JP7439126B2 - 時間カウンタを備えるモジュール位置認識感知を備えるモジュール式外科用エネルギーシステム - Google Patents
時間カウンタを備えるモジュール位置認識感知を備えるモジュール式外科用エネルギーシステム Download PDFInfo
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Description
本出願は、2019年9月5日に出願された「MODULAR SURGICAL ENERGY SYSTEM WITH MODULE POSITIONAL AWARENESS SENSING WITH TIME COUNTER」と題する米国非仮特許出願第16/562,234号の利益を主張し、その開示は、全体が参照により本明細書に組み込まれる。
・「METHOD FOR CONSTRUCTING AND USING A MODULAR SURGICAL ENERGY SYSTEM WITH MULTIPLE DEVICES」と題する米国特許出願整理番号第END9067USNP1/180679-1M号、
・「METHOD FOR ENERGY DISTRIBUTION IN A SURGICAL MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9069USNP1/180681-1M号、
・「SURGICAL MODULAR ENERGY SYSTEM WITH A SEGMENTED BACKPLANE」と題する米国特許出願整理番号第END9069USNP2/180681-2号、
・「SURGICAL MODULAR ENERGY SYSTEM WITH FOOTER MODULE」と題する米国特許出願整理番号第END9069USNP3/180681-3号、
・「POWER AND COMMUNICATION MITIGATION ARRANGEMENT FOR MODULAR SURGICAL ENERGY SYSTEM」と題する米国特許出願整理番号END9069USNP4/180681-4号、
・「MODULAR SURGICAL ENERGY SYSTEM WITH MODULE POSITIONAL AWARENESS SENSING WITH VOLTAGE DETECTION」と題する米国特許出願整理番号第END9069USNP5/180681-5号、
・「MODULAR SURGICAL ENERGY SYSTEM WITH MODULE POSITIONAL AWARENESS SENSING WITH TIME COUNTER」と題する米国特許出願整理番号第END9069USNP6/180681-6号、
・「MODULAR SURGICAL ENERGY SYSTEM WITH MODULE POSITIONAL AWARENESS WITH DIGITAL LOGIC」と題する米国特許出願整理番号第END9069USNP7/180681-7号、
・「METHOD FOR CONTROLLING AN ENERGY MODULE OUTPUT」と題する米国特許出願整理番号第END9068USNP1/180680-1M号、
・「ENERGY MODULE FOR DRIVING MULTIPLE ENERGY MODALITIES」と題する米国特許出願整理番号第END9068USNP2/180680-2号、
・「GROUNDING ARRANGEMENT OF ENERGY MODULES」と題する米国特許出願整理番号第END9068USNP3/180680-3号、
・「POWER AND COMMUNICATION MITIGATION ARRANGEMENT FOR MODULAR SURGICAL ENERGY SYSTEM」と題する米国特許出願整理番号END9068USNP4/180680-4号、
・「ENERGY MODULE FOR DRIVING MULTIPLE ENERGY MODALITIES THROUGH A PORT」と題する米国特許出願整理番号第END9068USNP5/180680-5号、
・「SURGICAL INSTRUMENT UTILIZING DRIVE SIGNAL TO POWER SECONDARY FUNCTION」と題する米国特許出願整理番号第END9068USNP6/180680-6号、
