УЗИ сканер ALPINION MEDICAL SYSTEMS E-CUBE 15

  • УЗИ сканер ALPINION MEDICAL SYSTEMS E-CUBE 15

  • Производится
  • Экспертный
  • Стационарный
  • 4D в акушерстве
  • Постоянно-волновой допплер
  • Блок ЭКГ
  • Тканевый допплер
  • Анатомический М-режим
  • Стресс-ЭХО
  • Автоматический расчет комплекса интима-медиа

Ультразвуковой сканер E-CUBE 15 - оснащен инновационной технологией ALPINION. ALPINION выделяет три основополагающих качества E-CUBE 15:

  • совершенство визуализации
  • совершенство эргономики
  • совершенство рабочего процесса

Совершенство качества изображения:

Ультразвуковой сканер E-CUBE 15 обладает множеством автоматизированных функций, которые обеспечивают диагностическую точность и удобство для пользователей.


Для создания качественного серошкального изображения УЗИ сканер оснащен модулем оптимизации изображений (Optimal Imaging Suite OISTM), который представляет собой сочетание самых передовых технологий формирования изображений для превосходной гармонической визуализации, минимизации артефактов, увеличения четкости контуров органов и образований, и, в итоге, обеспечивающего более подробную и точную клиническую информацию.

  • Optimal Imaging Suite, встроенное программное обеспечение для автоматической обработки: оптимизирует изображение для определенных областей специализации, удаляет артефакты и увеличивает контраст между тканями и патологическими структурами.
  • FleXcan Architecture, уникальная платформа визуализации ALPINION, обеспечивает обработку эхо-сигнала, которая позволяет любому пользователю получать высококачественные изображения с неизменной легкостью и достоверностью.
  • FullSRI (органоспецифичный режим подавления спекл-шумов). Уникальная технология фильтрации спекл-шумов ALPINION (FullSRI) позволяет удалить артефакты и сделать изображение мелкозернистым, однородным, подчеркнуть контуры органов и образований, что всегда важно для безошибочной диагностики.


Совершенство рабочего процесса:

E-CUBE 15 обладает множеством автоматизированных функций, которые способствуют улучшению качества диагностики. Удобное программное обеспечение сокращает время сканирования и проведения измерений в различных областях ультразвуковой диагностики без потери качества диагностических данных и с максимальной эффективностью.

  • Auto IMT (автоматический расчет комплекса интима-медиа)
  • Auto trace PW (автоматический обсчет допплеровского спектра)
  • Xpeed™ (автоматическая оптимизация изображения в 2-D, цветных и допплеровских режимах)
  • Анатомический M-режим
  • Панорамное сканирование
  • Strain
  • Stress Echo
  • Auto EF
  • Специализированный пакет измерений

Премиальный набор датчиков:

Датчики премиального уровня E-CUBE 15 дают возможность каждому клиенту получать высококлассные изображения. Достигайте высоких профессиональных результатов с набором датчиков высокой плотности, включающих инновационную технологию обработки эхосигнала ALPNION. Технология формирования изображений ALPINION дополнена усовершенствованными монокристаллическими датчиками, которые являются стандартом для нашего оборудования премиум класса.


Crystal Signature:

Благодаря Crystal Signature, инновационной монокристаллической технологии ALPINION, эхо-сигнал характеризуется более высокой стабильностью и энергетической эффективностью, чем при использовании обычной пьезокерамической решетки, что обуславливает большую однородность изображения и повышает чувствительность в допплеровских режимах. В отличие от пьезокерамических материалов монокристаллы АLPINION обладают свойствами, которые понижают акустическое сопротивление в ультразвуковых датчиках, а, соответственно, позволяют увеличить разрешающую способность и глубину проникновения луча, повысить чувствительность, устранить ряд артефактов, сгладить изображение и снизить его зернистость.

  • Специализированные датчики высокой плотности
  • Бесштырьковые коннекторы датчиков

Совершенство эргономики и дизайна:

ALPINION создал стандарт эргономичного дизайна, основанный на систематическом анализе потребностей пользователей, который обеспечивает оптимальные условия для диагностики.

