JP3594924B2 - Image display device and method, computer program - Google Patents

Description

【００４０】
つぎに、これらのシリーズデータで断層画像が存在する最小の絶対座標と最大の絶対座標とがデータ検出され、絶対座標の最小ピッチがデータ検出される。そして、最小の絶対座標が座標画像１１１の開始列とされ、最大の絶対座標が座標画像１１１の最終列とされる。さらに、最小の絶対座標から最大の絶対座標まで最小ピッチで区分した個数が座標画像１１１の列数とされ、その各列に絶対座標がデータ設定される。
【００４１】
例えば、前述した“ＡＳ−０１”〜“ＡＳ−０８”なるシリーズＩＤのシリーズデータの場合、“ＡＳ−０１”などから最大の絶対座標“２０００（ｍｍ）”と最小の座標ピッチ“１００（ｍｍ）”とが検出され、“ＡＳ−０２”などから最小の絶対座標“０（ｍｍ）”が検出される。
【００４２】
選択表示手段１０５は、ＣＰＵ３０１が定型のＣＧをディスプレイユニット３１１にデータ表示させる機能などに相当し、データ表示された座標画像１１１に小型の行列形状の選択カーソル１１２を重複させてデータ表示する。より具体的には、以下ではＲＡＭ３０４のビデオエリアが断層画像を四つまで一時記憶できるので、ディスプレイユニット３１１は断層画像を四つだけ並列表示できるとする。そこで、選択カーソル１１２は二行二列の正方形としてデフォルト設定されており、これが座標画像１１１の適当な位置に重複されてデータ表示される。
【００４３】
画像表示手段１０６は、ＣＰＵ３０１がＲＡＭ３０４のワークエリアの断層画像をビデオエリアにデータ転送する機能などに相当し、データ表示された選択カーソル１１２が重複している座標画像１１１の位置に対応してシリーズデータの断層画像をデータ表示する。
【００４４】
例えば、図１に示すように、選択カーソル１１２が座標画像１１１の“ＡＳ−０２”と“ＡＳ−０３”なるシリーズＩＤのシリーズデータに対応した二行の位置で“８００（ｍｍ）”と“９００（ｍｍ）”との絶対座標に対応した二列の位置に配置されている場合、上述のシリーズＩＤおよび絶対座標の断層画像が選択カーソル１１２の行列形状に対応した配列で並列表示される。
【００４５】
以下の各種手段は、ＣＰＵ３０１がコントロールユニット３１０の入力操作をデータ認識する機能などに相当し、移動操作手段１０７は、入力操作に対応して座標画像１１１での選択カーソル１１２の位置を行列方向に移動させ、拡縮操作手段１０８は、入力操作に対応して選択カーソル１１２を行列方向に拡大縮小し、配列操作手段１０９は、入力操作に対応して座標画像１１１でのシリーズデータの設定位置を変更する。
【００４６】
より具体的には、コントロールユニット３１０のシーソスイッチ２０２が前後方向に揺動操作されると、これに対応して選択カーソル１１２が上下方向に移動するので、ディスプレイユニット３１１に並列表示されている四つの断層画像は各々が前後方向に表示切換される。
【００４７】
また、コントロールユニット３１０の右側／左側スイッチ２０３，２０４が入力操作されると選択カーソル１１２が左右方向に移動するので、ディスプレイユニット３１１に断層画像がデータ表示されているシリーズデータが切り換えられる。
【００４８】
また、コントロールユニット３１０の十字スイッチ２０５が前方に揺動操作されると、図１１に示すように、これに対応して選択カーソル１１２の列数が二列から一列に上方に減少され、ディスプレイユニット３１１には一つの絶対座標の断層画像のみデータ表示される状態となる。
【００４９】
反対に、十字スイッチ２０５が後方に揺動操作されると選択カーソル１１２の列数が一列から二列に下方に増加され、ディスプレイユニット３１１には二つの絶対座標の断層画像がデータ表示される状態となる。同様に、図１２に示すように、十字スイッチ２０５が左右に揺動操作されると選択カーソル１１２の行数が一行と二行とに変更され、ディスプレイユニット３１１に断層画像がデータ表示されるシリーズデータの個数が一個と二個とに変更される。
【００５０】
また、前述のように、作業者が所望によりコントロールユニット３１０の入力操作で処理対象となる八つのシリーズデータを選択すると、その八つのシリーズＩＤは選択された順番で座標画像１１１の各行にデータ設定されるが、コントロールユニット３１０のキーボード２０６などで所定操作を実行すると、座標画像１１１の各行とシリーズデータとの設定関係が変更されるので、例えば、座標画像１１１の第一行目と第二行目とを交換するような操作が実行される。
【００５１】
上述のような画像表示装置３００の各種手段は、必要によりＨＤＤ３０５やＩ／Ｆユニット３１２等のハードウェアを利用して実現されるが、その主体はＲＡＭ３０４等の情報記憶媒体に格納されたコンピュータプログラムに対応してハードウェアであるＣＰＵ３０１が機能することにより実現されている。
【００５２】
このようなコンピュータプログラムは、例えば、ＣＴスキャナ４１０からＩ／Ｆユニット３１２でオンライン受信したシリーズデータをＨＤＤ３０５に蓄積する処理、このに蓄積されている多数のシリーズデータから複数をコントロールユニット３１０の入力操作に対応してＲＡＭ３０４のワークエリアに一時記憶させる処理、この一時記憶されたシリーズデータの個数と断層画像の絶対座標とに対応して大型の行列形状の座標画像１１１をデータ生成するとともにディスプレイユニット３１１にデータ表示させる処理、このデータ表示された座標画像１１１に重複させて小型の行列形状の選択カーソル１１２をディスプレイユニット３１１にデータ表示させる処理、このデータ表示された選択カーソル１１２が重複している座標画像１１１の位置に対応してシリーズデータの断層画像をディスプレイユニット３１１にデータ表示させる処理、コントロールユニット３１０の入力操作に対応して座標画像１１１での選択カーソル１１２の位置を行列方向に移動させる処理、コントロールユニット３１０の入力操作に対応して選択カーソル１１２を行列方向に拡大縮小する処理、コントロールユニット３１０の入力操作に対応して座標画像１１１でのシリーズデータの設定位置を変更する処理、等の処理動作をＣＰＵ３０１等に実行させるためのソフトウェアとしてＲＡＭ３０４等の情報記憶媒体に格納されている。
【００５３】
上述のような構成において、本形態の断層検査システム４００での断層検査方法を以下に順番に説明する。本形態の画像表示装置３００は、ディスプレイユニット３１１に一つのシリーズデータの一つの断層画像を表示することが基本動作であるが、図１に示すように、その応用動作として複数のシリーズデータの断層画像を並列表示することもできる。
【００５４】
例えば、一人の被験者から造影剤の使用の有無などが相違した複数のシリーズデータが撮像された場合、その複数のシリーズデータの被験者での絶対座標が一致した断層画像を左右方向などに並列表示し、その複数の断層画像を同期させたまま切換表示することが好適である。
【００５５】
また、シリーズデータは被験者での絶対座標が順番に変位した多数の断層画像からなるので、ある断層画像を閲覧するときは、その前後の断層画像も同時に閲覧したいことが一般的である。このような場合、例えば、第一番目と第二番目との断層画像を並列表示し、つぎに、第二番目と第三番目との断層画像を並列表示するように、シリーズデータで前後方向に連続する複数の断層画像を上下方向などに並列表示しながら順次切り換えることが好適である。
【００５６】
そして、本形態の画像表示装置３００では、上述のように複数のシリーズデータの絶対座標が一致した断層画像を並列表示させて順次切り換えることと、シリーズデータで前後方向に連続する複数の断層画像を並列表示させて順次切り換えることとを、同時に実行することができる。
【００５７】
より詳細には、ＣＴスキャナ４１０により被験者の人体から連続する多数の絶対座標ごとに断層画像が撮像されると、その絶対座標が個々に設定された多数の断層画像がシリーズデータとして個別のシリーズＩＤとともに画像表示装置３００にオンライン送信される。
【００５８】
この画像表示装置３００は、図９に示すように、ＣＴスキャナ４１０からシリーズデータをオンライン受信すると（ステップＳ１）、そのシリーズデータを圧縮してシリーズＩＤごとにＨＤＤ３０５に蓄積する（ステップＳ２）。このように多数のシリーズデータが蓄積された画像表示装置３００に、作業者によりコントロールユニット３１０でシリーズデータの閲覧開始が入力操作されると（ステップＳ３）、ディスプレイユニット３１１には蓄積されている多数のシリーズデータのシリーズＩＤが一覧表示される（ステップＳ４）。
【００５９】
そこで、作業者がコントロールユニット３１０の所定操作で所望の複数のシリーズＩＤを選択すると（ステップＳ６）、そのシリーズＩＤのシリーズデータがＨＤＤ３０５から読み出されて伸張され、ＲＡＭ３０４のワークエリアに一時記憶される（ステップＳ７）。
