Описание

Blood platelets are cells that provide hemostasis, stopping blood flow and thus ensuring that blood will not leak through any small damage of the blood vessel that might occur. The hemostatic reaction starts with platelet activation, triggered when the platelets sense stimuli endemic to the environment outside of the blood vessel. The study of platelet activation is important, as this process plays a significant role in many pathological conditions. In work published this year, we introduced an optical method that can provide a superior insight into the dynamics of platelet activation.

Предмет

Blood platelets are cells that provide hemostasis, stopping blood flow and thus ensuring that blood will not leak through any small damage of the blood vessel that might occur. The hemostatic reaction starts with platelet activation, triggered when the platelets sense stimuli endemic to the environment outside of the blood vessel. The study of platelet activation is important, as this process plays a significant role in many pathological conditions. In work published this year, we introduced an optical method that can provide a superior insight into the dynamics of platelet activation.

Период1 дек 2020

Материалы СМИ

1

Материалы СМИ

  • ЗаголовокActivating Blood Platelets with an Optical Pulse
    Степень признанияМеждународная
    Название СМИOptics and photonics
    Тип подачи информацииВеб
    СтранаСоединенные Штаты Америки
    Дата публикации01.12.2020
    ОписаниеBlood platelets are cells that provide hemostasis, stopping blood flow and thus ensuring that blood will not leak through any small damage of the blood vessel that might occur. The hemostatic reaction starts with platelet activation, triggered when the platelets sense stimuli endemic to the environment outside of the blood vessel. The study of platelet activation is important, as this process plays a significant role in many pathological conditions. In work published this year, we introduced an optical method that can provide a superior insight into the dynamics of platelet activation.
    ПерсоныДарья Вадимовна Спирёва, Алексей Юрьевич Воробьев, Вадим Валерьевич Климонтов, Елена Анатольевна Королева, Александр Ефимович Москаленский