USD 12000 | 468720 | USD 22000 | 859320 |
| Bursa | USD 12000 | 468720 | USD 22000 | 859320 |
| Canakkale | USD 10800 | 421848 | USD 19800 | 773388 |
| Fethiye | USD 10800 | 421848 | USD 19800 | 773388 |
| Istanbul | USD 12000 | 468720 | USD 22000 | 859320 |
| Izmir | USD 12000 | 468720 | USD 22000 | 859320 |
| Kocaeli | USD 12000 | 468720 | USD 22000 | 859320 |
| Konya | USD 12000 | 468720 | USD 22000 | 859320 |
| Sakarya | USD 12000 | 468720 | USD 22000 | 859320 |
| Samsun | USD 12000 | 468720 | USD 22000 | 859320 |
| Sivas | USD 10800 | 421848 | USD 19800 | 773388 |
| Tokat | USD 10800 | 421848 | USD 19800 | 773388 |
| Trabzon | USD 10800 | 421848 | USD 19800 | 773388 |
| Usak | USD 10800 | 421848 | USD 19800 | 773388 |
| Zonguldak | USD 10800 | 421848 | USD 19800 | 773388 |
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Thoracic Interbody Fusion is a surgical procedure used to treat spine-related issues in the mid-back area. It is mainly done to reduce nerve or spinal cord pressure and improve spinal stability. The surgeon removes the damaged or degenerated disc between two vertebrae and inserts a bone graft or implant in its place.
This helps the bones gradually join together, forming a solid and stable spinal segment. The surgery not only relieves pain but also improves spine alignment and overall function.
The surgical route can be chosen based on the patient’s condition, with access taken from the front, back, or side of the spine. It is generally recommended when other non-surgical treatments have not been effective, especially for conditions such as disc herniation, spinal instability, fractures, or deformities in the thoracic spine.
- Persistent mid-back pain that doesn’t improve with medication or therapy
- Neurological symptoms such as numbness, weakness, or difficulty walking
- Signs of spinal instability or deformity (visible curve, posture changes)
- Progressive spinal cord compression is seen on imaging
- Pain or disability significantly affecting daily activities or quality of life
- Detailed medical and neurological exam
- Imaging studies: MRI, CT scan, and X-rays to assess the spine
- Blood work and anaesthesia clearance
- Review of current medications, including blood thinners and supplements
- Smoking cessation, as it affects bone healing
- Fasting for 8 hours before surgery (if under general anaesthesia)
- A preoperative discussion about the risks, benefits, and recovery expectations
- Removal of the damaged disc (discectomy)
- Preparation of the intervertebral space
- Insertion of a bone graft or cage to maintain disc height and promote fusion
- Stabilisation with screws, rods, or plates if needed
- Closure of the incision and placement of drains (if necessary)
- Infection
- Blood loss
- Nerve injury or spinal cord damage
- Non-union (failure of bone to fuse)
- Hardware complications (loosening or breakage)
- Pulmonary complications (especially with the anterior approach)
- Chronic pain or adjacent segment disease
- Deep vein thrombosis (DVT) or pulmonary embolism
- Stabilises and strengthens the spine
- Reduces or eliminates chronic pain
- Prevents progression of deformity or instability
- Protects the spinal cord and nerve roots from further damage
- Improves posture, mobility, and function
- It can significantly enhance the quality of life when other treatments fail
- Hospital stay: 2–5 days
- Use of a brace may be recommended for several weeks
- Pain management with medications and gradual weaning
- Light activities resume in 2–4 weeks
- Physical therapy typically begins within 4–6 weeks
- Complete fusion and recovery may take 6–12 months
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I.A.U VM Medical Park Florya Hospital
Istanbul, Turkey
I.A.U VM Medical Park Florya Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- Situated on an area of 51.000 m2
- Capacity of 300 beds
- 13 Operating rooms
- 92 Polyclinics
- Emergency Unit
- Intensive care Unit
- Parking lots
- Places of worship
- Rooms designed according to different needs offer the comfort of a 5-star hotel
- Special services are provided in all rooms, from television with domestic and foreign channels to internet service, from patient-specific diet menu to newspaper and magazine service
- Cafe/Restaurant with delicious menu
Medical Park Bahcelievler Hospital
Istanbul, Turkey
Medical Park Bahcelievler Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- Covers an area of 33.000 m
- 19-storey Hospital Building
- Capacity for 242 beds
- 89 Outpatient clinic rooms
- 10 Operating rooms
- 24 Newborn Incubators
- 6 Paediatric Intensive Care Beds