・「METHOD FOR CONTROLLING A MODULAR ENERGY SYSTEM USER INTERFACE」と題する米国特許出願整理番号第END9038USNP1/180529-1M号、
・「PASSIVE HEADER MODULE FOR A MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9038USNP2/180529-2号、
・「CONSOLIDATED USER INTERFACE FOR MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9038USNP3/180529-3号、
・「AUDIO TONE CONSTRUCTION FOR AN ENERGY MODULE OF A MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9038USNP4/180529-4号、
・「ADAPTABLY CONNECTABLE AND REASSIGNABLE SYSTEM ACCESSORIES FOR MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9038USNP5/180529-5号、
・「METHOD FOR COMMUNICATING BETWEEN MODULES AND DEVICES IN A MODULAR SURGICAL SYSTEM」と題する米国特許出願整理番号第END9070USNP1/180682-1M号、
・「FLEXIBLE HAND-SWITCH CIRCUIT」と題する米国特許出願整理番号第END9070USNP2/180682-2号、
・「FIRST AND SECOND COMMUNICATION PROTOCOL ARRANGEMENT FOR DRIVING PRIMARY AND SECONDARY DEVICES THROUGH A SINGLE PORT」と題する米国特許出願整理番号第END9070USNP3/180682-3号、
・「FLEXIBLE NEUTRAL ELECTRODE」と題する米国特許出願整理番号第END9070USNP4/180682-4号、
・「SMART RETURN PAD SENSING THROUGH MODULATION OF NEAR FIELD COMMUNICATION AND CONTACT QUALITY MONITORING SIGNALS」と題する米国特許出願整理番号第END9070USNP5/180682-5号、
・「AUTOMATIC ULTRASONIC ENERGY ACTIVATION CIRCUIT DESIGN FOR MODULAR SURGICAL SYSTEMS」と題する米国特許出願整理番号第END9070USNP6/180682-6号、
・「COORDINATED ENERGY OUTPUTS OF SEPARATE BUT CONNECTED MODULES」と題する米国特許出願整理番号第END9070USNP7/180682-7号、
・「MANAGING SIMULTANEOUS MONOPOLAR OUTPUTS USING DUTY CYCLE AND SYNCHRONIZATION」と題する米国特許出願整理番号第END9070USNP8/180682-8号、
・「PORT PRESENCE DETECTION SYSTEM FOR MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9070USNP9/180682-9号、
・「INSTRUMENT TRACKING ARRANGEMENT BASED ON REAL TIME CLOCK INFORMATION」と題する米国特許出願整理番号第END9070USNP10/180682-10号、
・「REGIONAL LOCATION TRACKING OF COMPONENTS OF A MODULAR ENERGY SYSTEM」と題する米国特許出願整理番号第END9070USNP11/180682-11号、
・「ENERGY MODULE」と題する米国特許出願整理番号第END9212USDP1/190370D号、
・「ENERGY MODULE MONOPOLAR PORT WITH FOURTH SOCKET AMONG THREE OTHER SOCKETS」と題する米国特許出願整理番号第END9213USDP1/190371D号、
