Портативный УЗИ аппарат оснащен технологией
формирования изображения ALPINION. Ультразвуковая система воплощает все
ценности и возможности ультразвука с учетом потребностей пользователя.
Ультразвуковой сканер E-CUBE 7 является продолжением серии E-CUBE, которая уже зарекомендовала себя хорошим изображением с высокой разрешающей способностью. Инновационная технология обработки изображений удаляет артефакты, увеличивает четкость изображения, и создает детализированные серошкальные, цветные и доплеровские изображения, что позволяет использовать его в различных областях применения.
Ультразвуковой
сканер E-CUBE 7 обладает мощным графическим процессором 3D и
эргономичным интерфейсом, что позволяет получать 3D/4D изображения,
минимизируя временные затраты.
FullSRI (органоспецифичный режим подавления спекл-шумов):
Уникальная
технология фильтрации спекл-шумов ALPINION (FullSRI) позволяет удалить
артефакты и сделать изображение мелкозернистым, подчеркнуть контуры
органов и образований, что особенно важно для точной диагностики.
Master 3D – интуитивная 3D технология, предоставляет возможность быстро получать объемные данные превосходного качества, с возможностью последующей обработки и проведения различных измерений. За счет очень легких объемных датчиков проведение диагностики становится очень простым и удобным для пользователя.
Превосходная работа в разнообразных условиях:
E-CUBE
7 с учетом наличия многообразных настроек и широкого диапазона
измерений является комплексным решением для решения целого ряда
диагностических задач.
Широкий спектр датчиков премиум класса E-CUBE 7 (линейные, конвексные, фазированные, объемные конвексные) позволяет производить как исследования в повседневной практике, так и сложные клинические исследования.
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.
Бесштырьковые коннекторы
Бесштырьковые коннекторы минимизируют загрязнение контактов и значительно продлевают срок службы датчиков.
Мобильность и интеллектуальные решения
E-CUBE 7 создан для удобства пользователя и рационального использования пространства, обеспечивает мобильность и простоту управления в разнообразных условиях. Пользуйтесь автоматическими расчетами для облегчения исследований и экономии времени.
Xpeed (Автоматическая оптимизация)
Xpeed
позволяет нажатием одной клавиши эффективно, быстро и просто
оптимизировать изображение в 2-D, цветных и допплеровских режимах.
Auto IMT (автоматический расчет комплекса интима-медиа)
Auto
IMT автоматически определяет толщину стенки сонной артерии для того,
чтобы оценить риск развития атеросклеротического поражения.
E-CUBE
7 нажатием одной клавиши позволяет вывести на экран максимальное,
минимальное и стандартное отклонение от нормативного показателя и
осуществить качественную оценку.
Auto Trace PW (автоматический обсчет допплеровского спектра)
E-CUBE 7 обеспечивает количественный анализ в режиме реального времени для быстрых и точных результатов.
Специализированные пакеты измерений
Установленные пакеты измерений, предназначенные для различных исследований, увеличивают точность и скорость диагностики.
