• 5, Moulvi Bazar, Dhaka – 1211, Bangladesh.

High Energy Medical Electron Linear Accelerator

The High Energy Medical Electron Linear Accelerator by Shinva is an advanced radiation therapy device engineered to provide precise and effective treatment for various types of cancer. Shinva, a leader in the medical equipment industry, has developed this linear accelerator to deliver high-energy electron and photon beams with exceptional accuracy. This technology is essential for modern oncology practices, offering enhanced treatment capabilities while minimizing exposure to surrounding healthy tissues.

Key Features of High Energy Medical Electron Linear Accelerator

1. High-Energy Electron and Photon Beams:
• Energy Range: Capable of producing electron beams ranging from 4 MeV to 25 MeV and photon beams at energies such as 6 MV and 10 MV, offering versatility in treating different tumor depths and types.
• Dual Energy Modes: The ability to switch between electron and photon modes enables tailored treatment plans to optimize therapeutic outcomes.
• Precision and Accuracy:
• Advanced Imaging Systems: Integrated imaging technologies like cone-beam CT (CBCT) and onboard imaging (OBI) provide real-time visualization of the treatment area, ensuring precise patient positioning and accurate radiation delivery.
• Multi-Leaf Collimator (MLC): A high-resolution MLC system shapes the radiation beam to conform to the tumor's shape, sparing adjacent healthy tissues and critical structures.
2. Versatile Treatment Modalities:
• Intensity-Modulated Radiation Therapy (IMRT): Allows modulation of radiation intensity within the treatment field, optimizing dose distribution to the tumor while reducing exposure to surrounding healthy tissues.
• Volumetric Modulated Arc Therapy (VMAT): Delivers radiation in a continuous arc around the patient, enhancing dose conformity and reducing treatment time.
• Stereotactic Radiosurgery (SRS) and Stereotactic Body Radiotherapy (SBRT): Provides high-dose radiation treatments in fewer sessions, suitable for treating small, well-defined tumors with precision.
3. User-Friendly Interface:
• Intuitive Control System: The accelerator features a user-friendly interface that simplifies treatment planning and delivery. The system is designed for easy operation, reducing the learning curve for clinicians.
• Automated Workflow: Incorporates automated processes to streamline treatment delivery, enhancing efficiency and reducing the potential for human error.
4. Patient Safety and Comfort:
• Real-Time Monitoring: Continuous monitoring of patient and treatment parameters ensures safety and allows for immediate adjustments if needed.
• Comfort Features: Designed with patient comfort in mind, the system includes a comfortable treatment couch and efficient delivery to minimize the time patients spend in the treatment position.
5. Advanced Dose Calculation and Delivery:
• Accurate Dosimetry: Utilizes advanced algorithms for precise dose calculation, ensuring optimal treatment effectiveness.
• Adaptive Radiation Therapy (ART): Allows for adjustments in the treatment plan based on changes in the patient’s anatomy over the course of treatment, enhancing the ability to adapt to tumor shrinkage or patient weight changes.

Applications of High Energy Medical Electron Linear Accelerator

1. Head and Neck Cancers:
• Precisely targets complex anatomical structures in the head and neck area, sparing critical organs such as the salivary glands and spinal cord.
2. Breast Cancer:
• Delivers targeted radiation to the breast tissue, minimizing exposure to the heart and lungs, particularly useful in treating left-sided breast cancer.
3. Prostate Cancer:
• Provides highly conformal radiation doses to the prostate while minimizing exposure to surrounding tissues such as the bladder and rectum.
4. Lung Cancer:
• Effectively treats tumors in the lung with precision, reducing the risk of damaging healthy lung tissue and other critical structures.
5. Gastrointestinal Cancers:
• Targets tumors in the gastrointestinal tract with accuracy, crucial for treating cancers in organs such as the pancreas, liver, and rectum.
6. Gynecological Cancers:
• Treats cancers of the cervix, uterus, and ovaries with precise radiation delivery, sparing nearby organs such as the bladder and intestines.
7. Central Nervous System (CNS) Tumors:
• Delivers targeted radiation to brain and spinal tumors, minimizing exposure to healthy brain tissue and critical neurological structures.
8. Skin and Superficial Tumors:
• Uses electron beams to treat tumors located at or near the skin surface, allowing for high-dose radiation to the tumor while sparing deeper tissues.

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