・「BACKPLANE CONNECTOR FOR ENERGY MODULE」と題する米国特許出願整理番号第END9214USDP1/190372D号、及び
・「ALERT SCREEN FOR ENERGY MODULE」と題する米国特許出願整理番号第END9215USDP1/190373D号。
図1を参照すると、コンピュータ実装インタラクティブ外科システム100は、1つ又は2つ以上の外科システム102と、クラウドベースのシステム(例えば、ストレージ装置105に連結されたリモートサーバ113を含むことができるクラウド104)と、を含む。各外科システム102は、リモートサーバ113を含み得るクラウド104と通信する、少なくとも1つの外科用ハブ106を含む。一実施例では、図1に示すように、外科システム102は、互いに、及び/又はハブ106と通信するように構成された、可視化システム108と、ロボットシステム110と、ハンドヘルド式インテリジェント外科用器具112と、を含む。いくつかの態様では、外科システム102は、M個のハブ106と、N個の可視化システム108と、O個のロボットシステム110と、P個のハンドヘルド式インテリジェント外科用器具112と、を含んでもよく、ここでM、N、O及びPは1以上の整数である。
図12は、本開示の1つ又は2つ以上の態様による、外科用器具又はツールの制御システム470の論理図を示す。システム470は、制御回路を備える。制御回路は、プロセッサ462及びメモリ468を備えるマイクロコントローラ461を含む。例えば、センサ472、474、476のうちの1つ又は2つ以上が、プロセッサ462にリアルタイムなフィードバックを提供する。モータ駆動器492によって駆動されるモータ482は、長手方向に移動可能な変位部材を動作可能に連結して、クランプアーム閉鎖部材を駆動する。追跡システム480は、長手方向に移動可能な変位部材の位置を判定するように構成されている。位置情報は、長手方向に移動可能な駆動部材の位置及び閉鎖部材の位置を判定するようにプログラム又は構成可能なプロセッサ462に提供される。閉鎖管の移動、シャフトの回転、関節運動、若しくはクランプアームの閉鎖、又は上記の組み合わせを制御するために、ツールドライバインターフェースに追加のモータが提供されてもよい。ディスプレイ473は、器具の様々な動作条件を表示し、データ入力のためのタッチスクリーン機能を含んでもよい。ディスプレイ473上に表示された情報は、内視鏡撮像モジュールを介して取得された画像とオーバーレイさせることができる。
様々な態様では、スマート超音波エネルギー装置は、超音波ブレードの動作を制御するための適応アルゴリズムを含んでもよい。一態様では、超音波ブレード適応制御アルゴリズムは、組織のタイプを識別し、装置パラメータを調整するように構成される。一態様では、超音波ブレード制御アルゴリズムは、組織のタイプをパラメータ化するように構成される。超音波ブレードの遠位先端の振幅を調整するために組織のコラーゲン/弾性比を検出するためのアルゴリズムが、本開示の以下の項で説明される。スマート超音波エネルギー装置の様々な態様が、例えば図12~図19に関連して本明細書で説明される。したがって、適応型超音波ブレード制御アルゴリズムの以下の説明は、図12~図19及びこれらに関連する説明と併せて読まれるべきである。
感知されたデータに応答する制御アルゴリズムを含む「インテリジェント」装置は、感知されたデータを考慮することなく動作する「データ処理能力のない(dumb)」装置に改善を加えたものであり得るが、いくつかの感知されたデータは、単独で考慮される場合、すなわち、実施される外科処置のタイプ又は手術されている組織のタイプのコンテキストなしには、不完全又は決定的ではない可能性がある。処置コンテキストを知る(例えば、手術される組織のタイプ又は実施されている処置のタイプを知る)ことがなければ、制御アルゴリズムは、特定のコンテキストを含まない感知データが与えられると、モジュール式装置を不正確に又は準最適に制御することがある。例えば、特定の感知されたパラメータに応答して外科用器具を制御するための制御アルゴリズムの最適な方法は、手術されている特定の組織のタイプによって変化する可能性がある。これは、異なる組織のタイプが異なる特性(例えば、引き裂きに対する抵抗)を有し、そのため、外科用器具によってとられた動作に対して異なって応答するという事実に起因する。したがって、特定のパラメータについて同じ測定値が感知された場合であっても、外科用器具が異なる動作をとることが望ましいことがある。