【００６０】
このようにシリーズデータが選択された状態で作業者によりコントロールユニット３１０で閲覧実行が入力操作されると（ステップＳ８）、図１０に示すように、選択された複数のシリーズデータの個数と断層画像の絶対座標とが検出され（ステップＳ９）、これに対応して座標画像１１１がデータ生成される（ステップＳ１０）。
【００６１】
このように座標画像１１１がデータ生成される場合、図１および図８に示すように、シリーズデータの個数が左右方向での行数とされ、その各行に複数のシリーズデータが選択された順番でデータ設定される。また、選択された複数のシリーズデータで最小の絶対座標が座標画像１１１の開始列とされ、最大の絶対座標が最終列とされる。そして、最小の絶対座標から最大の絶対座標まで最小ピッチで区分した個数が座標画像１１１の列数とされ、その各列に絶対座標がデータ設定される。
【００６２】
このようにデータ生成された座標画像１１１はディスプレイユニット３１１でデータ表示されるが、この座標画像１１１の適当な位置に重複されて小型の行列形状の選択カーソル１１２もデータ表示される（ステップＳ１１）。本形態の画像表示装置３００では、ＲＡＭ３０４のビデオエリアに断層画像を四つまで一時記憶してディスプレイユニット３１１に並列表示できるので、選択カーソル１１２は二行二列の正方形としてデフォルト表示される。
【００６３】
この二行二列の選択カーソル１１２が座標画像１１１に重複した位置は、二つのシリーズデータで連続する二つの絶対座標に対応していることになるので、図１に示すように、その四つの断層画像が二行二列にディスプレイユニット３１１に並列表示される（ステップＳ１７）。
【００６４】
この状態では、二つのシリーズデータで連続する二つの絶対座標の断層画像を比較検討できるが、その前後の断層画像を作業者が閲覧したい場合にはコントロールユニット３１０のシーソスイッチ２０２を前後方向に揺動操作する。すると、これに対応して座標画像１１１に重複した選択カーソル１１２が上下方向に移動され（ステップＳ１３，Ｓ１４）、ディスプレイユニット３１１に並列表示されている四つの断層画像は各々が前後方向に表示切換される（ステップＳ１７）。
【００６５】
また、コントロールユニット３１０の右側／左側スイッチ２０３，２０４が入力操作されると選択カーソル１１２が左右方向に移動され（ステップＳ１３，Ｓ１４）、ディスプレイユニット３１１に断層画像がデータ表示されているシリーズデータが表示切換される（ステップＳ１７）。
【００６６】
また、コントロールユニット３１０の十字スイッチ２０５が前方に揺動操作されると（ステップＳ１５）、図１１に示すように、これに対応して選択カーソル１１２の列数が二列から一列に上方に減少され（ステップＳ１６）、ディスプレイユニット３１１には一つの絶対座標の断層画像のみデータ表示される状態となる（ステップＳ１７）。
【００６７】
反対に、十字スイッチ２０５が後方に揺動操作されると選択カーソル１１２の列数が一列から二列に下方に増加され（ステップＳ１５，Ｓ１６）、ディスプレイユニット３１１には二つの絶対座標の断層画像がデータ表示される状態となる（ステップＳ１７）。
【００６８】
同様に、図１２に示すように、十字スイッチ２０５が左右に揺動操作されると選択カーソル１１２の行数が一行と二行とに変更され（ステップＳ１５，Ｓ１６）、ディスプレイユニット３１１に断層画像がデータ表示されるシリーズデータの個数が一個と二個とに変更される（ステップＳ１７）。
【００６９】
なお、本形態の画像表示装置３００では座標画像１１１の選択カーソル１１２が重複している位置に対応したシリーズデータの断層画像がデータ表示されるので、例えば、二行の選択カーソル１１２では座標画像１１１の第一行目と第四行目とにデータ設定されているシリーズデータの断層画像を並列表示することはできない。
【００７０】
しかし、本形態の画像表示装置３００では、コントロールユニット３１０の所定操作で座標画像１１１の各行とシリーズデータとの設定関係を変更できるので（ステップＳ１２，Ｓ１０）、所望のシリーズデータの断層画像をディスプレイユニット３１１に並列表示することができる。
【００７１】
本形態の画像表示装置３００では、上述のように複数のシリーズデータの断層画像を選択して切換表示することを一つの選択カーソル１１２の移動操作だけで実行できるので、所望の複数の断層画像を並列表示させて表示切換する操作性が良好である。
【００７２】
特に、被写体が同一の複数のシリーズデータでの断層画像の絶対座標が、座標画像１１１で上下方向の同一位置にデータ設定されるので、同一の被写体の同一の絶対座標での複数の断層画像を並列表示することができ、一人の患者の同一位置から相違する条件で撮像された断層画像を比較検討するようなことができる。
【００７３】
また、座標画像１１１に重複してデータ表示された選択カーソル１１２を行列方向に拡大縮小することができるので、図１と図１１と図１２とに示すように、並列表示させるシリーズデータや断層画像の個数を良好に切換操作することができる。
【００７４】
さらに、座標画像１１１でのシリーズデータの設定位置を入力操作に対応して変更することができるので、座標画像１１１で隣接した位置に所望の複数のシリーズデータを設定し、選択カーソル１１２で選択して断層画像を並列表示することができる。
【００７５】
しかも、シリーズデータの個数と断層画像の絶対座標とに対応して座標画像１１１が自動的にデータ生成されるので、複数のシリーズデータと多数の断層画像との個数を座標画像１１１の表示形態に反映させて直感的に把握することができる。
【００７６】
さらに、座標画像１１１での選択カーソル１１２の相対位置がデータ表示され、しかも、選択カーソル１１２の二行二列などの行列形状と断層画像の二行二列などの表示形状とが一対一に対応しているので、データ表示されている断層画像のシリーズデータでの相対位置などを直感的に把握することができる。
【００７７】
また、ＨＤＤ３０５に蓄積されている多数のシリーズデータから入力操作に対応して選択された複数のシリーズデータをＲＡＭ３０４が一時記憶するので、蓄積されている多数のシリーズデータから所望の複数を選択して表示に使用することができる。
【００７８】
しかも、断層画像が並列表示されるシリーズデータを選択カーソル１１２の移動操作によりリアルタイムに表示切換できるので、断層画像を並列表示できるシリーズデータの個数が二つと少数でも八つと多数のシリーズデータを容易に比較検討することができる。
【００７９】
なお、本発明は上記形態に限定されるものではなく、その要旨を逸脱しない範囲で各種の変形を許容する。例えば、上記形態では人体の断層画像をＣＴスキャナ４１０で撮像することを例示したが、これをＭＲＩシステム（図示せず）で撮像することも可能である。
【００８０】
また、上記形態では説明を簡単とするため、コントロールユニット３１０のシーソスイッチ２０２を前後方向に揺動操作すると、これに単純に対応して選択カーソル１１２が上下移動するとともに断層画像が前後方向に切換表示されることを例示した。
【００８１】
しかし、例えば、本出願人が特願２００１−３２６４０１号として出願したように、シーソスイッチ２０２を前後方向に多段階に揺動操作できるようにし、選択カーソル１１２の上下移動と断層画像の表示切換とを多段階に速度制御することも可能である。
【００８２】
その場合、例えば、シーソスイッチ２０２が第一段階まで揺動操作されたときに“一列／０．５（ｓｅｃ）”および“一枚／０．５（ｓｅｃ）”などの低速で選択カーソルを上下移動させるとともに断層画像を切換表示し、シーソスイッチ２０２が第二段階まで揺動操作されたときには断層画像を切換表示することなく“一列／０．１（ｓｅｃ）”などの高速で選択カーソル１１２のみを上下移動させ、そのシーソスイッチ２０２の揺動操作が解除されて選択カーソル１１２の上下移動が停止した段階で断層画像を一度に切換表示するようなことも可能である。
【００８３】
この場合、シリーズデータの多数の断層画像を順番に低速に切換表示させて確認することができ、それでいて、座標画像１１１の所望の位置の断層画像を迅速に切換表示することもできるので、良好な操作性で多数の断層画像を閲覧することができる。
【００８４】
さらに、上記形態ではＲＡＭ３０４のワークエリアにシリーズデータが最大で八つまで一時記憶されて閲覧作業に利用され、ビデオエリアに断層画像が最大で四つまで一時保持されてデータ表示されることを例示したが、当然ながら、このような数値はハードウェアの条件などに対応して各種に変更可能である。
【００８５】
例えば、上記形態では八行の座標画像１１１に二行の選択カーソル１１２を重複させて上下左右に移動操作することを例示したが、二行の座標画像（図示せず）に二行の選択カーソル１１２を重複させて上下方向のみ移動操作するようなことも可能である。
【００８６】
