Voumed
Acıbadem Ataşehir Hospital
Acıbadem Ataşehir Hospital

Acıbadem Ataşehir Hospital

istanbul

JCI
Specialties
29

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About

Acıbadem Ataşehir Hospital is a full-service general hospital on the Anatolian side of Istanbul, sharing its campus with the Acıbadem headquarters. It offers 298 inpatient beds and 45 intensive care beds across cardiovascular, adult, coronary and neonatal units, together with ten operating rooms, a dedicated IVF theatre, endoscopy and angiography suites, and an LDRP maternity floor. Accredited by Joint Commission International, the hospital cares for international patients across a broad range of adult and paediatric specialties.

Specialties

Bariatric and Metabolic SurgeryOrthopedics and TraumatologyPediatricsPhysical Medicine and RehabilitationPlastic and Aesthetic SurgeryPulmonologyHematologyRheumatologySleep DisordersBreast HealthSpine SurgeryThoracic SurgeryCardiology and Cardiovascular SurgeryDermatologyGastrointestinal SurgeryGeneral SurgeryGynecology and ObstetricsUrologyCheck-up and Preventive MedicineDental, Oral and Maxillofacial SurgeryEndocrinology, Diabetes and MetabolismEar, Nose and ThroatGastroenterologyIVF and Reproductive HealthNephrologyNeurology and NeurosurgeryOncologyOphthalmologyOrgan Transplantation

Procedures

International patient services

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

Technologies and equipment

Scalp Cooling System

A scalp cooling system is a supportive technology that helps reduce hair loss during chemotherapy, one of the side effects patients often find most distressing. The patient wears a snug cap that gently chills the scalp before, during and after the chemotherapy session. Cooling narrows the small blood vessels in the scalp and slows the activity of the hair follicles, so that less of the chemotherapy drug reaches them and they are less affected. For many people, this helps keep more of their own hair through treatment, which can make a meaningful difference to confidence and daily life.

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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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Ethos Adaptive Radiotherapy

Ethos is an adaptive radiotherapy system that uses artificial intelligence to tailor each cancer treatment to the patient's anatomy on the very day it is delivered. Bodies change a little from session to session: a tumour can shrink, organs shift, the bladder or bowel fill differently. Ethos takes a fresh image at the start of every session, detects these changes and, with AI support, can generate an updated plan in minutes rather than the hours such replanning would normally take, so the dose stays focused on the tumour while better protecting healthy organs.

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Toumai Robotic Surgery System

Toumai is an advanced robotic surgery system that lets a surgeon perform complex minimally invasive operations through a few small keyhole incisions. The surgeon works from a console a short distance from the operating table, guiding flexible robotic arms that copy every hand movement precisely while filtering out natural tremor. A high-definition camera gives a magnified, depth-accurate view inside the body, so delicate work in narrow spaces becomes more controlled and stable. As with all surgical robots, the system never acts on its own; the surgeon directs every motion and remains fully in control from start to finish.

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ROSA Robotic Surgical Assistant

ROSA is a robotic surgical assistant that helps the surgeon plan and carry out delicate operations with very high accuracy. It is used in two main areas: joint replacement, where it guides bone preparation and implant placement, and brain surgery, where it helps reach precise targets deep in the brain. In both settings the system turns the patient's own scans into a detailed three-dimensional map, and a steady robotic arm then follows the plan the surgeon has set. The surgeon remains fully in control; ROSA adds precision and stability rather than acting on its own.

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4D Breast Ultrasound

4D breast ultrasound, also known as automated breast volumetric scanning, is an imaging method that supports the diagnosis of breast cancer. Unlike a hand-held ultrasound, it uses a dedicated probe that moves automatically across the breast to capture the whole organ as a complete three-dimensional volume. It is mainly used alongside mammography, especially for women with dense breast tissue, where a denser background can hide lesions on a standard mammogram. The examination is comfortable, non-invasive and free of ionising radiation, making it a valuable additional layer in breast screening and assessment.

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DSA Digital Subtraction Angiography

Digital subtraction angiography (DSA) is an advanced imaging method that shows the blood vessels throughout the body in fine detail. A thin catheter delivers a contrast agent into the arteries, and specialised computer processing strips away the surrounding bone and tissue so that only the vessels stand out sharply. It is used to detect vascular problems such as narrowing, aneurysm, malformation and abnormal connections in the brain, abdomen, skin and limbs. DSA is also the basis for many minimally invasive treatments, allowing a specialist to find and, in the same session, treat a vascular problem through a tiny entry point rather than open surgery.

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FibroScan

FibroScan is a non-invasive, ultrasound-based device that measures how stiff the liver is, which reflects the degree of scarring, or fibrosis, and at the same time estimates the amount of fat in the liver. It offers a fast, painless alternative to a liver biopsy, with no incision or needle, and it assesses a larger area of the organ than a tiny tissue sample would. A probe is simply placed on the skin over the liver while the patient lies down, and a numerical result is available within minutes. It is widely used to detect and follow liver conditions and to guide and monitor treatment.

