CN102307650A - 用于透析系统的充灌系统和方法 - Google Patents
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Abstract
本申请涉及能够利用透析液充灌系统的体外血液处理系统。塑料模制的紧凑歧管支撑模制的血液和透析液流体通路以及相关的传感器、阀和泵。紧凑歧管在一个实施例中还是一次性的,并且能够可拆卸地安装在透析设备中。在歧管中的双路阀用于导向透析液流动通过血液回路以充灌用于治疗的回路。
Description
技术领域
本发明涉及用于通过透析液充灌血液回路的系统和方法,特别地,涉及一次性歧管,其能够在充灌操作模式和治疗操作模式之间自动地切换。
背景技术
血液透析用于在肾衰竭的情形下从人体移除有毒废物。病人血液经由管子被临时带到身体外面并通过透析器中的至少一个半渗透膜,所述膜可以是一组中空纤维。半渗透膜从透析液溶液分离血液。来自血液的杂质通过膜并主要通过渗透压力进入到透析液溶液中。清洁后的血液然后返回到身体。
利用在医院中安装的设备的标准透析治疗包括两个阶段,也就是,(a)透析,其中有毒物质和渣子(通常为小分子)从血液通过半透膜到透析液体,和(b)超滤,其中血液回路和透析液回路之间的压差,更准确地说,透析液回路中降低的压力,使得水中的血液含量减少预定量。
利用标准设备的透析程序除了需要患者身处透析中心很长时间之外趋于笨重且昂贵。传统的系统同样不够可靠,因为必须使用包括提纯系统的流体回路的无数的管子,从而增大了泄露和破坏的风险。相应地,现有技术中对能够在血液透析以及血液过滤模式操作同时提供合理的便携性给患者的体外血液处理系统存在需求。这样的便携透析系统应当还有益于利用一次性部件。进一步地,还对这样的用于透析系统的新颖的歧管存在需求,其具有集成的血液提纯系统部件,例如传感器、泵和一次性用具以及模制的血液和透析液流动路径以避免管子的复杂网眼并提高系统稳定性。
传统的基于吸附剂的透析系统要求一次性透析回路的血液侧在每次治疗之前充灌消过毒的盐水,然后才允许患者血液进入回路。这是重要的第一步以排空系统的任何空气。在操作中,患者的血液进入充注有盐溶液的管子并且“驱赶”盐溶液到废物,然后开始透析。
美国专利No.4,661,246描述一种典型的单一出入口的透析仪器,其具有用于接收体液的单一导管、具有带连接到导管的流体入口和流体出口的体液侧并进一步具有带透析液入口和透析液出口的透析液侧的透析器。描述的透析仪器还包括用于保持包括用在透析器中的透析液的液体供应的存储装置。
美国专利申请No.20020017489和美国专利No.6,187,198描述充灌血液处理回路的系统和方法,其中不期望的气泡的留持以及污染的危险都减小。
美国专利申请No.20020017489提供用于在血液处理单元和患者之间的血流的动脉设置和静脉设置。每个设置具有以管线流动关系承载腔室的主管,和从腔室延伸以进入排放容器的支管。支管的一部分延伸通过腔室顶壁并凸出一段距离进入腔室中以自然产生在腔室中的液位上方的期望的操作容器的气泡。所述专利申请描述一种充灌方法,其通过使得充灌溶液在第一流向通过至少一个所述设置以使得充灌溶液在与血液流动通过腔室的通常方向反向的流动方向进入由所述一个设置承载的内部管路(in-line)的腔室。接着,优选同时执行移除从一个设置通过端口的空气并在与第一方向相反的流向通过充灌溶液,以为了完成血液处理单元的整个充灌。
