JP3865152B2 - Hemodialysis automatic preparation device - Google Patents

Description

【００２２】
以下に図３や表１と共に、実働部における各行程の動作、そして各クランプ及びバルブの作動状態、さらに各回路の液の流れ等について簡単に説明する。まず、初期（準備操作を行う前）は全てのクランプ及びバルブは閉止し、また全てのポンプは休止している（以下、この状態を全クランプ状態ともいう）。次の血液側プライミングの行程では、第５クランプ１３，第１クランプ８，第２クランプ１９，第４クランプ２２が開放され、血液ポンプ１５が作動し始める。そして、生食液容器１４から血液回路に生食液が所定の流速で流れ始める。本例では、ヘパリン添加生食液１０００ｍｌ以上を１００ｍｌ／ｍｉｎの流速で流す。流速及び流出量は血液ポンプ１５のストロークによって検出され、必要に応じて二次情報としてモニターに表示される。生食液は動脈チャンバー７、透析器１、静脈チャンバー２０を通って、静脈側患者接続部２３から排出される。動脈チャンバー７が生食液で満たされると、チャンバー７を保持しているホルダーが回転して、最初にセットされた向きとは上下反対の向きに動脈チャンバー７が保持される。そして、血液側ラインに流された生食液の液量が設定された量になると、検知部から制御部に二次情報がフィードバックされ、それによって、制御部は実働部に次の行程に移行するように指令する。血液側プライミング終了の行程では、再び全クランプ状態となる。
【００２３】
次に透析器のリークを調べるため、リークテストの行程が実施される。リークテストは、以下のようにして行われる。静脈側血液回路において、第２接続部１８は静脈側患者接続部２３よりも高くなるように落差が設けてある。そして、動脈側血液回路の第１クランプ８を閉止したまま、静脈側血液回路の第２クランプ１９，第４クランプ２２を開放すると、血液回路及びそれに接続した透析器１に落差圧が生じる。その状態で通気管３３の第１バルブ３４を開放して、透析器１内部を外気に連通させ、透析液側ラインの一部を開放系にする。ここで、もし透析器（透析膜）にリークが生じていれば、外気に連通した透析液側から血液側に空気が流入する筈である。従って、透析器のヘッダー上部付近や第２クランプ１９の直ぐ下流側の血液回路に出てくる気泡の有無を確認するか、或は静脈側血液回路に圧力計２１を設けてその箇所の陰圧度を測定することによって、リークの有無が判る。リークテストが終了すると、リークテスト終了の行程に移り、全クランプ状態になる。リークテストで検知部が検出した値は、二次情報として制御部にフィードバックされる。制御部では、選択された行程や透析器の種類のそれぞれにおいて、正常な透析器（非リークの）を使用してリークテストを行った場合の圧力値や気泡量（気泡の状態）が設定、記憶されており、検知部からの二次情報とこの設定値とを比較することによって、リークの有無が判断される。
【００２４】
ここで、もし透析器にリークが有ったと制御部が判断した場合、図３の左下部に示すように回路内排液の行程が選択される。即ち、表１，Ｎｏ．６−２に示すように所定のクランプ及びバルブが開放され、血液ポンプ及び透析液ポンプが作動して、操作者が透析器の交換をし易いように、血液側ライン及び透析液ラインからそれぞれ液が排出される。ここで、透析液回路のドレン管及びそれに装着された第２バルブ４１は透析液ポンプ７０が複式ポンプであるために設けた排液のための導管であり、第２バルブ４１を開放することによって、透析液回路にあった液を排液側接続部３２から排出することができるようになる。それぞれの回路から液が排出された時点で、準備装置は全クランプ状態となり、警報を出して操作者に透析器の交換を促す（透析器交換準備完了）。警報と併行して、又はその代わりとしてモニターに、透析器リーク或いは透析器交換等の表示をしても良い。そこで、操作者は初めて人手によって血液回路と透析器との接続を外し、リークの検出された透析器を新しい透析器に換えて準備操作をやり直す。
【００２５】
もし、透析器にリークが検出されなかった場合、制御部は実働部に次の操作である透析液側プライミングに移行するように指令を出す。次の行程では、透析液側ラインのプライミングだけでなく、表１，Ｎｏ．６−１のクランプやポンプの欄に示されるように、血液側ラインのクランプを開放し、血液ポンプを作動して血液側ラインの洗浄を実施してもよい。本例では透析液側ラインのプライミングとして、流速５００ｍｌ／ｍｉｎで５ｍｉｎ、透析液を流す。血液側ラインと同じように、透析液側ラインでも透析液ポンプ７０のストロークによって流速及び流量が測定され、流出した液量が設定された量になるか、設定した時間が過ぎると、透析液ポンプ７０は自動的に停止して次の行程に移行する。次は、動脈側患者接続部２とプライミング液供給回路分岐部５との間の血液回路のプライミングを行う動脈側先端部プライミングの行程である。第３クランプ３，第５クランプ１３，第６クランプ１６を開放して、落差によって生食液を血液回路の動脈側先端部に送液し、またシリンジポンプ１７を作動して血栓の発生し易い動脈側患者接続部２にヘパリンを注入しておく。この行程を約１０秒実施した後、透析準備完了の行程に移行して全クランプ状態となる。この行程ではモニターに準備完了の表示も行う。
【００２６】
実施例２（ウエットタイプの場合）
ウエットタイプの血液透析器を使用した場合でも、その準備操作は基本的にドライタイプのものと同じである。セットアップは実施例１と同じように、血液回路及び透析液回路が他の構成要素の所定の部位に接続されるようにセットする。構成要素のセットアップが終了したら、実施例１と同じように準備操作のための一次情報を入力してやる。すると、制御部ではウエットタイプの透析器に適合するプライミング操作を含む準備操作を選択し、実働部に指令する。その準備操作はリークが無ければ、以下のように透析液側ラインの洗浄→動脈側血液回路のみのプライミング（オプション）→血液側ラインのプライミング→リーク試験→透析側ラインの再充填の順で実施される。以下、実働部の作動として実施例１と相違する点について、図４や表２と共に説明する。
【００２７】
【表２】

【００２８】
