JP2020124349A - Treatment device - Google Patents

Treatment device Download PDF

Info

Publication number
JP2020124349A
JP2020124349A JP2019018308A JP2019018308A JP2020124349A JP 2020124349 A JP2020124349 A JP 2020124349A JP 2019018308 A JP2019018308 A JP 2019018308A JP 2019018308 A JP2019018308 A JP 2019018308A JP 2020124349 A JP2020124349 A JP 2020124349A
Authority
JP
Japan
Prior art keywords
dialysis
tube
blood
dialyzer
artificial
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2019018308A
Other languages
Japanese (ja)
Other versions
JP2020124349A5 (en
Inventor
征夫 内海
Masao Uchiumi
征夫 内海
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Evf Manufacturing Co Ltd
Evf Mfg Co Ltd
Original Assignee
Evf Manufacturing Co Ltd
Evf Mfg Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Evf Manufacturing Co Ltd, Evf Mfg Co Ltd filed Critical Evf Manufacturing Co Ltd
Priority to JP2019018308A priority Critical patent/JP2020124349A/en
Priority to PCT/JP2020/003711 priority patent/WO2020162363A1/en
Publication of JP2020124349A publication Critical patent/JP2020124349A/en
Publication of JP2020124349A5 publication Critical patent/JP2020124349A5/ja
Pending legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M1/00Suction or pumping devices for medical purposes; Devices for carrying-off, for treatment of, or for carrying-over, body-liquids; Drainage systems
    • A61M1/36Other treatment of blood in a by-pass of the natural circulatory system, e.g. temperature adaptation, irradiation ; Extra-corporeal blood circuits

Landscapes

  • Health & Medical Sciences (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Vascular Medicine (AREA)
  • Biomedical Technology (AREA)
  • Engineering & Computer Science (AREA)
  • Anesthesiology (AREA)
  • Cardiology (AREA)
  • Hematology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • External Artificial Organs (AREA)

Abstract

To provide a treatment device capable of eliminating heavy fatigue after undergoing dialysis, lightening the darkening of a facial color, and preventing deterioration in physical condition.SOLUTION: A treatment device for performing dialysis in which blood is sent to a dialyzer and the blood coming out of the dialyzer is returned to veins includes: a tube positioning and holding member capable of maintaining a taking-out tube for taking out blood from a patient undergoing dialysis and supplying it to a dialysis side and a tube for returning the dialysis blood to the patient undergoing dialysis in a parallel state for a predetermined distance; and a mounting member for positioning and holding the tube positioning and holding member at a body of the patient undergoing dialysis in a contact state. The dialysis can be performed in a state that the taking-out tube and the return tube in an equilibrium state are brought into contact with the body of the patient undergoing the dialysis.SELECTED DRAWING: Figure 1

Description

本発明は、血液をダイアライザー(濾過装置)に送り出し、ダイアライザーから出てきた血液を静脈に戻す人工透析を行う治療装置に関するものである。 TECHNICAL FIELD The present invention relates to a therapeutic device that sends blood to a dialyzer (filtration device) and performs artificial dialysis to return the blood that has come out of the dialyzer to a vein.

腎不全を患った患者は、老廃物の除去、水分量の調整を目的として血液透析(人工透析)を行う。血液透析は、動脈側から血液を採取し、ダイアライザーにより透析を行った後に、血液を静脈側へ戻すものである。 Patients with renal failure perform hemodialysis (artificial dialysis) for the purpose of removing waste products and adjusting the water content. In hemodialysis, blood is collected from the artery side, dialyzed by a dialyzer, and then returned to the vein side.

従来の、人工透析装置は、例えば特許文献1に記載された様に、図6に示す構成が一般的であった。従来の人工透析を行う治療装置(以下、「人工透析装置」と称す。)を図6に基づいて以下に説明する。
図6に示す様に、従来の人工透析装置100は、人工透析に使用される血液透析装置200と共に、血液を浄化する機能を有する。
A conventional artificial dialysis device generally has a configuration shown in FIG. 6 as described in Patent Document 1, for example. A conventional treatment device for performing artificial dialysis (hereinafter referred to as "artificial dialysis device") will be described below with reference to FIG.
As shown in FIG. 6, the conventional artificial dialysis device 100 has a function of purifying blood together with the hemodialysis device 200 used for artificial dialysis.

血液透析装置200は、患者の動脈側から採取された血液を血液透析装置200に供給する動脈側回路211(動脈側の血液回路)と、血液透析装置200より透析された血液を静脈側に戻す静脈側回路212(静脈側の血液回路)とによる血液回路210とにより、患者Cに接続されている。 The hemodialysis device 200 returns an arterial circuit 211 (arterial blood circuit) that supplies blood collected from the patient's arterial side to the hemodialysis device 200 and the blood dialyzed by the hemodialysis device 200 to the vein side. It is connected to the patient C by a blood circuit 210 including a vein side circuit 212 (vein side blood circuit).