美国专利申请20070185430提供用于在用于患者的肾更换治疗的单元中产生提纯的替换流体的系统和方法。所述系统能够用于提纯未提纯的流体并进一步提纯在连接过程中被污染(例如,通过接触污染)的消过毒的流体。所述方法采用:具有膜的过滤器,所述膜具有小于待过滤的未提纯的火成的材料更小的孔尺寸,从而从清洁的侧分离过滤器的废物侧;以及与替换流体的容器流体连通的泵,所述容器与过滤器的废物侧流体连通;以及用于保持提纯的替换流体与过滤器的清洁侧流体连通的第二容器。泵在将流体泵送出第一容器的第一方向和从血液去除废物的第二方向之间切换。
上述所有专利和专利申请描述各种透析回路和充灌方法,并在此通过参考引入。
传统地,充灌程序要求至少一公升充灌流体例如盐水、夹子、管子、连接器和悬挂袋的柱子。患者或者保健提供者必须连接管路、打开夹子、闭合夹子并处理废物。这是一个问题,因为a)它需要高技术水平以设置和管理充灌程序,以及b)它要求额外的材料。使用一种更方便的充灌流体源并简化充灌程序以使得不需要受过培训的保健专业人员来管理和/或处理充灌过程,这将是优选的。
发明内容
本发明涉及一种能够在充灌模式和治疗模式下操作的透析治疗系统,包括:限定腔的壳体,所述腔能够容纳歧管。所述歧管包括:包括第一层和第二层的塑料基板;由所述第一层的第一表面和所述第二层的第一表面限定的第一流动路径;由所述第一层的第一表面和所述第二层的第一表面限定的第二流动路径;以及与所述第一流动路径和所述第二流动路径都流体连通的阀,其中所述阀具有第一状态和第二状态,其中当处于所述第一状态时,所述第一流动路径和第二流动路径流体隔离,当处于所述第二状态时,所述第一流动路径和第二流动路径流体连通;以及物理附着到所述壳体的阀接口,其中所述阀接口配置为传输信号到所述阀以使得所述阀在所述第一状态和所述第二状态之间切换。
任选地,歧管进一步包括:第一泵出口,其中所述第一泵出口接收通过第一泵泵送的血液;和第二泵出口,其中第二泵出口接收通过第二泵泵送的透析液。任选地,阀定位为与所述第一泵出口和所述第二泵出口相邻。任选地,阀处于所述第一状态,第一泵出口和第二泵出口彼此流体隔离。任选地,当阀处于所述第二状态时,第一泵出口和第二泵出口彼此流体连通。任选地,透析治疗系统进一步包括控制器,其中所述控制器产生信号以使得所述阀在所述第一状态和所述第二状态之间切换。在一个实施例中,控制器产生信号以响应透析治疗系统在充灌模式操作的命令使得所述阀从所述第一状态切换到所述第二状态。在另一个实施例中,控制器产生信号以响应透析治疗系统在治疗模式操作的命令使得所述阀从所述第二状态切换为所述第一状态。透析治疗系统进一步包括透析液储存器,所述歧管的充灌通过利用来自所述透析液储存器而不是来自单独的充灌流体源的透析液实实施。
在另一个实施例中,本发明涉及能够在充灌模式和治疗模式操作的歧管,包括:包括第一层和第二层的塑料基板;由所述第一层的第一表面和所述第二层的第一表面限定的第一流动回路;由所述第一层的第一表面和所述第二层的第一表面限定的第二流动回路;与所述第一流动回路和所述第二流动回路都流体连通的阀,其中所述阀具有第一状态和第二状态,当处于所述第一状态时,来自所述第一流动回路的流体不能进入所述第二流体回路,当处于所述第二状态时,来自所述第一流动回路的流体可以进入所述第二流动回路;以及接收来自信号源的信号以使得所述阀在所述第一状态和所述第二状态之间切换的接口。
任选地,接口响应在充灌模式操作的信号使得所述阀从所述第一状态切换到所述第二状态。任选地,接口响应在治疗模式操作的信号使得所述阀从所述第一状态切换到所述第二状态。