ウエットタイプの透析器の場合、ウエットタイプの透析器内は充填液で満たされており、血液回路内のプライミング液の浸透圧が容易に調整できるとの理由から、透析液側ラインのプライミングを先に行なう方が望ましい。それで、ウエットタイプ透析器の場合の準備操作の行程フローは、図４に示すように透析液側ラインのプライミングが先に実施される。そして、初期の全クランプ状態から表２のＮｏ．２に示したように所定のクランプが開放され、透析液ポンプが作動することによって透析液側ラインの洗浄・充填が行われる。透析液の流れる流速や時間は実施例１と同様である。透析液側プライミングが終了すると、準備装置は透析液側プライミング終了行程に移行し、全クランプ状態となる。さらにドライタイプと相違する点として、ウエットタイプの透析器の中空糸内は充填液で満たされているため、空気の入っている血液回路をそのまま透析器に接続して血液ポンプを回すと、空気が中空糸内に入ってしまう。一旦、中空糸内腔に空気が入ると除去しにくく、その空気は透析器内での液のスムースな流れを邪魔し、透析効率を減少させてしまう。従って、ウエットタイプの透析器と上流側の動脈側血液回路を接続する場合、空気が透析器に入らないように予めその回路内をプライミング液で充填するのが望ましく、そのため、ウエットタイプの透析器の場合は血液側ライン全体のプライミングを行なう前に、動脈側血液回路を生食液で充たす行程を設けるようにするのが好ましい。
【００２９】
本実施例では表２，Ｎｏ．４に示すように、動脈側血液回路を生食液でプライミングする行程をオプションとして選択できるように装備した。この動脈側血液回路プライミングの行程では、第５クランプ１３，第１クランプ８，第３バルブ４３が開放した状態で血液ポンプが作動するので、生食液は動脈側血液回路を充填しながら排液路１０から空気と共に排出される。そして、３方コネクター１１近傍に取り付けられた気泡センサー６０によって、生食液が３方コネクター１１まで達したことを感知したら、第３バルブ４３は閉止され、代わりに第２クランプ１９，第４クランプ２２が開放され、次の血液側プライミングの行程に移行する。この血液側プライミングの行程は実施例１と同じである。予め設定された液量や時間液が流れると、血液側プライミング終了となり、全クランプ状態となる（表２，Ｎｏ．６）。
【００３０】
次に透析器のリーク試験を行うのであるが、ウエットタイプの透析器の場合には透析器の内腔に充填液が充たされているので、リークテストを行う前にこの充填液を透析液側ラインから除去する必要がある。そこで、リークテストの前にその準備行程として、透析液側ラインを空にする行程（リークテスト準備１）とその状態で全クランプ状態にする行程（リークテスト準備２）が設けられている。リークテスト準備１の行程では、表２，Ｎｏ．７に示す所定のクランプ及びバルブを開放し、透析液ポンプを作動して透析液側ラインから液を除去する。液が透析液側ラインから排出されたら、次のリークテスト準備２の行程に移って、全クランプ状態になる。その後のリークテスト→リークテスト終了の行程は実施例１と同じである。また、透析器にリークが検出された場合の回路内排液→透析器交換準備完了の行程も実施例１と同じである。透析器にリークが検出できなかった場合には、透析液側再充填の行程（表２，Ｎｏ．１１−１）となり、空になった透析液側ラインに透析液が再プライミングされる。そして、動脈側先端部プライミング→透析準備完了の行程が実施される。これらの行程も実施例１と同様なので、ここでは省略する。
【００３１】
実施例３（異なる構成を有するもの）
図５に実施例１，２とは異なる構成を有する自動準備装置の概略図を示す。この装置では動脈側血液回路の３方コネクター１１，排液路１０，第３バルブ４３が無く、ウエットタイプの透析器において、動脈側血液回路内の空気が（充填液で充填された）透析器の中空糸内に入ってしまう。このことは、血液側ラインのプライミング実施において不利であるが、プライミング液を余分に使用することで補うことができる。除水ポンプ３６や補助排出管３５の位置も図２の位置に限定する理由はなく、また静脈チャンバー２０から分岐した導管に圧力計を装着するのが一般的なので、この圧力計を差圧検知用として兼用しても良い。
【００３２】
【発明の効果】
本発明によれば、血液透析における各構成要素を自動準備装置の所定の部位にセット（接続）するだけで、後は自動的に透析前の準備が行われるため、手作業で行った際に起こる操作ミスや液漏れ、透析器リーク試験等の未実施等が防止でき、操作が確実に行われる。また、複雑で面倒な作業や熟練したテクニックが不要となって、操作者の負担が軽減され、準備に要する時間も短縮できる。さらに操作者が各構成要素に直接触れる機会が減少するので、患者が汚染したり、逆に操作者自身が患者血液に汚染する恐れが少なくなる。
【図面の簡単な説明】
【図１】本発明の自動準備装置の１例を概念的に示すブロック図である。
【図２】本発明の１つの実施例である自動準備装置の実働部及びそれに関連する血液透析装置の構成を示す概略図である。
【図３】本発明の自動準備装置をドライタイプの透析器に使用した場合の行程フロー図である。
【図４】本発明の自動準備装置をウエットタイプの透析器に使用した場合の行程フロー図である。
【図５】本発明の他の実施例である自動準備装置の構成を示す概略図である。
【符号の説明】
１．透析器
２．動脈側患者接続部
３．第３クランプ
４．ヘパリン注入回路分岐部
５．プライミング液供給回路分岐部
６．血液ポンプ装着部
７．動脈チャンバー
８．第１クランプ
９．第１接続部
１０．排液路
１１．３方活栓
１３．第５クランプ
１４．生理食塩液入り容器（生食液容器）
１５．血液ポンプ
１６．第６クランプ
１７．シリンジポンプ
１８．第２接続部
１９．第２クランプ
２０．静脈チャンバー
２１．圧力計
２２．第４クランプ
２３．静脈側患者接続部
２４．透析液供給側接続部
２５．第８クランプ
２６．通気部分岐部
２７．第３接続部
２８．第４接続部
２９．補助排出部分岐部
３０．透析液ポンプ装着部
３１．第９クランプ
３２．排液側接続部
３３．通気管
３４．第１バルブ
３５．補助排出管
３６．除水ポンプ
３７．エアーフィルター
４０．ドレン管分岐部
４１．第２バルブ
４２．ドレン受け
４３．第３バルブ
４４．エアーフィルター
６０．気泡センサー
６１．気泡検出装置
７０．透析液ポンプ[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hemodialysis apparatus that removes waste and water from blood. More specifically, the present invention relates to an automatic preparation device that automatically performs a preparation operation to be performed before hemodialysis.
