萊鎂 搶進睡眠呼吸中止症市場 2017年02月14日 04:10 魏益權 萊鎂醫材日前研發出全球最輕薄短小的微型負壓呼吸器,
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Tuesday, February 14, 2017
萊鎂 歐盟CE認證 搶進呼吸中止症 !!!
藥華 與 義大利Ospedali Riuniti di Bergamo基金會 進行新一波 PV紅血球增生症合作 (phase II: 對照藥_ 阿斯匹林)
藥華P1101擴大用藥族群 延伸至年輕PV病患 2017年02月13日 15:24杜蕙蓉 藥華醫藥(6446)今(13)日表示,最新一代長效型干擾素P
開發台版微軟mixed reality Hololens: 勤益科大(王民良)3D骨骼成像演算法+亞迪+冠亞 !
全球首創智慧眼鏡醫療手術 國內已有臨床實例2017年2月13日全球首創智慧眼鏡醫療手術
A Surgeon Goes Hands-on With Microsoft's Hololens JULY 14TH, 2016 Microsoft's Hololens has been getting a tremendous amount of attention over the past few years. Hype has been steadily accelerating about the technological, financial, and social potential for augmented reality, especially given the recent frenzy surrounding Pokemon Go. To clarify, while "mixed reality" is probably a more accurate term to describe a technology that blends simulated objects with your surroundings in an almost indistinguishable fashion, we will use the term "augmented reality" in this post as it is still more common. If you don't have the time to read this lengthy hands-on, here is the low-down: Hololens is a very impressive technology with very compelling medical use-cases, although it currently has some limitations that seem like they will be addressed in later generations of the device. Keep in mind there are additional headsets to keep an eye on, including, but not limited to, the Daqri, Epson's Moverio, Magic Leap, ODG's R-7 Smartglasses, and the Meta 2. The health technology sector is very excited about the potential of augmented reality for a variety of applications. Health-related AR startups are already getting a lot of buzz and funding. One of the most talked about applications is the holographic anatomy educational program, which is the result of a partnership of Microsoft with Case Western Reserve University. Reading about the various applications and the technology is exciting, however it is hard to get an idea of the potential of the Hololens, and the limitations, without trying it yourself. Thanks to Neil Gupta, organizer of the Boston Augmented/Mixed Reality Meetup, and Microsoft, I was able to get hands on (or head in?) a Hololens and try it out for myself. We tried the Hololens in a sizable enclosed space that proved to be ideal for its tracking and projectional capabilities. The headset is pretty ergonomic. After a little fiddling with the size and the angle of an unconventional oblique strap that keeps it in place, it was easy to forget it was on your head. I didn't feel that it was incredibly secure, however, and I imagine that during a long surgery you would need someone to adjust it occasionally. Once the headset was secure I was ready to go. It only took a short period to get used to the gesture system, which is very limited at this point, but functional. The gesture for a click involves holding your thumb and index finger in an "L" shape and then touching them together. This will interact with wherever you are looking at. So, you target with your gaze, and then interact with a click gesture. There is an additional gesture, which is almost like a "right-click," that consists of taking a clenched fist and then opening it slowly with your palm facing the ceiling. There is a sweet spot where your hand needs to be in order for these gestures to be recognized by the Hololens. You can even type using a virtual keyboard using this gesture system. The whole set-up works pretty reliably once you get the hang of it, but it is disappointing that the hand-tracking is not more sophisticated at this time. There is also the option to utilize voice recognition, but I mainly stuck with the gestures. I imagine the hand-tracking will improve in time. One thing I did immediately was set up my virtual holographic space. This was incredibly cool. I placed various virtual animals and objects around the room, and also could place highly functional browser windows wherever I liked. The browser windows in particular really impressed me. The text and images were high resolution and very readable. When looking at them I truly never got the sense that these were holograms. It felt like these windows were in the same space with me. Some of the holographic objects worked better than others. A combination of the object color/design and the lighting/background I placed them in front of affected the "realness" of the objects. But overall these very basic functions of the Hololens impressed me the