在另一个实施例中,本发明涉及用于充灌用于透析治疗中的透析设备内的歧管的充灌方法,包括步骤:a)将所述歧管插入到所述透析设备中,其中所述歧管包括每个由基板限定的血液回路和透析液回路,以及与所述血液回路和透析液回路的每个流体连通的阀,其中所述阀具有第一状态和第二状态,并且其中当处于所述第一状态时,来自所述透析液回路的流体不能进入所述血液回路,当处于所述第二状态时,来自所述透析液回路的流体能够进入到所述血液回路中;b)布置所述阀在所述第二状态中;c)泵送透析液通过所述血液回路;d)布置所述阀在所述第一状态;以及e)从所述血液移除透析液。
任选地,透析液从透析液储存器而非从充灌流体的单独的源泵送。任选地阀通过与来自位于透析设备内的控制器的信号通信而布置在所述第一状态或者第二状态。
附图说明
本发明的这些以及其它特征和优点将被认识到,因为当相对于附图进行考虑时参照下面的详细描述它们变得更好地得以理解。
图1示出用于体外血液处理系统的示例性流体回路;
图2示出根据本发明的一个实施例的示例性的紧凑歧管的结构元件;
图3a提供紧凑歧管的中间的主体部件的透视图;
图3b提供具有示例性尺度的紧凑歧管的中间的主体部件的透视图;
图4是详细描述根据本发明的一个实施例的紧凑歧管的流体回路的示意图;
图5示出紧凑歧管内的示例性的电导率单元;
图6a示出根据本发明的一个实施例的体外血液处理系统,具有集成到用于确定系统的操作模式的紧凑歧管中的两个双路(two-way)阀;
图6b示出根据本发明的一个实施例的血液透析/血液过滤回路的进一步的细节;
图6c示出本发明的配置为在血液透析模式操作的体外血液处理系统的分解视图;
图6d示出其中本发明的体外血液处理系统配置为早血液过滤治疗方案下的实施例;
图6e示出其中紧凑歧管包括仅一个双路阀以确定系统的操作模式的另一实施例。
图7示出其中血液和透析液回路是完全一次性的,预装有透析器,并预包装在带有紧凑歧管的套件中的实施例;
图8示出紧凑歧管在便携透析系统中的安装;
图9示出具有成功安装的歧管的便携透析系统的另一个视图;
图10是示出在透析模式中的本发明的一个实施例的示意性图形;和
图11是示出在透析充灌模式中的本发明的一个实施例的示意性图形。
具体实施方式
尽管本发明可以以许多不同形式进行实施,但是为了便于理解本发明的原理,现参照在附图中示出的实施例并且特定的语言将用于描述所述实施例。然而,应当理解,并不打算因此限制本发明的范围。本发明所涉及的技术领域的技术人员通常能够想到的在描述的实施例中的任何变化和进一步修改以及如在此描述的本发明的原理的任何的进一步应用。
“治疗”、“处理”及其变体是指与病情相关的一个或多个症状或者体症的程度、频率或者严重性的任何降低。
“持续时间”及其变体是指从开始到结束的规定治疗的时间段,不管治疗是否因为病情治愈而结束或者治疗由于任何原因而中止。在治疗的持续时间中,可以规定多个治疗疗程,在所述疗程中对对象执行一个或多个规定的刺激。
“疗程”是指作为规定的治疗计划的一部分对对象执行一剂刺激的时间。
术语“和/或”是指所列要素的一个或者全部,或者所列要素的任何两个或多个的组合。
术语“包括”及其变体在出现在说明书和权利要求中的情形下并不具有限制的含义。
除非另有特别说明,“一”、“所述”、“一个或多个”和“至少一个”是可互换使用的并且指一个或超过一个。
对于包括离散的步骤的在这里公开的任何的方法,所述步骤可以以任何可行的顺序执行。并且,根据需要,两个或多个步骤的任何组合可以同时执行。
