TW201742603A - Surgery assistant system characterized in that the surgeon can see all informations related to the patient's affected region through a lens in front of the surgeon's eyes without looking up at other display interfaces - Google Patents

Surgery assistant system characterized in that the surgeon can see all informations related to the patient's affected region through a lens in front of the surgeon's eyes without looking up at other display interfaces Download PDF

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TW201742603A
TW201742603A TW105117016A TW105117016A TW201742603A TW 201742603 A TW201742603 A TW 201742603A TW 105117016 A TW105117016 A TW 105117016A TW 105117016 A TW105117016 A TW 105117016A TW 201742603 A TW201742603 A TW 201742603A
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host
signal
electronic device
feedback signal
output message
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TWI636768B (en
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陳品元
魏國珍
張韡瀚
裴育晟
趙一平
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長庚醫療財團法人林口長庚紀念醫院
長庚大學
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Abstract

A surgery assistant system is provided for a surgeon to perform surgery on an affected region and comprises a surgery navigation device, an electronic device, a host and a head-mounted display device. The surgery navigation device continuously generates a simulated three-dimensional image signal related to a probe and the affected region and transmits the simulated three-dimensional image signal to a host. The electronic device generates a first indication message, displays the first indication message on a touch display panel, and receives a first feedback signal corresponding to the first indication message generated by the electronic device under operation so as to transmit the first feedback signal to the host. The host generates a first output message according to the simulated three-dimensional image signal and the first feedback signal.The head-mounted display device continuously receives the first output message and controls a lens to display the first output message.

Description

外科手術輔助系統Surgical assist system

本發明是有關於一種手術輔助系統,特別是指一種用於清醒開顱手術的外科手術輔助系統。The present invention relates to a surgical assist system, and more particularly to a surgical assist system for awake craniotomy.

現行對病人進行的一種清醒開顱手術的過程中,復健科醫師以口頭或紙本指示的方式要求清醒的病人去執行一些認知、語言、計數、運動等任務,神經外科醫師同時於腫瘤附近貼覆電極陣列以量測得到大腦皮質電位時序(ECoG)的訊號圖,或利用電極探針去刺激病人腦部腫瘤周邊的區域,以確認鄰近區域的主要功能。譬如當探針所刺激的大腦皮質區域其功能為運動區時,則病人的運動任務會受到干擾,神經外科醫師即藉此判斷探針所刺激的大腦皮質區域是否為目標區域。During the current conscious craniotomy of the patient, the rehabilitation physician asks the conscious patient to perform some tasks such as cognition, language, counting, exercise, etc. by verbal or paper instructions. The neurosurgeon is near the tumor at the same time. The electrode array is attached to measure the signal pattern of the cerebral cortical potential (ECoG), or the electrode probe is used to stimulate the area around the tumor of the patient to confirm the main function of the adjacent area. For example, when the cerebral cortex region stimulated by the probe functions as a motion region, the patient's motion task is disturbed, and the neurosurgeon can determine whether the cerebral cortex region stimulated by the probe is the target region.

此外,習知的定位手術導航系統係結合磁振造影技術之虛擬實境(Virtual Reality)成像,即可針對大腦腫瘤與周遭組織進行三維定位。但手術過程中,神經外科醫師還須不斷抬頭檢視導航系統的顯示介面,有礙手術之進行。In addition, the conventional positioning surgical navigation system is combined with the virtual reality imaging of the magnetic resonance imaging technology to perform three-dimensional positioning on brain tumors and surrounding tissues. However, during the operation, the neurosurgeon must constantly look up the display interface of the navigation system, which hinders the operation.

因此,本發明之其中一目的,即在提供一種外科手術輔助系統,能解決前述之問題。Accordingly, it is an object of the present invention to provide a surgical assist system that solves the aforementioned problems.

於是,本發明一種外科手術輔助系統,用以供一醫師對一病患之患部進行手術時使用,該外科手術輔助系統包含一腦波儀、一手術導航裝置、一主機、一電子裝置及一頭戴式顯示裝置。該手術導航裝置包括一探針,該手術導航裝置連續產生一相關於該探針及該患部的模擬三維影像訊號。該電子裝置具有一觸控顯示面板及一處理器,該處理器產生一第一指示訊息並使該第一指示訊息顯示於該觸控顯示面板,且接受該電子裝置被操作而產生的一對應於該第一指示訊息的第一回饋訊號。該主機電耦接於該手術導航裝置及該電子裝置以持續接收該模擬三維影像訊號及該第一回饋訊號,且根據該模擬三維影像訊號及該第一回饋訊號產生一第一輸出訊息。該頭戴式顯示裝置與該主機電耦接以持續接收來自該主機的該第一輸出訊息,並包括一鏡片及一電連接該鏡片且控制該鏡片顯示該第一輸出訊息的處理模組。Therefore, the surgical aid system of the present invention is used for a doctor to perform surgery on a diseased part of a patient, the surgical assistance system comprising an electroencephalograph, a surgical navigation device, a host, an electronic device and a Head-mounted display device. The surgical navigation device includes a probe that continuously generates a simulated three-dimensional image signal associated with the probe and the affected portion. The electronic device has a touch display panel and a processor. The processor generates a first indication message and displays the first indication message on the touch display panel, and accepts a corresponding correspondence generated by the electronic device being operated. The first feedback signal of the first indication message. The host is electrically coupled to the surgical navigation device and the electronic device to continuously receive the analog 3D video signal and the first feedback signal, and generate a first output message according to the analog 3D video signal and the first feedback signal. The head mounted display device is electrically coupled to the host to continuously receive the first output message from the host, and includes a lens and a processing module electrically connected to the lens and controlling the lens to display the first output message.

在一些實施態樣中,該外科手術輔助系統還包括一電耦接於該主機的腦波儀,該腦波儀連續產生一相關於該患部附近的電位的電位訊號,並將該電位訊號傳送至該主機;該主機還根據該電位訊號產生該第一輸出訊息。In some embodiments, the surgical assistance system further includes an electroencephalograph electrically coupled to the host, the electroencephalograph continuously generating a potential signal related to a potential near the affected part, and transmitting the potential signal To the host; the host also generates the first output message according to the potential signal.

在一些實施態樣中,當該主機根據該電位訊號確認該患部位置時產生一啟動訊號並傳送至該電子裝置;該電子裝置的處理器接收該啟動訊號後產生該第一指示訊息。In some implementations, when the host confirms the position of the affected part according to the potential signal, an activation signal is generated and transmitted to the electronic device; and the processor of the electronic device receives the activation signal to generate the first indication message.