1つの具体的な例として、外科用ステープル留め及び切断器具がそのエンドエフェクタを閉鎖するために予想外に高い力を感知することに応答してその器具を制御する最適な方法は、組織のタイプが引き裂きの影響を受けやすいか、又はこれに耐性があるかによって異なる。肺組織など、引き裂きの影響を受けやすい組織の場合、器具の制御アルゴリズムは、組織の引き裂きを回避するために、閉鎖するための予想外に高い力に応答してモータを最適にランプダウンさせる。胃組織など、引き裂きに耐性がある組織の場合、器具の制御アルゴリズムは、エンドエフェクタが組織に適切にクランプされることを確実にするために、閉鎖するための予想外に高い力に応答してモータを最適にランプアップさせる。肺組織がクランプされているのか、胃組織がクランプされているのかを知らなければ、制御アルゴリズムは、準最適な決定を行う可能性がある。
外科処置を実施するために必要な設備の量に起因して、ORは世界中で、コード、装置、及び人の絡まった網になっている。大部分の外科用資本設備が単一の専門的なタスクを実施するため、外科用資本設備は、この問題の主な原因となる傾向がある。それらの専門的な性質に起因して、外科医は、単一の外科処置の過程で複数の異なるタイプの装置を利用する必要があるため、ORはエネルギー発生器などの外科用資本設備の2つ又は更にはより多くの部品を備蓄することを余儀なくされる場合がある。これらの外科用資本設備の各々は、電源に個別にプラグ接続されていなければならず、ORの職員の間で渡されている1つ又は2つ以上の他の装置に接続されて、誘導されなければならないコードの角度を作成することができる。現代のORで直面する別の問題は、これらの専門的な外科用資本設備の各々がその自身のユーザインターフェースを有し、またOR内の他の設備から独立して制御されなければならないことである。これにより、互いに接続して複数の異なる装置を適切に制御することが複雑になり、ユーザは異なるタイプのユーザインターフェースの訓練を受け、これらのユーザインターフェースを記憶しなければならなくなる(これらのユーザインターフェースは、資本設備の各々の間での変更に加え、実施されるタスク又は外科処置に基づいて更に変更されることがある)。この煩雑で複雑なプロセスは、更により多くの個人がOR内に存在する必要性を必要とする場合があり、複数の装置が互いに適切に制御されていない場合に危険を生じさせる可能性がある。したがって、OR内での外科用資本設備の設置面積を減少させるために、外科医のニーズに柔軟に対応できる単一のシステムに外科用資本設備技術を統合することは、ユーザ体験を単純化し、OR内の乱雑さを減少させ、複数の資本設備を同時に制御することに関連付けられた困難及び危険を防止することになる。更に、このようなシステムを拡張可能又はカスタマイズ可能にすることにより、新しい技術を既存の外科システムに便利に組み込むことが可能になり、外科システム全体を交換する必要性がなくなり、又はORの職員が各新技術で新しいユーザインターフェース若しくは設備制御を学習する必要がなくなる。
(1) 外科処置において使用するためのモジュール式外科用システムであって、前記モジュール式外科用システムが、
制御モジュールと、
前記制御モジュールとスタック構成で配置可能な第1の外科用モジュールであって、
第1のカウンタモジュールと、
第1の停止カウンタモジュールであって、前記第1の停止カウンタモジュールに、第1の最終カウントで前記第1のカウンタモジュールをインクリメントすることを無効化させるシーケンス信号を受信するように構成された、第1の停止カウンタモジュールと、
第1の遅延モジュールと、を備える、第1の外科用モジュールと、
前記制御モジュール及び前記第1の外科用モジュールとスタック構成で配置可能な第2の外科用モジュールであって、
第2のカウンタモジュールと、
前記第1の遅延モジュールによって生じた所定の遅延の後に前記第1の外科用モジュールから前記シーケンス信号を受信するように構成された第2の停止カウンタモジュールであって、前記シーケンス信号は、前記第2の停止カウンタモジュールに、第2の最終カウントで前記第2のカウンタモジュールをインクリメントすることを無効化させる、第2の停止カウンタモジュールと、を備える、第2の外科用モジュールと、を備える、モジュール式外科用システム。
(2) 前記第1の最終カウントが、前記スタック構成における前記第1の外科用モジュールの物理的位置に対応する、実施態様1に記載のモジュール式外科用システム。
(3) 前記第2の最終カウントが、前記第1の外科用モジュールの前記物理的位置とは異なる、前記スタック構成における前記第2の外科用モジュールの物理的位置に対応する、実施態様2に記載のモジュール式外科用システム。