同样地,在这里,通过端点的数值范围的引用包括包含在该范围内的所有数字(例如,1至5包括1、1.5、2、2.75、3、3.80、4、5等)。除非另有特别说明,在说明书和权利要求中使用的表示部件数量、分子重量等的所有数字应当理解为在所有情形下都可以被术语“大约”修饰。相应地,除非另有相反说明,在说明书和权利要求中提出的数字参数都是近似值,其可以取决于本发明寻求获得的期望属性而变化。最起码,并且不是试图限制权利要求的范围的等同原则,每个数字参数应当至少根据所代表的明显的位数以及进行普通的取整技术进行理解。
尽管阐明本发明的宽的范围的数值范围和参数是近似值,但是在特定例子中提出的数字值被尽可能精确地汇报。但是,全部的数字值固有地包含在它们的各测试测量中发现的标准偏差所导致的必要的一定范围。
本发明消除了对具有消过毒的盐水的单独的包以及它的相关硬件的需要。在一个实施例中,本发明采用吸附剂产生的透析液,其在当回路的透析液侧被充灌时产生,作为用于血液侧的充灌流体。为了解释本发明的目的,本发明的充灌方法和系统中的示例性歧管将首先被描述。
图1示出用于体外血液处理系统100的流体回路,其用于进行血液透析和血液过滤。在本发明的一个实施例中,系统100实施为便携人工肾(PAK),其可以由患者使用来在家里进行透析。
参照图1,血液透析系统包括两个回路-血液回路101和透析液回路102。在透析过程中的血液治疗通过具有半透膜的交换器-血液透析器或者透析器103引入体外循环。患者的血液在膜(透析器)103的一侧上在血液回路101中循环,称作透析液的透析液体,其包括由医师规定浓度的血液的主电解液,在透析液回路102另侧上循环。这样,透析液流体的循环提供用于血液中的电解浓度的调整和调节。
在血液回路101中馈送不纯的血液到透析器103的来自患者的线路104设置有梗塞检测器105,其整体地连接到目视或者音响警报(未示出)以发出对血液流动的任何阻塞的信号。为了防止血液凝结,用于注射抗凝剂例如肝素到血液中的装置106,例如泵、注射器或者任何其它的注射装置,同样被提供。还提供蠕动泵107以保证血液在正常(期望)方向的流动。
压力传感器108设置在不纯的血液进入透析器103的入口处。其它压力传感器109、110、111和112设置在血液透析系统的各个位置,其帮助跟踪和保持在优势点的流体压力。
在来自透析器103的使用过的透析液流体进入透析液回路102的点上,血液泄漏传感器113被提供以传感和警告到透析液回路中的任何血细胞泄漏。一对旁通阀114同样提供在透析液回路的起点和终点,以使得在起动情形下,或者操作者认为需要的其它情形下,透析器可以由透析液流体流动绕过,但是流动仍得以维持。另一个阀115正好设置在充灌/排出端口116之前。端口116用于通过透析液溶液初始充注回路,并在透析后以及在一些情形下在透析过程中移除使用过的透析液流体。在透析过程中,阀115可以用于通过再次补充适当浓度的流体而更换掉用过的例如高浓度的钠透析液的一部分,以使得透析液的总的组分浓度保持在期望水平。
透析液回路设置有两个蠕动泵117和118。泵117用于泵送透析液流体到排出或者废物容器,以及用于泵送再生的透析液到透析器103中。泵118用于从透析器103泵送出用过的透析液,并通过吸附剂119对其施压,以及用于泵送入来自端口116的透析流体,用于充填系统或者维持透析液中的组分浓度。