在一些實施態樣中,該主機還包括一輸入單元,供操作以產生一第二指示訊號,且將該第二指示訊號傳送至該電子裝置;該電子裝置還接收該第二指示訊號,且該處理器根據該第二指示訊號產生一第二指示訊息並顯示於該觸控顯示面板,且接受該電子裝置被操作而產生的一對應於該第二指示訊息的第二回饋訊號,且將該第二回饋訊號傳送至該主機;該主機還根據該第二回饋訊號產生一第二輸出訊息,且將該第二輸出訊息傳送至該頭戴式顯示裝置;該頭戴式顯示裝置接收來自該主機的該第二輸出訊息,且該處理模組控制該鏡片顯示該第二輸出訊息。In some implementations, the host further includes an input unit configured to generate a second indication signal and transmit the second indication signal to the electronic device; the electronic device further receives the second indication signal, and The processor generates a second indication message according to the second indication signal and displays the second indication message on the touch display panel, and receives a second feedback signal corresponding to the second indication message generated by the operation of the electronic device, and The second feedback signal is transmitted to the host; the host further generates a second output message according to the second feedback signal, and transmits the second output message to the head mounted display device; the head mounted display device receives the The second output message of the host, and the processing module controls the lens to display the second output message.

在一些實施態樣中,該外科手術輔助系統還包括一影像擷取裝置,其連續擷取該病患表情的影像且產生一相關於該病患表情的影像的第三回饋訊號,且將該第三回饋訊號傳送至該主機;該主機還根據該第三回饋訊號產生一第三輸出訊息且將該訊息傳送至該頭戴式顯示裝置;該頭戴式顯示裝置還接收該第三輸出訊息且該處理模組控制該鏡片顯示該第三輸出訊息。In some embodiments, the surgical assistance system further includes an image capturing device that continuously captures an image of the patient's expression and generates a third feedback signal related to the image of the patient's expression, and The third feedback signal is transmitted to the host; the host further generates a third output message according to the third feedback signal and transmits the message to the head mounted display device; the head mounted display device further receives the third output message And the processing module controls the lens to display the third output message.

在一些實施態樣中,該頭戴式顯示裝置還包括一與該處理模組電連接的影像擷取單元,該處理模組控制該影像擷取單元連續擷取包含該患部周圍及其鄰近區域之影像而產生一影像訊號,且該頭戴式顯示裝置將該影像訊號傳送至該主機,以儲存於該主機的一儲存單元中。In some embodiments, the head mounted display device further includes an image capturing unit electrically connected to the processing module, and the processing module controls the image capturing unit to continuously capture the surrounding area of the affected part and its adjacent area. The image generates an image signal, and the head mounted display device transmits the image signal to the host for storage in a storage unit of the host.

在一些實施態樣中,該電子裝置還包括一收音單元以接收病患發出的聲音,該電子裝置並產生一相關於病患發出的聲音的第四回饋訊號且將該第四回饋訊號傳送至該主機,以儲存於該主機的該儲存單元。In some embodiments, the electronic device further includes a sound receiving unit to receive the sound emitted by the patient, and the electronic device generates a fourth feedback signal related to the sound emitted by the patient and transmits the fourth feedback signal to the The host is stored in the storage unit of the host.

在一些實施態樣中,該頭戴式顯示裝置還包括一與該處理器電連接的錄音單元,該處理器控制該錄音單元連續記錄手術現場之聲音而產生一聲音訊號,且該頭戴式顯示裝置並將該聲音訊號傳送至該主機,以儲存於的該主機的該儲存單元中。In some embodiments, the head mounted display device further includes a recording unit electrically connected to the processor, the processor controlling the recording unit to continuously record the sound of the operation site to generate an audio signal, and the headset The display device transmits the audio signal to the host for storage in the storage unit of the host.

在一些實施態樣中,該主機的該儲存單元還用以儲存該模擬三維影像訊號、該電位訊號、該第一指示訊息、該第二指示訊息、該第一回饋訊號、該第二回饋訊號、該第三回饋訊號、該第一輸出訊息、該第二輸出訊息及該第三輸出訊息。In some implementations, the storage unit of the host is further configured to store the analog 3D image signal, the potential signal, the first indication message, the second indication message, the first feedback signal, and the second feedback signal. The third feedback signal, the first output message, the second output message, and the third output message.

在一些實施態樣中,該主機係利用無線通訊技術與該頭戴式顯示裝置進行通訊。In some implementations, the host communicates with the head mounted display device using wireless communication technology.

本發明至少具有以下功效:利用該鏡片顯示該第一輸出訊息,該醫師即可透過眼前的鏡片看見病患的相關資訊,包括相關於該探針及該患部的模擬三維影像訊號的資訊,及相關於該患部的電位的資訊等等。藉此,醫師在手術過程中不需再抬頭觀看其他顯示介面,俾使手術過程更為流暢。此外,該病患根據該第一指示訊息即可操作該電子裝置的該顯示面板,不需要復健科醫師從旁給予指示,而能節省手術過程之人力配置。The present invention has at least the following effects: using the lens to display the first output message, the physician can see the patient's related information through the lens in front of the eye, including information about the probe and the simulated three-dimensional image signal of the affected part, and Information about the potential of the affected part, and the like. In this way, the doctor does not need to look up the other display interface during the operation, so that the operation process is smoother. In addition, the patient can operate the display panel of the electronic device according to the first indication message, and does not require the rehabilitation doctor to give instructions from the side, thereby saving the manpower configuration of the surgical procedure.

參閱圖1,是本發明外科手術輔助系統100之一實施例,其用以供一醫師對一病患之患部進行手術時使用,該外科手術輔助系統100包含一手術導航裝置1、一主機2、一電子裝置3、一影像擷取裝置4、一頭戴式顯示裝置5及一腦波儀6。在本實施例中,外科手術輔助系統100是例如應用於腦神經外科手術,該醫師例如為一神經外科醫師,該病患之患部是例如腦上的腫瘤。Referring to FIG. 1 , an embodiment of a surgical assist system 100 of the present invention is used for a surgeon to perform surgery on a patient's affected part. The surgical assist system 100 includes a surgical navigation device 1 and a host 2 . An electronic device 3, an image capturing device 4, a head mounted display device 5, and an electroencephalograph 6. In the present embodiment, the surgical assist system 100 is applied, for example, to a neurosurgical surgeon, such as a neurosurgeon, the affected part of which is, for example, a tumor on the brain.