(4) 前記制御モジュールが、前記第1のカウンタモジュール及び前記第2のカウンタモジュールをインクリメントさせるように構成されたパルス発生器を備える、実施態様1に記載のモジュール式外科用システム。
(5) 前記制御モジュールが、前記第1のカウンタモジュール及び前記第2のカウンタモジュールをインクリメントさせるタイミング信号を生成するように構成されている、実施態様1に記載のモジュール式外科用システム。
(7) 前記シーケンス信号が、前記制御モジュールにおいて生成される、実施態様1に記載のモジュール式外科用システム。
(8) 前記第1の遅延モジュールが、論理ラッチ又は論理フリップフロップとして実装される、実施態様1に記載のモジュール式外科用システム。
(9) 前記第1の停止カウンタモジュールが、論理ラッチ又は論理フリップフロップとして実装される、実施態様1に記載のモジュール式外科用システム。
(10) 前記シーケンス信号が、前記第1の外科用モジュールを通じて、前記制御モジュールから前記第2の外科用モジュールに送信される、実施態様1に記載のモジュール式外科用システム。
(12) ディスプレイを更に備え、前記ディスプレイが、前記第1の最終カウントに基づいて、前記制御モジュールに対する前記第1の外科用モジュールの物理的位置を視覚的に表し、かつ前記第2の最終カウントに基づいて前記制御モジュールに対する前記第2の外科用モジュールの物理的位置を視覚的に表すように構成されている、実施態様1に記載のモジュール式外科用システム。
(13) 外科処置において使用するためのモジュール式外科用システムであって、前記モジュール式外科用システムが、
クロックパルス信号を生成するように構成されたパルス発生器を備える制御モジュールと、
第1の外科用モジュールであって、前記第1の外科用モジュールが、
第1のタイミングモジュールであって、前記クロックパルス信号が、前記第1のタイミングモジュールに第1のタイマを開始させる、第1のタイミングモジュールと、
第1の遅延回路であって、前記クロックパルス信号が、前記第1の遅延回路に、第1の遅延シーケンス信号を前記第1のタイミングモジュールに送信させて、前記第1のタイマをファイナライズさせ、第1の経過時間を設定させる、第1の遅延回路と、を備える、第1の外科用モジュールと、
スタック構成で前記制御モジュール及び前記第1の外科用モジュールとともに配置可能な第2の外科用モジュールであって、前記第2の外科用モジュールが、
第2のタイミングモジュールであって、前記クロックパルス信号が前記第2のタイミングモジュールに第2のタイマを開始させる、第2のタイミングモジュールと、
第2の遅延回路であって、前記第1の遅延シーケンス信号が、前記第2の遅延回路に、第2の遅延シーケンス信号を前記第2のタイミングモジュールに送信させて、前記第2のタイマをファイナライズさせ、第2の経過時間を設定させる、第2の遅延回路と、を備える、第2の外科用モジュールと、を備える、モジュール式外科用システム。
(14) 前記第1の経過時間が、前記スタック構成における前記第1の外科用モジュールの物理的位置を示す、実施態様13に記載のモジュール式外科用システム。
(15) 前記第2の経過時間が、前記第1の外科用モジュールの前記物理的位置とは異なる、前記スタック構成における前記第2の外科用モジュールの物理的位置を示す、実施態様14に記載のモジュール式外科用システム。
(17) 前記第1の遅延回路が、第1のRC遅延回路及び第1のフリップフロップを備える、実施態様13に記載のモジュール式外科用システム。
(18) 前記第1のRC遅延回路が、前記クロックパルス信号を受信するように構成され、前記第1のRC遅延回路が、前記クロックパルス信号を受信した後の所定の時間に前記第1の遅延シーケンス信号を生成するように構成されており、前記第1のRC遅延回路が、前記第1の遅延シーケンス信号を前記第1のフリップフロップのクロック入力に送信するように構成されている、実施態様17に記載のモジュール式外科用システム。
(19) 前記第1の遅延シーケンス信号に基づいて、前記第1のフリップフロップの前記クロック入力における迅速立ち上がりエッジを提供するための第1の手段を更に備える、実施態様18に記載のモジュール式外科用システム。
(20) 提供するための前記第1の手段が、コンパレータ及びシュミットトリガ式バッファからなる群から選択される、実施態様19に記載のモジュール式外科用システム。