吸附剂类型的盒119设置在透析液回路中,其包含数层材料,每层具有移除杂质例如尿素和肌氨酸酐的特定作用。这些材料的组合允许适于饮用的水充入到系统中,用作透析液流体。还允许闭合环透析。也就是,吸附剂盒使得能够从来自透析器的用过的透析液再生新的透析液。对于新的透析液流体,适当容量例如0.5、1、5、8或者10公升的衬里容器或者储存器120被提供。
取决于基于医师处方的患者要求,期望量的注入液溶液121可以加入到透析流体中。注入液121是包含矿物质和/或葡萄糖的溶液,其帮助在吸附剂进行的不期望的移除之后补充透析液流体中的例如钾和钙的矿物质到适当水平。提供蠕动泵122以泵送期望量的注入液溶液到容器120。照相机123可以任选地提供来监测注入液的不断改变的液位,作为注入液流动失效的安全检查警告。
提供加热器124以保持容器120中的透析液流体的温度在要求的水平。透析液流体的温度可以由正好位于流体进入透析器的入口之前的温度传感器125进行传感。容器120同样装备有:刻度尺126,用于跟踪容器中流体的重量以及由此的体积;以及电导传感器127,其显示透析液流体的电导率。电导传感器127提供透析液中钠水平的指示。
在来自患者的血液进入到用于透析的系统之前,提供医疗端口129。在来自透析器的清洁的血液返回到患者之前提供另一医疗端口130。空气(或者气泡)传感器131和弹簧夹132用于回路中以检测和防止任何空气、其它或者气泡返回到患者。
充灌装置133附连到血液透析系统,其通过在其用于透析之前用消毒盐水充注血液回路而帮助准备该系统。充灌装置可包括具有IV袋钉或者IV针或者预附连的二者的组合的短管部分。
本领域技术人员从上面关于用于血液透析的流体回路的讨论可以得出,血液透析和/或血液过滤系统是一种复杂的系统并包括数个元件。如果以传统的方式实施,该系统将呈现为管网,并且对于家庭透析用户来说配置和使用过于复杂。
因此,为了制造简单且易于患者在家中使用的系统,本发明实施系统为紧凑的歧管,其中如图1所示的流体回路的大部分部件集成为一件模制塑料或者配置为连接在一起以形成单一的操作歧管结构的多件模制塑料。
图2示出根据本发明的一个实施例的紧凑歧管的结构元件。一次性歧管泵送和导向流体流动,同时测量关键区域的压力。这些流体包括血液、透析液、注入液和抗凝剂。此外,歧管提供用于检测血液从透析器泄露的特征、用于检测动脉线路中的梗塞的特征和用于检测静脉线路中的空气的特征。
参照图2,在一个实施例中,紧凑歧管200包括具有固定地附连在那里的部件的多个塑料层。更具体地,歧管200包括以下元件:
后盖201
压力传感器膜202
阀膜203
中间主体204
前盖205
泵管部分(图2中未示出)
中间主体层204模制包含在一侧上的通道中。这些通道借助包括超声波焊接的许多方法通过固定地附着到中间主体的前盖层实现。该组合的前盖-中间主体结构形成歧管内的流体通路的主要部分。在中间主体204的相对侧上具有形成用于阀和压力传感的表面的特征,其连通到歧管前盖侧面上的流体通路。歧管包括用于阀和压力传感的弹性部件。这些弹性部件通过利用超声波焊接而收纳在后盖层和中间主体层之间,并且实现遍及歧管的流体通路。
参照图2,在一个实施例中,歧管200包括五个压力传感器膜202和三到四个用于双路阀的膜203。在一个实施例中,两个盖201和205以及歧管200的中间主体204由聚碳酸酯材料或者ABS(丙烯腈丁二烯苯乙烯)模制而成。压力传感器膜202和阀膜203由普通材料例如Santoprene,或者更优选地Sarlink,模制而成,所述材料为医学级弹性聚合物。在一个实施例中,前盖和后盖205和201可以由光学透明材料,至少对某些预选波长的光透明的材料,模制而成,以允许对包含在里面的流体进行光谱分析。