該手術導航裝置1包括一探針11、一通訊單元12及一控制單元13。該手術導航裝置1與該主機2電耦接以進行資料傳輸,例如利用該通訊單元12透過第一通訊網路61與該主機2進行無線通訊,或是電連接該主機2。該控制單元14連續產生一相關於該探針11及該患部的模擬三維影像訊號。該控制單元14並且控制該通訊單元12將該模擬三維影像訊號傳送至該主機2。在本實施例中,手術導航裝置1的探針11(圖未示) 是例如具有反光球,可配合手術導航裝置1的紅外線攝影機(圖未示)進行三維定位,其細節屬習知技術,在此不再細述。在本實施例中,該模擬三維影像包含可識別該探針11之角度及其與該患部之間的相對位置的立體影像資料例如虛擬實境(Virtual Reality)影像或擴增實境(Augmented Reality)影像,但不以此為限。The surgical navigation device 1 includes a probe 11, a communication unit 12, and a control unit 13. The surgical navigation device 1 is electrically coupled to the host 2 for data transmission, for example, by using the communication unit 12 to wirelessly communicate with the host 2 through the first communication network 61, or to electrically connect to the host 2. The control unit 14 continuously generates a simulated three-dimensional image signal related to the probe 11 and the affected part. The control unit 14 controls the communication unit 12 to transmit the analog 3D video signal to the host 2. In the present embodiment, the probe 11 (not shown) of the surgical navigation device 1 is, for example, a reflective camera with an infrared camera (not shown) that can be used in conjunction with the surgical navigation device 1 for three-dimensional positioning, the details of which are conventional techniques. It will not be described in detail here. In this embodiment, the simulated three-dimensional image includes stereoscopic image data that can identify the angle of the probe 11 and its relative position with the affected part, such as a virtual reality image or an augmented reality (Augmented Reality). ) Image, but not limited to it.

在本實施例中,當醫師利用探針11用以去刺激患部周圍的區域,同時利用該腦波儀6例如量測該患部周圍而產生一相關於該患部附近的電位的電位訊號,並將該電位訊號傳送至該主機2。在本實施例中,是例如利用在患部附近貼覆電極陣列以量測得到大腦於患部周圍(譬如腫瘤的外側)的皮質電位,而該電位訊號為腦皮質電位時序(ECoG)的訊號,但不以此為限。In this embodiment, when the physician uses the probe 11 to irritate the area around the affected part, and simultaneously uses the electroencephalograph 6 to measure the surrounding area of the affected part to generate a potential signal related to the potential near the affected part, and The potential signal is transmitted to the host 2. In the present embodiment, for example, the electrode array is attached in the vicinity of the affected part to measure the cortical potential of the brain around the affected part (for example, the outer side of the tumor), and the potential signal is a signal of the cerebral cortical potential sequence (ECoG), but Not limited to this.

在本實施例中,該手術導航裝置1係利用例如TCP/IP通訊協定將該模擬三維影像訊號、該電位訊號及該啟動訊號傳送至該主機2,但不以此為限。In this embodiment, the surgical navigation device 1 transmits the analog 3D video signal, the potential signal and the activation signal to the host 2 by using, for example, a TCP/IP protocol, but is not limited thereto.

在本實施例中,該主機2包括一網路單元21、一儲存單元22、一使用者輸入單元23及一電連接該網路單元21、該儲存單元22、該使用者輸入單元23的處理單元24。該主機2透過該網路單元21經由第一通訊網路61與該手術導航裝置1電耦接,以持續接收該模擬三維影像訊號及該電位訊號。In this embodiment, the host 2 includes a network unit 21, a storage unit 22, a user input unit 23, and an electrical connection between the network unit 21, the storage unit 22, and the user input unit 23. Unit 24. The host 2 is electrically coupled to the surgical navigation device 1 via the first communication network 61 via the network unit 21 to continuously receive the analog 3D video signal and the potential signal.

該電子裝置3具有一觸控顯示面板31、一通訊器32、一收音單元33及一電連接該觸控顯示面板31、該通訊器32及該收音單元33的處理器34。在本實施例中,該電子裝置3例如為一平板電腦(圖未示),但不以此為限。該電子裝置3與該主機2電耦接,例如利用該通訊器32經由第一通訊網路61與該主機2進行無線通訊,或與該主機電連接,以接收該啟動訊號,該處理器34根據該啟動訊號產生一第一指示訊息並使該第一指示訊息顯示於該觸控顯示面板31,且接受該電子裝置3被操作(譬如病患觸碰該觸控顯示面板31或是對該收音單元33說出數字或特定名稱等操作)而產生的該對應於該第一指示訊息的第一回饋訊號,接著,該處理器34控制該通訊器32將該第一回饋訊號傳送至該主機2。The electronic device 3 has a touch display panel 31 , a communicator 32 , a sound pickup unit 33 , and a processor 34 electrically connected to the touch display panel 31 , the communication device 32 , and the sound pickup unit 33 . In this embodiment, the electronic device 3 is, for example, a tablet computer (not shown), but is not limited thereto. The electronic device 3 is electrically coupled to the host 2, for example, using the communicator 32 to wirelessly communicate with the host 2 via the first communication network 61, or is electrically connected to the host to receive the activation signal. The processor 34 is configured according to the processor 34. The activation signal generates a first indication message and displays the first indication message on the touch display panel 31, and accepts that the electronic device 3 is operated (for example, the patient touches the touch display panel 31 or the radio is received) The unit 33 refers to the first feedback signal corresponding to the first indication message generated by the operation of the number or the specific name, and then the processor 34 controls the communicator 32 to transmit the first feedback signal to the host 2 .

因此,該主機2的網路單元21接收來自該電子裝置3的該第一回饋訊號,然後,該主機2的處理單元24根據該模擬三維影像訊號、該電位訊號及該第一回饋訊號產生一第一輸出訊息,且控制該網路單元21將該第一輸出訊息經由第二通訊網路62傳送至該頭戴式顯示裝置5。Therefore, the network unit 21 of the host 2 receives the first feedback signal from the electronic device 3, and then the processing unit 24 of the host 2 generates a signal according to the analog 3D video signal, the potential signal and the first feedback signal. The first output message, and the network unit 21 is controlled to transmit the first output message to the head mounted display device 5 via the second communication network 62.

