The liver is the body’s silent powerhouse. It filters our blood, processes our nutrients, and detoxifies our system without us ever feeling it work. Because it is so resilient, it often suffers in silence. Liver cancer (Hepatocellular Carcinoma or HCC) frequently develops quietly, often against a backdrop of chronic conditions like Hepatitis or Cirrhosis.
By the time symptoms appear, the disease is often advanced, making it one of the most technically demanding cancers to treat. It requires a medical team that can not only attack the tumor but also preserve the delicate function of the organ itself.
At Liv Hospital, located at the intersection of Europe and Asia, the approach to liver cancer is defined by versatility. Recognizing that no two livers are alike, the hospital has assembled a toolkit that ranges from the curative power of transplantation to the microscopic precision of nuclear medicine.
The Ultimate Cure: Living Donor Liver Transplant
For many patients with liver cancer, particularly those with underlying cirrhosis, removing the tumor is not enough the “soil” itself is diseased. In these cases, the best chance for a long-term cure is a Liver Transplant.
Liv Hospital is home to a world-class Organ Transplantation Center, specializing in Living Donor Liver Transplants.
- The Challenge: Finding a deceased donor can take years time that cancer patients do not have.
- The Solution: In a living donor transplant, a piece of liver is taken from a healthy relative (the donor) and implanted into the patient. Because the liver has the unique ability to regenerate, it grows back to full size in both the donor and the recipient within weeks.
This procedure is complex and high-stakes, but for eligible patients, it offers the only true “reset button” available in oncology.
The “Search and Destroy” Mission: TARE (Yttrium-90)
Not all patients are candidates for surgery or transplant. For them, Liv Hospital’s Interventional Radiology department offers a futuristic alternative: Transarterial Radioembolization (TARE).
Think of this as an “inside job.”
- The Entry: Doctors insert a catheter into the artery in the groin and thread it up to the liver.
- The Attack: They release millions of microscopic glass or resin beads loaded with a radioactive isotope called Yttrium-90.
- The Impact: These beads get trapped in the tiny blood vessels feeding the tumor. They cut off the tumor’s blood supply and emit high-dose radiation from the inside out.
This “double punch” kills cancer cells while sparing the healthy liver tissue that surrounds them, a critical advantage over external radiation.
The Chemical Blockade: TACE
Similar to TARE, Liv Hospital also utilizes Transarterial Chemoembolization (TACE). Instead of radioactive beads, the catheter delivers a high concentration of chemotherapy directly into the tumor, followed by particles that block the artery.
This traps the chemotherapy inside the tumor, soaking it in poison while starving it of oxygen. It is frequently used to control tumors while patients wait for a transplant, or to extend life in those who cannot have surgery.
The Game Changer: MR-Linac Unity
One of the biggest problems in treating liver cancer with radiation is movement. The liver moves every time you breathe. Old radiation machines had to “guess” where the liver was, often hitting healthy tissue.
Liv Hospital solves this with the MR-Linac (Unity) system.
- Real-Time Vision: It is the first machine in the world to combine a high-power MRI scanner with a linear accelerator.
- The Benefit: Doctors can see the tumor while the radiation is being delivered. If the patient takes a deep breath and the tumor moves out of the target zone, the beam stops instantly.
This allows for Stereotactic Body Radiotherapy (SBRT) with sub-millimeter accuracy, safely ablating tumors that were previously considered “untreatable” due to their location near critical vessels.
Surgical Precision: Robotic Resection
For patients with a healthy liver and a localized tumor, surgical removal (resection) is the standard. Liv Hospital employs the da Vinci Xi Robotic System for these delicate operations.
Liver surgery is bloody by nature; the organ is essentially a sponge of blood vessels. The robotic system’s 3D magnification and tremor-free instruments allow surgeons to suture tiny vessels with extreme precision, significantly reducing blood loss and lowering the risk of post-operative liver failure.
The “Tumor Council” Verdict
Liver cancer is a disease of options, and choosing the wrong one can be fatal. A patient who could have been cured by a transplant might be rendered ineligible if they undergo the wrong type of surgery first.
That is why every case at Liv Hospital is adjudicated by the Hepatopancreatobiliary (HPB) Tumor Council.
- Is the tumor too large for ablation?
- Is the patient’s bilirubin level safe for TARE?
- Should we bridge to transplant with TACE?
This multidisciplinary board ensures that the treatment strategy is built on data, not guesses.
A Realistic Fight
Liver cancer is a formidable adversary. It requires a patient to be strong and a medical team to be smarter. Liv Hospital does not promise that the road will be easy. Recovery from liver surgery or transplant is grueling.
However, by offering the full spectrum of care from the biological renewal of a transplant to the nuclear precision of Yttrium-90 Liv Hospital ensures that patients are not fighting with one hand tied behind their back. In a battle this tough, having every available weapon matters