- 28 Adult Intensive Care beds
- 6 CVS and 12 cardiology intensive care beds
- Luxurious & comfortable rooms like of 5-star hotel rooms for patients
- Free Wi-fi
- Parking lot
- Place of worship
- Cafe/Restaurant
Medical Park Fatih Hospital
Istanbul, Turkey
Medical Park Fatih Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- Situated in an area of 6500 m2
- Capacity of 84 beds
- Emergency Clinic
- ICU
- Many special services, including but not limited to T.V. (all domestic and international canals are available), Internet, patient-specific diet and journals and newspapers, are offered to patients to maximize satisfaction
- Private rooms for patients available
- Family accommodation
- Pharmacy
- Laundry
- Mobility accessible rooms
- Parking lot
- Prayer Room
- Cafeteria
Biruni University Hospital
Istanbul, Turkey
Biruni University Hospital started to serve in 2016. It is a full-fledged multi-specialty healthcare facility, situated in Istanbul, Turkey. The hospital is well-known for its outstanding medical care standards, and it has acquired numerous certificates from international quality organizations. It is a renowned & well-established healthcare facility that provides cutting-edge diagnostic and treatment approaches. They have a team of highly skilled doctors and surgeons on call 24 hours a day, seven days a week to deliver the best medical care possible.
The hospital has various medical departments such as Cardiology, Neurology, Urology, Rheumatology, Pediatrics, General Medicine and Surgery, Gastroenterology, etc. Popular treatments conducted at the hospital are Pediatric Neurology, Cardiac Stenting, Balloon Angioplasty, Bypass surgery, plastic surgery procedures like Hair transplant, & Botox injections, and many more. The hospital is known for its most valuable service i.e. service to human health. Hospital management & professionals define their service concept with the significance attached to the belief. The management is concerned with both medical statistics and, above all, the satisfaction of the patients. Patients from other countries are well looked after. The hospital offers international patients a relaxing and secure environment in terms of psychology, comfort, and health.
The hospital's primary purpose is to provide world-class patient-centered health care through our highly responsible team who can produce information and use it appropriately. With its university-based scientific infrastructure and competent health care, the hospital's management has long-term plans for it, with a desire to be an innovative and leading health institution that is regarded as a reference in the country and around the world. Several value-added services and quality policies are available at the facility. To mention a few, the hospital is open to development and technology, continuously measuring and improving, training qualified health professionals, caring about patient and employee satisfaction, and becoming mobilized to bring an environment of reliable diagnosis, treatment, and care to the majority of the society.
Medicana Camlica Hospital
Istanbul, Turkey
Medicana Camlica Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- 150 bedded Hospital
- Specialty-based clinics
- Fully-equipped patient rooms
Memorial Sisli Hospital
Istanbul, Turkey
Memorial Sisli Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- Operates in a closed area of 53,000 sqm
- Capacity of 252 beds
- 13 Operating rooms
- 4 Intensive Care Units (KVC, General, Coronary, Neonatal)
- 3 Laboratories
- Organ Transplantation Center
- IVF Center
- Genetic Center
- Stroke Center
- Breast Health and Disease Center
- Oncology Center
- Da Vinci Robotic Surgery Center
- Bone Marrow Transplantation Center
Hisar Intercontinental Hospital
Istanbul, Turkey
Architecture of the Hospital designed as per the comfort of patients-
- Consisting of 8 floors, 212 bed capacity
- 75m2 suite rooms
- 35 thousand m2 closed area
- 7 operating rooms
- 53 polyclinics
- 54 Departments
- Hotel-like patient rooms
- Intensive care units consisting of 33 beds
- Hyperbaric Oxygen Center inside the hospital
- PYXIS computerized medicine system working with fingerprint
- Social waiting areas
- Indoor and Outdoor Cafeterias & Restaurants
Acibadem Kadikoy Hospital
Istanbul, Turkey
Acibadem Kadikoy Hospital located in Istanbul, Turkey is accredited by JCI. Also listed below are some of the most prominent infrastructural details:
- The number of beds in the hospital are 138 and Intensive Care beds are 23.
- There are as many as 6.500 access points for a building control system.