[0002]
[Prior art]
Hemodialysis is a dialyzer, a blood circuit connected to the dialyzer, a dialysate circuit connected to the dialyzer, a feed pump such as a blood pump or dialysate pump provided in the circuit for feeding, This is performed by each component such as a hemodialysis monitoring device (hereinafter referred to as a console) that controls liquid feeding. And, for the purpose of medical personnel, (1) remove foreign substances, fillers, bubbles, etc. in the dialyzer and (2) make the dialyzer easier to adapt to blood before hemodialysis of the patient. It is desirable to wash the dialyzer, blood circuit, dialysate circuit, etc. As described above, the operation of washing and filling with an appropriate washing solution (filling solution) or the like before using the blood processing apparatus is hereinafter referred to as a priming operation. For example, on the dialysate side, the dialysate side line (referred to as a circuit for circulating dialysate including a dialyzer) is washed and filled with dialysate, and in the blood circuit, the blood side line (including dialyzer) is used. In general, a circuit in which blood circulates) is washed and filled with a priming solution such as a saline solution. Furthermore, it is desirable to perform a leak test on the dialyzer after the blood side line has been cleaned and filled. In the leak test, the blood circuit connected to the dialyzer and the predetermined part of the dialysate circuit are closed and opened in order, and if bubbles are detected continuously in the upper header of the dialyzer, or (blood) circuit When the internal pressure is monitored and a sudden pressure drop occurs, it is determined that the dialyzer is leaking. As described above, the leak test is not only troublesome but also has to be performed by a skilled operator. If a leak is detected in the dialyzer, the priming operation must be performed again after the dialyzer is replaced with a new one. If it is confirmed that there is no leak in the dialyzer, fill the dialysate circuit with dialysate and wait for patient hemodialysis.
[0003]
In the above preparatory operation before hemodialysis, particularly the blood side line is in direct contact with blood, so it is necessary to thoroughly wash it and to familiarize the hollow fiber membrane lumen of the dialyzer well with the liquid. Therefore, various devices have been conventionally devised for automatically priming the blood side line. However, an apparatus for automatically priming the entire hemodialysis apparatus including the dialysate side line is not yet known. One reason is that the priming order of the dialysate side line and the blood side line differs depending on the type of dialyzer. For example, generally, in the case of a wet type dialyzer, the dialysate side line is washed first, and then the blood side line is washed, whereas in the case of a dry type dialyzer, the opposite is true. is there. Therefore, the priming operation including the dialysate side line is difficult to automate. Second, the dialyzer leak test process is complicated and difficult to automate. In addition, since it is not essential to conduct leak tests at facilities, and the method of leak tests varies from facility to facility, the advantage of manufacturing an automatic washing device for hemodialysis machines including washing and filling of dialysate side lines There were few. However, in recent years, in order to avoid danger, many facilities have required a leak test as a preparatory operation before hemodialysis. In addition, in order to reduce personnel and rationalize facilities, there is a demand for an apparatus that systematizes the preparatory operations before dialysis as described above and automatically performs these operations.
[0004]
[Problems to be solved by the invention]
As described above, many of the preparatory operations before hemodialysis have to be performed manually in order, which is troublesome and time consuming. In addition, there are many cases where human error is caused by an operation error, and the operation of washing and filling the blood side line and dialysate side line with liquid requires skilled techniques of the operator, and has been trained. There were circumstances that could only be entrusted to a person. Accordingly, an object of the present invention is to provide an automatic preparation device that can perform these preparation operations as simply as possible, without a doubt, and by anyone other than a specially trained person. It is another object of the present invention to provide an automatic preparation device that automatically performs a leak test of a dialyzer (hereinafter also referred to as a leak test) before hemodialysis.
[0005]
The present invention performs preparatory operations in an automatic preparation device for hemodialysis that primes (washes and fills) the dialysate side line and the blood side line with an appropriate solution, and performs a leak test on the dialyzer after priming the blood side line. Operation unit having setting means for inputting primary information including the type of dialyzer to perform, from the priming of the blood side line before hemodialysis, the priming of the dialysate side line and the leak test according to the inputted primary information And a control unit that automatically selects a predetermined preparatory operation in which the order of the strokes is different and instructs the control unit to perform the operation, and a control unit that has a blood extracorporeal circulation device and a dialysate supply device. And a detection unit that detects secondary information from the working unit during operation, a display unit that displays information, and a small number of the dialysate side lines provided in the dialysate side line. A venting means having an opening / closing means capable of communicating with a part of the outside air, and an opening / closing means mounted in the vicinity of two blood lines (arterial blood line and venous blood line) connected to both ends of the dialyzer. And the opening / closing means attached to the arterial blood line is closed and the opening / closing means attached to the venous side line is opened to generate a drop pressure in the dialyzer and the venous blood line communicating therewith. In addition, when the dialysate side line including the dialyzer is communicated to the outside air by the venting means, the automatic preparation device for hemodialysis determines whether or not there is a leak in the dialyzer based on the secondary information from the detection unit. Solved the problem.
[0006]
In the automatic preparation device of the present invention, preset pre-dialysis pre-dialysis operations are stored, and the control unit prepares to adapt to the dialyzer according to primary information such as the type of dialyzer input to the operation unit. Select an operation. Then, the operation unit is instructed and controlled to perform the operation. The actual working part carries out washing of the dialysate side line and the blood side line and filling of an appropriate liquid according to the set order. When performing priming, secondary information such as the flow rate and outflow amount of the cleaning (priming) liquid in each circuit is displayed on the display unit. In addition, after the blood side line is washed, a leak test of the dialyzer is performed. Both ends of one blood circuit are held with a drop, and only one end of the closed blood circuit (connected to the dialyzer) at both ends is opened, so that a drop pressure is generated in the dialyzer. The dialysate side line separated from the blood side line is communicated with the outside air to detect a leak existing in the hollow fiber membrane. Whether the dialyzer is leaking is determined by detecting secondary information, that is, detecting an open bubble in the blood circuit (with a drop) near the dialyzer header or near the dialyzer. This is done by measuring the pressure (drop pressure) at a predetermined site. When a leak of the dialyzer is detected, the operator replaces the dialyzer and starts the operation again. If no leak is detected, the automatic preparation device completes the preparation operation set for the time of no leak detection.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
According to the present invention, an operation unit having setting means for inputting primary information for performing a preparatory operation, and a predetermined preparatory operation consisting of each step before hemodialysis is selected and performed based on the input primary information. A control unit that commands and controls the working unit, a working unit having a blood extracorporeal circulation device and a dialysate supply device, a detection unit that detects secondary information from the working unit during operation, and a display unit that displays information Is an automatic preparation device for hemodialysis in which a dialysate side line and a blood side line are washed and filled with an appropriate liquid, and a leak test of the dialyzer is performed after the blood side line is washed. . The present invention also includes the following embodiments.
[0008]
The hemodialysis automatic preparation device according to the first aspect, wherein an optional process set in advance is selected in the operation unit, and the process is added to a preparatory operation selected based on primary information.
The automatic preparation apparatus for hemodialysis, wherein the optional step includes a step of priming only the arterial blood circuit first.