また、上記形態では選択カーソル１１２の二行二列などの行列形状と断層画像の二行二列などの表示形状とが一対一に対応していることを例示したが、例えば、図１３に示すように、四行一列の選択カーソル１１２で選択された四つの断層画像を二行二列にデータ表示するようなことも可能である。
【００８７】
さらに、上記形態では座標画像１１１の全体がディスプレイユニット３１１にデータ表示されることを例示したが、実際のシリーズデータでは断層画像の枚数が膨大で座標画像１１１の全体をデータ表示できないことも想定できる。このような場合、図１４に示すように、座標画像１１１を一部のみデータ表示し、選択カーソル１１２の移動に対応して座標画像１１１の表示部分をスクロールさせることが好適である。
【００８８】
また、上記形態では断層画像がデータ表示される一個のディスプレイユニット３１１に座標画像１１１もデータ表示されることを例示したが、例えば、断層画像がデータ表示されるディスプレイユニット３１１とは別個の専用のディスプレイユニット（図示せず）に座標画像１１１をデータ表示するようなことも可能である。
【００８９】
例えば、座標画像１１１は断層画像ほど解像度が必要なく、カラー表示する必要もないので、図１５に例示する画像表示装置５００のように、コントロールユニット５０１に低解像度で白黒表示の液晶ディスプレイ５０２を増設し、そこに座標画像１１１を表示するようなことも可能である。
【００９０】
また、上記形態では説明を簡単とするため、複数のシリーズデータで断層画像の座標ピッチと座標位置とが一致していることを例示したが、これらが相違していることも可能である。例えば、前述の表１に示すように、“ＡＳ−０７”なるシリーズデータの座標ピッチが他のシリーズデータの二倍ならば、図１に示すように、座標画像１１１でも対応部分の列ピッチを二倍とし、“ＡＳ−０７”の断層画像を隣接する断層画像の二回に一回ずつ表示切換することが好適である。
【００９１】
その場合、図１６（ａ）に示すように、二行二列の選択カーソルで“ＡＳ−０７”のシリーズデータの二列の断層画像が選択されたときは、その二つの断層画像が他のシリーズデータと同様に二列に表示されるが、同図（ｂ）に示すように、二行二列の選択カーソルで“ＡＳ−０７”のシリーズデータの一列の断層画像が選択されたときは、その一つの断層画像のみを一列に表示することなどが好適である。
【００９２】
さらに、上述のように選択された一つの断層画像を二列に表示することも可能であり、選択された一つの断層画像と選択されていない次段の断層画像とで中間の断層画像をデータ生成し、これを選択された一つの断層画像と二列に表示するようなことも可能である。
【００９３】
また、上記形態ではシリーズデータの座標ピッチが二倍ならば座標画像１１１でも対応部分の列ピッチを二倍とすることを例示したが、図１７に示すように、座標画像１１１の対応部分に断層画像が存在しないブランク列をデータ設定することも可能である。
【００９４】
さらに、あるシリーズデータの断層画像の絶対座標が“０，１００，２００，…”で他のシリーズデータの絶対座標が“５０，１５０，２５０，…”のような場合、座標ピッチは同一でも座標位置が相違するが、このような場合には一方の絶対座標を変位させて他方に整合させることが好適である。
【００９５】
同様に、複数のシリーズデータで断層画像の絶対座標と座標ピッチとが相違する場合もあるが、このような場合には座標ピッチが最小のシリーズデータを基準として、その断層画像の絶対座標に他のシリーズデータの断層画像の絶対座標を対応させることが好適である。
【００９６】
また、上記形態ではＲＡＭ３０４等に格納されているコンピュータプログラムに対応してＣＰＵ３０１が動作することにより、画像表示装置３００の各種機能として各種手段が論理的に実現されることを例示した。しかし、このような各種手段の各々を固有のハードウェアとして形成することも可能であり、一部をソフトウェアとしてＲＡＭ３０４等に格納するとともに一部をハードウェアとして形成することも可能である。
【００９７】
【発明の効果】
本発明の画像表示装置は、連続する多数の断層画像からなる複数のシリーズデータを記憶しており、行列方向の位置にシリーズデータの区分と断層画像の連続方向での位置とがデータ設定された大型の行列形状の座標画像に小型の行列形状の選択カーソルを重複させてデータ表示し、その選択カーソルが重複している座標画像の位置に対応してシリーズデータの断層画像をデータ表示し、入力操作に対応して座標画像での選択カーソルの位置を行列方向に移動させてデータ表示されている断層画像を切り換えることにより、
複数のシリーズデータの断層画像を選択して切換表示することを一つの選択カーソルの移動操作だけで実行できるので、所望の複数の断層画像を並列表示させて表示切換する操作性を向上させることができ、断層画像が並列表示されるシリーズデータを選択カーソルの移動操作によりリアルタイムに表示切換できるので、並列表示できる個数が少数でも多数のシリーズデータを容易に比較検討することができ、座標画像の所望の位置に選択カーソルを移動操作できるので、シリーズデータの所望の断層画像を順番にスクロールさせることなく迅速に切換表示することもでき、座標画像での選択カーソルの相対位置がデータ表示されるので、データ表示されている断層画像のシリーズデータでの相対位置などを直感的に把握することもできる。
【００９８】
また、本発明の画像表示装置の他の形態としては、座標画像に重複してデータ表示された選択カーソルを入力操作に対応して行列方向に拡大縮小することでデータ表示されるシリーズデータと断層画像との少なくとも一方の個数を切り換えることにより、
並列表示させるシリーズデータや断層画像の個数を良好に切換操作することができる。
【００９９】
また、座標画像でのシリーズデータの設定位置を入力操作に対応して変更することにより、
座標画像で隣接した位置に所望の複数のシリーズデータを設定して選択カーソルで選択することができる。
【０１００】
また、被写体が同一の複数のシリーズデータでの断層画像の絶対座標が列方向での同一位置にデータ設定された座標画像をデータ表示することにより、
同一の被写体の同一の絶対座標での複数の断層画像を並列表示することができる。
【０１０１】
また、蓄積されている多数のシリーズデータから入力操作に対応して選択された複数のシリーズデータを一時記憶することにより、
蓄積されている多数のシリーズデータから所望の複数を選択して表示に使用することができる。
【０１０２】
また、記憶されているシリーズデータの個数と断層画像の絶対座標とに対応して座標画像をデータ生成することにより、
複数のシリーズデータと多数の断層画像との個数を座標画像の表示形態に反映させることができる。
【図面の簡単な説明】
【図１】本発明の実施の一形態の画像表示装置の表示画像を示す模式的な正面図である。
【図２】断層検査システムの外観を示す斜視図である。
【図３】画像表示装置の物理構造を示すブロック図である。
【図４】画像表示装置の外観を示す斜視図である。
【図５】コントロールユニットの外観を示す平面図である。
【図６】断層検査システムの論理構造を示す模式図である。
【図７】シリーズデータのデータ構造を示す模式図である。
【図８】座標画像と選択カーソルとの表示画像を示す模式的な正面図である。
【図９】画像表示装置による画像表示方法の前半部分を示すフローチャートである。
【図１０】後半部分を示すフローチャートである。
【図１１】選択カーソルの列数を減少させた場合の表示画像を示す模式的な正面図である。
【図１２】選択カーソルの行数を減少させた場合の表示画像を示す模式的な正面図である。
【図１３】第一の変形例の表示画像を示す模式的な正面図である。
【図１４】第二の変形例の表示画像を示す模式的な正面図である。
【図１５】第三の変形例の画像表示装置を示す斜視図である。
【図１６】第四の変形例の表示画像を示す模式的な正面図である。
【図１７】第五の変形例の座標画像を示す模式的な正面図である。
【符号の説明】
１０１ 画像蓄積手段
１０２ 画像複写手段
１０３ 画像記憶手段
１０４ 座標表示手段
１０５ 選択表示手段
１０６ 画像表示手段
１０７ 移動操作手段
１０８ 拡縮操作手段
１０９ 配列操作手段
１１１ 座標画像
１１２ 選択カーソル
３００，５００ 画像表示装置
４００ 断層検査システム[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image display apparatus and method for displaying a tomographic image obtained by data from a CT (Computed Tomography) scanner, an MRI (Magnetic Resonance Imaging) system, and the like, and a computer program for the image display apparatus.