在本實施例中,該第一指示訊息包含指引病患觸控該觸控面板的訊息,譬如指引病患觸碰該觸控顯示面板31的特定位置如右上角,或連續點擊等任務,但不以此為限。在本實施例中,該第一指示訊息可以是例如一投影片,但不以此為限。在本實施例中,當該主機2根據該電位訊號確認該患部位置時產生一啟動訊號並傳送至該電子裝置3,該電子裝置3的處理器34接收到該啟動訊號後產生該第一指示訊息。藉此,就能使該第一指示訊息於確認該患部位置後產生,以使病患在特定時間(譬如大腦開顱手術進行至喚醒病患後)開始操作該電子裝置3的觸控顯示面板31,但不以此為限。在其他的實施態樣中,第一指示訊息可以在任何時刻產生,換句話說,病患可以在任何時刻操控該電子裝置3,進行所述任務。In this embodiment, the first indication message includes a message for guiding the patient to touch the touch panel, for example, guiding the patient to touch a specific position of the touch display panel 31 such as an upper right corner, or a continuous click, etc., but Not limited to this. In this embodiment, the first indication message may be, for example, a slide, but is not limited thereto. In this embodiment, when the host 2 confirms the position of the affected part according to the potential signal, an activation signal is generated and transmitted to the electronic device 3. The processor 34 of the electronic device 3 generates the first indication after receiving the activation signal. message. Thereby, the first indication message can be generated after confirming the position of the affected part, so that the patient starts to operate the touch display panel of the electronic device 3 at a specific time (for example, after the brain craniotomy proceeds to wake up the patient). 31, but not limited to this. In other embodiments, the first indication message can be generated at any time. In other words, the patient can manipulate the electronic device 3 at any time to perform the task.

在本實施例中,該使用者輸入單元23供例如一復健科醫師操作以產生一第二指示訊號。接著,該主機2的處理單元24控制該網路單元21將該第二指示訊號傳送至該電子裝置3。因此,該電子裝置3的通訊器32還接收該第二指示訊號,且該處理器34根據該第二指示訊號產生一第二指示訊息並顯示於該觸控顯示面板31,且接受該電子裝置3被病患操作(操作譬如觸碰該觸控顯示面板31或是對該收音單元33說出數字或特定名稱等動作)而產生的一對應於該第二指示訊息的第二回饋訊號,且將該第二回饋訊號傳送至該主機2。然後,該主機2收到來自該電子裝置3的第二回饋訊號後,該主機2的網路單元23還根據該第二回饋訊號產生一第二輸出訊息,且將該第二輸出訊息傳送至該頭戴式顯示裝置5。In the present embodiment, the user input unit 23 is operated by, for example, a rehabilitation physician to generate a second indication signal. Then, the processing unit 24 of the host 2 controls the network unit 21 to transmit the second indication signal to the electronic device 3. Therefore, the communicator 32 of the electronic device 3 further receives the second indication signal, and the processor 34 generates a second indication message according to the second indication signal and displays it on the touch display panel 31, and accepts the electronic device. a second feedback signal corresponding to the second indication message generated by the patient operating (such as touching the touch display panel 31 or speaking a number or a specific name to the radio unit 33), and The second feedback signal is transmitted to the host 2. Then, after the host 2 receives the second feedback signal from the electronic device 3, the network unit 23 of the host 2 generates a second output message according to the second feedback signal, and transmits the second output message to The head mounted display device 5.

在本實施例中,該主機2的使用者輸入單元23為一供復健科醫師輸入指令用的鍵盤(圖未示),但不以此為限。且該第二指示訊號之內容相應於該復健科醫師對病患下的指令,譬如要求該病患重複按壓該觸控顯示面板31的一特定區域,但不以此為限。在本實施例中,該第二指示訊息可以是例如一投影片,但不以此為限。病患根據該觸控顯示面板31所顯示的該第二指示訊息而觸控該觸控顯示面板31。該第二回饋訊號相應於該病患根據該第二指示訊息觸碰該觸控顯示面板31而產生的資訊,但不以此為限。In this embodiment, the user input unit 23 of the host 2 is a keyboard (not shown) for inputting instructions to the rehabilitation physician, but is not limited thereto. The content of the second indication signal corresponds to the instruction of the rehabilitation doctor to the patient, for example, the patient is required to repeatedly press a specific area of the touch display panel 31, but not limited thereto. In this embodiment, the second indication message may be, for example, a slide, but is not limited thereto. The patient touches the touch display panel 31 according to the second indication message displayed on the touch display panel 31. The second feedback signal corresponds to the information generated by the patient touching the touch display panel 31 according to the second indication message, but is not limited thereto.

在本實施例中,該影像擷取裝置4與該主機2電耦接,且連續擷取該病患表情的影像且產生該相關於該病患表情及四肢動作的影像的一第三回饋訊號,且將該第三回饋訊號傳送至該主機2。在本實施例中,該影像擷取裝置4為一攝影機,但不以此為限。因此,該主機2的網路單元21還持續接收來自該影像擷取裝置4的第三回饋訊號,該主機2的處理單元24還根據該第三回饋訊號產生一第三輸出訊息,且控制該網路單元21將該第三輸出訊息傳送至該頭戴式顯示裝置5。In this embodiment, the image capturing device 4 is electrically coupled to the host 2, and continuously captures an image of the patient's expression and generates a third feedback signal related to the patient's expression and the motion of the limbs. And transmitting the third feedback signal to the host 2. In the embodiment, the image capturing device 4 is a camera, but is not limited thereto. Therefore, the network unit 21 of the host 2 continues to receive the third feedback signal from the image capturing device 4, and the processing unit 24 of the host 2 generates a third output message according to the third feedback signal, and controls the The network unit 21 transmits the third output message to the head mounted display device 5.

在本實施例中,該主機2的網路單元21是利用例如TCP/IP通訊協定技術將該第一輸出訊息、該第二輸出訊息及該第三輸出訊息傳送至該頭戴式顯示裝置5,但不以此為限。且該主機2的該儲存單元22還儲存該模擬三維影像訊號、該電位訊號、該第一指示訊息、該第二指示訊息、該第一回饋訊號、該第二回饋訊號、該第三回饋訊號、該第一輸出訊息、該第二輸出訊息及該第三輸出訊息,但不以此為限。In this embodiment, the network unit 21 of the host 2 transmits the first output message, the second output message, and the third output message to the head mounted display device 5 by using, for example, TCP/IP protocol technology. , but not limited to this. The storage unit 22 of the host 2 further stores the analog 3D video signal, the potential signal, the first indication message, the second indication message, the first feedback signal, the second feedback signal, and the third feedback signal. The first output message, the second output message, and the third output message are not limited thereto.