此外,该歧管优选地包括四个泵送部件。这些泵送部件是挤压成型的PVC管子的部分,其形成为并且尺度适合以具有优化用于泵用途,特别是滚子泵用途的属性。该管子接合到具有倒钩的配置,所述配置一体模制到歧管中间主体。四个泵送部件的一个用于从患者的动脉抽取血液并将其泵送通过透析器以及回到患者的静脉。两个泵送部件是用于透析液流动,以及一个是用于将注入液递送到透析液流体回路。单独的注射器泵可以用于在透析器之前泵送抗凝血剂到动脉血液通路中。
在一个实施例中,歧管进一步包括管子端口,优选地是在10-14个的范围,更优选12个端口,用于连接歧管内的所有流体通路到包括透析器、吸附剂盒、袋储存器、注入液容器、患者血液线路、抗凝血剂、传感器、充灌线路和排出线路的一次性装置中的其它的部件,如下面进一步讨论的。
在一个实施例中,歧管成形为大写的“I”,具有彼此平行的第一部分和第二部分以及连接部分,该连接部分a)垂直于第一部分和第二部分,并且b)用于连接第一和第二部分。在一个实施例中,连接部分连接第一部分的中央到第二部分的中央,从而使得连接部分和第一和第二部分的每个末端之间的距离为等距离的。应当认识到,连接部分可以布置在第一和第二部分的末端上,从而形成大写的“C”或者向后的“C”。歧管还可以相对于透析系统旋转,并且不必定位为大写的“I”,例如,它可以定位在它的侧面上或者成一定角度。如图3b所示,在示例性实施例中,歧管具有以下尺度:L1和L2是在4-7英寸范围内,优选大约5.7英寸,L3和L4是在0.5-1.5英寸范围内,优选大约1英寸,L5是在2.5-4.5英寸的范围,优选大约3.5英寸,L6是在1-3英寸的范围内,优选大约1.8英寸。尽管已经提供了上述尺度,但是应当认识到,在此公开的本发明并不限于任何特定尺度或者尺度的组合。
在一个实施例中,歧管200的装配工艺包括配合后盖201到中间主体204,同时通过使得膜的第一侧面物理地附着或者接触中间主体以及使得膜的第二侧面通过后盖201中的孔、空间或者空穴211而将膜202和203贴附就位。优选地,膜的第二侧面具有层级结构,其允许第一层级通过空穴211,而第二层级保留在后盖201和中间主体204之间。这贴附膜202、203到后盖201中。而且,优选地,中间主体204包含凹陷,膜202、203的第一侧面位于该凹陷中,从而将它们贴附到中间主体204。在替代的构型中,膜202和203可以以多射击模制工艺共模制到后盖201。
本领域技术人员将认识到,歧管的各个部件可以利用任何适当的装置边界接合或者固定在一起。在一些实施例中,中间主体和后盖之间的密封经由超声波焊接或者胶粘剂实现。替代地,可以采用激光焊接。前盖以类似的方式接合到中间主体的另一侧面。在一个实施例中泵管子部分溶剂接合就位,或者在替代实施例中,可以利用塑料中的吸收激光的添加剂对所述部分进行激光焊接。
在一个实施例中,前盖由透明的并且将提供对流体通路的可见性的BASF Terlux 2802HD,ABS模制而成。ABS的透明性同样提供一种用于检查超声波焊接的表面的完整性的手段。ABS由于其生物相容性以及对超声波焊接的兼容性而是优选的。此外,前盖可以包括模制在里面的纹理表面以帮助促进前盖和中间主体之间更好地接合。该纹理表面是一种本领域技术人员知晓的化学蚀刻工艺。一个优选的纹理深度为.0045”。其它适当的纹理也可以是激光蚀刻的。待焊接在前盖上的表面设计为具有.003”的凹陷,其转换为在模具上的.003”的升高表面。这提供精确的表面以接收纹理。一旦在模具上产生纹理,该.003”表面的高度降低。因为.0045”纹理深度的峰和谷,可以假定,平均值将是所述数量的一半或者.00225”。该结果将使得模具处于.00075”的钢安全条件中。