The automatic preparation device for hemodialysis described above, which automatically selects a preparatory operation in which the order of each step is different based on the primary information.
The automatic preparation apparatus for hemodialysis, wherein the blood side line is primed first when the dialyzer is a dry type, and the dialysate side line is primed first when the dialyzer is a wet type.
The automatic preparation apparatus for hemodialysis as described above, wherein the primary information includes a dialyzer type and / or a start time of a preparation operation.
The automatic preparation apparatus for hemodialysis, wherein the secondary information includes pressure in a blood circuit communicating with a dialyzer.
The automatic preparation device for hemodialysis described above, wherein the secondary information includes the amount of bubbles in the upper blood circuit connected to the upper part of the dialyzer or a dialyzer, or the state of generation of bubbles.
[0009]
During the execution of the process, the automatic preparation for hemodialysis is performed in which the detection value of the secondary information is compared with a preset reference value, and the process to be performed earlier is automatically selected based on the result. apparatus.
The automatic preparation device for hemodialysis described above, which discharges fluid from the blood side circuit and the dialysate side circuit when a leak is detected in the dialyzer. .
Provided in the dialysate side line, respectively, a ventilation means for communicating at least a part of the line with outside air, and two blood circuits connected to both ends of the dialyzer of the blood side line, respectively, at positions near the dialyzer. The automatic preparation device for hemodialysis as described above, comprising an opening / closing means, and a drop is provided between one end portion and another end portion of at least one of the blood circuits.
The blood circuit provided with the head is located on the downstream side of the dialyzer, and the opening / closing means attached to the blood circuit is opened to generate a head pressure in the dialyzer and the blood circuit communicating therewith. The hemodialysis automatic preparatory device according to the above, wherein when a dialysate side line including a dialyzer is communicated with outside air by means, the presence or absence of a leak in the dialyzer is determined based on secondary information from the detection unit.
The automatic preparation device for hemodialysis as described above, wherein the blood circuit that generates the drop pressure is a venous blood circuit.
[0010]
The automatic preparation device for hemodialysis described above, wherein a drainage conduit branches near the dialyzer connection portion of the arterial blood circuit, and the drainage conduit is provided with an opening / closing device.
The automatic preparation apparatus for hemodialysis, wherein the drainage conduit is provided in the vicinity of the upstream side of the connection between the dialyzer and the blood circuit.
The automatic preparation device for hemodialysis as described above, wherein the aeration means comprises a ventilation conduit mounted in the vicinity of a dialyzer in a dialysate side circuit and an opening / closing device mounted thereon.
The automatic preparation device for hemodialysis, wherein a contamination prevention filter is mounted on at least one of the ventilation conduit and the drainage conduit.
The automatic preparation apparatus for hemodialysis, wherein the opening / closing means provided in the blood side line and / or the dialysate side line is an electromagnetic valve.
The automatic preparation device for hemodialysis, wherein the opening / closing device provided in the blood side line and / or the dialysate side line is a solenoid valve.
The automatic preparation device for hemodialysis as described above, wherein a pressure detection means is provided in a blood circuit downstream of the dialyzer which is communicated with the dialyzer and provided with a drop.
The automatic preparation device for hemodialysis as described above, wherein bubble detection means is provided in the vicinity of the upper part of the header of the dialyzer or in the upper blood circuit connected to the dialyzer.
The automatic preparation device for hemodialysis according to the above, wherein a drop provided between one end and another end of the blood circuit is 60 to 100 cm, or a drop pressure generated by the drop is 50 to 100 mmHg.
The automatic preparation device for hemodialysis according to any one of claims 1 to 22, wherein when all the preparation operations are completed, a completion indication is displayed.
[0011]
As the automatic preparation apparatus of the present invention, it is convenient that most of the components are provided on the console except that a part of the working part and the detection part are provided outside the console. The setting unit is provided on the front of the console, and can be input by an operation button on the front. The display unit is a monitor attached to the front of the console. The control unit has a computer built in the console as a main body, selects an appropriate preparatory operation based on the inputted primary information, and issues a command to the actual unit to perform the operation. Further, based on the secondary information fed back from the detection unit, the preparatory operation is controlled by instructing the actual unit to perform an appropriate process or operation. The actual working unit mainly includes an extracorporeal blood circulation device and a dialysate supply device, and each device includes each circuit, a pump, a clamp, a valve, a three-way connector, and the like attached thereto. The extracorporeal blood circulation device has a blood circuit (arterial side, vein side), a priming solution supply circuit, a heparin injection circuit, etc., and the dialysate supply device has a dialysate circuit (inlet side, outlet side), dialysate supply source, discharge Part. The detection unit is mainly used for a pressure gauge provided in the blood circuit or a leak test, a bubble detection device attached to the upper blood circuit connected to the dialyzer or the upper blood circuit connected to the dialyzer, and the flow rate of each pump. And means for measuring the amount of outflow.
[0012]
In the following, each component of the present invention and related ones will be briefly described. 1. Operation part
In the operation unit, primary information is input by setting means such as an operation panel and buttons arranged on the front of the console. The primary information is information relating to conditions to be input for performing a preparatory operation or operations to be set, such as the manufacturer and model of the dialyzer, the time at which the preparatory operation is started, and the like. In addition, there is an optional process that is not incorporated in a series of preset operations.
2. Control unit
The main body of the control unit is a computer built in the console, and an appropriate preparation operation is determined based on the input primary information. That is, according to the type of the dialyzer, a suitable one is selected from preset preparation operations, and an optional process or the like is added thereto to determine the preparation operation. In this way, the determined operation is instructed and controlled by the working unit. Further, the next operation to be taken can be determined based on the secondary information fed back from the detection unit. That is, the control unit sets and stores a reference value corresponding to the secondary information for the selected process or operation, and selects the next process by comparing the detected value, which is the secondary information, with the reference value. For example, the normal (no leak) dialyzer pressure value indicated when a predetermined drop pressure is applied, the amount of air bubbles in the vicinity of the header and the predetermined part of the blood circuit, and the state of occurrence are input as reference values in advance. When the reference value is exceeded, an alarm is issued, and the control unit selects a process for replacing the dialyzer with another one. The operator replaces the dialyzer, resets the setting of the operation unit, and starts again from the input of primary information. If no leak is detected in the dialyzer, the preparatory operation when the dialyzer is not leaking is completed.