在本實施例中,該電子裝置3的收音單元33用以接收病患發出的聲音,該電子裝置3的處理器34並產生該相關於病患發出的聲音的第四回饋訊號且將該第四回饋訊號傳送至該主機2,以儲存於該主機2的一儲存單元22,以供譬如術後教學使用。In the embodiment, the sound receiving unit 33 of the electronic device 3 is configured to receive the sound emitted by the patient, and the processor 34 of the electronic device 3 generates the fourth feedback signal related to the sound emitted by the patient and the first The four feedback signals are transmitted to the host 2 for storage in a storage unit 22 of the host 2 for use in, for example, post-operative teaching.

在本實施例中,該頭戴式顯示裝置5供該腦神經外科醫師穿戴,在本實施例中,該頭戴式顯示裝置5為一智慧型眼鏡(圖未示),但不以此為限。該頭戴式顯示裝置5包括一通訊模組51、一鏡片52、一影像擷取單元53、一錄音單元54及一電連接該通訊模組51、該鏡片52、該影像擷取單元53及該錄音單元54的處理模組55。該頭戴式顯示裝置5利用該通訊模組51經由第二通訊網路62與該主機2電耦接,以持續接收來自該主機2的該第一輸出訊息、該第二輸出訊息及該第三輸出訊息。接著,該頭戴式顯示裝置5的處理模組55控制該鏡片52顯示該第一輸出訊息、該第二輸出訊息及該第三輸出訊息以供該腦神經外科醫師觀看,藉此得知有關病患的資訊,而不須抬頭觀看其他顯示介面,以使手術流程更為順暢。In this embodiment, the head mounted display device 5 is worn by the brain neurosurgeon. In the embodiment, the head mounted display device 5 is a smart glasses (not shown), but limit. The head-mounted display device 5 includes a communication module 51, a lens 52, an image capturing unit 53, a recording unit 54, and an electrical connection module 51, the lens 52, and the image capturing unit 53. The processing module 55 of the recording unit 54. The head mounted display device 5 is electrically coupled to the host 2 via the second communication network 62 to continuously receive the first output message, the second output message, and the third from the host 2 Output a message. Then, the processing module 55 of the head mounted display device 5 controls the lens 52 to display the first output message, the second output message and the third output message for viewing by the brain neurosurgeon, thereby learning about Patient information, without having to look up other viewing interfaces to make the procedure smoother.

在本實施中,該主機2係利用例如無線通訊技術與該頭戴式顯示裝置5進行通訊,但不以此為限。In the present embodiment, the host 2 communicates with the head mounted display device 5 by using, for example, a wireless communication technology, but is not limited thereto.

請參閱圖2,在本實施例中,鏡片52顯示的畫面中,該第一輸出訊息包含該患部及其周圍的模擬三維影像101、大腦皮質電位時序(ECoG)的訊號圖102及該病患回應該第一指示訊息而觸控該電子裝置3的觸控顯示面板31因而產生的資訊103,但不以此為限。該第二輸出訊息包括該病患回應該第二指示訊息而觸控該觸控顯示面板31因而產生的資訊201。該第三輸出訊息包括一顯示病患的表情的影像301。在該鏡片中52所呈現的該第一輸出訊息、該第二輸出訊息及該第三輸出訊息的大小及位置關係是如圖2配置,但不以此為限。在其他的實施態樣中,該鏡片52顯示的影像可以是該患部及其周圍的模擬三維影像101、大腦皮質電位時序(ECoG)的訊號圖102及該病患回應該第一指示訊息而觸控該電子裝置3的觸控顯示面板31因而產生的資訊103及中一者,並由醫師切換,舉例而言,醫師可以透過操作該主機2而切換影像,或利用手勢或聲音控制切換影像。在其他的實施態樣中,也可以由手術室內的其他人員譬如護士或復健科醫師來協助切換。Referring to FIG. 2, in the embodiment, the first output message includes a simulated three-dimensional image 101 of the affected part and its surroundings, a signal map 102 of the cerebral cortical potential sequence (ECoG), and the patient. The information 103 thus generated by the touch display panel 31 of the electronic device 3 is touched back to the first indication message, but is not limited thereto. The second output message includes the information 201 generated by the patient touching the touch display panel 31 and responding to the second indication message. The third output message includes an image 301 showing the expression of the patient. The size and positional relationship of the first output message, the second output message, and the third output message displayed in the lens 52 are configured as shown in FIG. 2, but are not limited thereto. In other embodiments, the image displayed by the lens 52 may be a simulated three-dimensional image 101 of the affected part and its surroundings, a signal map 102 of the cerebral cortical potential sequence (ECoG), and the patient's response to the first indication message. The information 103 and the one of the information generated by the touch display panel 31 of the electronic device 3 are controlled by the physician. For example, the doctor can switch the image by operating the host 2 or switch the image by using gestures or sound control. In other embodiments, other personnel in the operating room, such as a nurse or a rehabilitation physician, may also assist in the handover.