| 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;" class="rtecenter"><img data-filename="convex_SC1_6.jpg" 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" style="width: 147px;"></td> <td><strong>SC1-6</strong> Single crystal convex transducer <div class="stitle">Application</div> Abdomen, Renal, OB, Fetal Echo, GYN, Urology</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="convex_C1_6.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>C1-6</strong> Convex transducer <div class="stitle">Application</div> Abdomen, Renal, OB, Fetal Echo, Urology</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="convex_C5_8.jpg" src="data:image/jpeg;base64,/9j/4AAQSkZJRgABAgAAZABkAAD/7AARRHVja3kAAQAEAAAAUAAA/+4ADkFkb2JlAGTAAAAAAf/bAIQAAgICAgICAgICAgMCAgIDBAMCAgMEBQQEBAQEBQYFBQUFBQUGBgcHCAcHBgkJCgoJCQwMDAwMDAwMDAwMDAwMDAEDAwMFBAUJBgYJDQsJCw0PDg4ODg8PDAwMDAwPDwwMDAwMDA8MDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwM/8AAEQgAkwCTAwERAAIRAQMRAf/EAIUAAAIBBAMBAAAAAAAAAAAAAAAEAwECBwgFBgkKAQEAAwEAAAAAAAAAAAAAAAAAAQIDBBAAAQMDAgQEBQQABQUAAAAAAQACAxEEBRIGITETB0FRYQiBkdEiMnGhsRRCUiMzCcFTNBUWEQEBAQEAAwEBAQEAAAAAAAAAAQIRITEDQRJhcf/aAAwDAQACEQMRAD8A90GMqgZbGgmEaC/poDpoDpoDpoDpoDpoDpoDpoDpoDpoDpoDpoKGNBE6P0QLvjQQ6T+9EDcbUDjGIJwxBfoQV0IDQgNCA0IDQgNCA0IDQgNCA0IDQgtLEELmIFXtQL6P5QMxhA6wIKyOMZHgDyKCaF7ZW1bzH5DyQTafRAafRAafRAafRAafRAafRAafRAafRAafRAafRAafRBYWoIHhArIOaBWiCeNA6xBM6NsjNDuRHyQddnmnx9yAT9w4tPg9qr6HYLW6iu4hLEfR7PFp8irBlAIBAIBAIBAIBAILXIIHhApJyQK/VBJGgbBIHDzQSNkIpx5IIL62jv7Z0LjokHGCX/K7wP1Tg6NbZG6xl6+ORum4iOm4tyftkb5g/wAFZ+hkO1uobyBlxA7Ux4+IPiCPAhaShhAIBAIBAIBAIBBR3JBA9AnJyQK/VBJGgcaK8EFsgIHw5IOOkuTFxJQda3Hauy9nJLjpo7bN20Z/oTvFWOPPpyCoqD4HwPoq6nZ4Sw3gt4ZjD5KW6c6R90xwiyuMnNOoGni2nJrhX7SP4KxmrKNiNv7qwm5o5zir1stxZ6Bf2LvtngMjdTRIw8aEVoRwJBANQaby9Q7EpAgEAgEAgEAgo7kggegTk5IFfqgkjQPMQSFlaH04hBweTtj0yW8fJBjbI377Vx4ltESxnugRZB//ALeyGjLwACZjeVzG3wI/zAcj5cPKme898wdds7qaS4tc3hb12JzlkCLa/jFSAfyilYSBJGT+THfChoRjnViGw+xO5lpucx4bMxxYbd0MZdcYwOJhuWM/Keze4AvYRxLT97OThwqujOpRlMEHiDVWFUAgEAgEAgo7kggegTk5IFfqgkjQPMQMt8EFk0QkaWkDiEGK914OQsfLG3hQngiWu2ZuZ7GR7ZAQGnmizqNvm2Q5Au1tb1eMja01Hz/XzWP0z+xFjvU1ra5qGCSOR9veW72zWd7A8xTwTN4tlikb9zHN8CFn68xRkjande8xdxj8BvuUGW8lFti92MYI7e4kdwjiu2ijYJnHgHD/AE3nlpcdI2xvqzYOC8jmHA8fEeK0QbBB4hBVAIBAIKO5IIHoE5OSBX6oJI0DzEDLfBBegXuLaK5jcyRoIIogwJv/AGQZIpbi3jqKE8Ai0rTPdePvLF8gYXRvjdVjuWkhQs5/YW9BkY3wT0iv7N7Yr239T+L2jyd/K5tz+arY1p92fvAx+wbPJdvNg29tnt3PZ/W3FmpoxcWOLdIKiAg1ZJPTjQ8GeNXcBfHz/plrXGuftn/5FO5XbrdEdj3ezuT3/sjJuZDduupOrd44CjWS2pdT7WgfdHWhHKh59Fzz0rn6efL6Edidwds9wNu4vdW08zb5zA5iIS2GStnamOHi1w5tc3k5poQeajrV39rw4VBQXIBAIKO5IIHoE5OSBX6oJI0DzEDLfBBegEC9zbx3Ebo5GhwcKEFBq93U7d64572ziLmkEuAChaV579xsbuDA2uVye2bmTGZ9tpPBa3TeABkYWjWPIEg+iiyXxU14rNvsvt3NZCxz0MtzdGaRmdsrslxu9TiZS8k/7nGod8VrzscvmIc1iorCe2lhkMmJysQucVdkh3+k8kBjy3hqYQWuSXqtnG0Htf8AdRv32yblgoZsxsDNPa7N7YkeRDKzl/YtXGoZK0cnDnyco1O+Yvnf8+L6fSv2m7vbP7s7QxO89l5eLLYTKMBD2kCWCUD74J2VJjkYeBaf1FRQqrZmKKZsgBB4eaCdAIKO5IIHoE5OSBX6oJI0DzEDLfBBegEAgTvbOG8hkhmYHseKEEINK+73bd8M1xcw22u1lB1ACooVC8rxu90vYKW4bPurBWrv79s2s8bG8Zo2+HDm9g5eY4c6K2dcU+mO+Wj2DyTLzFXG2ci+KK2e9z2NePvtrkU0TsP/AGyeD2+GonwU6nL1j+OT2puqLBPuMFujDR7h23LKWZTBTkxyMe2repbTt++GVvMObwP+IEKbO+YrNc9s8divcHuD21b/AJc/26yVzuXt5mZGtz+0r+kUlxbVH+4xpLY7iKpDZWcD5UOkR7/6tnX8+vT6QuznerZ/d7Z2K3ps3KtyOJyDaPYSBPazgDqW9zHUlkjCaEfEVBBVW3tnO3vGy0oeaDkGu1IKu5IIHoE5OSBX6oJI0DzEDLfBBegEAgEHFZXE2mWtZLa5jD2vaRxHmg0o7tdoAyO7LLbr2M4OtoHL1H6KF5XhR7m+wl1sfNy7ow9qWY69lJnDG0ZFKTzNOTZK0Prw8Qr5rLeP2NP7m/fczmSRhZM0BkrTz+3gK+o5VV459KxXMkTmvjkLHA1BHmEo2w9tvuN3T2P3jFuHbwfd4q/DI98bMDqQZK3Yf/IgbyZcRipBA/aoWdjXGuPo/wC0HebZfdbbWO3RtDNRZPGXzAXNBAlgkp90U8dasew8CD+oqKFQ2bC2k7ZWNc1wII5og67kggegTk5IFfqgkjQPMQMt8EF6AQCAQCBDIY62yVu+3uY2va8EcQg0v729hMfn8XkbWWxZd469jc2WFzagBwoVC0r54PcH2MzHabdlxE60kuMRd6nWF2GuLXRk8I3vpQSN/wAPH7h8Vpmsd441sifXh5cq/urMuOUtHFsjHh7ozG4OD28CDzqFCGx2wNx7swm8YrnsnurI7QyUtpayXh/tGO2knZC1906fVVhYJahjS11eAaCSs7ee2uf8fRT7Vd6d3crsTAwd8baztd55CN81r/VYYpDbNA6f9uMfa2ZzavNKUrQgO4Kk1LeNY3DqHNBHiriJ6BOTkgV+qCSNA8xAy3wQXoBAIBAIBBBcW0N1E6KdgexwoQUGpHf/ANueA7lbWy+Jmtg2HIRaZJYwBIyh1AsdQ0IIBRPXzQd8uzmZ7M76v8FnbKZmMkuHHG3tBW5twQBK3wa4fiQf1WkvWO88rEssAguZYYy9zGPIj1jS4jwJHmQnWdetXtk7CYLtDabK7idxsYNw9wN4mG92dtKYmKHGWXUjY+5ljlaHS3beq1zWFtGcfHiuX6/TvhtjPHqnJk34/IY+8Y6PqWd5HIJJfxADqOcfgSs83lXjauynbcW7HsdqaRVjvMHkV1Cd6BOTkgV+qCSNA8xAy3wQXoBAIBAIBAILHsbIxzHirXChCDyZ/wCR327Znfm0sbubaWHdk8pgbl/Xs7dlZZYJ26