[0002]
[Prior art]
At present, so-called CT scanners, MRI systems, and the like are used in medical sites, and such an apparatus can capture a large number of continuous tomographic images of a human body as a subject as series data. Various types of image display devices that display tomographic images of series data captured in this way have been developed, but a general image display device is, for example, by installing dedicated application software on a personal computer. Has been realized.
[0003]
In such an image display device, a large number of continuous tomographic images stored as series data can be sequentially displayed on a display. However, in a general personal computer, a keyboard or a mouse on which input keys such as alphabets are arranged are used. Therefore, the versatility is good, but the operability is not good.
[0004]
Therefore, the image display device filed by the present applicant as Japanese Patent Application No. 2001-038522 includes a dedicated input operation device, and the input operation device includes an operation member slidable in the front-rear direction. In the image display device, when the operation member is slid in the front-rear direction, the tomographic images displayed in parallel are switched at a switching speed corresponding to the moving distance, so that many tomographic images of the series data can be easily displayed. Can be viewed.
[0005]
Also, when imaging and viewing series data from a subject as described above, for example, conditions were different for the same subject, such as a state where a contrast agent was administered at the same position of the same subject and a state where the contrast agent was not administered. There is a demand in medical practice to compare and examine a plurality of tomographic images.
[0006]
In order to cope with this, in the image display device of the above-mentioned application, a plurality of tomographic images of series data are displayed in parallel, and a plurality of tomographic images can be switched and displayed while the absolute coordinates of the subject are synchronized. ing. When a plurality of tomographic images of series data are displayed in parallel on the display as described above, for example, the number of tomographic images to be displayed in parallel is set by an input operation on the operation panel.
[0007]
Next, the identification codes of a large number of registered series data are displayed in a list on the display by input operation on the operation panel, and multiple series data to be displayed in parallel are selected by input operation on the operation panel and selected in order. I do. Thus, a plurality of tomographic images of series data are displayed in parallel on the display, so that a plurality of tomographic images can be compared and examined.
[0008]
[Problems to be solved by the invention]
However, as described above, in the method of setting the number of parallel displays by input operation of the operation panel and then selecting a plurality of series data, the plurality of series data for displaying the tomographic images in parallel can be set quickly and easily. Is not easy.
[0009]
In addition, when the number of series data to be compared and examined is large, but the number that can be displayed in parallel is small due to hardware limitations, etc., it is necessary to repeat the work of selecting a small number from many series data and displaying it in parallel Therefore, it is difficult to satisfactorily compare and examine tomographic images of many series data.
[0010]
Also, in the method of switching and displaying the tomographic image of the series data by sliding the operation member in the front-back direction, the switching display is performed in the order of the tomographic images in the series data. For this reason, when there are many tomographic images of the series data and the tomographic image displayed on the display is separated from the desired tomographic image, useless display switching is repeated until the desired tomographic image is displayed. Will be.
[0011]
Furthermore, in the image display device of the above-mentioned application, for example, the absolute coordinates of the subject are given as numerical data or the like to the tomographic image data-displayed on the display. It is difficult to intuitively grasp the relative position and the like.
[0012]
The present invention has been made in view of the above-described problems, and can quickly and easily set a plurality of series data in which tomographic images are displayed in parallel, and quickly change a tomographic image displayed as data from the series data. It is another object of the present invention to provide an image display device and a method capable of easily performing display switching, and a computer program for the image display device.
[0013]
[Means for Solving the Problems]
An image display device according to the present invention includes an image storage unit, a coordinate display unit, a selection display unit, an image display unit, and a movement operation unit, and includes a plurality of series including a plurality of continuous tomographic images captured from a human body. The data is stored in the image storage means. The coordinate display means displays data of at least a part of the large matrix-shaped coordinate image, and the coordinate image has a series data section set at a row direction position and a tomographic image at a column direction position. The position in the continuous direction is set as data. The selection display means displays the data by displaying a small matrix-shaped selection cursor overlapping the data-displayed coordinate image, and the image display means at least corresponds to the position of the coordinate image where the data-displayed selection cursor overlaps. At least one tomographic image of one series data is displayed as data. However, by moving the position of the selection cursor in the coordinate image in the matrix direction in response to the input operation and switching the tomographic image displayed as data,
By positioning the selection cursor at a desired position in the row direction in the coordinate image, a plurality of series data for displaying the tomographic images in parallel is selected, and by positioning the selection cursor at a desired position in the column direction in the coordinate image, A tomographic image displayed as data is selected from the series data.
[0014]
Further, as another mode of the image display device of the present invention, data is displayed by enlarging / reducing a selection cursor, which is displayed in data overlapping with a coordinate image, in a matrix direction in response to an input operation. By switching the number of at least one of series data and tomographic images,
The number of series data and tomographic images to be displayed in parallel can be switched by scaling the selection cursor.
[0015]
Further, as another mode of the image display device of the present invention, the setting position of the series data in the coordinate image is changed by the array operation means in response to the input operation,
The selection cursor does not select a plurality of series data whose setting positions are not adjacent to each other in the coordinate image. For example, the plurality of series data are set to adjacent positions in the coordinate image selected by the selection cursor.
[0016]
According to another aspect of the image display device of the present invention, the subject of a plurality of series data stored in the image storage means is the same, and the absolute coordinates of the subject are included in a plurality of tomographic images of the plurality of series data. Is set, and the coordinate display means displays the coordinate image in which the absolute coordinates of the tomographic image in a plurality of series data are set at the same position in the column direction by data display.
Coordinate images having the same absolute coordinates are displayed in parallel from a plurality of series data of the same subject.
[0017]
Further, as another mode of the image display device of the present invention, the image copying unit temporarily stores a plurality of series data in the image storage unit in response to the input operation from a large number of series data stored in the image storage unit.
A plurality of series data used for display is selected from a large number of accumulated series data.
[0018]
In another aspect of the image display device of the present invention, the coordinate display means generates a coordinate image data corresponding to the number of series data stored in the image storage means and the absolute coordinates of the tomographic image. By
The number of a plurality of series data and a large number of tomographic images is reflected on the display form of the coordinate image.
[0019]
The various means referred to in the present invention may be formed so as to realize their functions. For example, dedicated hardware for performing predetermined functions, an image display device provided with predetermined functions by a computer program , Predetermined functions implemented inside the image display device by a computer program, combinations thereof, and the like. In addition, various means referred to in the present invention need not be individually independent. Some means may be part of another means, and some means may overlap with part of other means. What you do is also acceptable.
[0020]
The image display device according to the present invention may be any hardware capable of reading a computer program and executing a processing operation such as a corresponding data display. For example, the image display device mainly includes a CPU (Central Processing Unit). And hardware to which various devices such as a ROM (Read Only Memory), a RAM (Random Access Memory), and a display unit are connected.