血液透析装置200は、動静脈吻合部Aの動脈側から血液を採取する血液ポンプ201と、血液透析液との濃度差により血液から老廃物や余分な水分を濾過して除去するダイアライザー202と、血液透析液を供給する透析液供給装置203とを備えている。 The hemodialysis device 200 includes a blood pump 201 that collects blood from the arteriovenous anastomotic site A on the arterial side, and a dialyzer 202 that removes waste products and excess water from blood by filtering the concentration difference from the hemodialysis fluid. A dialysate supply device 203 for supplying a hemodialysate is provided.

また、血液ポンプ201とダイアライザー202との間には、動脈圧モニタ204が接続されている。ダイアライザー202と、動静脈吻合部Aの静脈側との間には、静脈圧モニタ205や気泡検知器(図示せず)が接続されている。ダイアライザー202と透析液供給装置203との間には、透析液監視装置206が接続されている。 An arterial pressure monitor 204 is connected between the blood pump 201 and the dialyzer 202. A venous pressure monitor 205 and a bubble detector (not shown) are connected between the dialyzer 202 and the vein side of the arteriovenous anastomosis part A. A dialysate monitoring device 206 is connected between the dialyzer 202 and the dialysate supply device 203.

人工透析装置100は、微細気泡水生成装置10と、投入液供給装置20と、微細気泡水生成装置10を動脈側回路211に接続する混合器101と、微細気泡水生成装置10を静脈側回路212に接続する混合器102と、透析液供給装置203と透析液監視装置206(ダイアライザー202)との間に微細気泡水生成装置10を接続する混合器103とを備えている。 The artificial dialysis device 100 includes a fine bubble water generation device 10, an input liquid supply device 20, a mixer 101 connecting the fine bubble water generation device 10 to an artery side circuit 211, and a fine bubble water generation device 10 to a vein side circuit. The mixer 102 connected to 212, and the mixer 103 connecting the fine bubble water generation apparatus 10 between the dialysate supply device 203 and the dialysate monitoring device 206 (dialyzer 202) are provided.

投入液供給装置20は、治療に適した薬液や、ミネラルなどの栄養素を主成分とした栄養液が、投入液として貯留され、適量を混合器102に投入する機能を備えている。薬液や栄養液は、いずれか一方でもよいし、両方でもよい。投入液は、手動で、薬液や栄養液のいずれか一方か両方かを切り替え選択できることが望ましい。また、自動で、時間的に投入する投入液を選択できることが望ましい。 The input liquid supply device 20 has a function of storing a liquid medicine suitable for treatment or a nutrient liquid containing nutrients such as minerals as a main component as an input liquid and supplying an appropriate amount to the mixer 102. Either one or both of the drug solution and the nutrient solution may be used. It is desirable that the liquid to be introduced can be manually selected by switching between one or both of the chemical liquid and the nutrient liquid. Further, it is desirable to be able to automatically and timely select a charging liquid to be charged.

血液ポンプ201により患者Cから動脈側回路211を介して導出された血液は、ダイアライザー202に流入する。ダイアライザー202に流入した血液は、透析膜を通じて透析液との間で、除去尿毒素などの老廃物の除去、水分量の調整などが行われる。 The blood drawn from the patient C by the blood pump 201 via the arterial circuit 211 flows into the dialyzer 202. The blood flowing into the dialyzer 202 is subjected to removal of waste products such as removed uremic toxin and adjustment of water content with the dialysate through the dialysis membrane.

このとき、微細気泡のマイナス電位により吸着した老廃物や不活化した細菌は、ダイアライザー202で血液から排出される。ダイアライザー202により浄化された血液は、ダイアライザー202から静脈側回路212に流れる。 At this time, waste products adsorbed by the negative potential of the fine bubbles and inactivated bacteria are discharged from the blood by the dialyzer 202. The blood purified by the dialyzer 202 flows from the dialyzer 202 to the vein side circuit 212.

また、透析液供給装置203からダイアライザー202への配管には、混合器103が配置されており、微細気泡水生成装置10からの酸性水素微細気泡水が、混合器103から血液透析液に混合される。
酸性水による微細気泡水は、殺菌作用があるため、血液透析液内の細菌に吸着して殺菌し、排出することができる。
Further, a mixer 103 is arranged in a pipe from the dialysate supply device 203 to the dialyzer 202, and acidic hydrogen fine bubble water from the fine bubble water generation device 10 is mixed with the hemodialysis fluid from the mixer 103. R.
Since micro-bubble water generated by acidic water has a bactericidal action, it can be adsorbed to bacteria in the hemodialysis fluid to be sterilized and discharged.

特許第6189562号公報Japanese Patent No. 6189562

このようにして人工透析が行われるが、従来の透析では、動脈側回路211(動脈側の血液回路)と患者装着部位間、静脈側回路212(静脈側の血液回路と患者装着部位間については、単に接続されていることの確認だけであり、互いに離れた位置で絡み合わないようにしている程度の取り扱いであった。 Artificial dialysis is performed in this manner. In conventional dialysis, between the arterial circuit 211 (arterial blood circuit) and the patient attachment site, and the venous circuit 212 (vein blood circuit and the patient attachment site) , It was just confirmation that they were connected, and the handling was such that they were not entangled at positions apart from each other.