Tp89JoaJLw1OzjWb2k+0axwF5j+4Peawgn3XjtH/z2zZSJY7V8VBHdXoqWvlaAAxgqG/k7jRYb+014imcc9vRaLbeBj3Jkt0x2omy+SFv1ppyJGQutmOibJBrBMTiw6XaSAaDhWpOTRz2OsZdw5a3x0LepEXa7p1KtETT91aefJTmdo26xdv8A1rOGPTp0tDWt8gBQBdaDj0CcnJAr9UF8ZQOsKBhpQSakFdQQGoIDUEBqCA1BAaggNQQK3VrbXsT4LmJs0TxR7HAEEeVCgxBuLstt3MOdPZSy4u4P4vhNNPlQ+Xoa+lFlv4515/U9dbs+xt3EQ263RLPFy4QtDqfrqp+ypPhZ+nWX9ubOxG2oBFZRFzzQy3D/ALnyEeLj/wBBwW2czPpDtZPwA5BWEDygUkKBWv8AKAjdyQOMcgnD0EgegrrQGtAa0BrQGtAa0BrQGtAa0BrQGtBYXoInOQKSOQL6v5QRRvQNNegnEnqgv6gQHUCA6gQHUCA6gQHUCA6gQHUCA6gQHUCA6gQHUCC0yIInSIFnvQL6v5QWt5+PwQMM+KCUIL/mgPmgPmgPmgPmgPmgPmgPmgPmgPmgPmgPmgtPxQWO+KBZ3xQRoP/Z" style="width: 147px;"></td> <td><strong>C5-8</strong> Convex transducer <div class="stitle">Application</div> Abdomen, Pediatric abdomen, Neonatal veterinarian, Urology</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;" class="rtecenter"><img data-filename="linear_L8_17.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L8-17</strong> Linear transducer <div class="stitle">Application</div> Carotid, Peripheral Vascular, Thyroid, Testicle, MSK, Superficial, Breast</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><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> High density linear transducer <div class="stitle">Application</div> Carotid, Peripheral Vascular, Thyroid, Testicle, MSK, Superficial, Breast</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><p><br></p><img data-filename="linear_L3_12Hwd.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L3-12H<sup>WD</sup></strong> High density wide footprint linear transducer <div class="stitle">Application</div> Carotid, Peripheral Vascular, Thyroid, Testicle, MSK, Superficial, Breast</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="linear_L3_12.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>L3-12</strong> Linear transducer <div class="stitle">Application</div> Carotid, Peripheral Vascular, Thyroid, Testicle, MSK, Superficial, Breast</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><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> Linear transducer <div class="stitle">Application</div> Carotid, Peripheral Vascular, Thyroid, Testicle, MSK, Superficial, Breast</td> </tr> </tbody></table><p><strong>Фазированные датчики</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="phased_SP3_8.