most. I also should mention that the tracking is pretty unbelievable. A major part of the technology behind the Hololens is sensing where you are in 3D space and adjusting the projections of the holograms accordingly. While some other headsets are having issues with this particular challenge at the moment, this is not a problem for the Hololens. Moving around the room, even when moving briskly, does not cause any jitter or apparent shift in the position/rotation of the surrounding holograms. I then spent some time playing "Project X-ray," a pretty fun space invader type game in which spider robots explode through the wall attacking you. The game is a blast, and you have to actually physically dodge laser beams as you try and take out these robots. Not something you really want to do with anyone watching you, I might add. The illusion, once again, is very impressive here, as these virtual holes in the wall the aliens popped through at some points seemed really quite convincing. Now it's time to talk about the elephant in the room, which is the Hololens' limited field-of-view (FOV). You only see holograms in a small box in the center of your vision (image source: The Verge). So when you see promotional videos with a room filled with holograms, it's a little misleading. While the object data for those holograms are there, you really have to scan your head around to see it all. Now, from a gaming/entertainment perspective this may be a deal-breaker at the moment, but for medical applications this might not be a big deal at all. I won't lie, I was pretty excited after my brief experience with the Hololens. I can already see it being useful for medical applications in its current state. I'm a surgeon, so I've been thinking about ways I can use this in an OR. During surgery, a major challenge is controlling the location and content of visual displays in the room. There are usually several monitors that can display a camera feed, vital signs, or imaging data. Getting the circulating nurse, who sometimes is unfamiliar with the system, to try and change out the feeds, reposition the monitors, and/or open available imaging can get frustrating very quickly, especially during a stressful case. From what have experienced, the Hololens already has the ability to completely eliminate this cumbersome process and allow you to create a custom holographic layout of patient related information. Furthermore, thanks to the gesture system, you can cycle through the data and imaging at your leisure, which will benefit surgeon and patient alike. What's unclear to me at the moment is how lighting conditions in the operating room, which can be very harsh, will affect the quality of the holographic projections. I'm also curious to see if it affects the gesture-recognition capabilities. Finally, I'm a little worried that the tinted visor of the Hololens may decrease a surgeon's ability to view the operating field clearly, which may limit its uses for surgical applications. It also doesn't seem like it would protect your eyes sufficiently from bodily fluids that might splash up during a case. Some other AR applications for the operating room I'm pretty excited about include using surgical navigation technology to "see through" patients. So, for example, with an AR headset I would see the bony structure of a patient's spine through his body using reconstructed CT scans. Another exciting application is the ability for surgeons to guide other surgeons remotely, also called telementoring. The future of augmented reality for medicine and surgery is bright and exciting. The technology is already at the point where it has some very compelling uses. There are some limitations with the current state of the technology, but these problems appear to be relatively minor in the grand scheme of things, and will likely be overcome in the next few years. The augmented/mixed reality headset may one day join the mask and surgical cap as necessities for the OR.
併 德國 (CARDIO fitness)通路 岱宇 (林英俊)健身器材1月營收4.66億!
岱宇併購德國通路發酵 Q1營運旺 2017-02-13 18:33經濟日報 記者高行╱即時報導 家用健身器材廠龍頭岱宇(1598)併購德國第2大健身器材通路
大江生醫: 天山雪蓮增強免疫 (提升IL-1β/ IL-6/ IL-8TNF-α基因表現)
禽流感疫情升溫 抗菌免疫保健品夯 2017-02-13 20:03經濟日報 記者江碩涵╱即時報導 禽流感疫情升溫,防疫成了全民運動,除了藥品大廠受惠外,
亞獅康 varlitinib日本受試病患收36名!
亞獅康膽道癌新藥於日招收第一期臨床試驗首位受試者 MoneyDJ新聞 2017-02-13 10:06:15 記者 新聞中心 專注開發免疫療法與標靶抗癌藥物之生技業者亞獅康-KY(
浩鼎員工 天文數字稅: (沒收入還要繳稅: 40萬/張)
浩鼎員工認股所得 每張40萬 2017-02-14 00:23經濟日報 記者林潔玲╱台北報導 財政部表示,員工認購公司股權的價格,
禽流感 防疫股: 國光/基亞 !