そのために、生体エネルギーが血液と共に体外に流れ出てしまい、体外に出た生体エネルギーはそのまま消失しているのが現状であった。その結果、透析患者は透析後に強い疲労感におそわれることが避けがたかった。更に、生体エネルギーの喪失が進むと、体調が極度に悪化したり、極端な場合には重大な結果を引き起こすことにもなっていた。
本発明はこのような課題を解決し、人工透析による体調の悪化などを防止することができる治療装置を提供することを目的とする。
For this reason, the bio-energy flows out of the body together with the blood, and the bio-energy out of the body disappears as it is. As a result, it was unavoidable that dialysis patients feel a lot of fatigue after dialysis. Further, as the loss of bioenergy advances, the physical condition becomes extremely bad, and in extreme cases, it may cause serious consequences.
It is an object of the present invention to solve the above problems and to provide a treatment device capable of preventing deterioration of physical condition due to artificial dialysis.

本発明は上述した課題を解決することを目的として成されたものであり、人工透析による体調の悪化などを防止することができる人工透析装置を提供することを目的とする。そして係る目的を達成する一手段として例えば、以下の構成を備える。 The present invention has been made for the purpose of solving the above-mentioned problems, and an object of the present invention is to provide an artificial dialysis device that can prevent deterioration of physical condition due to artificial dialysis. Then, as one means for achieving the object, for example, the following configuration is provided.

即ち、血液をダイアライザーに送り出し、該ダイアライザーから出てきた血液を静脈に戻す人工透析を行う治療装置において、人工透析者から血液を取り出し透析側に供給する取り出しチューブと透析血液を人工透析者に戻す戻しチューブとを所定距離並行状態に維持可能なチューブ位置決め保持部材と、前記チューブ位置決め保持部材を人工透析者の体に接触状態に位置決め保持する装着部材とを備え、前記取り出しチューブと前記戻しチューブとを平衡状態として人工透析者の体に接触させた状態で人工透析可能とすることを特徴とする治療装置とする。 That is, in a treatment device that performs artificial dialysis by sending blood to a dialyzer and returning the blood that has come out of the dialyzer to a vein, a take-out tube that takes blood from the artificial dialyzer and supplies it to the dialysis side, and returns the dialyzed blood to the artificial dialyzer. A tube positioning and holding member that can maintain the return tube in a parallel state for a predetermined distance, and a mounting member that positions and holds the tube positioning and holding member in contact with the body of the hemodialysis person, and the take-out tube and the return tube Is a state of equilibrium and is capable of artificial dialysis while being in contact with the body of an artificial dialysis person.

そして例えば、前記装着部材は前記チューブ位置決め保持部材を人工透析者の腕に密着可能であることを特徴とする。そして例えば、前記装着部材は面ファスナー機構により前記チューブ位置決め保持部材を人工透析者の腕に装着することを特徴とする。 Further, for example, the mounting member is characterized in that the tube positioning and holding member can be brought into close contact with the arm of the dialysis person. And, for example, the mounting member is characterized in that the tube positioning and holding member is mounted on the arm of the artificial dialysis person by a surface fastener mechanism.

本発明によれば、透析後の酷い疲労が無くなり、また、透析を続けていると避けられない顔や肌の色の黒ずみが薄くなり、体調悪化を防止できる。 According to the present invention, severe fatigue after dialysis is eliminated, and the darkening of the face and skin color, which is inevitable when dialysis is continued, becomes thin, and deterioration of physical condition can be prevented.

本発明に係る一発明の実施の形態の治療装置の特徴的な構成を説明するための図である。It is a figure for explaining the characteristic composition of the medical treatment equipment of one embodiment of the present invention concerning the present invention. 本実施の形態の具体的な操作方法を説明するための図である。It is a figure for demonstrating the concrete operating method of this Embodiment. 本実施の形態の具体的な操作方法を説明するための図である。It is a figure for demonstrating the concrete operating method of this Embodiment. 本実施の形態の具体的な操作方法を説明するための図である。It is a figure for demonstrating the concrete operating method of this Embodiment. 本実施の形態の具体的な操作方法を説明するための図である。It is a figure for demonstrating the concrete operating method of this Embodiment. 一般的な人工透析を行う治療装置の構成を示す図である。It is a figure which shows the structure of the treatment device which performs general artificial dialysis.