在一个实施例中,前盖提供动脉和静脉通路中的血流导向器。这些特征设计来最小化溶血。血流导向器提供用于整个通路中的始终如一的横截面积并最小化如果没有导向器的存在血液将接触到的锋利边缘。在血流导向器的相对侧面上的壁已经被用于提供模制塑料部分中的更加均一的壁厚度。这将防止在这个区域的沉孔,而沉孔会影响周围的焊接表面。在一个实施例中,前盖壁厚度是.075”。
任选地,前盖具有用于组装目的而设置的对齐孔,以保证在超声波焊接工艺过程中前盖和中间主体的精确对齐。对齐孔周围的升高的凸出部有助于最大化与焊接装置的对齐销的接触以使得塑料不会由于摩擦而容易地熔化。这些凸出部并不接触中间主体并且不焊接到中间主体以保证孔是特定的(patent)。
图3a提供本发明的紧凑歧管的中间主体部件的透视图。如图3所示,血液透析/血液过滤系统的整个血液和透析液流动路径301模制到中间主体中。用于血液提纯系统的各个功能元件302例如泵、阀和传感器的容纳器集成到紧凑歧管的中间主体部分中。
中间主体可以由BASF Terlux 2802HD,ABS模制而成。另一替代的ABS是Lustran 348,White。ABS由于其生物相容性以及对超声波焊接的兼容性而被选取。中间主体连同前盖提供用于歧管的流体路径通道。中间主体包含用于对接接头类型的超声波焊接的能量导引器。在一个实施例中,能量导引器的尺度为.019”高、.024”宽的底座。这产生.00023平方英寸的横截面积。焊接表面的宽度为.075”,从而产生大约.003”x.075”的焊接体积。对接接头类型的能量导引器由于其简单性以及能够控制模制部分的几何尺寸而比其它类型例如剪切接头、舌部和凹槽、阶梯接合,更为优选。通风孔设置在焊接几何结构中以防止俘获的气体强迫地通过焊接处,从而产生会导致泄漏的劣质的焊接。
中间主体的后盖侧优选地提供模制在里面的纹理表面以帮助促进后盖和中间主体之间的更好的接合。该纹理表面是本领域技术人员知晓的化学蚀刻工艺。优选的纹理深度为.0045”。其它的适当的纹理也可以是激光蚀刻。待焊接在中间主体上的表面设计有.003”的凹陷,其转换为模具上的.003”的升高表面。一旦在模具上产生纹理,该.003”表面的高度降低,因为.0045”纹理深度的峰和谷,所以可假定的是,平均值为该数量的一半,或者.00225”。该结果使得模具处于.00075”的钢安全条件中。
待焊接的模具的尺度会对超声波焊接工艺的成功具有主要影响。表面积越大,焊接工艺越困难。重要的是,精确控制焊接表面。在前盖和后盖中的均一厚度比平面度更为重要,因为在焊接工艺过程中,平面度稍微偏离的盖子将被挤压为平的。在中间主体上的平面度由于防止它在焊接工艺过程中变平的结构设计而是重要的。由于这些问题,非常重要的是,这些部分正确地设计并且不会趋于变形,例如翘曲、下沉,尺寸变化等。此外,模具结构和质量需要达到所述部分需要满足的高标准。相应地,模制工艺控制也将要求最高的标准。