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>SP3-8</strong> Single crystal phased array transducer <div class="stitle">Application</div> Abdomen, Cardiac</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="phased_SP1_5.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>SP1-5</strong> Single crystal phased array transducer <div class="stitle">Application</div> Abdomen, Renal, Cardiac, TCD</td> </tr> </tbody></table><p><strong>4D конвексные</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td class="rtecenter"><div style="text-align: center;"><img data-filename="volume_VC1_6.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></div><p><br></p></td> <td><strong>VC1-6</strong> Volume convex transducer <div class="stitle">Application</div> Abdomen, Renal, OB, Fetal Echo, GYN</td> </tr> </tbody></table><p><strong>Внутриполосные</strong></p><table style="width:100%" border="1" cellpadding="5" cellspacing="5"> <tbody> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="endocavity_EV3_10.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>EV3-10</strong> Endocavity transducer <div class="stitle">Application</div> GYN, Fetal Echo, Urology</td> </tr> <tr> <td style="text-align: center;" class="rtecenter"><img data-filename="endocavity_EV3_10.jpg" src="data:image/jpeg;base64,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" style="width: 147px;"></td> <td><strong>EC3-10</strong> Endocavity transducer <div class="stitle">Application</div> GYN, Fetal Echo, Urology</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;"><img data-filename="other_IO3_12.jpg" src="data:image/jpeg;base64,/9j/4AAQSkZJRgABAgAAZABkAAD/7AARRHVja3kAAQAEAAAAUAAA/+4ADkFkb2JlAGTAAAAAAf/bAIQAAgICAgICAgICAgMCAgIDBAMCAgMEBQQEBAQEBQYFBQUFBQUGBgcHCAcHBgkJCgoJCQwMDAwMDAwMDAwMDAwMDAEDAwMFBAUJBgYJDQsJCw0PDg4ODg8PDAwMDAwPDwwMDAwMDA8MDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwM/8AAEQgAkwCTAwERAAIRAQMRAf/EAIEAAAIBBQEBAQAAAAAAAAAAAAAEAwECBwgJBQYKAQEBAQEAAAAAAAAAAAAAAAAAAQIDEAABAwMCBAQDBwIGAwAAAAABAAIDBAUGERIhMUEHUWETCJHRIoGxMkJSIxVxQ6FicjMUFoKSRBEBAQEBAQEAAAAAAAAAAAAAAAERAiEx/9oADAMBAAIRAxEAPwDugxmqBlsaCYRoL/TQHpoD00B6aA9NAemgPTQHpoD00B6aA9NAemgoY0ETo/JAu+NBDtP+OiBuNqBjdHGAZHBg/UeSBtrQQCOIPIoL9iCuxAbEBsQGxAbEBsQGxAbEBsQGxAbEFpYghcxAq9qBfZ96CbXaxzv0hB8Tc8lpXsqafeGzQnZNEebSeIOngRyKDD7u7V2wK5B1ypJb3iEr9KkRcaujB/uRA8JGjqwnXwPQhsvjuRWLLLTS3zHLlBdrXVt1hqoHajXq1wPFrh1a4AhB7m3yQG3yQG3yQG3yQG3yQG3yQG3yQG3yQG3yQG3yQG3yQWFqCB4QKyDmgV0QX66NPhodQg0x783G74RWMy2z00lfTQgi4W6L8U9PrukjaP1sGr4/E/T1RfpayXG15nZqG62+pZX22607KijqW8WvjkGoPkehHQqo1v7pd+7P7TLwy7Y9eBNf7z+7Xdu2fuU9ZH0lmYCPQPg8aE+aI2d9ofvgw/3Ox3HH6+3xYV3JtIdPJi75/VjraQf/AEUb3Bpfs5PZzbz4jlFb0IBAIBAIBAIBAIBBa5BA8IFJOSBX5oLmt3NLfEIMCd3LB/z7bVQytJgnaQ4jm09HDzB4oscz7j3YqvbZbcttlZbnV9BUiqr8JgZ+CO4PHqTU7h0hkJ9YEcGne3qEh1HJvIcnvGdXy6ZDklfJc75eJ31FZWSkuLnOOu0eDRyAHABbYeVYb5keBZNZcwxO5z2LJMdq4620XOndo+KaM6j/AFNI4OaeDgSCpg/Tr7Ofdxjfucwpral0Fn7nY5CxmY4yHabjwaK2lB4uhkP/AKH6T0Jy03LQCAQCAQCAQCAQUdyQQPQJyckCvzQSRoPAyy1fydsnjawOeWnRCOZPuC7NRZhbaynmhcythBNPIBqRt5EA8+HBw6j7FG/ritnGC3bB7vU01VTPhjimcwgg6NOurdD1a4cWn7OYK3LrnZjyoIYbvB6YIZWRt+j/ADeS3JrJvBc4zXs3nFmzzB7lLZsksFQJaeVuvpys1/cgnZwD4pG6tc08x56LNiyv1Fe1z3NYd7mu39Pk1lfHbMotrWU+aYi54dNQVenEt14uhk5xv6jgeIKw02YQCAQCAQCAQCCjuSCB6BOTkgV+aCSNA4GhwLXDUHmEGL85weG6075oIv3QNeARZXMn3FdhYsnttZLDSencoA4kbdA8cyD5H/A8fFJ41fXHHIMfumG3eWnmjkh9CZ0YLxo5jmnix48dPDgRxC3K5WY9/wDjosytzpLcwfzNGwunpRwMrR+Zq3fUV7P93M69vvcW255hdW+kuVvkEV1tMhcKevpdw9WlqWD8THDkebT9Q4hc7GpX6l+wnffCfcL2+tmeYZVt/da2G/WKR4NVbK0DWSmnaPA8Wu00c3iPAZVmtAIBAIBAIBBR3JBA9AnJyQK/NBJGgeYgn2teNrhqCOIQYpzzCILpTSTwRgygE8AiyuT/ALmfb4290NZcrdbmm4Q6umga0Nc8DXkfHw8+HVJcWzXJuaG64Pe45InvifDITBLoW67ToWuB5OaeDgeRXSOTKV2xeh7k2U5TjQa2/wBLHuv9naNHO0HGWMdQeq1ZoR9v3frOvbN3FpsvxmWSW3SvZTZfi0ji2nuVGHfVG9vJsjeJY/TVp8lzsWP1Hdoe7eF97cEs/cDBLmy4We6s0mhJAnpKhoHq01QwElkkZOhB58CNQQVlpk1AIBAIBAIKO5IIHoE5OSBX5oJI0DzEDLeiCrmteC1w1B6IMS53gtNdqaSWKFpeQdRpz1RY5A+6X26w1FLXXy1W3bLE50tZBCzR4cB/uM05nhxHUeY43m4Wa5nWC9XrtzkkUjXui9JwL2cdk0R+8ELrHKsvZ/gdnzSwvz7BmNc0gOvdqj4ugeebgP06q4aS9rnugy/2r9wP5emZNd8Ivb2QZviBeQ2eJp0FRADwbPENdp6j6TwK52NSv1Edvs+xbuhhuP57hdzZdsayWkbV2ytZwJa7g5j282vY4FrgeRCw0+yQCAQCAQUdyQQPQJyckCvzQSRoHmIGW9EF6C1zQ9pa4ag8wgxHn2BUl6pZXsga