10 微細気泡水生成装置
20 投入液供給装置
100 人工透析装置
101、103 混合器
200 血液透析装置
201 血液ポンプ
202 ダイアライザー
203 透析液供給装置
204 動脈圧モニタ
205 静脈圧モニタ
10 Micro Bubble Water Generator 20 Input Liquid Supply Device 100 Artificial Dialysis Device 101, 103 Mixer 200 Hemodialysis Device 201 Blood Pump 202 Dializer 203 Dialysate Supply Device 204 Arterial Pressure Monitor 205 Vein Pressure Monitor

206 透析液監視装置
210 血液回路
211 動脈側回路
212 静脈側回路
206 dialysate monitoring device 210 blood circuit 211 arterial circuit 212 venous circuit

以下に、本発明に係る一発明の実施の形態例について添付図面を参照して詳細に説明する。本発明の実施の形態においても、基本的な人工透析装置の構成及び動作は図6に示す一般的な人工透析装置との差異がない。
したがって、以下の説明は主として図6の一般的な人工透析装置の構成と異なる構成について行う。本実施の形態の人工透析装置が従来の人工透析装置と大きく異なるのは、動脈側回路211(動脈側の血液回路)と静脈側回路212(静脈側の血液回路)の取り扱いである。
Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. Also in the embodiment of the present invention, the configuration and operation of the basic artificial dialysis device are not different from those of the general artificial dialysis device shown in FIG.
Therefore, the following description will be given mainly on a configuration different from the configuration of the general artificial dialysis device of FIG. The artificial dialysis device of the present embodiment is largely different from the conventional artificial dialysis device in the handling of the arterial circuit 211 (arterial blood circuit) and the venous circuit 212 (vein blood circuit).

[発明の実施の形態に特有の構成の説明]
図1は本発明に係る一発明の実施の形態の人工透析装置の動脈側回路211(動脈側の血液回路)と静脈側回路212(静脈側の血液回路)の位置決め機構の構成を説明するための図である。本実施の形態では、人工透析装置の基本的な構成は図6に示す一般的な人工透析装置と差異がない。
[Description of Configuration Specific to Embodiments of the Invention]
FIG. 1 is for explaining the configuration of a positioning mechanism for an arterial circuit 211 (arterial blood circuit) and a vein circuit 212 (vein blood circuit) of an artificial dialysis apparatus according to an embodiment of the present invention. FIG. In the present embodiment, the basic configuration of the artificial dialysis device does not differ from the general artificial dialysis device shown in FIG.

一般的な人工透析装置と大きく異なるのは、動脈側回路211(動脈側の血液回路)と静脈側回路212(静脈側の血液回路)を例えば腕の内側に添って平行に並べるための構成を備える点である。以下説明する。 A big difference from a general artificial dialysis device is that an arterial circuit 211 (arterial blood circuit) and a venous circuit 212 (venous blood circuit) are arranged in parallel along, for example, the inside of the arm. The point is to prepare. This will be described below.

図1において、211は動脈側回路(を構成する動脈側チューブ)、212は静脈側回路212(を構成する静脈側チューブ)、510は動脈側チューブ211及び静脈側チューブ212を位置決め収納するチューブガイド部材であり、例えばプラスチック製の断面略コ字状に形成されている。チューブガイド部材510には後述する図4に示すチューブガイド部材開口部に装着される蓋部材520が装着され、収納されたチューブを位置決め固定される。図1においてはこの蓋部材520の図示は省略している。 In FIG. 1, reference numeral 211 is an arterial side circuit (an artery side tube constituting the same), 212 is a vein side circuit 212 (a vein side tube constituting the same), 510 is a tube guide for positioning and housing the arterial side tube 211 and the vein side tube 212. It is a member and is made of, for example, a plastic and has a substantially U-shaped cross section. The tube guide member 510 is attached with a lid member 520 which is attached to an opening of a tube guide member shown in FIG. 4, which will be described later, to position and fix the accommodated tube. In FIG. 1, the illustration of the lid member 520 is omitted.

なお、以上の説明は断面コ字状のチューブガイド部材510と蓋部材520とで筒状に形成していたが、以上の例に限定されるものではなく、プラスチック製の四角い筒状部材の上下に分離して2つの部材に分け、使用時の2つを合わせる構造でもよい。 In the above description, the tube guide member 510 having a U-shaped cross section and the lid member 520 are formed into a tubular shape. However, the present invention is not limited to the above example, and a rectangular tubular member made of plastic is provided above and below. It may be structured such that it is separated into two parts and is divided into two members, and the two parts when used are combined.

または、断面台形の筒状部材とし、台形の上部を蓋部材、下部をチューブガイド部材としても良い。この場合には、台形底部の幅の広い方を腕に密着させることにより、より安定した状態とすることができる。 Alternatively, a tubular member having a trapezoidal cross section may be used, and an upper portion of the trapezoid may be a lid member and a lower portion may be a tube guide member. In this case, the wider side of the trapezoidal bottom portion is brought into close contact with the arm, so that a more stable state can be obtained.