在本實施例中,該主機2的處理單元24可以根據第一回饋訊號或第二回饋訊號計算出病患操作該電子裝置3的觸控顯示面板31的反應時間,且判斷病患實際的操作是否與第一指示訊息或第二指示訊息之內容相同,並計算出正確率,且判斷是否有正確率過低。再者,該處理單元24能根據該第三回饋訊號取得由影像擷取裝置4連續擷取的病患之連續表情及病患之四肢的連續動作,並利用以影像辨識方法來判斷病患臉部表情或四肢動作是否異常。此外,該處理單元24也能根據該第四回饋訊號取得收音單元33所錄製的病患聲音判斷出其頻率是否改變或回應是否延遲等異常現象。處理單元24判斷所述正確率過低及病患的臉部表情、四肢動作或聲音其中一者有異常時,該處理單元24判斷大腦皮質電位時序(ECoG)是否有異常,若結果為是,則可迅速由主機2傳輸一第五訊息至頭戴式顯示裝置5,且該處理模組5控制該鏡片52顯示該第五訊息,藉此,神經外科醫師能得知其電極刺激位置或手術動作位置與病患之反應的關係。在本實施例中,第五訊息可以為提示目前醫師利用電極刺激或正在切除的所在區域為語言皮質區或運動皮質區,但不以此為限。In this embodiment, the processing unit 24 of the host 2 can calculate the reaction time of the patient operating the touch display panel 31 of the electronic device 3 according to the first feedback signal or the second feedback signal, and determine the actual operation of the patient. Whether it is the same as the content of the first indication message or the second indication message, and calculates the correct rate, and determines whether the correct rate is too low. Furthermore, the processing unit 24 can obtain the continuous expression of the patient continuously captured by the image capturing device 4 and the continuous motion of the limbs of the patient according to the third feedback signal, and use the image recognition method to determine the patient's face. Whether the facial expression or limb movement is abnormal. In addition, the processing unit 24 can also determine whether the frequency of the patient's voice recorded by the sound receiving unit 33 is changed according to the fourth feedback signal or whether the response is delayed or the like. When the processing unit 24 determines that the correct rate is too low and one of the facial expressions, limb movements, or sounds of the patient is abnormal, the processing unit 24 determines whether the cerebral cortical potential sequence (ECoG) is abnormal, and if the result is yes, A fifth message can be quickly transmitted from the host 2 to the head mounted display device 5, and the processing module 5 controls the lens 52 to display the fifth message, whereby the neurosurgeon can know the position of the electrode stimulation or the operation. The relationship between the action position and the patient's response. In this embodiment, the fifth message may be a language cortical area or a sports cortex area, but not limited thereto, for prompting the current physician to utilize the electrode stimulation or the region being resected.

在本實施例中,該頭戴式顯示裝置5的處理模組55能在手術過程中控制該影像擷取單元53連續擷取包含該患部周圍及其鄰近區域之影像而產生一影像訊號,譬如,該探針11及該患部及周圍組織的影像。且該處理模組55控制該通訊模組51將該影像訊號傳送至該主機2,以儲存於該主機2的儲存單元22中,以供譬如術後教學使用。In this embodiment, the processing module 55 of the head mounted display device 5 can control the image capturing unit 53 to continuously capture an image including the surrounding area of the affected part and its adjacent area to generate an image signal during the operation. The probe 11 and images of the affected part and surrounding tissues. The processing module 55 controls the communication module 51 to transmit the image signal to the host 2 for storage in the storage unit 22 of the host 2 for use in post-operative teaching.

在本實施例中,該頭戴式顯示裝置5的處理模組55還能在手術過程中控制該錄音單元54連續記錄手術現場之聲音而產生一聲音訊號,且該處理模組55控制該通訊模組51將該聲音訊號傳送至該主機2,以儲存於的該主機2的該儲存單元22中,以供譬如術後教學使用。In this embodiment, the processing module 55 of the head mounted display device 5 can also control the recording unit 54 to continuously record the sound of the operation site during the operation to generate an audio signal, and the processing module 55 controls the communication. The module 51 transmits the audio signal to the host 2 for storage in the storage unit 22 of the host 2 for use in post-operative teaching.

綜上所述,本發明外科手術輔助系統,利用頭戴式顯示裝置5的該鏡片52顯示該第一輸出訊息,該醫師即可透過眼前的鏡片看見病患的相關資訊,包括該患部及其周圍的模擬三維影像101、大腦皮質電位時序(ECoG)的訊號圖102、該病患回應該第一指示訊息而觸控該觸控顯示面板31而產生的資訊103、該病患回應該第二指示訊息而觸控該觸控顯示面板31而產生的資訊201及病患的表情的影像301,藉此,醫師在手術過程中不需再抬頭觀看其他顯示介面,俾使手術過程更為流暢。此外,該病患根據該第一指示訊息即可操作該電子裝置3的該觸控顯示面板31,復健科醫師不需要在手術全程從旁給予指示,只要在必要時出現且操作該主機2的使用者輸入單元23以產生該第二指示訊息,而能節省手術過程之人力配置。故確實能達成本發明之目的。In summary, the surgical aid system of the present invention displays the first output message by using the lens 52 of the head mounted display device 5, and the doctor can see related information of the patient through the lens in front of the eye, including the affected part and The surrounding simulated three-dimensional image 101, the cerebral cortical potential sequence (ECoG) signal map 102, the patient's response to the first indication message and the touch display panel 31 generated information 103, the patient's response should be second The information 201 generated by the touch display panel 31 and the image 301 of the patient's expression are touched by the instruction message, so that the doctor does not need to look up the other display interface during the operation, so that the operation process is smoother. In addition, the patient can operate the touch display panel 31 of the electronic device 3 according to the first indication message, and the rehabilitation physician does not need to give an indication from the side of the surgery, as long as necessary and operate the host 2 The user input unit 23 generates the second indication message, thereby saving the manpower configuration of the surgical procedure. Therefore, the object of the present invention can be achieved.

惟以上所述者,僅為本發明之實施例而已,當不能以此限定本發明實施之範圍,凡是依本發明申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本發明專利涵蓋之範圍內。However, the above is only the embodiment of the present invention, and the scope of the invention is not limited thereto, and all the equivalent equivalent changes and modifications according to the scope of the patent application and the patent specification of the present invention are still The scope of the invention is covered.

100‧‧‧外科手術輔助系統
1‧‧‧手術導航裝置
11‧‧‧探針
12‧‧‧通訊單元
13‧‧‧控制單元
2‧‧‧主機
21‧‧‧網路單元
22‧‧‧儲存單元
23‧‧‧使用者輸入單元
24‧‧‧處理單元
3‧‧‧電子裝置
31‧‧‧觸控顯示面板
32‧‧‧通訊器
33‧‧‧收音單元
34‧‧‧控制器
4‧‧‧影像擷取裝置
5‧‧‧頭戴式顯示裝置
51‧‧‧通訊模組
52‧‧‧鏡片
53‧‧‧影像擷取單元
54‧‧‧錄音單元
55‧‧‧處理模組
61‧‧‧第一通訊網路
62‧‧‧第二通訊網路
101‧‧‧模擬三維影像
102‧‧‧訊號圖
103‧‧‧資訊
201‧‧‧資訊
301‧‧‧影像
100‧‧‧Surgical assisted system
1‧‧‧Surgical navigation device
11‧‧‧Probe
12‧‧‧Communication unit
13‧‧‧Control unit
2‧‧‧Host
21‧‧‧Network Unit
22‧‧‧ storage unit
23‧‧‧User input unit
24‧‧‧Processing unit
3‧‧‧Electronic devices
31‧‧‧Touch display panel
32‧‧‧Communicator
33‧‧‧ Radio unit
34‧‧‧ Controller
4‧‧‧Image capture device
5‧‧‧ head-mounted display device
51‧‧‧Communication Module
52‧‧‧ lenses
53‧‧‧Image capture unit
54‧‧‧Recording unit
55‧‧‧Processing module
61‧‧‧First communication network
62‧‧‧Second communication network
101‧‧‧Simulated 3D imagery
102‧‧‧ Signal Map
103‧‧‧Information
201‧‧‧Information
301‧‧‧ images