[0013]
3. Production Department
The actual working part mainly comprises an extracorporeal blood circulation device and a dialysate supply device. The extracorporeal blood circulation device consists of a patient side connection, an arterial / venous side blood circuit, a dialyzer, a priming supply circuit, a heparin injection circuit, a blood pump provided in the blood circuit, each clamp, a three-way connector, etc. The apparatus includes an inlet / outlet side dialysate circuit, a dialysate supply source and discharge unit connected thereto, a dialysate pump provided in the dialysate circuit, clamps, valves, and the like. In the above description, for the sake of convenience, a clamp (opening / closing means) refers to one that opens and closes each circuit to control the communication of the circuit itself, and a valve (opening / closing device) refers to an air or liquid that opens and closes a conduit. It is the one that makes inflow or discharge. And according to the command from the control unit, the clamps attached to each circuit of the working unit are opened and closed, and the pumps attached to each circuit are operated to wash the blood side line and the dialysate side line. Can be filled with liquid. By opening and closing a predetermined part of the blood circuit connected to the dialyzer, a drop pressure is generated in the dialyzer, and the dialysate circuit separated from the blood circuit by a hollow fiber membrane is communicated with the outside air, thereby making the hollow Leaks existing in the yarn film can be detected. That is, if the hollow fiber membrane of the dialyzer leaks, air flows from the dialysate circuit communicating with the outside air into the hollow fiber lumen of the dialyzer where there is a drop pressure, and as a result, the dialyzer header Air bubbles are detected in the upper or upper blood circuit connected to the dialyzer. Alternatively, when the dialyzer is leaking, the drop pressure (or pressure difference) measured in the blood circuit on the downstream side of the dialyzer is smaller than normal, so it can be determined by measuring the differential pressure. . Here, if the drop provided in the dialyzer is small, it is difficult to judge a leak test. Therefore, it is important to secure a predetermined drop between the dialyzer upper part connected to the blood circuit and the blood circuit patient connection part. is there. A preferable drop is 60 to 100 cm, and a drop pressure is 50 to 100 mmHg.
[0014]
In the above description, each clamp, three-way connector, valve, and the like may be operated by an electrical signal from the control unit as an electromagnetic valve incorporated in the automatic preparation device. In addition, by providing an air filter for removing bacteria at the outside air inlet of the ventilation means attached to the dialysate side line, foreign substances may enter the circuit even when the dialysate side line communicates with the outside air. Less.
4). Detector
In order to detect the low drop pressure indicated by the leaked dialyzer, the detector is a pressure gauge provided on the downstream side of the venous chamber of the venous blood circuit or in a conduit branched from the upper part of the venous chamber, and a leak test In order to detect air bubbles rising from the leaked hollow fiber membrane of the dialyzer, it is provided near the top of the dialyzer header or at an appropriate position in the blood circuit connected to the dialyzer (near the dialyzer and above). And a flow meter for measuring a flow rate and an outflow amount in a blood pump and a circulation pump. The detected values of the secondary information are fed back to the control unit.
5). Display section
The display unit is a monitor arranged at the front of the console, and not only the setting status including the input primary information and the added process etc., but also the washing liquid flow rate, the washing liquid amount of the blood side line and the dialysate side line, and the dialyzer Secondary information such as the pressure of the blood circuit and the amount of bubbles in the dialyzer can be displayed. Furthermore, it is possible to display the name of the active stroke and the end of the stroke.
[0015]
【Example】
Hereinafter, the present invention will be described more specifically with reference to the drawings. FIG. 1 is a block diagram conceptually showing an example of the automatic preparation apparatus of the present invention. The automatic preparation device has an operation unit for inputting primary information for the preparation operation, an operation unit for actually performing the preparation operation, and a control for instructing and controlling the operation unit to determine the preparation operation based on the primary information. And a detection unit for detecting secondary information obtained from the working unit and feeding back to the control unit, and a display unit for displaying information such as the primary information and the secondary information. Next, for each of the following two types, which are roughly classified as types of hemodialysis, that is, dry type and wet type, the operation and configuration of each process are based on the configuration of the working part of the automatic preparation device of the present invention. Describe the operational status of requirements.
[0016]
Example 1 (Dry type)
In order to explain the configuration of the actual working part, FIG. 2 shows an outline of relevant parts of the automatic preparation apparatus and the entire hemodialysis apparatus of the present invention. The blood circuit is divided into an arterial blood circuit upstream of the dialyzer 1 and a venous blood circuit downstream thereof. The arterial blood circuit includes an arterial patient connection part 2, a third clamp 3, a heparin infusion circuit branch part 4, a priming fluid supply circuit branch part 5, a blood pump mounting part 6, an arterial chamber 7, and a first clamp in order from the upstream side. 8 and a first connection part (dialyzer artery side) 9. A drainage path 10 is connected to an arterial blood circuit via a three-way connector 11 immediately upstream of the first connection portion 9. The fluid flowing through the arterial blood circuit is structured to flow into the drainage passage 10 and the dialyzer 1 by opening and closing the third valve 43 attached to the drainage passage 10. An air filter 44 is mounted between the three-way connector 11 and the third valve 43 so that the blood circuit is not contaminated from the outside. A drainage container (not shown) for receiving the priming liquid is preferably installed on the downstream side of the drainage path 10. A heparin injection circuit branches from the heparin injection branch 4 and a priming liquid supply circuit branches from the priming liquid supply branch 5. A fifth clamp 13 is attached to the priming solution supply circuit, and a physiological saline-containing container (hereinafter referred to as a saline solution container) 14 as a priming solution supply source is connected to the upstream side of the fifth clamp 13. A blood pump 15 is attached to the blood pump attachment portion 6. A sixth clamp 16 and a syringe pump 17 are attached to the heparin injection circuit.
[0017]
The venous blood circuit comprises a second connection part (dialyzer vein side) 18, a second clamp 19, a venous chamber 20, a pressure gauge 21, a fourth clamp 22, and a venous side patient connection part 23 in the same order of flow. The blood circuit between the second clamp 19 and the venous chamber 20 is attached with a bubble detection device 61 for measuring the amount and generation state of bubbles coming out of the dialyzer. Similarly, the dialysate circuit is divided into an upstream-side inlet-side dialysate circuit and a downstream-side outlet-side dialysate circuit with reference to the dialyzer 1. The inlet side dialysate circuit includes a dialysate supply side connection 24, a drain pipe branch 40 immediately downstream thereof, an eighth clamp 25 attached to the downstream dialysate circuit of the branch, a vent branch 26, a third Consists of a connecting part (dialyzer inlet side) 27, and an outlet side dialysate circuit is a fourth connecting part (dialyzer outlet side) 28, an auxiliary discharge part branching part 29, a ninth clamp 31 mounted downstream thereof, and a drain side. It consists of a connection part 32. A dialysate pump 70 is connected to the dialysate supply side connection portion 24 and the drainage side connection portion 32. The drain pipe branches from the drain pipe branching portion 40, and a drain receiver 42 for receiving the liquid is provided on the downstream side thereof. Moreover, the 2nd valve | bulb 41 for opening and closing it is attached to the drain pipe. The ventilation section includes a ventilation pipe 33, a first valve 34 that opens and closes the ventilation pipe 33, and an air filter 37 that is mounted between the branch section 26 and the first valve 34 so that the dialysate side line is not contaminated by outside air. The auxiliary drainage unit is composed of an auxiliary drainage pipe 35 and a water removal pump 36 that is mounted to remove a predetermined amount of water from the blood circuit via a dialysis membrane. In the configuration of the actual working unit, the components other than the blood circuit main body and the dialysate circuit main body are mostly incorporated in the automatic preparation device, so that each circuit may be attached to a predetermined part of the automatic preparation device.