[0021]
Note that causing the image display device to execute various operations corresponding to the computer program in the present invention also allows the image display device to control operations of various devices. For example, storing various data in the image display device includes storing the various data in an information storage medium such as a RAM fixed to the image display device, and storing the various data in the FD which is exchangeably mounted in the image display device. (Flexible Disc-cartridge) allows the CPU to store various data in FDD (FD Drive) on an information storage medium.
[0022]
In addition, the row direction in the present invention may be one linear direction in which an image is displayed, and the column direction may be one direction that is linear in which an image is displayed and is orthogonal to the row direction. For example, when the display screen of the display device is parallel to the vertical and horizontal directions, the row direction is one of the vertical and horizontal directions and the other is the column direction.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings. As shown in FIGS. 2 and 6, the image display device 300 of the present embodiment is formed as a part of a tomographic inspection system 400, and is connected online to a separate CT scanner 401.
[0024]
The CT scanner 401 includes an image pickup mechanism 411 as an image pickup unit and a communication unit 412 as an image supply unit, and the image pickup mechanism 411 is continuous from a human body (not shown) of a subject as a subject. A number of tomographic images are captured. Many tomographic images continuously captured from one subject are accumulated as series data, and the communication unit 412 transmits the data to the image display device 300.
[0025]
The absolute coordinates of the subject are individually assigned to the tomographic image captured as described above, and the series ID is individually assigned to the series data. However, when a tomographic image is captured from a subject and series data is generated, the range and pitch of absolute coordinates at which the tomographic image is present vary depending on the series data because the imaging range and imaging pitch are not uniform. .
[0026]
As shown in FIG. 3, the image display device 300 of the present embodiment includes a CPU 301 as hardware serving as a main body of a computer, and the CPU 301 is connected to a ROM 303, a RAM 304, and an HDD 305 (Hard Disc Drive) by a bus line 302. 305, an FDD 307 in which an FD 306 is exchangeably mounted, a CD drive 309 in which a CD (Compact Disc) -ROM 308 is exchangeably mounted, a control unit 310, a display unit 311, an I / F (Interface) unit 312, and the like. Hardware is connected.
[0027]
As shown in FIG. 4, the control unit 310 and the display unit 311 are formed as independent devices, and are connected to a separate main unit 313 by wire. The main body unit 313 includes a CPU 301 and the like, and incorporates an FDD 307 and a CD drive 309 with the front face exposed.
[0028]
As shown in FIG. 5, the control unit 310 is provided with a seesaw switch 202 swingable in the front-rear direction substantially at the center of the unit body 201, and a right switch 203 and a left switch 204 are provided on the right and left sides thereof. Is provided. A cross switch 205 having operation units disposed in front, rear, left and right directions is provided on the rear left side of the unit body 201, and a keyboard 206 is built in the rear center so as to be freely retractable.
[0029]
In the image display apparatus 300 according to the present embodiment, hardware such as a ROM 303, a RAM 304, an HDD 305, an exchangeable FD 306, an exchangeable CD-ROM 308, and the like correspond to an information storage medium, and at least one of them includes a computer program for the CPU 301. And resources are stored as software. Such software is installed in the image display device 300 in advance, and the data is read by the CPU 301 when the image display device 300 is started.
[0030]
As described above, when the CPU 301 reads data of an appropriate computer program and executes various processes, the image display device 300 according to the present embodiment, as shown in FIG. Various units such as a unit 103, a coordinate display unit 104, a selection display unit 105, an image display unit 106, a movement operation unit 107, a scaling operation unit 108, and an array operation unit 109 are logically provided as various functions.
[0031]
The image storage unit 101 corresponds to a predetermined storage area of the HDD 305 in which the CPU 301 stores the reception data of the I / F unit 312 corresponding to the computer program stored in the RAM 304, and is input online from the CT scanner 410. Many series data are accumulated.
[0032]
The image copying unit 102 corresponds to a function of the CPU 301 copying the storage data of the HDD 305 to a predetermined storage area of the RAM 304 in accordance with the above-described computer program and the input data of the control unit 310, and corresponds to the input operation. A plurality of data from a large number of series data in the image storage unit 101 is input to the image storage unit 103.
[0033]
The image storage unit 103 corresponds to a predetermined storage area of the RAM 304 recognized by the CPU 301 in accordance with a computer program, and temporarily stores a plurality of series data input from the image storage unit 101 by an input operation to the image copying unit 102. Remember.
[0034]
More specifically, as described above, as shown in FIG. 7, the series data is composed of a large number of tomographic images in which absolute coordinates are individually set, and is individually assigned a series ID. When such series data is imaged from a subject by the CT scanner 410 and transmitted online to the image display device 300, the image display device 300 compresses the received series data and stores it in the HDD 305 for each series ID.
[0035]
When a worker (not shown) performs a predetermined operation on the control unit 310 in a state where a large number of series data are accumulated in this manner, the display unit 311 displays a list of series IDs of the large number of accumulated series data. Is displayed. Then, when the operator selects a desired plurality of series IDs by a predetermined operation of the control unit 310, the series data of the series ID is read out from the HDD 305, expanded, and temporarily stored in the work area of the RAM 304.
[0036]
The coordinate display means 104 corresponds to a function of the CPU 301 for generating data of a CG (Computer Graphic) displayed on the display unit 311 in accordance with the data stored in the RAM 304, and as shown in FIGS. A large matrix-shaped coordinate image 111 is displayed as data corresponding to the number of series data stored in the storage unit 103 and the absolute coordinates of the tomographic image.
[0037]
In the coordinate image 111, the series data division is set at the horizontal position in the row direction, and the position of the tomographic image in the continuous direction is set at the vertical position in the column direction. More specifically, as described above, when the series data selected by the operator with the series ID as desired is transferred from the HDD 305 to the work area of the RAM 304, the absolute coordinates of each tomographic image are read out.
[0038]
In the following, for the sake of simplicity, a large number of series data is stored in the HDD 305, but it is assumed that the work area of the RAM 304 can temporarily store up to eight series data. For example, as shown in Table 1 below, when eight series data having a series ID of “AS-01” to “AS-08” imaged from a certain subject “AS” are selected, the number thereof is represented by a coordinate image. The number of rows in the left and right direction is 111, and data is set in each row in the order in which the series ID is selected.
[0039]
[Table 1]

[0040]
Next, in these series data, the minimum absolute coordinate and the maximum absolute coordinate at which the tomographic image exists are detected, and the minimum pitch of the absolute coordinates is detected. Then, the minimum absolute coordinate is set as the start column of the coordinate image 111, and the maximum absolute coordinate is set as the final column of the coordinate image 111. Further, the number of columns divided from the minimum absolute coordinate to the maximum absolute coordinate at the minimum pitch is set as the number of columns of the coordinate image 111, and the absolute coordinates are set as data in each column.
[0041]
For example, in the case of the series data of the series IDs “AS-01” to “AS-08”, the maximum absolute coordinate “2000 (mm)” and the minimum coordinate pitch “100 (mm)” from “AS-01” and the like. )), And the minimum absolute coordinate “0 (mm)” is detected from “AS-02” and the like.
[0042]
The selection display means 105 corresponds to a function of causing the CPU 301 to display data of a standard CG on the display unit 311 and the like, and displays data by superimposing a small matrix-shaped selection cursor 112 on the coordinate image 111 on which data is displayed. More specifically, since the video area of the RAM 304 can temporarily store up to four tomographic images below, it is assumed that the display unit 311 can display only four tomographic images in parallel. Therefore, the selection cursor 112 is defaulted as a two-row, two-column square, and this is overlapped and displayed at an appropriate position on the coordinate image 111.
[0043]
The image display means 106 corresponds to, for example, a function of the CPU 301 transferring data of a tomographic image of the work area of the RAM 304 to the video area, and a series corresponding to the position of the coordinate image 111 where the data-displayed selection cursor 112 overlaps. The data tomographic image is displayed.
[0044]
For example, as shown in FIG. 1, the selection cursor 112 is moved to “800 (mm)” and “800 (mm)” at two rows corresponding to the series data of the series ID “AS-02” and “AS-03” of the coordinate image 111. In the case where the tomographic images are arranged at two rows corresponding to the absolute coordinates of “900 (mm)”, the tomographic images of the series ID and the absolute coordinates are displayed in parallel in an array corresponding to the matrix shape of the selection cursor 112.
