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Astrocytoma Surgery in Turkey

An astrocytoma is a type of glioma arising from the astrocytes, the star-shaped support cells of the brain. 'Astrocytoma' is not a single disease: it spans a broad spectrum from slow-running low-grade tumors to far more aggressive high-grade tumors. For this reason the treatment plan is built individually according to the tumor's grade and molecular markers such as IDH; the same 'astrocytoma' diagnosis can mean a completely different course in two patients. This page explains, in measured terms, the place of surgery in astrocytoma, which tumor needs additional treatment, and realistic expectations, for patients reaching us from every part of Turkey and abroad.

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What Is an Astrocytoma and Why Do Grades Matter?

An astrocytoma develops from the astrocyte cells that nourish and protect the brain, and its behaviour is determined by its 'grade'. In current classification, astrocytomas are usually graded from low to high (grade 2, 3 and 4) within the group carrying an IDH gene mutation; tumors without an IDH mutation that behave like glioblastoma are dealt with in a separate category. A low-grade astrocytoma grows slowly, may cause symptoms over years and is often seen in younger people; a high-grade astrocytoma grows fast and requires more aggressive treatment. So saying 'I have an astrocytoma' is not enough information on its own; the real determinant is the tumor's grade and molecular profile. This information becomes clear only by examining tissue taken at surgery or biopsy.

Symptoms and Diagnosis

The symptoms of an astrocytoma vary with the tumor's grade, size and location. In low-grade tumors the most common first sign is an epileptic seizure appearing in a person with no other complaint; a slowly progressive headache, mild loss of strength or difficulty speaking can also occur. In high-grade tumors symptoms appear and worsen faster. Contrast-enhanced brain MRI is the basic tool in diagnosis; a low-grade astrocytoma usually appears as a non-enhancing or minimally enhancing area, while a high-grade astrocytoma appears as an irregularly enhancing mass with surrounding oedema. Perfusion MRI and MR spectroscopy help predict the grade, but the definitive diagnosis and grade are made only by pathological and molecular examination.

The Place of Surgery: 'Maximal Safe Resection'

The first and often most important step in astrocytoma treatment is surgery. The aim is to remove the tumor as widely as possible while preserving functional brain tissue (speech, movement, vision) — this is called 'maximal safe resection'. The volume of tumor removed favourably affects both seizure control and the course of the disease, especially in low-grade and IDH-mutant astrocytoma. For tumors near functional areas, techniques such as awake craniotomy, neuronavigation, functional MRI and DTI tractography map risky areas and improve safety. Another critical aim of surgery is to obtain enough quality tissue for a correct molecular diagnosis, because the rest of treatment is shaped by these results. For deep-seated tumors not suited to surgery, a diagnostic biopsy is performed.

After Surgery: Which Tumor Needs Additional Treatment?

Treatment after surgery is determined by the tumor's grade and molecular features. In some completely resectable low-grade astrocytomas in a young patient, close MRI follow-up may be enough; in incompletely resectable or high-risk low-grade tumors, radiotherapy followed by chemotherapy (for example PCV or temozolomide) is added. In high-grade astrocytomas the standard is radiotherapy and chemotherapy after surgery; in IDH-wildtype tumors that behave like glioblastoma, treatment is more intensive. The plan is always set in a multidisciplinary board where the neurosurgeon, radiation and medical oncologists evaluate together. During treatment, seizure control, follow-up imaging and neurological monitoring are maintained regularly.

Realistic Expectations

The course of an astrocytoma varies over a very wide range according to the tumor's grade and IDH status, so framing a single expectation would be misleading. In IDH-mutant low-grade astrocytoma, a good quality of life over many years may be possible with appropriate surgery and follow-up; however, because these tumors can rise in grade over time, follow-up is lifelong. In high-grade and IDH-wildtype astrocytoma the course is more difficult, and the goal is to keep the disease under control while preserving quality of life. In no case is a guaranteed outcome promised; expectations are shared openly with the patient and family once the tumor's true grade and molecular profile are known. Correct and honest information is an inseparable part of the treatment process.

Sources

1Greenberg MS. Greenberg's Handbook of Neurosurgery. 10th ed. Thieme; 2023:660.
2Osborn AG, Hedlund GL, Salzman KL. Osborn's Brain: Imaging, Pathology, and Anatomy. 2nd ed. Elsevier; 2018:509.
3Louis DN, et al. The 2021 WHO Classification of Tumors of the Central Nervous System. Neuro Oncol. 2021.
4Weller M, et al. EANO guidelines on the diagnosis and treatment of diffuse gliomas of adulthood. Nat Rev Clin Oncol. 2021.
📚 Read our encyclopedia article for a detailed, fully-referenced medical explanation

よくある質問

Is an astrocytoma malignant (cancer) or benign?

This depends on the tumor's grade. A low-grade astrocytoma runs a slow course but is not entirely 'benign' because it can rise in grade over time; a high-grade astrocytoma is aggressive and malignant. The true grade and behaviour become clear only by pathological and molecular examination of tissue taken at surgery or biopsy.

Is surgery essential in low-grade astrocytoma, or can it be watched?

In most cases the widest possible safe surgery is recommended, because the volume of tumor removed favourably affects both seizure control and the course of the disease. In selected very small, asymptomatic cases close MRI follow-up may be considered, but this decision is made multidisciplinarily according to the tumor's location, growth tendency and molecular profile.

Why does the IDH test matter?

The IDH gene status determines the astrocytoma's true type and overall course. IDH-mutant astrocytomas usually run a slower course and fall into a different treatment group; IDH-wildtype tumors behave like glioblastoma. This test is studied from the tissue taken at surgery and determines both the choice of treatment and realistic expectation.

I am out of town — can you review my file first?

Yes. Patients reach us from across Turkey and abroad. You can send your existing MRI/CT images and any pathology report via WhatsApp (+90 533 075 72 94) for a preliminary assessment. If appropriate, you will be invited for an examination and multidisciplinary planning.

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