News Release

Gelatin-based nanoparticle treatment may be a more effective clot buster

Peer-Reviewed Publication

American Heart Association

A targeted, nanoparticle gelatin-based clot-busting treatment dissolved significantly more blood clots than a currently used drug in an animal study of acute coronary syndrome presented at the American Heart Association's Scientific Sessions 2011.

The new drug-delivery system used gelatin to deactivate the clot-busting drug tissue plasminogen activator, or tPA, to treat acute coronary syndrome. Soundwaves were then used to reactivate tPA once it reached the blood clot. It is considered a stealth approach because tPA doesn't act until it has reached its target.

"When tPA is mixed with gelatin and administered in the form of nanoparticles, it reduces tPA activity. Inactivation of tPA during circulation is very important to reduce bleeding complications," said Yoshihiko Saito, M.D., senior author and professor and cardiologist at Nara Medical University in Kashihara, Japan.

This gelatin-based drug-delivery system could potentially treat patients with chest pain en route to the hospital via ambulance.

Traditionally, tPA is administered in the hospital, injected through a vein in the arm or a catheter inserted into the groin and guided directly into the blocked vessel.

Prompt clot-busting therapy, or thrombolysis, restores blood flow to the heart and can often prevent death. When a clot completely blocks a blood vessel, the recommended treatment is emergency angioplasty, when a tiny metal mesh tube is inserted into the artery to prop it open. However, about half of the patients who die from acute coronary syndrome do not reach the hospital in time to receive appropriate therapy.

"This drug delivery system aims to quickly restore blood flow. Restoring blood flow reduces tissue damage and improves the prognosis," Saito said.

The body naturally produces tPA, which helps prevent blood clots by inhibiting certain proteins involved in the clotting process. Gelatin also binds these proteins – in particular the von Willebrand factor, which in this study responded to gelatin combined with tPA, but not to tPA alone.

Tracking the drug using radioactive tPA, scientists analyzed blood clots in animals and found three times more nanoparticle tPA than regular isolated tPA. Thirty minutes after administerting drugs in a different animal model, blood flow was partially or completed restored in:

  • 10 percent with tPA alone;
  • 40 percent with tPA and ultrasound; and
  • 90 percent with drug-delivery system of tPA /nanoparticle and ultrasound.

Acute coronary syndrome — when blood flow to the heart decreases abruptly — affects up to 1.2 million Americans each year. This includes chest pain and heart attacks.

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Co-authors are Hiroyuki Kawata, M.D.; Tsunenari Soeda, M.D.; Yasuhiro Takemoto, M.D.; Ji-Hi Sung, M.D.; Yoshiko Uesugi, B.Sc.; Yasuhiko Tabata, Ph.D.; Kiyotaka Umaki, Ph.D.; Keiji Kato, Ph.D.; and Shiro Uemura, M.D. Author disclosures are on the abstract.

Statements and conclusions of study authors published in American Heart Association scientific journals are solely those of the study authors and do not necessarily reflect the association's policy or position. The association makes no representation or guarantee as to their accuracy or reliability. The association receives funding primarily from individuals; foundations and corporations (including pharmaceutical, device manufacturers and other companies) also make donations and fund specific association programs and events. The association has strict policies to prevent these relationships from influencing the science content. Revenues from pharmaceutical and device corporations are available at www.heart.org/corporatefunding.


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