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PET-CT

PET-CT is an advanced hybrid imaging method that combines positron emission tomography with computed tomography in a single scan, mapping both the metabolic activity and the anatomical structure of the body at once. A small dose of a radioactive tracer, often a glucose analogue, is injected and gathers in cells that are working harder than normal, which is typical of many tumours. Because it can show where a disease is active before it changes the shape of an organ, PET-CT is one of the most valuable tools for detecting cancer, working out how far it has spread, and checking whether treatment is working.

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Q-Switched Laser

The Q-switched laser is a dermatological laser that fires extremely short, very high-energy pulses of light, measured in billionths of a second, to shatter pigment in the skin. Because the burst is so brief and powerful, it breaks up dark pigment and tattoo ink into tiny fragments while leaving the surrounding skin largely unharmed. The body then carries those fragments away naturally over the following weeks. This makes the Q-switched laser the standard tool for removing unwanted pigmentation and tattoos and for refreshing uneven, sun-damaged skin, with little downtime between sessions.

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TrueBeam STx

TrueBeam STx is an advanced linear accelerator, a machine that delivers external radiotherapy to treat cancer with very high precision. It shapes powerful radiation beams to match the exact size and shape of a tumour and aims them from many angles, so that a strong dose reaches the target while nearby healthy tissue and organs receive as little as possible. Because it tracks the target and can account for movement such as breathing, it is accurate to within millimetres. This makes it suitable both for conventional, daily radiotherapy and for advanced focused techniques that treat a tumour in only a few sessions. The treatment is non-invasive and painless, with nothing entering the body.

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3 Tesla MRI

3 Tesla MRI is a high-field magnetic resonance imaging scanner that produces exceptionally detailed pictures of the inside of the body. The "3 Tesla" refers to the strength of its magnet, which is about twice that of a standard MRI scanner, and this extra power allows sharper, higher-resolution images, often in less time. Like all MRI, it uses a strong magnetic field and radio waves rather than X-rays, so there is no ionising radiation involved. It is especially valuable for examining the brain, the nervous system, joints and soft tissues, helping doctors detect and characterise problems that may be hard to see on other scans.

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Whole Body MRI

Whole body MRI examines the entire body in a single session, from the head down to the upper legs and sometimes the feet, producing one connected set of detailed images. It uses a strong magnetic field and radio waves rather than X-rays, so the examination involves no ionising radiation. By covering many organs and regions at once, it offers a broad overview that can pick up disease at an early stage. This makes it useful both as a screening tool for people who want a thorough check and as a way to look at conditions that may affect more than one part of the body.

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Tomosynthesis Mammography (3D Mammography)

Tomosynthesis mammography, often called 3D mammography, is an advanced form of digital mammography that builds a three-dimensional picture of the breast from a series of thin layers. Instead of a single flat image in which overlapping tissue can hide or mimic a problem, it lets the radiologist scroll through the breast slice by slice on a high-resolution screen. This makes small lesions and tumours easier to see and helps distinguish real findings from harmless overlapping tissue, which is especially valuable for screening and for women with dense breasts.

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Endoscopic Ultrasound (EUS)

Endoscopic ultrasound (EUS) combines endoscopy and ultrasound in a single thin instrument, allowing the deeper layers of the digestive tract and the organs and tissues around it to be examined in detail. By placing a tiny ultrasound probe at the tip of an endoscope and guiding it inside the body, very close to the area of interest, it produces highly detailed images of structures such as the pancreas, bile ducts and nearby lymph nodes that can be hard to see from the outside. When needed, a fine needle can take a sample for the laboratory during the same procedure, all without any surgical incision.

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Robotic Arm-Assisted Orthopedic Surgery

Robotic arm-assisted orthopedic surgery is a technology used mainly in knee and hip replacement to plan and carry out the operation with very high accuracy. A detailed three-dimensional plan is built from the patient's own CT scan, and during surgery a robotic arm guides the surgeon's instruments so that bone is prepared and the implant is positioned to that exact plan. The surgeon always holds and directs the instrument; the robotic arm adds steadiness and built-in limits that protect the surrounding tissue. The aim is a joint that fits and balances well, which can mean less pain and a smoother recovery.

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Dual-Energy CT

Dual-energy CT is an advanced form of computed tomography that scans the body at two different X-ray energy levels at the same time. A standard CT uses a single energy and shows mainly the shape and density of tissues, but by comparing how structures behave at two energies, dual-energy CT can tell different materials apart far more precisely. This added information helps doctors characterise what they see, such as distinguishing one type of tissue or deposit from another, and it can often be achieved with less contrast agent and a lower radiation dose. It uses X-rays, as all CT does, but with techniques designed to keep exposure low.

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Location

Atatürk Mah. Turgut Özal Bulvarı, A Blok No:11, 34758 Ataşehir/İstanbul

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Accreditations

  • JCI

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