本發明之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中: 圖1是一方塊圖,說明本發明外科手術輔助系統的一實施例;及 圖2是一示意圖,說明該實施例的頭戴式顯示裝置的一鏡片。Other features and advantages of the present invention will be apparent from the embodiments of the present invention, wherein: Figure 1 is a block diagram illustrating an embodiment of the surgical assist system of the present invention; and Figure 2 is a schematic view, A lens of the head mounted display device of this embodiment will be described.

100‧‧‧外科手術輔助系統 100‧‧‧Surgical assisted system

1‧‧‧手術導航裝置 1‧‧‧Surgical navigation device

11‧‧‧探針 11‧‧‧Probe

12‧‧‧通訊單元 12‧‧‧Communication unit

13‧‧‧處理單元 13‧‧‧Processing unit

2‧‧‧主機 2‧‧‧Host

21‧‧‧網路單元 21‧‧‧Network Unit

22‧‧‧儲存單元 22‧‧‧ storage unit

23‧‧‧使用者輸入單元 23‧‧‧User input unit

24‧‧‧處理單元 24‧‧‧Processing unit

3‧‧‧電子裝置 3‧‧‧Electronic devices

31‧‧‧觸控顯示面板 31‧‧‧Touch display panel

32‧‧‧通訊器 32‧‧‧Communicator

33‧‧‧收音單元 33‧‧‧ Radio unit

34‧‧‧控制器 34‧‧‧ Controller

4‧‧‧影像擷取裝置 4‧‧‧Image capture device

5‧‧‧頭戴式顯示裝置 5‧‧‧ head-mounted display device

51‧‧‧通訊模組 51‧‧‧Communication Module

52‧‧‧鏡片 52‧‧‧ lenses

53‧‧‧影像擷取單元 53‧‧‧Image capture unit

54‧‧‧錄音單元 54‧‧‧Recording unit

55‧‧‧處理模組 55‧‧‧Processing module

61‧‧‧第一通訊網路 61‧‧‧First communication network

62‧‧‧第二通訊網路 62‧‧‧Second communication network

7‧‧‧腦波儀 7‧‧‧ brain wave meter

Claims (10)