[0018]
The setup of the above apparatus will be described. First, as shown in FIG. 1, a connection is made so that a predetermined part of the blood circuit can communicate with other components. The arterial patient connection part is held at a predetermined part of the automatic preparation device, and the venous patient connection part is connected to a drainage means (not shown) such as a drain tube or a drainage hole. As already mentioned, many components are built into consoles and other hemodialyzers as automatic preparation devices, so healthcare professionals place each part of the blood circuit in place on the automatic preparation device Just good. The dialyzer 1 is attached to the holder of the automatic preparation device so that the connection on the venous side of the dialyzer (corresponding to the second connection 18 in FIG. 2) faces upward, and then the two blood ports of the dialyzer The ends of the arterial blood circuit and the venous blood circuit are connected to (the first connection portion 9 and the second connection portion 18 in FIG. 2). At this time, the arterial chamber 7 is held in a direction opposite to the direction held during hemodialysis in order to remove bubbles, and the venous chamber 20 is held in the same direction. The dialysate port cap attached to the dialyzer 1 is removed, and the third dial so that the direction of dialysate flow is opposite to the direction of blood flow (that is, dialysate flows as indicated by the arrow in the figure). The end of the dialysate circuit is connected to the connection part 27 and the fourth connection part 28.
[0019]
When the blood circuit or dialysate circuit is connected to a predetermined part of the dialyzer or automatic connection device, primary information (necessary when the control unit determines the preparation operation) is input to the operation unit. For example, the type (manufacturer, model) of the dialyzer 1 and the time when the preparation operation is started. If it is desired to start priming after one hour, that time may be input as the start time. In addition, when it is desired to add a process that is not included in the standardized preparation operation, it is very convenient to add the process as an option.
[0020]
Next, in the control unit, the information input from the operation unit is compared with the information stored in advance in the storage device in the control unit. For example, the storage device of the automatic preparation device stores in advance a type of dialyzer and a series of preparation operations adapted thereto. If the dialyzer is a general dry type (one that is not filled with liquid in the dialyzer), the process of priming the blood side line first, that is, the blood side line is entered. The operation for preparing in the order of priming → leak test → priming on the dialysate side line is selected. On the other hand, in the case of a general wet type dialyzer (with dialyser filled with liquid), the process in which the dialysate side line is washed first, that is, the dialysate side line is washed → the blood side line is primed. → The process to prepare in the order of the leak test is selected. Then, the selected series of processes is displayed on the monitor of the automatic preparation device. The operator looks at it and confirms that there is no mistake in the process, and then presses the start button. As a result, a command (electrical signal) is sent from the control unit so as to operate to each part of the related working unit. In the actual working section, each stroke is performed in the order as shown in FIG. 3 and Table 1, and each clamp and valve are opened and closed according to the operation of the stroke, and each pump and the like is activated / deactivated (the clamp and valve in the table). In the column, ○ indicates open, × indicates closed, ○ in the pump column, ○ indicates activation, × indicates pause, and OK is the case where no dialyzer leak is detected, NG is when a leak is detected).
[0021]
[Table 1]

[0022]
Hereinafter, with reference to FIG. 3 and Table 1, the operation of each stroke in the working unit, the operating state of each clamp and valve, the flow of liquid in each circuit, and the like will be briefly described. First, all clamps and valves are closed at the initial stage (before the preparatory operation is performed), and all pumps are stopped (hereinafter, this state is also referred to as a full clamp state). In the next blood side priming process, the fifth clamp 13, the first clamp 8, the second clamp 19, and the fourth clamp 22 are opened, and the blood pump 15 starts to operate. Then, the saline solution begins to flow from the saline solution container 14 to the blood circuit at a predetermined flow rate. In this example, 1000 ml or more of heparinized saline is flowed at a flow rate of 100 ml / min. The flow velocity and the outflow amount are detected by the stroke of the blood pump 15, and are displayed on the monitor as secondary information as necessary. The saline solution passes through the arterial chamber 7, the dialyzer 1, and the venous chamber 20 and is discharged from the venous side patient connection 23. When the arterial chamber 7 is filled with a saline solution, the holder holding the chamber 7 rotates, and the arterial chamber 7 is held in a direction opposite to the top and bottom of the initially set direction. Then, when the amount of the saline solution flowing into the blood side line reaches a set amount, secondary information is fed back from the detection unit to the control unit, whereby the control unit shifts to the next step to the working unit. To command. In the process of ending blood side priming, the whole clamp state is reached again.
[0023]
Next, a leak test process is performed to check for leaks in the dialyzer. The leak test is performed as follows. In the venous blood circuit, a drop is provided so that the second connecting portion 18 is higher than the venous patient connecting portion 23. When the second clamp 19 and the fourth clamp 22 of the venous blood circuit are opened while the first clamp 8 of the arterial blood circuit is closed, a drop pressure is generated in the blood circuit and the dialyzer 1 connected thereto. In this state, the first valve 34 of the vent pipe 33 is opened, the inside of the dialyzer 1 is communicated with the outside air, and a part of the dialysate side line is opened. Here, if a leak occurs in the dialyzer (dialysis membrane), air should flow from the dialysate side communicating with the outside air to the blood side. Therefore, the presence or absence of bubbles appearing in the blood circuit in the vicinity of the upper part of the header of the dialyzer or immediately downstream of the second clamp 19 is confirmed, or the pressure gauge 21 is provided in the venous blood circuit and the negative pressure at that location is confirmed. By measuring the degree, the presence or absence of a leak can be determined. When the leak test is completed, the process proceeds to the end of the leak test, and the entire clamp state is reached. The value detected by the detection unit in the leak test is fed back to the control unit as secondary information. In the control unit, the pressure value and the amount of bubbles (bubble state) when performing a leak test using a normal dialyzer (non-leakage) are set for each selected stroke and dialyzer type. The presence / absence of a leak is determined by comparing the secondary information from the detection unit with the set value.
