Best Uterine Fibroid Treatment Doctors & Fibroid Center In Echo,Minnesota
Dr.Sherell Boggs, MD|
443 Border St.
Phone: (253) 573-6060
Business Hours: 8:00 am - 5:00 pm
By Appointment Only: yes
Accepts Insurance: no
Practice Areas: obstetrical care,gynecological care,Fertility
Dr.Audrea Oconnor, MD
8423 Bay Meadows Street
Business Hours: 8:00 am - 7:00 pm
By Appointment Only: no
Accepts Insurance: No
Practice Areas: Family Practice,Family Practice,obstetrical care
Dr.Amanda Arias, MD|
Echo Fertility Care
796 Lakeview St.
Phone: (675) 941-8565
Business Hours: 8:00 am - 8:00 pm
By Appointment Only: No
Accepts Insurance: Yes
Practice Areas: obstetrical care,Family Practice,Internal Medicine
Dr.Kerry Zimmerman, MD
Echo Family Practice
235 Halifax Street
Phone: (588) 406-6950
Business Hours: 9:00 am - 7:00 pm
By Appointment Only: no
Accepts Insurance: No
Practice Areas: gynecological care,Internal Medicine,Family Practice
Local Resources For Uterine Fibroid Treatment
Uterine Fibroids Natural Ayurvedic Home Remedies- Echo, Minnesota
Natural Ayurvedic Home Remedies for Uterine Fibroids. Eat 3 5 garlic cloves. Have it daily. Drink Green Tea every day. Have 23 cups of tea every day for few months. Mix together 1tsp each of Indian gooseberry powder and honey. Have this mixture early in the morning. Warm small quantity of Castor oil and apply it to the lower abdomen.
Do this regularly. Take 1 glass warm milk, add 1tsp turmeric powder, add 1tsp coriander powder, and add 1tsp triphala powder and Mix well. Drink 2 times a day. Drink Plenty of Water. Consume Raspberries. Uterine Fibroids â€“ Natural Ayurvedic Home Remedies.
Reshaping Interventional Radiology Webinar Magellan Robotics
Brian: Here's our agenda. We have three presenters today. Katzen will provide an introduction to intravascular robotics and discuss its current and future role in interventional procedures. Then, Sterling will provide insights from starting off an intravascular robotics program at Inova Alexandria in Virginia. And finally, Bagla will review the current state of prostatic artery embolization and share how robotics may play a role in the development of this emerging and very promising procedure. Then, we'll have the QA period at the end with all of our presenters. Our first presenter is Barry Katzen. Katzen is the founder and medical director.
Of Miami Cardio and Vascular Institute in Miami, FL. Katzen has been a leader in the development of interventional radiology, and multidisciplinary models for delivering cardiovascular care. He was awarded the gold medal for lifetime achievement by the Society of Interventional Radiology, and was the first American to receive the gold medal from the Cardiovascular and Interventional Radiological Society of Europe, or C.I.R.S.E. Throughout his career, Katzen has been a leader in the development of new, less invasive procedures for the treatment of vascular disease. He and his colleagues at MCVI have been pioneers in the al use of intravascular robotics. Katzen is currently a lead investigator.
On the Rover Registry, which is a postmarket, multi center study of al procedures performed globally with the Magellan Robotic System. Thanks for joining us today, Katzen, and I will now turn it over to you. Katzen: Thank you very much, Brian, and good afternoon, everyone. It's a pleasure for me to participate in this panel and share some of our experience and thoughts about intravascular robotics. If we can go to the next slide, please. Just by way of disclosure, I think you've had a chance to look at that or. Sorry, thank you. Next, please. So we became interested in vascular robotics looking at the increasing importance of robotics.
In health care in general, and looked at the potential of robotics as being able to reduce radiation exposure to patients, operators, and staff, perhaps providing improved precision and reducing the degree of vascular trauma associated with manual catheterization. It's a possible solution for those of us involved in medical education in training physicians of multiple disciplines who have less foundational training experience, and also has the potential to facilitate more complex procedures for operators who are missing this foundation. As we go to the next slide, we begin to see some of the components of the Magellan Robotic System. On your left is the robotic arm that stays on the patient's table side, and to.
Your right is the actual remote physician console. These can be coordinated both remotely on the table side. In this animation, you can see at first the robotic remote animation, and this is the robotic arm on the table involving the components that allow us to steer the device. We have the ability to controle the guidewire in multiple directions, including advancement and rotation, as you see here, as the wire is held within this driving system that exists on the robotic arm. All of this can be controlled by this remote station. One of the other advantages of robotic catheterization is our ability to actually manipulate the catheter in three dimensions. We begin to think this way as we start to use robotics.
In terms of trying to drive through the center of the vessel versus tracking against the wall of the vessel as we advance the catheter and the devices. In the next slide, you'll see some of the movements that exist in the 6 French device. You can see here that that involves two points of motion: a curvilinear change at the distal end. And you can see how we're actually changing the shape into a reverse head hunter, a long multipurpose catheter, or something resembling a right coronory as we have multiple controls in these two bending sites. The concept with this 6 French is different than with the 9 French coaxial system becuase of these multiple bend points and the ability to actually obtain.
The distal sweep in 360 degrees, as you see in this table top demonstration. Here you can see the three principal catheters that exist right now from a commercial point of view: the fundamental 9 French catheter, which involves a 6 French intraluminal sheath, and a 6 French sheath and a leader catheter, the 6 French device in the middle, which is the one you just saw the animation of, and then the next generation product which we should see soon, which also involves the movable sheath, and the distal leader catheter. This will allow, essentially, the introduction of any type of therapeutic device that will fit through a 7 French sheath. The 9 French allows the equivalent of any 6 French IV delivery.