一種外科手術輔助系統,用以供一醫師對一病患之患部進行手術時使用,該外科手術輔助系統包含: 一手術導航裝置,包括一探針,該手術導航裝置連續產生一相關於該探針及該患部的模擬三維影像訊號; 一電子裝置,具有一觸控顯示面板及一處理器,且該電子裝置電耦接於該主機,該處理器產生一第一指示訊息並使該第一指示訊息顯示於該觸控顯示面板,且接受該電子裝置被操作而產生的一對應於該第一指示訊息的第一回饋訊號; 一主機,電耦接於該手術導航裝置及該電子裝置以持續接收該模擬三維影像訊號及該第一回饋訊號,且根據該模擬三維影像訊號及該第一回饋訊號產生一第一輸出訊息;及 一頭戴式顯示裝置,與該主機電耦接以持續接收來自該主機的該第一輸出訊息,並包括一鏡片及一電連接該鏡片且控制該鏡片顯示該第一輸出訊息的處理模組。A surgical aid system for use by a physician in performing surgery on a affected part of a patient, the surgical aid system comprising: a surgical navigation device including a probe, the surgical navigation device continuously generating a correlation with the probe And the electronic device has a touch display panel and a processor, and the electronic device is electrically coupled to the host, the processor generates a first indication message and makes the first The indication message is displayed on the touch display panel, and receives a first feedback signal corresponding to the first indication message generated by the operation of the electronic device; a host is electrically coupled to the surgical navigation device and the electronic device Continuously receiving the analog 3D video signal and the first feedback signal, and generating a first output message according to the analog 3D video signal and the first feedback signal; and a head mounted display device electrically coupled to the host to continue Receiving the first output message from the host, and including a lens and an electrical connection to the lens and controlling the lens to display the first output message Processing module. 如請求項1所述的外科手術輔助系統,還包括一電耦接於該主機的腦波儀,該腦波儀連續產生一相關於該患部附近的電位的電位訊號,並將該電位訊號傳送至該主機;該主機還根據該電位訊號產生該第一輸出訊息。The surgical aid system of claim 1, further comprising an electroencephalograph electrically coupled to the host, the electroencephalograph continuously generating a potential signal related to a potential near the affected part, and transmitting the potential signal To the host; the host also generates the first output message according to the potential signal. 如請求項2所述的外科手術輔助系統,其中,當該主機根據該電位訊號確認該患部位置時產生一啟動訊號並傳送至該電子裝置;該電子裝置的處理器接收該啟動訊號後產生該第一指示訊息。The surgical aid system of claim 2, wherein when the host confirms the position of the affected part according to the potential signal, an activation signal is generated and transmitted to the electronic device; and the processor of the electronic device receives the activation signal to generate the The first indication message. 如請求項3所述的外科手術輔助系統,其中, 該主機還包括一輸入單元,供操作以產生一第二指示訊號,且將該第二指示訊號傳送至該電子裝置;該電子裝置還接收該第二指示訊號,且該處理器根據該第二指示訊號產生一第二指示訊息並顯示於該觸控顯示面板,且接受該電子裝置被操作而產生的一對應於該第二指示訊息的第二回饋訊號,且將該第二回饋訊號傳送至該主機;該主機還根據該第二回饋訊號產生一第二輸出訊息,且將該第二輸出訊息傳送至該頭戴式顯示裝置;該頭戴式顯示裝置接收來自該主機的該第二輸出訊息,且該處理模組控制該鏡片顯示該第二輸出訊息。The surgical aid system of claim 3, wherein the host further comprises an input unit operative to generate a second indication signal and to transmit the second indication signal to the electronic device; the electronic device further receives The second indication signal, and the processor generates a second indication message according to the second indication signal and displays the second indication message on the touch display panel, and accepts that the electronic device is operated to generate a second indication message corresponding to the second indication message. a second feedback signal, and the second feedback signal is transmitted to the host; the host further generates a second output message according to the second feedback signal, and transmits the second output message to the head mounted display device; The head mounted display device receives the second output message from the host, and the processing module controls the lens to display the second output message. 如請求項4所述的外科手術輔助系統,還包括一影像擷取裝置,其連續擷取該病患表情的影像且產生一相關於該病患表情的影像的第三回饋訊號,且將該第三回饋訊號傳送至該主機;該主機還根據該第三回饋訊號產生一第三輸出訊息且將該訊息傳送至該頭戴式顯示裝置;該頭戴式顯示裝置還接收該第三輸出訊息且該處理模組控制該鏡片顯示該第三輸出訊息。The surgical aid system of claim 4, further comprising an image capturing device that continuously captures an image of the patient's expression and generates a third feedback signal related to the image of the patient's expression, and The third feedback signal is transmitted to the host; the host further generates a third output message according to the third feedback signal and transmits the message to the head mounted display device; the head mounted display device further receives the third output message And the processing module controls the lens to display the third output message. 如請求項1至5任一項所述的外科手術輔助系統,其中,該頭戴式顯示裝置還包括一與該處理模組電連接的影像擷取單元,該處理模組控制該影像擷取單元連續擷取包含該患部周圍及其鄰近區域之影像而產生一影像訊號,且該頭戴式顯示裝置將該影像訊號傳送至該主機,以儲存於該主機的一儲存單元中。The surgical aid system of any one of claims 1 to 5, wherein the head mounted display device further comprises an image capturing unit electrically connected to the processing module, the processing module controlling the image capturing The unit continuously captures an image including the surrounding area of the affected part and an adjacent area thereof to generate an image signal, and the head mounted display device transmits the image signal to the host for storage in a storage unit of the host. 如請求項6所述的外科手術輔助系統,其中,該頭戴式顯示裝置還包括一與該處理模組電連接的錄音單元,該處理模組控制該錄音單元連續記錄手術現場之聲音而產生一聲音訊號,且該頭戴式顯示裝置並將該聲音訊號傳送至該主機,以儲存於的該主機的該儲存單元中。The surgical aid system of claim 6, wherein the head mounted display device further comprises a recording unit electrically connected to the processing module, the processing module controlling the recording unit to continuously record the sound of the operation site to generate An audio signal, and the head mounted display device transmits the audio signal to the host to be stored in the storage unit of the host. 如請求項7所述的外科手術輔助系統,其中,該電子裝置還包括一收音單元以接收病患發出的聲音,該電子裝置並產生一相關於病患發出的聲音的第四回饋訊號且將該第四回饋訊號傳送至該主機,以儲存於該主機的該儲存單元。The surgical aid system of claim 7, wherein the electronic device further comprises a sound receiving unit for receiving a sound emitted by the patient, the electronic device generating a fourth feedback signal related to the sound of the patient and The fourth feedback signal is transmitted to the host for storage in the storage unit of the host. 如請求項8所述的外科手術輔助系統,其中,該主機的該儲存單元還用以儲存該模擬三維影像訊號、該電位訊號、該第一指示訊息、該第二指示訊息、該第一回饋訊號、該第二回饋訊號、該第三回饋訊號、該第一輸出訊息、該第二輸出訊息及該第三輸出訊息。The surgical aid system of claim 8, wherein the storage unit of the host is further configured to store the analog 3D image signal, the potential signal, the first indication message, the second indication message, and the first feedback a signal, the second feedback signal, the third feedback signal, the first output message, the second output message, and the third output message. 如請求項9所述的外科手術輔助系統,其中,該主機係利用無線通訊技術與該頭戴式顯示裝置進行通訊。The surgical aid system of claim 9, wherein the host communicates with the head mounted display device using wireless communication technology.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI671762B (en) * 2018-05-17 2019-09-11 高雄榮民總醫院 Method, computer-readable recording medium, computer program product and system for medical care evaluation in virtual reality environment from randomthird-person or operator viewpoint
WO2020210972A1 (en) * 2019-04-16 2020-10-22 孙永年 Wearable image display device for surgery and surgical information real-time presentation system
TWI784789B (en) * 2021-11-10 2022-11-21 高雄醫學大學 Rehabilitation system based on brainwave control

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI707660B (en) * 2019-04-16 2020-10-21 國立成功大學 Wearable image display device for surgery and surgery information real-time system

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU2003218010A1 (en) * 2002-03-06 2003-09-22 Z-Kat, Inc. System and method for using a haptic device in combination with a computer-assisted surgery system
DE102004046430A1 (en) * 2004-09-24 2006-04-06 Siemens Ag System for visual situation-based real-time based surgeon support and real-time documentation and archiving of the surgeon's visually perceived support-based impressions during surgery
MY168264A (en) * 2008-07-15 2018-10-16 Dtt holdings pty ltd Method for preparing a patent for a medical treatment
JP5730177B2 (en) * 2011-11-21 2015-06-03 独立行政法人国立がん研究センター Electronic endoscope system
US20140081659A1 (en) * 2012-09-17 2014-03-20 Depuy Orthopaedics, Inc. Systems and methods for surgical and interventional planning, support, post-operative follow-up, and functional recovery tracking
US20140296871A1 (en) * 2013-04-01 2014-10-02 Chieh-Hsiao Chen Surgical guiding and position system
US10254855B2 (en) * 2013-06-04 2019-04-09 Wen-Chieh Geoffrey Lee High resolution and high sensitivity three-dimensional (3D) cursor maneuvering device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI671762B (en) * 2018-05-17 2019-09-11 高雄榮民總醫院 Method, computer-readable recording medium, computer program product and system for medical care evaluation in virtual reality environment from randomthird-person or operator viewpoint
WO2020210972A1 (en) * 2019-04-16 2020-10-22 孙永年 Wearable image display device for surgery and surgical information real-time presentation system
TWI784789B (en) * 2021-11-10 2022-11-21 高雄醫學大學 Rehabilitation system based on brainwave control

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