禽流感擴大 藥品疫苗檢測股聚焦 2017-02-14 03:59經濟日報 記者黃文奇、江碩涵/台北報導 禽流感持續擴大,防疫概念股正夯,主要藥品、
新藥 的價值PK價格 (Deflazacort肌肉萎縮症藥: 1000美元 變 8.9萬美元)
美引進歐洲藥 售價飆漲70倍 2017-02-14 01:01:06 經濟日報 編譯黃智勤/綜合外電美國馬拉松製藥公司(Marathon)
閱報秘書/裘馨氏肌肉失養症 俗稱肌肉萎縮症,因人體性染色體中X染色體短臂上的Xp2l基因
百度 爬蟲技術: 28 種語言 專利&新藥 全捉 !
百度確認裁撤醫療事業部,將重點布局人工智慧 作者 愛范兒 | 發布日期 2017 年 02 月 13 日2 月 8 日下午,有傳言稱百度將整體裁撤醫療事業部;
百度醫療事業部的調整方案百度方面稱,
百度還在內部郵件中表示:將持續聚焦業務發展、優化組織結構,
該撤就撤,該關就關,該併就併2 月 6 日,李彥宏在百度內部發表了一封題為《迎接新時代》
福岡縣 知事 小川洋 推動氫能源
陳建仁:盼台日產業合作 攻海外市場 更新: 2017年02月13日【記者江禹嬋/台北報導】
台灣平均 醫療保健支出 4.2萬/人
退休醫療費 至少400萬2017/02/12 彭禎伶/台北報導大家是否計算過醫療或照護基金得先存多少才夠,
(杜拜醫材展) 普生 中東布局B肝炎檢測試劑整廠輸出
普生積極拓展海外市場 鎖定大陸及中東 中央社 2017/02/13(中央社記者韓婷婷台北13日電)
健喬 成立 併購特別委員會
健喬信元 發言日期106/02/13 發言時間17:57:37 發言人白宏欽 發言人職稱財務長 發言人電話(02)8797-7100 主旨 公告本公司董事會決議成立「併購特別委員會」暨通過 「併購特別委員會組織規程」符合條款第6款 事實發生日106/02/13 說明1.發生變動日期:106/02/13 2.功能性委員會名稱:併購特別委員會 3.舊任者姓名及簡歷:屬新設委員會,故不適用 4.新任者姓名及簡歷: 范德全,現任本公司獨立董事 劉享朗,現任本公司獨立董事 林秀美,現任本公司薪酬委員 5.異動情形(請輸入「辭職」、「解任」、「任期屆滿」或「
台灣禽流感: 虎尾H5N2(火雞)/ 麥寮H5N2(土雞)/ 六甲H5N6(雞)/ 玉里H5N6(鵝)/ 宜蘭 H5N6,H5N2(鴨)
南方朔:禽流感大爆發! 2017年02月14日00:12 人類和疫病乃是處於永恆的戰鬥狀態,在一九四0年代乃是防疫的黃
(台大流病 金傳春教授) 在台灣,禽流感沒有學術自由
禽流感肆虐 學者:注意火雞感染防基因重組 2017-02-1322:46 〔記者吳亮儀、林彥彤/綜合報導〕
澳優乳業 顏衛彬(集團主席): 2016年 黃金十年 戰略 第一年 !!
澳優乳業發佈2016年全年業績盈利預喜 股東應佔利潤預期大幅增長逾3倍 香港, 2017年2月13日 - (亞太商訊)- 澳優乳業股份有限公司 (「澳優」或「公司」,聯同其轄下附屬公司,統稱「集團」;
關於澳優乳業股份有限公司 澳優乳業股份有限公司是一間生產設備主要設於荷蘭、中國及澳洲,