December 23, 2024

New Treatment Significantly Reduces Knee Pain Without Surgery

The research study examined discomfort reduction for 36 patients using the visual analog scale (VAS) and the Western Ontario McMaster Universities Osteoarthritis (WOMAC) pain scale. Researchers evaluated whether pain decrease levels were influenced by demographics and scientific attributes, such as age, gender, body mass index, history of previous surgery and history of fibromyalgia.
After treatment, all research study participants experienced a statistically considerable reduction in discomfort. The biggest boost in performance and reduce in pain was taped for clients 50 and older compared to more youthful participants.
” Roughly one in 4 U.S. grownups have knee pain,” stated John B. Smirniotopoulos, M.D., an interventional radiologist at MedStar Georgetown University Hospital. “This treatment can offer much of those individuals an opportunity to enjoy everyday activities and regain a greater quality of life by reducing the discomfort that they experience daily.”
The researchers are currently performing long-lasting studies into this treatment that dive deeper into what other elements might anticipate how well the treatment will work. The very same treatment is likewise carried out with shoulder, hips and sacroiliac joints, where the spine connects to the hips.
Abstract 120: Genicular Nerve Radiofrequency Ablation: Is there a Predictor of Outcomes? K. Carrato, N. Jain, A. Eckert, M. Lamberti, C. Sutton, J. Sens, K. Horton, A. Khan, N. Tabori, G. Sivananthan, J. Smirniotopoulos. Annual Scientific Meeting, March 4-9, 2023. This abstract can be discovered at sirmeeting.org after the embargo time.

Genicular nerve radiofrequency ablation is a minimally intrusive treatment for knee discomfort due to osteoarthritis of the knee, and can significantly decrease discomfort, especially for grownups who are 50 and older. Interventional radiologists carry out genicular nerve radiofrequency ablation by image assistance to put probe needles next to the nerves of the knee that can send pain signals to the brain. The probes produce radio waves, developing a ball of heat to dull or destroy the discomfort nerve endings. After treatment, all study participants experienced a statistically significant decrease in discomfort. The biggest boost in functionality and reduce in pain was taped for patients 50 and older compared to more youthful individuals.

Genicular nerve radiofrequency ablation is a minimally invasive treatment for knee pain due to osteoarthritis. Current research to be provided at the Society of Interventional Radiology Annual Scientific Meeting in Phoenix suggests that this treatment can significantly minimize discomfort, particularly for grownups who are 50 and older.
Treatment improved lifestyle for all research study individuals.
Genicular nerve radiofrequency ablation is a minimally invasive treatment for knee discomfort due to osteoarthritis of the knee, and can substantially minimize discomfort, especially for grownups who are 50 and older. This is according to brand-new research to be presented at the Society of Interventional Radiology Annual Scientific Meeting in Phoenix. This is the very first time a research study has actually taken a look at client demographics, prior surgical history and other scientific attributes that may anticipate the level of pain decrease after treatment.
” We know this treatment has clear advantages in minimizing pain and enhancing the ability to do daily activities for patients,” stated Kaitlin Carrato, M.D., chief resident in interventional radiology at MedStar Georgetown University Hospital. “But now that we understand its especially practical for those over 50 years old, it might indicate that those with persistent discomfort conditions, like arthritis, would benefit more from this treatment than clients suffering sharp pain, such as an injury.”
Interventional radiologists carry out genicular nerve radiofrequency ablation by image guidance to put probe needles next to the nerves of the knee that can send pain signals to the brain. The probes generate radio waves, creating a ball of heat to dull or destroy the pain nerve endings.