[0024]
Here, if the control unit determines that there is a leak in the dialyzer, the process of draining the circuit is selected as shown in the lower left part of FIG. That is, Table 1, No. As shown in 6-2, the predetermined clamp and valve are opened, and the blood pump and dialysate pump are operated, so that the operator can easily replace the dialyzer. Is discharged. Here, the drain pipe of the dialysate circuit and the second valve 41 attached thereto are conduits for drainage provided because the dialysate pump 70 is a dual pump, and by opening the second valve 41, Thus, the liquid in the dialysate circuit can be discharged from the drain side connection part 32. When the liquid is discharged from each circuit, the preparation device is fully clamped, and an alarm is issued to prompt the operator to replace the dialyzer (preparation for dialyzer replacement is complete). A display such as dialyzer leak or dialyzer replacement may be displayed on the monitor in parallel with or instead of the alarm. Therefore, for the first time, the operator manually disconnects the blood circuit from the dialyzer, and replaces the dialyzer in which the leak is detected with a new dialyzer, and redoes the preparatory operation.
[0025]
If no leak is detected in the dialyzer, the control unit instructs the working unit to shift to the dialysate side priming, which is the next operation. In the next step, not only priming of the dialysate side line but also Table 1, No. As shown in the column 6-1 of the clamp or pump, the blood side line may be released by opening the blood side line clamp and operating the blood pump. In this example, as the priming of the dialysate side line, the dialysate is allowed to flow for 5 min at a flow rate of 500 ml / min. As with the blood side line, the flow rate and flow rate are measured by the stroke of the dialysate pump 70 in the dialysate side line, and the dialysate pump is used when the amount of the outflowed liquid reaches the set amount or the set time has passed. 70 automatically stops and shifts to the next stroke. Next, an arterial tip priming process for priming the blood circuit between the arterial patient connecting portion 2 and the priming fluid supply circuit branching portion 5 will be described. The third clamp 3, the fifth clamp 13, and the sixth clamp 16 are opened, and a saline solution is fed to the tip of the blood circuit on the side of the artery by a drop, and the syringe pump 17 is actuated to easily generate a thrombus. Heparin is injected into the side patient connection 2. After performing this process for about 10 seconds, the process proceeds to a process for completion of dialysis preparation and the entire clamp state is reached. During this process, the monitor will also indicate that it is ready.
[0026]
Example 2 (wet type)
Even when a wet type hemodialyzer is used, the preparatory operation is basically the same as that of the dry type. The setup is set so that the blood circuit and the dialysate circuit are connected to predetermined parts of other components as in the first embodiment. When the setup of the constituent elements is completed, the primary information for the preparation operation is input as in the first embodiment. Then, the control unit selects a preparatory operation including a priming operation suitable for the wet type dialyzer, and instructs the actual working unit. If there is no leak, the preparatory operation is as follows: washing the dialysate side line → priming only the arterial blood circuit (optional) → priming the blood side line → leak test → refilling the dialysis side line Is done. In the following, differences from the first embodiment as the operation of the working part will be described with reference to FIG. 4 and Table 2.
[0027]
[Table 2]

[0028]
In the case of a wet type dialyzer, the priming of the dialysate side line is first performed because the wet type dialyzer is filled with a filling liquid and the osmotic pressure of the priming liquid in the blood circuit can be easily adjusted. It is better to do this. Therefore, in the process flow of the preparation operation in the case of the wet type dialyzer, the priming of the dialysate side line is performed first as shown in FIG. And, from the initial all clamp state, No. 2 in Table 2. As shown in FIG. 2, the predetermined clamp is opened, and the dialysate pump is operated to clean and fill the dialysate side line. The flow rate and time during which the dialysate flows are the same as in Example 1. When the dialysate side priming is completed, the preparation device shifts to the dialysate side priming end process, and is fully clamped. Furthermore, the difference from the dry type is that the hollow fiber of the wet type dialyzer is filled with filling liquid, so if the blood circuit containing air is connected to the dialyzer as it is and the blood pump is turned, Enters the hollow fiber. Once air enters the hollow fiber lumen, it is difficult to remove, and the air obstructs the smooth flow of the liquid in the dialyzer and reduces dialysis efficiency. Therefore, when connecting the wet type dialyzer and the upstream arterial blood circuit, it is desirable to preliminarily fill the circuit with priming liquid so that air does not enter the dialyzer. In this case, it is preferable to provide a process of filling the arterial blood circuit with saline before priming the entire blood line.
[0029]
In this example, Table 2, No. 2 is used. As shown in FIG. 4, it was equipped so that the process of priming the arterial blood circuit with saline can be selected as an option. In this arterial blood circuit priming process, the blood pump operates with the fifth clamp 13, the first clamp 8 and the third valve 43 opened, so that the saline is drained while filling the arterial blood circuit. 10 is discharged together with air. When the bubble sensor 60 attached in the vicinity of the three-way connector 11 senses that the saline solution has reached the three-way connector 11, the third valve 43 is closed, and the second clamp 19 and the fourth clamp 22 are used instead. Is released, and the process proceeds to the next blood side priming process. The blood side priming process is the same as that in the first embodiment. When a preset liquid amount or time liquid flows, blood-side priming is completed and all clamps are established (Table 2, No. 6).
[0030]
Next, the leak test of the dialyzer is performed. In the case of a wet type dialyzer, since the filling liquid is filled in the lumen of the dialyzer, this filling liquid is put into the dialysate before performing the leak test. Must be removed from the side line. Therefore, as a preparatory process before the leak test, there are provided a process for emptying the dialysate side line (leak test preparation 1) and a process for making the entire clamp state in that state (leak test preparation 2). In the process of Leak Test Preparation 1, Table 2, No. The predetermined clamp and valve shown in FIG. 7 are opened, and the dialysate pump is operated to remove the fluid from the dialysate side line. When the liquid is discharged from the dialysate side line, the process proceeds to the next leak test preparation 2 and is fully clamped. The subsequent steps from the leak test to the end of the leak test are the same as those in the first embodiment. Further, the process of draining in the circuit → preparation for dialyzer replacement when a leak is detected in the dialyzer is the same as in the first embodiment. If no leak is detected in the dialyzer, the dialysate side refilling process (Table 2, No. 11-1) is entered, and the dialysate is re-primed to the empty dialysate side line. Then, a process of arterial tip priming → dialysis preparation completion is performed. Since these steps are the same as those in the first embodiment, they are omitted here.