[発明の実施の形態の使用方法の説明]
次に本実施の形態の人工透析装置に特有な構成の使用方法を説明する。本実施の形態においても、透析者の動脈に動脈側回路211を接合すると共に、透析者の静脈に静脈側回路212を接合する。そして一般的な人工透析装置での透析が開始できる状態にする。
[Description of Usage of Embodiment of Invention]
Next, a method of using the configuration peculiar to the artificial dialysis device of the present embodiment will be described. Also in this embodiment, the artery side circuit 211 is joined to the dialysis person's artery and the vein side circuit 212 is joined to the dialysis person's vein. Then, the dialysis is started in a general artificial dialysis machine.

まず、図2に示す状態にする。図2において、Dは透析患者の透析時の針を刺した腕であり、ダイアライザーに伸びている動脈側回路211を構成するチューブ311と静脈側回路212を構成するチューブ312とをそろえて手の甲側に回して例えば小指と薬指の間から手の平側の腕に添うように曲げる。 First, the state shown in FIG. 2 is obtained. In FIG. 2, D is an arm that is pierced by a needle of a dialysis patient at the time of dialysis, and a tube 311 that constitutes the arterial side circuit 211 and a tube 312 that constitutes the venous side circuit 212 that extend to the dialyzer are aligned and the back side of the hand. Turn to and bend, for example, between the little finger and the ring finger so as to fit along the palm side of the palm.

続いて図3に示すように、手のひら側の腕に添う様に両チューブを平行に揃えてチューブガイド部材510内に収納する。
次に図4示す様に、チューブを収納したチューブガイド部材510蓋部材520を装着し、チューブが平行に揃った状態を維持する。なお、この状態ではチューブガイド部材510に蓋部材520はチューブに添って摺動可能である。したがって図4示す様にスライドさせて腕に装着して一番邪魔にならず、透析者の負担にもならない位置に位置決めする。
Then, as shown in FIG. 3, both tubes are aligned in parallel so as to fit along the palm side arm and housed in the tube guide member 510.
Next, as shown in FIG. 4, a tube guide member 510 lid member 520 accommodating the tubes is attached to maintain the tubes aligned in parallel. In this state, the tube guide member 510 and the lid member 520 can slide along the tube. Therefore, as shown in FIG. 4, it is slid and mounted on the arm so that it is positioned so that it is the most intrusive and does not burden the dialysis person.

そして、図5に示すように、固定バンド531、532の2本の固定バンドでチューブが収納されているチューブガイド部材510と蓋部材520を透析者の腕に密着させた状態となるように装着する。この装着部は全く動くことなく完全に固定する必要はなく、腕の表面に密着した状態に維持でき、腕から離反しない程度の位置決め固定された状態であればよい。この状態を維持して人工透析を開始する。 Then, as shown in FIG. 5, the tube guide member 510 and the lid member 520 in which the tube is housed are fixed by two fixing bands 531 and 532 so that the tube guide member 510 and the lid member 520 are brought into close contact with the arm of the dialysis person. To do. The mounting portion does not need to be completely fixed without any movement, and may be in a fixed position so that it can be kept in close contact with the surface of the arm and is not separated from the arm. This state is maintained and artificial dialysis is started.

[発明の実施の形態人工透析装置の効能]
以上説明したように、本実施の形態例によれば、チューブガイド部材510と蓋部材520で、ダイアライザーに伸びている動脈側回路211を構成するチューブ311と静脈側回路212を構成するチューブ312とを並べてそろえ、腕の表面に略密着した状態を維持した状態で血液透析を行うことができる。
[Effects of the Embodiment of the Invention Artificial Dialysis Device]
As described above, according to the present embodiment, the tube guide member 510 and the lid member 520 form the tube 311 forming the artery side circuit 211 and the tube 312 forming the vein side circuit 212 extending to the dialyzer. Can be arranged side by side, and hemodialysis can be performed in a state in which the arm is kept in close contact with the surface of the arm.

長年、血液透析をしている血液透析者は、顔色が黒ずんできて、普段の容姿も元気が無くなってくる例が多く見られる。本実施の形態の装置は、このような人に特に効果が確認される装置であり、本実施の形態の装置を装着して血液透析を行なうと、顔色の黒ずみが無くなって健康な色になってくると共に、体も元気になって血液透析を行った日であっても仕事ができるようになる。 Many hemodialyzers who have been on hemodialysis for many years have a dark complexion and lose their normal appearance. The device of the present embodiment is a device that is particularly effective for such a person, and when hemodialysis is performed by wearing the device of the present embodiment, darkening of the complexion disappears and a healthy color is obtained. With it, my body will be well and I will be able to work even on the day of hemodialysis.

これは、本願発明者が、血液が体外に取り出されてすぐの位置に、体内に戻される血液を並行して配置することにより、体外に取り出された血液から放出される生体エネルギーが、体内に戻される血液に吸収されることを見出したことから判明したものである。 This is because the inventor of the present invention arranges the blood returned to the body in parallel at a position immediately after the blood is taken out of the body, so that the bioenergy released from the blood taken out of the body is released into the body. It was discovered from the finding that it was absorbed by the returned blood.