[0045]
The following various means correspond to the function of the CPU 301 for recognizing the input operation of the control unit 310 as data, and the moving operation means 107 moves the position of the selection cursor 112 on the coordinate image 111 in the matrix direction corresponding to the input operation. The cursor is moved, the scaling operation means 108 scales the selection cursor 112 in the matrix direction in response to the input operation, and the array operation means 109 changes the set position of the series data in the coordinate image 111 in response to the input operation. I do.
[0046]
More specifically, when the seesaw switch 202 of the control unit 310 is swung in the front-back direction, the selection cursor 112 moves up and down in response to this, so that the four cursors displayed in parallel on the display unit 311 are displayed. The display of the two tomographic images is switched in the front-rear direction.
[0047]
When the right / left switches 203 and 204 of the control unit 310 are operated, the selection cursor 112 moves in the left and right directions, so that the series data in which the tomographic image is displayed on the display unit 311 is switched.
[0048]
When the cross switch 205 of the control unit 310 is swung forward, as shown in FIG. 11, the number of rows of the selection cursor 112 is correspondingly reduced from two rows to one row, and as shown in FIG. In a state 311, only one absolute coordinate tomographic image is displayed.
[0049]
Conversely, when the cross switch 205 is swung backward, the number of rows of the selection cursor 112 is increased downward from one row to two rows, and the display unit 311 displays two tomographic images of absolute coordinates as data. It becomes. Similarly, as shown in FIG. 12, when the cross switch 205 is swung left and right, the number of rows of the selection cursor 112 is changed to one row and two rows, and a series in which a tomographic image is displayed on the display unit 311 is displayed. The number of data is changed to one and two.
[0050]
Further, as described above, when the operator selects eight series data to be processed by input operation of the control unit 310 as desired, the eight series IDs are set in each row of the coordinate image 111 in the selected order. However, when a predetermined operation is performed using the keyboard 206 or the like of the control unit 310, the setting relationship between each line of the coordinate image 111 and the series data is changed. For example, the first line and the second line of the coordinate image 111 are changed. An operation to exchange eyes is performed.
[0051]
The various units of the image display device 300 as described above are realized by using hardware such as the HDD 305 and the I / F unit 312 as necessary. The main unit is a computer program stored in an information storage medium such as the RAM 304. This is realized by the functioning of the CPU 301 as hardware corresponding to.
[0052]
Such a computer program is, for example, a process of storing series data received online by the I / F unit 312 from the CT scanner 410 in the HDD 305, and inputting a plurality of series data from the many series data stored in the HDD 305 to the control unit 310. Processing to temporarily store the data in the work area of the RAM 304 in correspondence with the number of series data and the absolute coordinates of the tomographic image which are temporarily stored in the work area of the RAM 304. To display data on the display unit 311 by displaying a small matrix-shaped selection cursor 112 overlapping the data-displayed coordinate image 111, and to display the coordinates at which the data-displayed selection cursor 112 overlaps. Image 111 A process of displaying a tomographic image of series data on the display unit 311 in accordance with the position, a process of moving the position of the selection cursor 112 in the coordinate image 111 in the matrix direction in response to an input operation of the control unit 310, and a control unit Processing operations such as a process of scaling the selection cursor 112 in the matrix direction in response to the input operation of 310 and a process of changing the set position of the series data in the coordinate image 111 in response to the input operation of the control unit 310 are performed. It is stored in an information storage medium such as the RAM 304 as software to be executed by the CPU 301 or the like.
[0053]
In the configuration described above, a tomographic inspection method in the tomographic inspection system 400 of the present embodiment will be described below in order. The basic operation of the image display apparatus 300 of the present embodiment is to display one tomographic image of one series data on the display unit 311. As shown in FIG. Images can also be displayed side by side.
[0054]
For example, when a plurality of series data with different use of a contrast agent is captured from one subject, tomographic images in which the absolute coordinates of the plurality of series data match with the subject are displayed side by side in a horizontal direction or the like. It is preferable to switch and display the plurality of tomographic images while keeping them synchronized.
[0055]
Also, since the series data is composed of a large number of tomographic images in which the absolute coordinates of the subject are sequentially displaced, when browsing a certain tomographic image, it is common to want to simultaneously view the tomographic images before and after the tomographic image. In such a case, for example, the first and second tomographic images are displayed in parallel, and then the second and third tomographic images are displayed in parallel, so that the series data It is preferable to switch sequentially while displaying a plurality of continuous tomographic images in parallel in a vertical direction or the like.
[0056]
In the image display device 300 of the present embodiment, as described above, the tomographic images in which the absolute coordinates of the plurality of series data match are displayed in parallel and sequentially switched, and a plurality of tomographic images that are continuous in the front-rear direction with the series data are displayed. Displaying in parallel and switching sequentially can be performed simultaneously.
[0057]
More specifically, when the CT scanner 410 captures a tomographic image for each of a large number of continuous absolute coordinates from the human body of the subject, a large number of tomographic images whose absolute coordinates are individually set become individual series IDs as series data. Is transmitted to the image display apparatus 300 online.
[0058]
As shown in FIG. 9, when the series data is received online from the CT scanner 410 (step S1), the image display apparatus 300 compresses the series data and stores it in the HDD 305 for each series ID (step S2). When the operator performs an input operation on the image display device 300 in which a large number of series data has been stored in the control unit 310 to start browsing the series data (step S3), the display unit 311 stores a large number of stored data. Are displayed in a list (step S4).
[0059]
Then, when the operator selects a desired plurality of series IDs by a predetermined operation of the control unit 310 (step S6), the series data of the series ID is read out from the HDD 305 and expanded, and is temporarily stored in the work area of the RAM 304. (Step S7).
[0060]
When the operator performs an input operation for browsing execution in the control unit 310 in the state where the series data is selected (step S8), as shown in FIG. 10, the number of the selected plurality of series data and the tomographic image are displayed. Are detected (step S9), and a coordinate image 111 is generated correspondingly (step S10).
[0061]
When the coordinate image 111 is generated as described above, as shown in FIGS. 1 and 8, the number of series data is the number of rows in the left-right direction, and a plurality of series data are selected in each row in the order of selection. Data is set. In addition, the minimum absolute coordinate of the selected plurality of series data is set as the start column of the coordinate image 111, and the maximum absolute coordinate is set as the final column. Then, the number of columns divided from the minimum absolute coordinate to the maximum absolute coordinate at the minimum pitch is set as the number of columns of the coordinate image 111, and the absolute coordinates are set as data in each column.
[0062]
The coordinate image 111 thus generated is displayed on the display unit 311 as data, and a small matrix-shaped selection cursor 112 overlapping the appropriate position on the coordinate image 111 is also displayed as data (step S11). . In the image display device 300 of the present embodiment, up to four tomographic images can be temporarily stored in the video area of the RAM 304 and can be displayed in parallel on the display unit 311. Therefore, the selection cursor 112 is displayed as a two-row, two-column square by default.
[0063]
Since the position where the two-row, two-column selection cursor 112 overlaps the coordinate image 111 corresponds to two continuous absolute coordinates in two series data, as shown in FIG. The tomographic images are displayed side by side on the display unit 311 in two rows and two columns (step S17).
[0064]
In this state, two series data can compare and compare two consecutive tomographic images of absolute coordinates. However, when an operator wants to view the tomographic images before and after the two series data, the seesaw switch 202 of the control unit 310 is swung in the forward and backward directions. Operation. Then, in response to this, the selection cursor 112 overlapping the coordinate image 111 is moved up and down (steps S13 and S14), and the four tomographic images displayed side by side on the display unit 311 are displayed and switched in the forward and backward directions. Is performed (step S17).
[0065]
When the right / left switches 203 and 204 of the control unit 310 are input, the selection cursor 112 is moved in the left and right directions (steps S13 and S14), and the series data whose tomographic image is displayed on the display unit 311 is displayed. The display is switched (step S17).
