UNMC Researcher Finds Popular Drug Used for Heart Attacks Effective in Dissolving Clots That Block Catheters

A researcher from the University of Nebraska Medical Center has determined

that a widely used drug for heart attacks is effective in restoring function

in catheters blocked by blood clots, a common medical problem that occurs

in about a million patients every year.

William Haire, M.D., and colleagues from 25 other centers nationwide

found that recombinant tissue plasminogen activator (rt-PA), also known

under the trade name Activase (Alteplase, recombinant), successfully dissolves

blood clots that block central venous access devices called catheters.

A catheter is a thin, silicon rubber tube that is surgically inserted into

large veins such as the jugular (in the neck), femoral (in the leg) or

subclavian vein (in the chest).

Dr. Haire will present his findings from the Cardiovascular Thrombolytic

to Open Occluded Lines (COOL) study Jan. 25 at the International Symposium

for Endovascular Therapy in Miami, Fla. Genentech, Inc., maker of the Activase,

funded the study.

The findings about the drugs effectiveness are important because surgery

currently is one of the few options for restoring flow to a clot-blocked

catheter. Urokinase, the only other drug used for this purpose, was withdrawn

from the market in 1999, creating a major problem for patients and practitioners.

About 5 million patients a year receive intravenous drug medication

through catheters for conditions including cancer, intestinal disease and

those who need long-term, high dose antibiotics. Catheter blockages prevent

patients from getting lifesaving medications and also prevent the drawing

of blood for diagnostic tests. Depending on medical needs, catheters can

be worn for short periods of time or up to several years.

It is estimated about 25 percent of patients will experience blocked

catheters. About 60 percent of those patients have blockages that involve

clots, Dr. Haire said. The other 40 percent are due to mechanical problems

such as kinks in the catheter.

Clots typically develop over time when fibrin, a naturally-occurring

substance that promotes blood coagulation, builds up within the body, near

the tip or along the catheter.

Blockages prevent aggressive, livesaving treatment from being given.

Without, in essence a spigot or faucet, aggressive life-saving treatments

simply couldnt be given, said Dr. Haire, UNMC professor of internal medicine

who specializes in hematology. Furthermore, surgery to remove a catheter

and install a new one is not a favorable option, especially for very sick

patients undergoing bone marrow transplants. Any surgical procedure poses

a significant health risk.

 

It isnt practical to use the patients own veins and puncture a vein

every time you need to give medication or withdraw blood for diagnostic

purposes. This damages the veins to the point where there may be no usable

veins in most people after a few weeks of therapy, he said.

Dr. Haire, who specializes in blot clots as well as catheter complications,

has published 30 articles on the subjects over the last 15 years, including

two in the New England Journal of Medicine and the Journal of the American

Medical Association.

The six-month COOL study was completed in May 2000. A total of 150 patients

with blocked catheters were enrolled in the randomized, double-blind study

to find out if Alteplase was effective in restoring function to catheters

blocked by clots.

Patients were separated into two groups. For ethical reasons, the study

was designed so all patients ultimately would receive Alteplase for their

blocked catheter.

In the control group, patients were given one dose of placebo a saline

solution — in their catheter. If catheter function was not restored, patients

then received one, 2 milligram dose of Alteplase. If catheter function

was not restored, patients then received a second dose. In this group,

researchers found 17.1 percent of the patients had their catheters working

after the placebo. But after one or two doses of drug, catheter function

was restored in 90 percent of patients.

We think the placebo worked in 17 percent of patients because the catheter

tip may have become kinked inside the vessel and it just straightened out

on its own. Or perhaps it was because we were injecting something, Dr.

Haire said.

In the other control group, patients first received a 2 milligram dose

of Alteplase, followed by another dose if the catheter remained blocked.

In this group, researchers found after just one dose of the drug, 73.9

percent of the patients catheters worked. Those who still had blockage

were given a second dose, restoring catheter function to 90 percent.

No serious drug-related adverse events were observed as a result of

treatment and there were no cases of intracranial hemorrhage, embolism

or serious drug-related reactions.

While a few patients who first received the placebo in this study did

have their catheters cleared, many more patients achieved full catheter

function with Alteplase, demonstrating the drug is vastly superior to placebo,

Dr. Haire said.

The importance of finding ways to dissolve clots caused by catheter

placement became evident when catheters came into widespread medical use

in the late 1970s and early 1980s. A variety of therapies were beginning

to be used for treatment of various types of cancers that all required

medications, transfusions and frequent blood draws, for treatments lasting

several weeks or months.

Dr. Haire has been working with Genentech since 1993 to conduct research

on Alteplases effectiveness in clearing clot-obstructed catheters. Based

on the COOL effectiveness study, another study has been conducted in 1,000

patients to determine the safety of the drug. Those results are expected

soon, Dr. Haire said.

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