このため、本実施の形態の治療装置によれば、透析者の健康寿命を延ばす効果が期待できる。
「生体エネルギー」≒「活動エネルギー」≒「宇宙エネルギー」≒「活性エネルギー」であると考えられ、従来の人工透析装置の使い方では、血液の体外への流出と共に生体エネルギーも体外に出てしまっていたために、体内の生体エネルギーの量が少なくなり、その結果、疲れを感じたり、気怠くなる等の症状が出てきていた。
生体エネルギーが正常時の40%以下になると病気になり、20%になると重体になり、15%以下になった時には重大な結果を引き起こすことにもなる。
Therefore, the treatment device of the present embodiment can be expected to have the effect of extending the healthy life expectancy of a dialysis person.
It is considered that "bioenergy" ≒ "activity energy" ≒ "cosmic energy" ≒ "activity energy", and in the conventional method of using an artificial dialysis device, the bioenergy is also exhausted outside the body with the outflow of blood. As a result, the amount of bioenergy in the body is reduced, and as a result, symptoms such as feeling tired and being lazy appear.
When bioenergy falls below 40% of normal, it becomes sick, when 20% falls, it becomes serious, and when it falls below 15%, it may cause serious consequences.

〔本実施の形態の治療装置の試験的な使用の結果〕
1. 男性A(昭和43年生まれ群馬県在住)
平成23年12月より糖尿病による腎不全の為、血液透析を開始する。
尿毒症の体調不良は改善されたが、透析後の激しい疲労感に悩まされ、2〜3年経つ内に顔色がドス黒く変わってきて、透析期間が長くなるにつれて、段々に仕事に取り組む覇気が無くなってきた。
[Results of Trial Use of the Treatment Device of the Present Embodiment]
1. Male A (born in 1968 and lives in Gunma prefecture)
Hemodialysis was started in December 2011 due to renal failure due to diabetes.
Although the poor physical condition of uremia has improved, he suffered from severe fatigue after dialysis, his complexion turned black within a few years, and as the dialysis period became longer, he felt hesitant to work. It's gone.

平成27年10月頃から本発明品の実施の形態装置の開発段階の装置の使用を開始した。その結果、顔色のドス黒さが改善されてきて、透析後の疲労感が激減した。現在は人工透析時、本実施の形態の装置を使用している結果、透析後にも普通に仕事が出来る様になっている。
仕事に対する意欲が増してきて、顔色は普通の健康人と同じ様に血色が良くなり、透析患者特有の血圧の異常な乱高下も無くなり、精神的にも落ち着いた毎日を過ごせている。
From around October 2015, the use of the device in the development stage of the device of the present invention was started. As a result, the blackness of the complexion was improved and the feeling of fatigue after dialysis was drastically reduced. At present, as a result of using the apparatus of the present embodiment during artificial dialysis, normal work can be performed even after dialysis.
As the motivation for work increases, the complexion becomes as complex as that of a normal healthy person, the abnormal fluctuation of blood pressure peculiar to dialysis patients disappears, and mentally calm days can be spent.

平成30年3月に、最初に透析をした群馬大学病院で精密検査を受けた結果は、糖尿病から透析開始になった人特有の足などの血管の詰まりが全く無くて、担当医師から「本当に透析を6年間もやっているのですか?」と驚かれた。
平成30年11月時点でも、健康な人と同じ様に自動車で往復800キロメートル〜1000キロメートルも運転して、泊まり掛けで商品の納品指導などの業務をこなしている。
In March 2018, the result of having undergone a close-up examination at the Gunma University Hospital where we first performed dialysis showed that there was no clogging of blood vessels such as the feet peculiar to people who started dialysis due to diabetes. Have you been on dialysis for 6 years?"
As of November 2018, as well as a healthy person, he drives a car 800km to 1000km round trips, and while staying overnight, provides guidance such as product delivery.

2. 男性B(昭和46年生まれ兵庫県在住)
遺伝的に腎臓が弱く、15歳で慢性腎炎を発症し、治療を受けながら学生生活をしていたが、28歳で血液透析を開始した。
毎回の透析後は激しい疲労感に襲われて、仕事は出来ない状態であった。
平成29年2月に発明者の主催する勉強会に参加してきたことから知見をえて、5月に本発明の開発段階の装置のモニタとなることを了承し、人工透析時に使用したところ、疲労感が激減して、透析後に仕事をしたい意欲が湧いてきた。そして、平成29年8月から家庭教師のアルバイトを始めて、毎月確実な収入を得ることができるまでに回復した。
2. Male B (born in 1972 and lives in Hyogo prefecture)
He had a genetically weak kidney and developed chronic nephritis at the age of 15 and was living a student life while receiving treatment, but he started hemodialysis at the age of 28.
After each dialysis, he was unable to work due to severe fatigue.
After learning from the fact that I participated in a study group sponsored by the inventor in February 2017, I acknowledged that it would be a monitor for the device in the development stage of the present invention in May, and when using it during artificial dialysis, fatigue My feelings diminished drastically, and I was motivated to work after dialysis. After starting a part-time job as a tutor in August 2017, I recovered until I could earn a reliable income every month.