[0066]
When the cross switch 205 of the control unit 310 is swung forward (step S15), the number of rows of the selection cursor 112 correspondingly decreases upward from two rows to one row as shown in FIG. Then, the display unit 311 is brought into a state where only the tomographic image of one absolute coordinate is displayed on the display unit 311 (step S17).
[0067]
Conversely, when the cross switch 205 is swung backward, the number of rows of the selection cursor 112 is increased from one row to two rows downward (steps S15 and S16), and the display unit 311 displays two tomographic images of absolute coordinates. Is displayed (step S17).
[0068]
Similarly, as shown in FIG. 12, when the cross switch 205 is swung left and right, the number of rows of the selection cursor 112 is changed to one row and two rows (steps S15 and S16), and the tomographic image is displayed on the display unit 311. Is changed to one and two series data for which data is displayed (step S17).
[0069]
In the image display device 300 of the present embodiment, since the tomographic image of the series data corresponding to the position where the selection cursor 112 of the coordinate image 111 overlaps is displayed, for example, the coordinate image 111 Cannot display the tomographic images of the series data set in the first line and the fourth line in parallel.
[0070]
However, in the image display device 300 of the present embodiment, since the setting relationship between each row of the coordinate image 111 and the series data can be changed by a predetermined operation of the control unit 310 (steps S12 and S10), a tomographic image of the desired series data is displayed. The information can be displayed side by side on the unit 311.
[0071]
In the image display device 300 of the present embodiment, the selection and switching display of a plurality of tomographic images of series data as described above can be executed only by the operation of moving one selection cursor 112. The operability of switching the display by performing the parallel display is good.
[0072]
In particular, since the absolute coordinates of the tomographic images in a plurality of series data of the same subject are set at the same position in the vertical direction in the coordinate image 111, the plurality of tomographic images of the same subject at the same absolute coordinates are set. The images can be displayed side by side, and it is possible to compare and examine tomographic images captured from the same position of one patient under different conditions.
[0073]
In addition, since the selection cursor 112, which is displayed in data overlapping the coordinate image 111, can be enlarged or reduced in the matrix direction, as shown in FIG. 1, FIG. 11, and FIG. Can be satisfactorily switched.
[0074]
Further, since the set position of the series data in the coordinate image 111 can be changed in response to the input operation, a plurality of desired series data are set at adjacent positions in the coordinate image 111 and selected with the selection cursor 112. To display the tomographic images side by side.
[0075]
Moreover, since the coordinate image 111 is automatically generated in correspondence with the number of series data and the absolute coordinates of the tomographic image, the number of the plurality of series data and the number of tomographic images can be changed to the display form of the coordinate image 111. It can be intuitively grasped by reflecting it.
[0076]
Further, the relative position of the selection cursor 112 in the coordinate image 111 is displayed as data, and the matrix shape such as two rows and two columns of the selection cursor 112 and the display shape such as two rows and two columns of a tomographic image correspond one-to-one. Therefore, it is possible to intuitively grasp the relative position and the like of the series data of the displayed tomographic image.
[0077]
In addition, since the RAM 304 temporarily stores a plurality of series data selected in response to an input operation from a large number of series data stored in the HDD 305, a desired plurality is selected from the large number of stored series data. Can be used for display.
[0078]
Moreover, since the series data in which the tomographic images are displayed in parallel can be switched in real time by moving the selection cursor 112, the number of series data in which the tomographic images can be displayed in parallel is two or even a small number, and a large number of series data can be easily obtained. Can be compared.
[0079]
The present invention is not limited to the above-described embodiment, and allows various modifications without departing from the gist of the invention. For example, in the above-described embodiment, the tomographic image of the human body is captured by the CT scanner 410. However, the tomographic image can be captured by an MRI system (not shown).
[0080]
In the above embodiment, for the sake of simplicity, when the seesaw switch 202 of the control unit 310 is rocked back and forth, the selection cursor 112 simply moves up and down and the tomographic image is switched in the back and forth direction. It is illustrated that it is displayed.
[0081]
However, for example, as filed by the present applicant as Japanese Patent Application No. 2001-326401, the seesaw switch 202 can be swingably operated in multiple stages in the front-rear direction, and the vertical movement of the selection cursor 112 and the display switching of the tomographic image can be performed. Can be speed-controlled in multiple stages.
[0082]
In this case, for example, when the seesaw switch 202 is swung to the first stage, the selection cursor is moved up and down at a low speed such as “one line / 0.5 (sec)” and “one sheet / 0.5 (sec)”. The tomographic image is switched and displayed while being moved, and when the seesaw switch 202 is swung to the second stage, only the selection cursor 112 is displayed at a high speed such as "one line / 0.1 (sec)" without switching and displaying the tomographic image. May be moved up and down, and the tomographic image may be switched and displayed at one time when the swing operation of the seesaw switch 202 is released and the up and down movement of the selection cursor 112 is stopped.
[0083]
In this case, a large number of tomographic images of the series data can be sequentially switched and displayed at a low speed for confirmation, and the tomographic image at a desired position of the coordinate image 111 can be quickly switched and displayed. Many tomographic images can be browsed with operability.
[0084]
Further, in the above embodiment, an example is shown in which up to eight series data are temporarily stored in the work area of the RAM 304 and used for browsing work, and up to four tomographic images are temporarily stored and displayed in the video area. However, it goes without saying that such numerical values can be variously changed according to hardware conditions and the like.
[0085]
For example, in the above embodiment, the two-row selection cursor 112 is overlapped with the eight-row coordinate image 111 and moved up, down, left, and right. However, the two-row selection image is not displayed on the two-row coordinate image (not shown). It is also possible to overlap 112 and move only in the vertical direction.
[0086]
Further, in the above embodiment, the matrix shape such as the two rows and two columns of the selection cursor 112 and the display shape such as the two rows and two columns of the tomographic image correspond one-to-one, for example, as shown in FIG. Thus, it is also possible to display the data of the four tomographic images selected by the four-row one-column selection cursor 112 in two rows and two columns.
[0087]
Further, in the above embodiment, the entire coordinate image 111 is displayed on the display unit 311 as data. However, it can be assumed that the number of tomographic images in the actual series data is so large that the entire coordinate image 111 cannot be displayed. . In such a case, as shown in FIG. 14, it is preferable to display only a part of the coordinate image 111 as data and scroll the display part of the coordinate image 111 in response to the movement of the selection cursor 112.
[0088]
In the above-described embodiment, the coordinate image 111 is also displayed on one display unit 311 on which a tomographic image is displayed. However, for example, a dedicated dedicated unit separate from the display unit 311 on which a tomographic image is displayed. It is also possible to display the coordinate image 111 on a display unit (not shown).
[0089]
For example, since the coordinate image 111 does not need to be as high in resolution as the tomographic image and does not need to be displayed in color, a low-resolution black-and-white liquid crystal display 502 is added to the control unit 501 as in the image display device 500 illustrated in FIG. However, it is also possible to display the coordinate image 111 there.
[0090]
Further, in the above embodiment, for simplicity of explanation, the coordinate pitch and the coordinate position of the tomographic image in a plurality of series data are illustrated as being identical, but these may be different. For example, as shown in Table 1 above, if the coordinate pitch of the series data “AS-07” is twice that of the other series data, the column pitch of the corresponding part in the coordinate image 111 as shown in FIG. It is preferable to double the display and to switch the display of the tomographic image of “AS-07” once every two times of the adjacent tomographic image.
[0091]
In this case, as shown in FIG. 16A, when a two-row, two-column selection cursor selects a two-column tomographic image of the “AS-07” series data, the two tomographic images are replaced with other two-dimensional tomographic images. Similar to the series data, it is displayed in two columns, but as shown in FIG. 7B, when a tomographic image of one column of the series data of “AS-07” is selected by a two-row, two-column selection cursor. It is preferable to display only the one tomographic image in a line.
[0092]
Further, it is also possible to display one tomographic image selected as described above in two columns, and to convert an intermediate tomographic image between the selected one tomographic image and the next unselected tomographic image. It is also possible to generate and display this in two rows with one selected tomographic image.
[0093]
Further, in the above embodiment, if the coordinate pitch of the series data is doubled, the column pitch of the corresponding portion is doubled in the coordinate image 111 as well, but as shown in FIG. It is also possible to set data of a blank row where no image exists.
