We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

HospiMedica

Download Mobile App
Recent News Medica 2024 AI Critical Care Surgical Techniques Patient Care Health IT Point of Care Business Focus

Biodegradable Balloon to Revolutionize Rectal Protection from Toxicity during Prostate Cancer Radiation Therapy

By HospiMedica International staff writers
Posted on 30 Aug 2023

Prostate cancer stands as the most common non-skin cancer detected in men and ranks as the second leading cause of male cancer-related deaths, following lung cancer. With a prevalence of 1 in 9 men receiving a prostate cancer diagnosis during their lifetime, over 1.4 million men are globally diagnosed annually. The course of prostate cancer treatment hinges on various factors including cancer growth rate, extent of spread, overall patient health, and potential treatment benefits or side effects. Treatment options like surgery or radiation may be recommended based on evolving test results. However, prostate radiation therapy often leads to a concerning issue – rectal toxicity, a consequence of the close proximity between the prostate and rectum. Despite advanced technology and precise planning, prostate movement during sessions exposes parts of the rectal wall to high radiation doses, resulting in rectal toxicity or proctitis. Hence, there is a strong need for a solution that protects the rectum from the detrimental effects of high-dose radiation. Now, a biodegradable balloon dramatically reduces the chance of rectal toxicity by protecting the adjacent healthy tissues from harmful radiation, thereby minimizing adverse procedural events.

BioProtect Ltd.’s (Tzur Yigal, Israel) BioProtect Balloon Implant System is an implantable, biodegradable balloon that creates a defined, enclosed distance to minimize radiation exposure to the rectum during prostate radiation therapy. Through its distinct design, the new generation balloon achieves up to 18mm separation between the rectal wall and the treatment area prior to initiating radiation therapy. The implantation process involves a minimally invasive, needle-free insertion technique for guiding the balloon using ultrasound with either local or general anesthesia. Once in place between the prostate and rectum, the balloon is filled with sterile saline and positioned to achieve its final, well-defined configuration.


Image: The BioProtect Balloon Spacer protects adjacent healthy tissues from harmful radiation (Photo courtesy of BioProtect)
Image: The BioProtect Balloon Spacer protects adjacent healthy tissues from harmful radiation (Photo courtesy of BioProtect)

By maintaining a consistent separation between the prostate and rectum, the balloon remains visible across various imaging modalities including CT, MRI, and ultrasound. It forms a protective barrier, allowing for safe radiation therapy. The balloon maintains its size and shape within the body throughout the radiation course, naturally biodegrading over time (typically within six months after implantation), thus negating the need for a separate removal procedure. The BioProtect Balloon Implant System has received clearance from the US FDA.

"We believe that our balloon has the potential to revolutionize rectal protection from toxicity during prostate cancer radiation therapy," said Itay Barnea, CEO of BioProtect. "Not only does it provide better protection to healthy organs, it also supports dose escalation and hypofractionation, which are leading trends in prostate cancer radiation therapy."

Related Links:
BioProtect Ltd. 


New
Gold Member
X-Ray QA Meter
T3 AD Pro
Gold Member
12-Channel ECG
CM1200B
New
Catheters
Camino 1104B Series
New
Hand Fixation Device
Hand Fixation Device

Latest Surgical Techniques News

Minimally Invasive Surgical Technique Creates Anastomosis Without Leaving Foreign Materials Behind

Second Generation Robotic Platform Introduces Haptic Feedback and Dual-Mode Articulation

Novel 3D Printed Scaffolds Ensure Better Healing and Regeneration of Bone Tissue