5zmkObpqCPNFlcV/dh7bBbYarJLFb3Mgje59ZFG3UwE8S8D9H6gOX4uhV56w6531oXgOeXbtvkL4aoF1HITBcaCXjHJG7gQRyOo5Ltrk3p7d+y+xd8r5YO48VeaTtTco31l0o4mvjqpKiJ+ho2bgBscddXtJGnDms9dLI7B9h7bRYk67YPZKWC2Y1aqeCW02iBoayD+2QwDxABPiePPVcm2xyAQCAQCCjuSCB6BOTkgV+aCSNA8xAy3ogvQCC1zWvBa4ag8wgw/3D7f0N+oZwaZkgkY4SRkahwI6osrkfmntO7fWPuNQ5Fm1nr6zAKaV09RRW9rnGN4O5rKhrAXugB11DPqA4DgrOrJhed9dHcRvuOy49a24q+iONinZHZxbyz/jCFg2tbHs+kBummiM0pb8tGDdwqO612v/AF+/wtoa+YcoXbtWSn/Seflqg2+Y9krGSRvbJHI0OjkaQWuaRqCCOYKirkAgEAgo7kggegTk5IFfmgkjQPMQMt6IL0AgEFrmh7S1w1B5oPg8lwe23uCQOhbueCCNoOuviEXWl2Vdncr7f3asyLtpUspBVyGW84rOD/H3A9X6D/al05Pb/wCWqi/VLTmFmy+Kpx66wm33qGLfcceq9G1MI109RgP42a/nbqPHQqs4yx2/7i3TAxHYMmE12xQODbbe4/rlomH8kzeZjHiOX9EG2kM0VRFHPBI2WGZofFK06tc1w1BB8CEEiAQCCjuSCB6BOTkgV+aCSNA8xAy3ogvQCAQCAQefW22lro3MmjDtRprog1o7p9hLTlbY62na+33egcZbVeaNxiqqaT9UUjdCPAjkRwPBF1gSG7ZHh9azHe5NI1lLL+1Q5pC0No6joG1LeUEnjr9J6aIY2CxPO7lh8EFHVCS+4w0NEDmHdUUkenDZ+tgHJvw4Ko2Isl/tGRUba+zV0VdTk7XOjPFjurXN5tI8CoPYQCCjuSCB6BOTkgV+aCSNA8xAy3ogvQCAQCAQCCjmhwIcNQeYQfEZNhVryGkqKaqpY6iOdhZLC9oc1wPQg80WVp7eu3WbdqqyWrxCGbIcM4uqcNc7dNS8dXPt73cdPGEnQ/l0KH162KZVHNIciw2uNDcGfRcaCRpZuIPGGqgdoQdQRxGvgUGzeHdyLZkpFvrWttF+jH7lvkcNsoAGr4XH8Q16cwiMjtex5cGuDi06OAOpB8Cgq7kggegTk5IFfmgkjQPMQMt6IL0AgEAgEAgEAgVqqOCrjLJWBwI0Qa4dyOyEF5rP+yYzWS45lVOwthvFKBpM0f2qmI/TMw8tHDUdCi6wdS1d3fcKnGsvs5osgtLYp3VVMHGnkZI5zY6imk/E0EsP0k6tKD3Jaa+2SaPIsKv01syOAl1RHUudLSVrNdfSqoidXan8w4hMRnTtn3ytOZzsxrJKUYhnsQ0lx+peDFVgcPVoJzo2Zp/SPrb1CDOL0CknJAr80F8ZQOsKBhpQSbkFdwQG4IDcEBuCA3BAbggNwQG4IKEtI0I1Hggwd3G7bG/XO15HbKya3XS1CSKQRNa6OqppdC+CVrum5rXAjiCOHMorDFyhqbXK6mr4nQTt/A4j6HjyKDHWV22x3+j9G5xuEkDhLR1ULjHUwTA/Q+GRujmuB5aIN2e2wyCPBsciyiSSa9RUbWVVRM7dLIG6iN8pH53M0LvNEfYSFArr96AjdyQOMcgnD0EgegrvQG9Ab0BvQG9Ab0BvQG9Ab0FC4EaHig8S6WC03iB8FfRRVMcg4h7R8QRxB/og+EtfaPD7Xc47qKaatngdvpY6uT1I4nDkWt0A1HnqphrJpIAVC0jkC+770EUb0DTXoJxJ5oL/AFAgPUCA9QID1AgPUCA9QID1AgPUCA9QID1AgPUCA9QILTIgidIgWe9Avu+9Ba3n1+xAwz7UEoQX/FAfFAfFAfFAfFAfFAfFAfFAfFAfFAfFAfFBaftQWO+1As77UEaD/9k=" style="width: 147px;"></td> <td><strong>IO3-12</strong> Intraoperative transducer <div class="stitle">Application</div> Salivary gland, Parotid gland, Submaxillary gland, MSK</td> </tr> </tbody></table> |