[0031]
Example 3 (having a different configuration)
FIG. 5 shows a schematic diagram of an automatic preparation device having a configuration different from those of the first and second embodiments. This apparatus does not have the three-way connector 11, the drainage passage 10, and the third valve 43 of the arterial blood circuit, and in the wet type dialyzer, the air in the arterial blood circuit (filled with a filling liquid) is used. Get into the hollow fiber. This is disadvantageous in the priming of the blood side line, but can be compensated by using an extra priming solution. The positions of the water removal pump 36 and the auxiliary drain pipe 35 are not limited to the positions shown in FIG. 2, and a pressure gauge is generally attached to a conduit branched from the venous chamber 20, so that the pressure gauge is used for differential pressure detection. It may also be used as an application.
[0032]
【The invention's effect】
According to the present invention, since each component in hemodialysis is simply set (connected) to a predetermined part of the automatic preparation device, the preparation before dialysis is automatically performed thereafter. Operation mistakes, liquid leaks, dialyzer leak tests, etc. that have not been performed can be prevented, and operations are performed reliably. In addition, complicated and troublesome work and skilled techniques are no longer required, reducing the burden on the operator and shortening the time required for preparation. Furthermore, since the operator's chance of directly touching each component is reduced, there is less possibility that the patient will be contaminated, and conversely, the operator himself will be contaminated with the patient's blood.
[Brief description of the drawings]
FIG. 1 is a block diagram conceptually showing an example of an automatic preparation apparatus of the present invention.
FIG. 2 is a schematic view showing a configuration of an active part of an automatic preparation apparatus and a hemodialysis apparatus related thereto according to one embodiment of the present invention.
FIG. 3 is a process flow diagram when the automatic preparation device of the present invention is used in a dry type dialyzer.
FIG. 4 is a process flow chart when the automatic preparation device of the present invention is used in a wet type dialyzer.
FIG. 5 is a schematic view showing a configuration of an automatic preparation apparatus according to another embodiment of the present invention.
[Explanation of symbols]
1. Dialyzer
2. Arterial patient connection
3. 3rd clamp
4). Heparin injection circuit branch
5). Priming liquid supply circuit branch
6). Blood pump mounting part
7). Arterial chamber
8). 1st clamp
9. First connection
10. Drainage channel
11.3 way stopcock
13. 5th clamp
14 Saline solution container (saline container)
15. Blood pump
16. 6th clamp
17. Syringe pump
18. Second connection
19. Second clamp
20. Venous chamber
21. Pressure gauge
22. 4th clamp
23. Venous patient connection
24. Dialysate supply side connection
25. 8th clamp
26. Vent branch
27. Third connection
28. 4th connection
29. Auxiliary discharge branch
30. Dialysate pump mounting part
31. 9th clamp
32. Drain side connection
33. Vent pipe
34. 1st valve
35. Auxiliary discharge pipe
36. Water removal pump
37. Air filter
40. Drain pipe branch
41. Second valve
42. Drain receiver
43. 3rd valve
44. Air filter
60. Bubble sensor
61. Bubble detection device
70. Dialysate pump

Claims (14)

Dialysis to perform preparatory operations in a hemodialysis automatic preparation device that primes (washes and fills) the dialysate side line and blood side line with an appropriate solution, and performs a leak test of the dialyzer after priming the blood side line An operation unit having a setting means for inputting primary information including the type of the vessel, and comprises the steps of priming the blood side line before dialysis, priming of the dialysate side line and leak test according to the inputted primary information, and A control unit that automatically selects a predetermined preparatory operation with a different process order and instructs and controls the operation unit to perform this operation, an operation unit having an extracorporeal blood circulation device and a dialysate supply device, and an operation execution At least a part of the dialysate side line provided on the dialysate side line, a detection part for detecting secondary information from the actual working part at times, a display part for displaying information Ventilation means having opening / closing means capable of communicating with outside air, and opening / closing means attached in the vicinity of two blood lines (arterial blood line and venous blood line) connected to both ends of the dialyzer And closing the opening / closing means attached to the arterial blood line and opening the opening / closing means attached to the venous side line to generate a drop pressure in the dialyzer and the venous blood line communicating therewith, and An automatic preparation device for hemodialysis that determines the presence or absence of a leak in a dialyzer based on secondary information from a detection unit when a dialysate side line including the dialyzer is communicated with outside air by a ventilation means. 2. The automatic preparation device for hemodialysis according to claim 1, wherein the aeration means comprises an aeration conduit attached to a dialysate side line near the dialyzer and an opening / closing means attached thereto. The blood according to claim 1 or 2, wherein a drop provided between one end of the venous blood line and another end is 60 to 100 cm, or a drop pressure generated by the drop is 50 to 100 mmHg. Automatic preparation device for dialysis. The automatic preparation device for hemodialysis according to any one of claims 1 to 3, wherein the opening / closing means is a solenoid valve. The automatic preparation device for hemodialysis according to any one of claims 1 to 4, wherein a pressure detecting means is provided in the vein side blood line. The automatic preparation device for hemodialysis according to any one of claims 1 to 5, wherein a bubble detection means is provided in the vicinity of the upper portion of the header of the dialyzer or in the venous blood line connected to the dialyzer. The automatic preparation device for hemodialysis according to any one of claims 1 to 6, wherein the primary information is a type of a dialyzer and a start time of a preparation operation. The order of the predetermined preparatory operation selected by the primary information is such that when the dialyzer is of the dry type, the blood side line is primed first, and when the dialyzer is of the wet type, the dialysate side line is firstly primed. The automatic preparation device for hemodialysis according to any one of claims 1 to 7, wherein priming is performed. The automatic preparation apparatus for hemodialysis according to any one of claims 1 to 8, wherein the secondary information includes pressure in a venous blood line communicating with a dialyzer. The automatic preparation device for hemodialysis according to any one of claims 1 to 9, wherein the secondary information includes an amount of bubbles in a venous blood line connected to the upper part of the dialyzer or a dialyzer, or a generation state of bubbles. . 11. The process according to claim 1, wherein during the process, the detection value of the secondary information is compared with a preset reference value, and a process to be performed earlier is automatically selected based on the result. An automatic preparation device for hemodialysis according to claim 1. The automatic preparation device for hemodialysis according to any one of claims 1 to 11, wherein in the operation unit, an optional process set in advance can be selected and the process can be added to a preparation operation selected by primary information. . The automatic preparation device for hemodialysis according to claim 12, wherein the optional step includes a step of priming only the arterial blood line first. The step of priming only the arterial blood line is performed by using a switching device provided in the drainage conduit, and the drainage conduit branches near the dialyzer connection portion of the arterial blood line. The automatic preparation device for hemodialysis according to claim 13.

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