- There are 10 Operating theatres and more than 500 employees.
- There are specific healthcare facilities in Acibadem Kadikoy Hospital, Istanbul, Turkey which have been established per integrated healthcare outreach such as Breast Health Center, Check-up Center, and Diabetes Clinic etc.
- The hospital has the very best of Medical Technologies such as Flast CT, da Vinci robot, Magnetom Area MRI, Greenlight, Ortophos XG 3D and Full Body MRI, 4-Dimensional Breast Ultrasound, 3-Dimensional Tomosynthesis Digital Mammography.
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+99Process Involved for Thoracic Interbody Fusion in Istanbul
- Initial Consultation: A spine specialist evaluates symptoms, medical history, and imaging reports to confirm the need for surgery.
- Diagnostic Testing: MRI, CT scans, and X-rays are performed to locate disc damage and assess spinal alignment.
- Preoperative Preparation: Includes blood tests, anaesthesia evaluation, and patient education about the procedure and recovery.
- Surgical Procedure: The damaged disc is removed, and a bone graft or implant is inserted to promote fusion between vertebrae.
- Hospital Recovery: The patient stays in the hospital for monitoring, pain control, and early mobilisation (typically 3–5 days).
- Rehabilitation Phase: Physical therapy begins to strengthen the back, improve mobility, and support long-term healing.
- Follow-up Appointments: Routine check-ups and imaging tests ensure that the bones are fusing correctly and there are no complications.
- Disc Degeneration: Gradual wearing of the spinal discs in the mid-back, which can cause discomfort and limit normal movement.
- Herniated Disc: A bulging or ruptured disc in the mid-back that puts pressure on nearby nerves or the spinal cord.
- Spine Instability: Unusual or excessive movement between thoracic vertebrae that can cause discomfort or nerve-related symptoms.
- Spinal Fractures: Breaks or cracks in the thoracic vertebrae, often due to trauma or bone-weakening conditions like osteoporosis.
- Scoliosis: A sideways curve of the spine that may require fusion to improve posture and reduce discomfort.
- Kyphosis: An abnormal forward bend in the upper spine that may lead to pain or breathing difficulties if not corrected.
- Spinal Tumours: Growths or masses within or near the thoracic spine that need surgical removal, followed by stabilisation.
- Failed Previous Surgery: Used when earlier spinal surgeries haven’t achieved the desired results or led to complications.
Process Involved in Thoracic Interbody Fusion
- Preoperative Evaluation: Detailed physical exams and imaging tests (MRI, CT, X-ray) are conducted to confirm the affected thoracic segment and plan the surgical approach.
- Anaesthesia: General anaesthesia is given to ensure the patient is asleep and pain-free during the procedure.
- Surgical Incision: A cut is made depending on the approach (anterior, posterior, or lateral) to access the thoracic spine safely.
- Disc Removal: The damaged or diseased intervertebral disc is carefully extracted to relieve pressure on the spinal cord or nerves.
- Bone Graft/Implant Placement: A bone graft or artificial spacer is placed in the disc space to help maintain alignment and support bone fusion.
- Stabilization Hardware: Metal screws, rods, or plates are inserted to hold the spine in proper alignment while the bones heal and fuse.
- Closure: The incision is closed using sutures or staples, and a sterile dressing is applied to protect the area.
- Postoperative Monitoring: The patient is monitored in recovery for pain control, nerve function, and early signs of healing. Follow-up imaging may be scheduled.
- Laminectomy
- Discectomy
- Corpectomy
- Osteotomy
- Foraminotomy
- Instrumentation
- Fusion
- Decompression
- Kyphoplasty
- Biopsy
- Pain relief – Helps reduce or eliminate chronic mid-back pain caused by disc or nerve problems.
- Stability – Restores strength and support to the spine, especially in cases of instability or fractures.
- Improved posture – Helps correct spinal deformities, such as scoliosis or kyphosis, leading to better alignment.Better mobility – Eases movement and daily activity by removing pressure from compressed nerves.
- Nerveprotection – Prevents further nerve damage by relieving spinal cord or nerve root compression.
- Long-term results – Promotes bone fusion, reducing the risk of future spine issues in the treated area.
- Functionality – Enables patients to return to work or their daily routines after a successful recovery.
- Custom approach – Can be tailored to the patient’s condition using different surgical methods (anterior, posterior, or lateral).
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