[0094]
Further, when the absolute coordinates of a tomographic image of a certain series data are “0, 100, 200,...” And the absolute coordinates of another series data are “50, 150, 250,. Although the positions are different, in such a case, it is preferable to displace one of the absolute coordinates and align it with the other.
[0095]
Similarly, the absolute coordinates and the coordinate pitch of the tomographic image may differ between a plurality of series data. In such a case, the absolute coordinates of the tomographic image may be different from the absolute data of the tomographic image based on the series data having the smallest coordinate pitch. It is preferable to make the absolute coordinates of the tomographic image of the series data correspond.
[0096]
In the above-described embodiment, an example has been described in which various units are logically realized as various functions of the image display device 300 by operating the CPU 301 in accordance with a computer program stored in the RAM 304 or the like. However, it is also possible to form each of these various means as unique hardware, and it is also possible to store a part of the various means as software in the RAM 304 or the like and form a part as hardware.
[0097]
【The invention's effect】
The image display device of the present invention stores a plurality of series data composed of a large number of continuous tomographic images, and the data of the series data division and the position of the tomographic image in the continuous direction are set at the positions in the matrix direction. A small matrix-shaped selection cursor overlaps a large matrix-shaped coordinate image to display data, and the selection cursor displays data tomographic images of series data corresponding to the position of the overlapping coordinate image, and input. By moving the position of the selection cursor in the coordinate image in the matrix direction in response to the operation and switching the tomographic image displayed as data,
Since selecting and switching and displaying the tomographic images of a plurality of series data can be performed only by moving the single selection cursor, it is possible to improve the operability of displaying a plurality of desired tomographic images in parallel and switching the display. The series data in which the tomographic images are displayed side by side can be switched in real time by moving the selection cursor, so that even if the number of pieces that can be displayed in parallel is small, many series data can be easily compared and examined. Since the selection cursor can be moved to the position of, the desired tomographic image of the series data can be quickly switched and displayed without being sequentially scrolled, and the relative position of the selection cursor in the coordinate image is displayed as data. It is also possible to intuitively grasp the relative position in the series data of the tomographic image displayed as data.
[0098]
Further, as another mode of the image display device of the present invention, series data and tomographic data which are displayed by enlarging and reducing a selection cursor which is displayed in data in a coordinate image in a matrix direction in response to an input operation are provided. By switching at least one of the number with the image,
The number of series data and the number of tomographic images to be displayed in parallel can be favorably switched.
[0099]
Also, by changing the set position of the series data in the coordinate image corresponding to the input operation,
A plurality of desired series data can be set at adjacent positions in the coordinate image and selected with a selection cursor.
[0100]
Also, by displaying a coordinate image in which the absolute coordinates of the tomographic image in a plurality of series data of the same subject are set at the same position in the column direction,
A plurality of tomographic images of the same subject at the same absolute coordinates can be displayed in parallel.
[0101]
In addition, by temporarily storing a plurality of series data selected in response to an input operation from a large number of accumulated series data,
A desired plurality can be selected from a large number of accumulated series data and used for display.
[0102]
Also, by generating a coordinate image data corresponding to the number of stored series data and the absolute coordinates of the tomographic image,
The number of a plurality of series data and a large number of tomographic images can be reflected on the display form of the coordinate image.
[Brief description of the drawings]
FIG. 1 is a schematic front view showing a display image of an image display device according to an embodiment of the present invention.
FIG. 2 is a perspective view showing an appearance of the tomographic inspection system.
FIG. 3 is a block diagram illustrating a physical structure of the image display device.
FIG. 4 is a perspective view illustrating an appearance of the image display device.
FIG. 5 is a plan view showing the appearance of the control unit.
FIG. 6 is a schematic diagram showing a logical structure of the tomographic inspection system.
FIG. 7 is a schematic diagram showing a data structure of series data.
FIG. 8 is a schematic front view showing a display image of a coordinate image and a selection cursor.
FIG. 9 is a flowchart illustrating a first half of an image display method by the image display device.
FIG. 10 is a flowchart showing a second half part.
FIG. 11 is a schematic front view showing a display image when the number of columns of the selection cursor is reduced.
FIG. 12 is a schematic front view showing a display image when the number of lines of the selection cursor is reduced.
FIG. 13 is a schematic front view showing a display image of a first modified example.
FIG. 14 is a schematic front view showing a display image of a second modified example.
FIG. 15 is a perspective view showing an image display device of a third modified example.
FIG. 16 is a schematic front view showing a display image of a fourth modified example.
FIG. 17 is a schematic front view showing a coordinate image according to a fifth modified example.
[Explanation of symbols]
101 Image storage means
102 Image copy means
103 Image storage means
104 coordinate display means
105 Selection display means
106 image display means
107 Movement operation means
108 scaling operation means
109 Array operation means
111 coordinate image
112 Selection cursor
300,500 image display device
400 tomography inspection system

Claims (8)

Image storage means for storing a plurality of series data consisting of a number of continuous tomographic images taken from the human body,
Coordinates for displaying data of at least a part of a large matrix-shaped coordinate image in which the series data section is set to data in the row direction and the position in the continuous direction of the tomographic image is set to data in the column direction Display means;
Selection display means for displaying data by overlapping a small matrix-shaped selection cursor on the coordinate image displayed as data,
Image display means for displaying data of at least one tomographic image of at least one of the series data corresponding to the position of the coordinate image where the data-displayed selection cursor overlaps,
Movement operation means for switching the tomographic image displayed by moving the position of the selection cursor in the coordinate image in the matrix direction in response to the input operation,
An image display device comprising: An enlargement / reduction operation for switching the number of at least one of the series data and the tomographic image displayed by enlarging / reducing the selection cursor data overlapped with the coordinate image in a matrix direction in response to an input operation 2. The image display device according to claim 1, further comprising means. The image display device according to claim 1, further comprising an array operation unit that changes a set position of the series data in the coordinate image in response to an input operation. The image storage means stores a plurality of series data in which a subject is the same, and absolute coordinates in the subject are set in a large number of the tomographic images of the plurality of series data,
4. The coordinate display unit according to claim 1, wherein the coordinate display unit displays data of the coordinate image in which absolute coordinates of the tomographic image in a plurality of series data are set at the same position in a column direction. 5. Image display device. Image storage means in which a number of the series data are stored;
Image copying means for temporarily storing a plurality of the series data stored in the image storage means in response to an input operation;
The image display device according to any one of claims 1 to 4, further comprising: 6. The coordinate display device according to claim 1, wherein the coordinate display unit generates the coordinate image data in accordance with the number of the series data stored in the image storage unit and absolute coordinates of the tomographic image. 7. The image display device as described in the above. An image display method for an image display device according to claim 1, wherein:
An image storage step of storing a plurality of series data consisting of a number of continuous tomographic images taken from a human body,
Coordinates for displaying data of at least a part of a large matrix-shaped coordinate image in which the series data section is set to data in the row direction and the position in the continuous direction of the tomographic image is set to data in the column direction Display step;
A selection display step of displaying data by overlapping a small matrix-shaped selection cursor on the coordinate image displayed as data,
An image display step of displaying data of at least one tomographic image of at least one of the series data corresponding to a position of the coordinate image where the data-displayed selection cursor overlaps;
A moving operation step of switching the tomographic image displayed by moving the position of the selection cursor in the coordinate image in the matrix direction in response to the input operation;
An image display method comprising: A computer program for an image display device according to any one of claims 1 to 6,
Image storage processing for storing a plurality of series data consisting of a number of continuous tomographic images taken from the human body,
Coordinates for displaying data of at least a part of a large matrix-shaped coordinate image in which the series data section is set to data in the row direction and the position in the continuous direction of the tomographic image is set to data in the column direction Display processing,
A selection display process for displaying data by overlapping a small matrix-shaped selection cursor on the coordinate image displayed as data,
Image display processing of displaying data of at least one tomographic image of at least one of the series data corresponding to the position of the coordinate image where the data-displayed selection cursor overlaps,
A moving operation process of switching the tomographic image displayed by moving the position of the selection cursor in the coordinate image in the matrix direction in response to the input operation;
Computer program for causing the image display device to execute the following.

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