Ommaya 3T is generally considered safe for use in appropriate clinical settings, as it is designed for the delivery of medications directly to the cerebrospinal fluid. However, like any medical procedure or device, it carries potential risks and complications, such as infection, bleeding, or catheter malfunction. The safety largely depends on patient selection, the specific medical condition being treated, and the expertise of the healthcare provider. It's essential for patients to discuss potential benefits and risks with their healthcare team.
The expression (3t \times 3t) can be simplified by multiplying the coefficients and the variable separately. First, multiply the coefficients: (3 \times 3 = 9). Then, multiply the variable (t) by itself: (t \times t = t^2). Therefore, the result is (9t^2).
The answer to the math question Cos 5t cos 3t -square root 3 2 - sin 5t cos 3t equals 0. In order to find this answer you will have to find out what each letter is.
3 tons (3T) is equal to 6,000 pounds, since 1 ton is equivalent to 2,000 pounds. Therefore, 3T is greater than 5,999 lb.
-3t
If you mean: 9t^2 +12t +4 then it is (3t+2)(3t+2) when factored
The ommaya Reservoir is safe to a 1.5Tesla-strength scanner. That is the most common scanner in most facilities, though 3Tesla+ are becoming more prevalent. 4/2/2010
Ayub K. Ommaya died on 2008-07-11.
Ayub K. Ommaya was born on 1930-04-14.
An Ommaya Reservoir is a catheter that extends from the surface of the skull to an area inside the brain. It is used to deliver drugs directly to the cerebrospinal fluid. Diseases like brain tumors and leukemia are sometimes treated via an Ommaya Reservoir. The device is named after its founder, Ayub K. Ommaya.
61215
3t - 15 = -9 3t - 15 (+15) = -9 (+15) 3t = 6 3t (/3) = 6 (/3) t = 2
3t+11 = 29 3t = 29-11 3t = 18 t = 6
62365
until it malfunctions
3t in lb.
5-3t = 0.77 -3t = 0.77-5 -3t = -4.23 t = 1.41
Yes, only metal objects cannot go into an MRI. My father invented the Ommaya reservior, he recently passed away. Alex