3.0 Tesla MRI Scanner
MRI is Magnetic Resonance Imaging that uses magnetic field and radio waves to create detailed images of the organs and tissues within one's body. Unlike X-rays and Computed Tomographic (CT) scans, MRI is a safe non-invasive imaging method that does not involve X-ray Radiation. An MRI scan is superior to the Computed Tomography (CT) scan in depicting the soft tissue detail.
Aquilion 1 640 Slice 4D CT Scan
Introduced in November 2007, dynamic volume CT scans an entire organ in a single pass and produces 4D videos that show an organ’s structure, its movement and blood flow. In comparison, a 64-slice, 128-slice or 256-slice CT scan can only capture a portion of an organ in a single pass, requiring physicians to “stitch together” multiple scans of an organ to get a full image. The new technology helps reduce multiple exposures to radiation and exam time.
Da Vinci Surgical System
You've just been diagnosed with a condition requiring surgery. Until very recently your options included traditional surgery with a large open incision or laparoscopy, which uses small incisions but is typically limited to very simple procedures.
Thanks to a breakthrough surgical technology, there is a new category of minimally invasive surgery for which you may be a candidate. It is an effective, minimally invasive alternative to both open surgery and laparoscopy. Through the use of the da Vinci ® Surgical System, surgeons are now able to offer a minimally invasive option for complex
surgical procedures.
Imagine major surgery performed through the smallest of incisions. Imagine having the benefits of a definitive treatment but with the potential for significantly less pain, a shorter hospital stay, faster return to normal daily activities – as well as the potential for better clinical outcomes.
With the da Vinci Surgical System, surgeons and hospitals are re-writing accepted standards for surgical care. da Vinci is changing the experience of surgery.
da Vinci is changing the experience of surgery for the surgeon, the hospital, and most importantly for the patient.
Thanks to a breakthrough surgical technology, there is a new category of minimally invasive surgery for which you may be a candidate. It is an effective, minimally invasive alternative to both open surgery and laparoscopy. Through the use of the da Vinci ® Surgical System, surgeons are now able to offer a minimally invasive option for complex
surgical procedures.
Imagine major surgery performed through the smallest of incisions. Imagine having the benefits of a definitive treatment but with the potential for significantly less pain, a shorter hospital stay, faster return to normal daily activities – as well as the potential for better clinical outcomes.
With the da Vinci Surgical System, surgeons and hospitals are re-writing accepted standards for surgical care. da Vinci is changing the experience of surgery.
da Vinci is changing the experience of surgery for the surgeon, the hospital, and most importantly for the patient.
Tomo Therapy Machine
TomoTherapy users have the unique ability to:
Use daily CT imaging to guide treatment based on patient anatomy for that day, rather than for last week or last month
360º delivery. Conventional machine design allows radiation to be delivered from only a few directions. The TomoTherapy treatment system’s linear accelerator (linac) is mounted to a CT scanner-like ring gantry, which means TomoTherapy treatments can be delivered continuously, from all angles around the patient. More beam directions give physicians more control in how they plan treatments—and more assurance that dose will be confined to the tumor, reducing the risk of short- and long-term side effects.
Thousands of targeted beamlets. The TomoTherapy treatment system uses a patented multi-leaf collimator (MLC) that divides the radiation beam into beamlets, all aimed at the tumor. Typically, tens of thousands of beamlets are used in a single TomoTherapy treatment session. Powerful software optimizes the contribution of each one to the total tumor dose, minimizing exposure to healthy tissue.
Use daily CT imaging to guide treatment based on patient anatomy for that day, rather than for last week or last month
- Customize delivery for each patient, surrounding the target with highly-precise radiation delivered from all angles
- Minimize radiation exposure to healthy tissue
- If necessary, adapt the treatment plan at any point
360º delivery. Conventional machine design allows radiation to be delivered from only a few directions. The TomoTherapy treatment system’s linear accelerator (linac) is mounted to a CT scanner-like ring gantry, which means TomoTherapy treatments can be delivered continuously, from all angles around the patient. More beam directions give physicians more control in how they plan treatments—and more assurance that dose will be confined to the tumor, reducing the risk of short- and long-term side effects.
Thousands of targeted beamlets. The TomoTherapy treatment system uses a patented multi-leaf collimator (MLC) that divides the radiation beam into beamlets, all aimed at the tumor. Typically, tens of thousands of beamlets are used in a single TomoTherapy treatment session. Powerful software optimizes the contribution of each one to the total tumor dose, minimizing exposure to healthy tissue.
Green Light Laser Therapy
So you have an Enlarge Prostate
GO FOR THE GREEN
Green Light Laser Therapy is the solution to get you back on course.
Ask Us today.
GO FOR THE GREEN
Green Light Laser Therapy is the solution to get you back on course.
Ask Us today.
- Erectile Dysfunction (ED) reported probability is less than 1%
- Virtually Bloodless Procedure
- Quicker recovery to Work and Normal activities
- Over 200,00 Patients Treated Worldwide
CyberKnife Cancer Treatment
CyberKnife® is a non-invasive, precisely-targeted form of stereotactic radiosurgery which provides a new option to surgical treatment of cancer. This state-of-the-art system, which uses real-time tumour tracking 3D robotic radiosurgery, is able to reach areas of the body previously thought untreatable or inoperable.
Fine beams of high energy radiation are fired from multiple trajectories outside the body and focused precisely on the tumour or lesion inside; leaving surrounding healthy tissue unharmed. Therefore, it is suitable for use on tumours adjacent to critical structures such as the brain; or on tumours in the spine, prostate, lung, liver, or pancreas. The robotic arm
eliminates the need for a headframe to be applied on the patient, thus
making it a painless procedure.
In addition, the CyberKnife® cancer treatment technology is able to accurately target moving tumours, such as lung cancers, which shift with the breathing of the patient. This avoids the need for the patient to hold his/her breath and allows for a speedy cancer treatment. With no anaesthesia or incisions for surgery, a majority of individuals who undergo CyberKnife® cancer treatment are able to resume their daily activities almost immediately after the procedure.
Fine beams of high energy radiation are fired from multiple trajectories outside the body and focused precisely on the tumour or lesion inside; leaving surrounding healthy tissue unharmed. Therefore, it is suitable for use on tumours adjacent to critical structures such as the brain; or on tumours in the spine, prostate, lung, liver, or pancreas. The robotic arm
eliminates the need for a headframe to be applied on the patient, thus
making it a painless procedure.
In addition, the CyberKnife® cancer treatment technology is able to accurately target moving tumours, such as lung cancers, which shift with the breathing of the patient. This avoids the need for the patient to hold his/her breath and allows for a speedy cancer treatment. With no anaesthesia or incisions for surgery, a majority of individuals who undergo CyberKnife® cancer treatment are able to resume their daily activities almost immediately after the procedure.
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