身体が太くなれなくて、肌の色が黄疸のように黄黒い色をしていましたが、この装置を使うようになったら段々に顔色が普通の人と同じになり、体重も健康に増えてきている。 I could not get fat, and my skin color was yellowish black like jaundice, but when I came to use this device, my complexion gradually became the same as a normal person, and my weight increased and I became healthy. Is coming.

平成30年10月時点では、同じ病院での透析仲間で、最近目立って調子が悪くなっている60代の女性を紹介して、本発明装置を試験的に使用させたところ、いつもは透析後には疲労が激しくて、透析ベットから降りるのが1人では出来なかったのに、今回は自分の力で降りて、比較的に元気に帰って行くことができた。 As of October 2018, we introduced a woman in her 60's who was recently feeling sick with a dialysis fellow at the same hospital, and tried using the device of the present invention on a trial basis. I was so tired that I couldn't get off the dialysis bed by myself, but this time I got off with my own power and I was able to return home relatively well.

3. 女性A(昭和24年生まれ兵庫県在住)
53歳で慢性腎不全を発症し、その後透析を開始して16年間になる。最初から透析後には酷い疲労感に襲われて、家事を行うのも支障がある状態であった。最近では透析直後から身体に力が入らなくなり、余命が余り無いのだなと思う様になっていた。
3. Female A (born in 1948 and lives in Hyogo prefecture)
He developed chronic renal failure at the age of 53, and then started dialysis for 16 years. From the beginning, after dialysis, I was so tired that I could not do housework. Recently, I started to think that I had little life left after dialysis and had little life expectancy.

平成30年10月に長年の透析仲間に紹介されて、本発明品を試験的に使用したところ、透析後の酷い疲労感が無くなり、自分の足に力が入り、自分の力で透析ベッドから降りて、帰宅する事ができた。
その後は週3回の透析時に使用して、顔色の黒ずみが薄くなり、体調が好転しつつある。
Introduced to a long-term dialysis team in October 2018, and when the product of the present invention was used on a trial basis, the feeling of tiredness after dialysis disappeared, and the strength of one's feet increased and the dialysis bed was used by oneself. I got off and was able to go home.
After that, it was used for dialysis three times a week, and the dark complexion became pale and the physical condition was improving.

4.男性C(昭和50年生まれ東京都在住)
平成28年1月に、肺炎から心不全になり、心不全から、腎不全になり透析を開始した。当初から透析後に強い疲労感に襲われて困っていた。このため、平成29年10月に本発明装置の試験使用を開始したところ、疲労感が全く無くなり、透析後にも普通に仕事ができるようになり、現在に至ってる。
4. Male C (born in 1975 living in Tokyo)
In January 2016, pneumonia caused heart failure, heart failure caused renal failure, and dialysis was started. From the beginning, I was in trouble because of a strong feeling of fatigue after dialysis. For this reason, when the test use of the device of the present invention was started in October 2017, the feeling of fatigue was completely eliminated, and normal work could be performed even after dialysis, and the present state is achieved.

以上に記載したように、本発明の実施の形態の治療装置によれば、装置使用による副作用などは全く認められず、人工透析により派生する不具合を画期的に改善させることができる。 As described above, according to the treatment device of the embodiment of the present invention, no side effects due to the use of the device are observed, and the problems caused by artificial dialysis can be remarkably improved.

Claims (3)

血液をダイアライザーに送り出し、該ダイアライザーから出てきた血液を静脈に戻す人工透析を行う治療装置において、
人工透析者から血液を取り出し透析側に供給する取り出しチューブと透析血液を人工透析者に戻す戻しチューブとを所定距離並行状態に維持可能なチューブ位置決め保持部材と、
前記チューブ位置決め保持部材を人工透析者の体に接触状態に位置決め保持する装着部材とを備え、
前記取り出しチューブと前記戻しチューブとを平衡状態として人工透析者の体に接触させた状態で人工透析可能とすることを特徴とする治療装置。
In a therapeutic device that sends blood to a dialyzer and performs artificial dialysis to return the blood that has come out of the dialyzer to a vein,
A tube positioning and holding member capable of maintaining the extraction tube for supplying blood to the dialysis side from the artificial dialyzer and the return tube for returning the dialyzed blood to the artificial dialyzer in parallel for a predetermined distance,
A mounting member for positioning and holding the tube positioning and holding member in contact with the body of an artificial dialyzer,
A therapeutic apparatus, which is capable of performing artificial dialysis in a state where the take-out tube and the return tube are in an equilibrium state and are in contact with the body of an artificial dialyzer.
前記装着部材は前記チューブ位置決め保持部材を人工透析者の腕に密着可能であることを特徴とする請求項1記載の治療装置。 The treatment device according to claim 1, wherein the mounting member is capable of adhering the tube positioning and holding member to the arm of the artificial dialysis person. 前記装着部材は面ファスナー機構により前記チューブ位置決め保持部材を人工透析者の腕に装着することを特徴とする請求項2記載の治療装置。 The treatment device according to claim 2, wherein the attachment member attaches the tube positioning and holding member to an artificial dialyzer's arm by a surface fastener mechanism.
JP2019018308A 2019-02-04 2019-02-04 Treatment device Pending JP2020124349A (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP2019018308A JP2020124349A (en) 2019-02-04 2019-02-04 Treatment device
PCT/JP2020/003711 WO2020162363A1 (en) 2019-02-04 2020-01-31 Treatment device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2019018308A JP2020124349A (en) 2019-02-04 2019-02-04 Treatment device