  • 10.4" сенсорная панель и подъемный механизм консоли управления, обеспечивает оптимальные максимальное удобство для пользователя
  • 19" LED монитор и 10.4" сенсорная панель
  • Регулируемая высота и полностью автоматизированная консоль (1410 мм - 1730 мм)
  • вращение монитора 360 º
  • Эргономичное расположение клавиш
  • 5 активных портов для датчиков (включая порт для датчика карандашного типа)
  • Закрывающиеся порты датчиков
  • Встроенный подогрев геля.
Detectors
Detector <p><strong>Конвексные датчики</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td style="text-align: center;"><img data-filename="convex_SC1_6H.jpg" 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" style="width: 147px;"></td> <td><strong>SC1-6H</strong> Монокристаллический высокоплотный конвексный датчик <div class="stitle">Применение</div> Абдоминальная область, исследование почек, акушерство, сердце плода, гинекология, урология.</td> </tr> <tr> <td style="text-align: center;"><img data-filename="convex_SC1_4H.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>SC1-4H</strong> Монокристаллический высокоплотный конвексный датчик <div class="stitle">Применение</div> Абдоминальная область, исследование почек, акушерство, сердце плода, гинекология, урология.</td> </tr> <tr> <td style="text-align: center;"><img data-filename="convex_SC1_4HS.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>SC1-4HS</strong> Монокристаллический высокоплотный конвексный датчик <div class="stitle">Применение</div> Абдоминальная область, исследование почек, акушерство, сердце плода, гинекология, урология.</td> </tr> <tr> <td style="text-align: center;"><img data-filename="convex_C5_8.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>C5-8</strong> Микроконвексный датчик <div class="stitle">Применение</div> Абдоминальная область, педиатрия, неонатология, ветеринария, урология.</td> </tr> </tbody></table><p><strong>Линейные датчики</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td style="text-align: center;"><p>&nbsp;</p><img data-filename="linear_L8_17X.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L8-17X</strong> Супервысокоплотный линейный датчик <div class="stitle">Применение</div> Экстракраниальные сосуды, периферические сосуды, поверхностные органы и структуры, скелетно-мышечная система, неонаталогия, педиатрия.</td> </tr> <tr> <td style="text-align: center;"><img data-filename="linear_L3_12X.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L3-12X</strong> Супервысокоплотный линейный датчик <div class="stitle">Применение</div> Экстракраниальные сосуды, периферические сосуды, поверхностные органы и структуры, скелетно-мышечная система, неонаталогия, педиатрия.</td> </tr> <tr> <td style="text-align: center;"><p>&nbsp;</p><img data-filename="linear_L3_12H.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L3-12H</strong> Высокоплотный линейный датчик <div class="stitle">Применение</div> Экстракраниальные сосуды, периферические сосуды, поверхностные органы и структуры, скелетно-мышечная система, неонаталогия, педиатрия.</td> </tr> <tr> <td style="text-align: center;"><p>&nbsp;</p><img data-filename="linear_L3_8.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L3-8</strong> Линейный датчик <div class="stitle">Применение</div> Экстракраниальные сосуды, периферические сосуды, поверхностные органы и структуры, скелетно-мышечная система, неонаталогия, педиатрия.</td> </tr> </tbody></table><p><strong>Фазированные датчики</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td><div style="text-align: center;"><img data-filename="phased_SP3_8.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></div><p><br></p></td> <td><strong>SP3-8</strong> Монокристаллический фазированный датчик <div class="stitle">Применение</div> Абдоминальная область, кардиология, педиатрия.</td> </tr> <tr> <td><p><br></p><div style="text-align: center;"><img data-filename="phased_SP1_5X.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></div></td> <td><strong>SP1-5X</strong> Супервысокоплотный монокристаллический фазированный датчик. <div class="stitle">Применение</div> Абдоминальная область, кардиология, транскраниальные исследования, исследования почек.</td> </tr> </tbody></table><p><strong>4D конвексные</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td><div style="text-align: center;"><img data-filename="volume_SVC1_6H.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></div></td> <td><strong>SVC1-6H</strong> Высокоплотный монокристаллический объемный конвексный датчик <div class="stitle">Применение</div> Абдоминальная область, исследование почек, акушерство, сердце плода, гинекология, урология</td> </tr> </tbody></table><p><strong>Внутриполосные</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td><div style="text-align: center;"><img data-filename="endocavity_E3_10H.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></div></td> <td><strong>E3-10H</strong> Высокоплотный микроконвексный внутриполостной датчик <div class="stitle">Применение</div> Акушерство, сердце плода, гинекология, урология.</td> </tr> </tbody></table><p><strong>Другие</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td style="text-align: center;"><p>&nbsp;</p><img data-filename="other_TEE3_7.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>TEE3-7</strong> Чреспищеводный датчик <div class="stitle">Применение</div> Кардиология</td> </tr> <tr> <td style="text-align: center;"><img data-filename="other_CW2.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>CW2.0</strong> Датчик для слепого допплера (карандашный) <div class="stitle">Применение</div> Кардиология</td> </tr> <tr> <td style="text-align: center;"><img data-filename="other_CW5.jpg" src="data:image/jpeg;base64,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"></td> <td><strong>CW5.0</strong> Датчик для слепого допплера (карандашный) <div class="stitle">Применение</div> Кардиология</td> </tr> </tbody></table>
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