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<section data-role="paragraph" data-color="rgb(182, 228, 253)" data-custom="rgb(182, 228, 253)"><section><section><section><section powered-by="gulangu"><section><section><section><section powered-by="gulangu"><section><section><section><section powered-by="gulangu"><section><section><section><section powered-by="gulangu"><section><section><section><section><p><p><img src="image/20201014/86b79d371e9862b01189f0252a03b2cd_1.png" /></p></p></section><section><section><span><strong></strong></span></section><p><span>医疗器械媒体报道先锋</span></p><p><span>分享专业医疗器械知识</span></p></section><section><section><section>关注</section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section></section><p><strong><span>来源:</span></strong></p><p><strong><span><br /></span></strong></p><section><section powered-by="gulangu"><section><section><p>搜集整理了最近发布的超声成像系统,希望能为各位提供窥见未来超声发展趋势的视角。</p></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><strong>改善超声工作流程</strong></p></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><p><span>2018年发布的新版本的佳能Aplio 900 CV系统的设计减少了40%,简化了工作流程。它比以前的东芝回声系统轻50%。 </span><br /></p><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Aplio 900 CV系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/d2387e3662b962bf8e4cbfb6298da35d_2.png" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/7c77707a9a49314b1f4a99343ca336e6_3.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/700e0db11c1f71e6bf713e08ed1fe60d_4.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p><p>日立在2018年北美放射学会(RSNA)会议上推出了新的Arietta 65中程超声系统。它采用较小的跟踪球,使键盘更小,手部动作更短,使系统更符合人体工程学。 </p><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Arietta 65中程超声系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/a147c68b08ecee542a71e9321c0a7af0_5.png" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/25e516c2caa5dacd49bd387840c8c575_6.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/d9f0a4c5831cb8ed41f430b892e21cd9_7.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p><p>三星RS85超声系统于2018年获得FDA批准,其设计目的是将许多多步骤操作组合成一个步骤,以减少击键和重复的用户交互。</p></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>RS85超声系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/a4a2020ef9165b35a1ab086d4502dfe5_8.png" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/183da911dba821e31b84fc69a80dc34d_9.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/fd714d14346abe70da353ff719f1e547_10.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p><p>另一个例子是柯尼卡美能达新推出的Sonimage HS1,它提供简化的一键式图像优化。调整深度时,多个成像参数(如频率,聚焦和复合)会自动更改。</p></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Sonimage HS1</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/3ed34864123713f14cdf6c4363ae05ad_11.jpg" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/685c44d53be24a4a5d16b52e593e997f_12.png" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/8b3140fb80d7956c44dd719608ce7652_13.png" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p><p>自动病变分割在RSNA 2018的GE Healthcare <span>Logiq<sup>TM</sup></span> <span>E10系统上引入,通过自动化提高生产力。由于重复的检查步骤,存在显着的人体工程学挑战。该软件有助于消除用户手动测量病变的需要,通过分割已识别的乳房,甲状腺或肝脏病变并自动提供病变和相应区域的痕迹。此功能还有助于确保不同用户(甚至同一用户)之间的一致性,以用于文档和后续操作。</span></p><p><span><br /></span></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>LogiqTM E10系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/ec8dce303ecf2269984a393aeb90ec0c_14.jpg" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/d75b464c4a0f7271834be926ea38b898_15.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/b7df3fa3ad994c8d84dd266f2889cacb_16.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p> </p></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><strong>将人工智能整合到超声中</strong></p></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><p><span>几年前,人工智能算法在超声系统的后端开始集成,目标是加快工作流程。其中的元素内置于西门子的eSie流量阀分析软件中,用于三维心脏瓣膜评估。