Claims (11)
- 外科処置において使用するためのモジュール式外科用システムであって、前記モジュール式外科用システムが、
制御モジュールと、
前記制御モジュールとスタック構成で配置可能な第1の外科用モジュールであって、
前記制御モジュールから送信されるパルス信号を受信し、前記パルス信号を受信した場合にインクリメントするように構成された第1のカウンタモジュールと、
前記制御モジュールから送信されるシーケンス信号を受信する第1の停止カウンタモジュールであって、前記シーケンス信号を受信した場合に、前記第1のカウンタモジュールに停止信号を送信し、前記第1のカウンタモジュールの更なるインクリメントを停止させる、第1の停止カウンタモジュールと、
前記制御モジュールから送信される前記シーケンス信号を受信する第1の遅延モジュールであって、前記シーケンス信号を受信した場合に、所定の時間遅延の後に、第2の外科用モジュールの第2の停止カウンタモジュールに第2のシーケンス信号を送信する第1の遅延モジュールと、を備える、第1の外科用モジュールと、
前記制御モジュール及び前記第1の外科用モジュールとスタック構成で配置可能な前記第2の外科用モジュールであって、
前記制御モジュールから送信される前記パルス信号を受信し、前記パルス信号を受信した場合にインクリメントするように構成された第2のカウンタモジュールと、
前記第1の遅延モジュールから前記第2のシーケンス信号を受信するように構成された前記第2の停止カウンタモジュールであって、前記第2のシーケンス信号を受信した場合に、前記第2のカウンタモジュールに第2の停止信号を送信し、前記第2のカウンタモジュールの更なるインクリメントを停止させる、第2の停止カウンタモジュールと、を備える、第2の外科用モジュールと、を備え、
前記第2のカウンタモジュールの更なるインクリメントが停止された際の前記第2のカウンタモジュールの値が、前記第1のカウンタモジュールの更なるインクリメントが停止された際の前記第1のカウンタモジュールの値とは異なる、モジュール式外科用システム。 - 前記第1のカウンタモジュールの更なるインクリメントが停止された際の前記第1のカウンタモジュールの値が、前記スタック構成における前記第1の外科用モジュールの物理的位置に対応する、請求項1に記載のモジュール式外科用システム。
- 前記第2のカウンタモジュールの更なるインクリメントが停止された際の前記第2のカウンタモジュールの値が、前記第1の外科用モジュールの前記物理的位置とは異なる、前記スタック構成における前記第2の外科用モジュールの物理的位置に対応する、請求項2に記載のモジュール式外科用システム。
- 前記制御モジュールが、前記第1のカウンタモジュール及び前記第2のカウンタモジュールをインクリメントさせるように構成されたパルス発生器を備える、請求項1に記載のモジュール式外科用システム。
- 前記制御モジュールが、前記第1のカウンタモジュール及び前記第2のカウンタモジュールをインクリメントさせるタイミング信号を生成するように構成されている、請求項1に記載のモジュール式外科用システム。
- 前記所定の時間遅延が、タイミング信号パルスの数において測定される、請求項5に記載のモジュール式外科用システム。
- 前記シーケンス信号が、前記制御モジュールにおいて生成される、請求項1に記載のモジュール式外科用システム。
- 前記第1の遅延モジュールが、論理ラッチ又は論理フリップフロップとして実装される、請求項1に記載のモジュール式外科用システム。
- 前記第1の停止カウンタモジュールが、論理ラッチ又は論理フリップフロップとして実装される、請求項1に記載のモジュール式外科用システム。
- 前記シーケンス信号が、前記第1の外科用モジュールを通じて、前記制御モジュールから前記第2の外科用モジュールに送信される、請求項1に記載のモジュール式外科用システム。
- ディスプレイを更に備え、前記ディスプレイが、前記第1のカウンタモジュールの更なるインクリメントが停止された際の前記第1のカウンタモジュールの値に基づいて、前記制御モジュールに対する前記第1の外科用モジュールの物理的位置を視覚的に表し、かつ前記第2のカウンタモジュールの更なるインクリメントが停止された際の前記第2のカウンタモジュールの値に基づいて前記制御モジュールに対する前記第2の外科用モジュールの物理的位置を視覚的に表すように構成されている、請求項1に記載のモジュール式外科用システム。
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