Publications (2)

Publication Number Publication Date
JP2020124349A true JP2020124349A (en) 2020-08-20
JP2020124349A5 JP2020124349A5 (en) 2022-03-17

Family

ID=71948006

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2019018308A Pending JP2020124349A (en) 2019-02-04 2019-02-04 Treatment device

Country Status (2)

Country Link
JP (1) JP2020124349A (en)
WO (1) WO2020162363A1 (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009539514A (en) * 2006-06-10 2009-11-19 フレゼニウス メディカル ケア ドイチラント ゲー・エム・ベー・ハー Arrangement apparatus for monitoring access to a patient and method for monitoring access to a patient, in particular a method for monitoring access to blood vessels in blood processing
WO2011122488A1 (en) * 2010-03-29 2011-10-06 テルモ株式会社 Introducer sheath assembly
JP2016214293A (en) * 2015-05-14 2016-12-22 日機装株式会社 Puncture needle detachment detection device and detection method using the same

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009539514A (en) * 2006-06-10 2009-11-19 フレゼニウス メディカル ケア ドイチラント ゲー・エム・ベー・ハー Arrangement apparatus for monitoring access to a patient and method for monitoring access to a patient, in particular a method for monitoring access to blood vessels in blood processing
WO2011122488A1 (en) * 2010-03-29 2011-10-06 テルモ株式会社 Introducer sheath assembly
JP2016214293A (en) * 2015-05-14 2016-12-22 日機装株式会社 Puncture needle detachment detection device and detection method using the same

Also Published As

Publication number Publication date
WO2020162363A1 (en) 2020-08-13

Similar Documents

Publication Publication Date Title
US20120138533A1 (en) Dialysis system control system with user interface
Huff How artificial kidneys and miniaturized dialysis could save millions of lives.
WO2020162363A1 (en) Treatment device
Metzger Home Dialysis Modalities: Educational Barriers to Utilization.
Gerritsen WEAKID-Clinical validation of miniature wearable dialysis machine-H2020
US20210369930A1 (en) Combination wearable and stationary dialysis system with ultrafiltrate module
Anderton et al. Living with renal failure: Proceedings of a Multidisciplinary Symposium held at the University of Stirling, 7–8 July, 1977
Kong et al. Clinical practice guidelines for the provision of renal service in Hong Kong: Renal Nursing Practice
Colobong Smith Standing on the Shoulders of Giants: Innovations in Dialysis.
Fellows Hemodialysis at home
US20230330310A1 (en) Wearable hemofiltration artificial kidney
CA3169290C (en) Wearable hemofiltration artificial kidney
Murphy A care study exploring a patient's non-compliance to haemodialysis
CN215426676U (en) Cushion for limiting upper limb of patient in hemodialysis treatment
Giuliani et al. Start-up companies for accessible medical devices: two case studies
Yusuf et al. Recent updates in artificial kidney technology: Potential parsing for universal coverage burden of chronic kidney disease in Indonesia
Stephen et al. Dialysis/hemofiltration in schizophrenia: A journey by night and cloud
Garrett et al. Bowel innervation in Hirschsprung's disease.
O'NEILL Guidelines for teaching home dialysis
Ryzlewicz Dialysis Technology and the Quality of Treatment
Cohen EST+ group therapy= improved care
Nesic et al. Integration of PD in Uremic Treatment
Fallon et al. A Major Qualifying Project
Annamalai et al. The role of a renal nurse on a Malaysian dialysis unit
SHOCKLEY et al. Hemodialysis in a Community Hospital

Legal Events

Date Code Title Description
A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20190326

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20220203

A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20220203

RD02 Notification of acceptance of power of attorney

Free format text: JAPANESE INTERMEDIATE CODE: A7422

Effective date: 20220203

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20220308

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20230207

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20230410

A02 Decision of refusal

Free format text: JAPANESE INTERMEDIATE CODE: A02

Effective date: 20230711

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20231011

A911 Transfer to examiner for re-examination before appeal (zenchi)

Free format text: JAPANESE INTERMEDIATE CODE: A911

Effective date: 20231018

A912 Re-examination (zenchi) completed and case transferred to appeal board

Free format text: JAPANESE INTERMEDIATE CODE: A912

Effective date: 20231027