</span></p><p><br /></p><p><span>飞利浦的Epiq系统使用解剖智能,AI可以自动识别,分割和颜色编码扫描领域的解剖结构。它还可以为各种检查选择最佳扫描切片视图,从三维数据集中提取它,无论超声检查者的经验水平如何,都可以提高再现性。RSNA 2018上的飞利浦Epiq和Affiniti超声系统为乳房成像提供解剖学智能,以提高再现性和简化工作流程。自动化和AI提供了屏幕解剖结构的可视化映射和注释,用户交互最少。</span></p></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Epiq</strong><strong>旗舰智能</strong><strong>超声系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/39bb37435e7bca7094fc900b7ff8d565_17.png" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/39ae7fdd7b3d61673cdf676b1639aa6c_18.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/0d5e9e3923969c2c9a9ed26d3d890efb_19.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Affiniti超声系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/4fbedf492b65382d42ff0f7ac89cebcc_20.png" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/60e823b97145eb7b30643799ad8defb2_21.jpg" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/44a0b12abf04ceba66d3c1d35930df47_22.jpg" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p><p>最新版本的柯尼卡美能达Sonimage HS1采用AI语音识别控制,实现免提操作。针对肌肉骨骼(MSK)介入手术,它具有通过简单的语音命令控制系统功能的能力。临床医生可以用一只手握住传感器,另一只手握住针头或注射器,无需助手并在手术过程中保持无菌区域。</p><p><br /></p><p>为了增强其便携式Vscan Extend手持式袖珍超声波的功能,GE Healthcare增加了DiA成像分析AI驱动的LVivo EF,用于自动射血分数(EF)测量。</p><p><br /></p><p><iframe src="https://v.qq.com/iframe/player.html?width=500&height=375&auto=0&vid=y1358bxvoob&auto=0" width="100%" height="580" frameborder="0"></iframe></p><p><br /></p><p>传统上,护理点(POC)的大多数EF解释是通过视觉估计进行的,临床医生经验水平在POC设置中变化。LVivo EF通过使用AI和高级模式识别算法快速有效地为临床医生提供左心室EF评分和体积测量来应对这一挑战。<br /></p><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><strong>三维超声的进展</strong></p></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><p>较慢的帧率和3-D超声的较大费用限制了其广泛采用,但其在一些专业领域的应用有助于快速扩展治疗,如经导管结构性心脏介入。当专家使用成像进行程序规划或指导时,3-D的使用具有很大的应用,其中3-D可以提供解剖学的“外科医生视野”。该技术还用于帮助指导复杂解剖结构中的导管手术。 </p><p><br /></p><p>2018年,GE医疗集团发布了其cSound图像重建技术的Imaging Elevated版本。该技术有助于Vivid E95心脏成像系统的成像质量,工作流程和量化。它利用GPU处理来提高音量帧速率,GE称为音量最大值或Vmax。与上一代系统相比,这使得TEE的帧速率几乎可以达到三倍。</p></section></section></section><section powered-by="gulangu"><section><section><p><br /></p></section></section></section><section powered-by="gulangu"><section><section><section><p><strong>Vivid E95心脏成像系统</strong></p></section><section></section><section></section><section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/adbe836c453fe792bc018e1e92e923c7_23.jpg" /></p></section></section></section><section powered-by="gulangu"><section><section></section></section></section><section powered-by="gulangu"><section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/fd771fbf0f38c24ca9f09bf6c0b3bfeb_24.gif" /></p></section></section></section></section><section><section powered-by="gulangu"><section><section><p><img src="image/20201014/2b67b98068e526adafc089c8cd7b83f9_25.gif" /></p></section></section></section></section></section></section></section></section></section><section powered-by="gulangu"><section><section><p> </p></section></section></section></section><p><strong><span>本文由翻译整理自外网,转载请注明出处。 </span></strong></p><p><br /></p><section data-id="1658"><section><section><section data-id="1658"><section><section><section data-id="1658"><section><section><section data-id="1658"><section><section><p><span><strong>相关阅读</strong></span></p></section><p><p><img src="image/20201014/ec237188ae1e9c03eb4d9814f31b18ab_26.gif" /></p></p><p><br /></p><p><span>A超 B超 M超 彩超:超声诊断原理大汇总</span><br /></p><p><br /></p><p><span>科普动画|医用超声是如何成像的?</span><br /></p><p><br /></p><p><span>经验分享|超声临床应用医生的青铜时代</span><br /></p><p><br /></p><p><span>细数超声成像的发展历程</span><br /></p></section></section></section></section></section></section></section></section></section></section></section><p><br /></p><p><span><strong><span><p><img src="image/20201014/225eae26a91575de7508aebe3e999278_27.jpg" /></p></span></strong></span></p>
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发表于 2020-10-14 14:42:08