后盖可以由BASF Terlux 2802HD,ABS模制。后盖包含用于对接接头类型的超声波焊接的能量导引器。能量导引器的尺度是.019”高、.024”宽的底座。这导致.00023平方英寸的横截面积。焊接表面的宽度是.075”,从而产生大约.003”x.075”的焊接体积。该.003”焊接体积在当确定组装的部件的几何结构是应当考虑。通风孔设置在焊接几何结构中以防止俘获的气体强迫地通过焊接处,从而产生会导致泄漏的劣质的焊接。在后盖中的对齐孔被提供用于组装目的以保证在超声波焊接工艺过程中后盖精确对齐中间主体。在后盖中的对齐孔还提供在正确装载时歧管和仪器的精确对齐。对齐孔周围的升高的凸出部设计来最大化与焊接夹具的对齐销的接触,以使得塑料不会由于摩擦而轻易地熔化。这些凸出部并不接触并且不焊接以保证孔是特定的。
超声波焊接由于其制造工艺的低成本而作为用于接合歧管三个主要部件的方法而被选取。产生焊接属性的相对低的设备成本和周期时间导致这种更低的制造成本。一旦各个部分装载到固定设备中,具有操纵杆的移动和移除的焊接周期可以在几秒内完成。实际的焊接时间为大约一秒。其它接合方法包括热板、激光器和UV胶粘剂。
参照图3a,在一个实施例中,中间主体部分300在其中集成有三个双路阀307、五个压力传感器306、一个梗塞检测器、一个气泡检测器和一个血液泄漏检测器。本领域技术人员将认识到,集成到中间主体部分300中的功能部件的数量和类型可以根据血液提纯系统的要求和应用而改变,因此可以包括1、2、3、4、6、7、8、9、10或者更多压力传感器,1、2、4、5、6或者更多的双路阀,0、2、3、4或者更多的梗塞检测器,0、2、3、4或者更多的气泡检测器,0、2、3、4或者更多血液泄漏检测器。此外,中间主体部分300包括多个端口303、304。
端口包括内部端口304,流体经由泵部分(未示出)从歧管300的第一和第二部分和在第一和第二部分之间流动通过内部端口304。在一个实施例中,第一部分具有四个内部端口304,在第一部分和连接部分连接的点的每个侧面上分别两个端口。应当认识到,第一部分可以具有1、2、3、5、6、7或者更多的内部端口。在一个实施例中,第二部分具有四个内部端口304,在第一部分和连接部分连接的点的每个侧面上分别两个。应当认识到,第二部分可以具有1、2、3、5、6、7或者更多的内部端口。此外,优选地,第一部分的内部端口的位置和定位与第二部分的内部端口的位置和定位镜像对称。端口还包括到歧管300外部的元件的外部端口303。在一个实施例中,第一部分具有两个外部端口303。在一个实施例中,第二部分具有十个外部端口304。在一个实施例中,第一部分具有1、3、4、5、6、7、8、9、10、11、12、13、14、15或者更多的外部端口303。在一个实施例中,第二部分具有1、2、3、4、5、6、7、8、9、11、12、13、14、15或者更多的外部端口304。
结合流体接触元件到歧管中,如上所述,使得能够设计这样系统:其中可再用的传感器安装在歧管配合到其上的透析设备中,而必要的一次性流体接触元件分离开并布置在歧管中,如上所述。为了保证正确的读数和测量,流体接触元件和可再用的传感器需要对齐。歧管和透析设备之间的配合和对齐关于定位和施加压力是关键的。典型地,这样的配合精度必须提供在X、Y和Z方向.001”-.010”的容差并施加在10-100PSI的安装力以通过歧管抵抗流体力。这样的关键的定位通过在歧管上的特定设计的定位表面实现,所述定位表面与透析设备上的互补定位表面对准。要求的力通过透析设备结构的分析和设计而被递送以允许在操作过程中在歧管内形成的全部流体和机械压力下X和Y位置和Z方向偏转小于大约.001”-.010”。因为歧管包含在一个整块的基板上的许多结构,这样的关键对齐仅需要一旦用于定位歧管的全部的特征以及透析设备的全部的配合特征时完成。
参照图9,在一个实施例中,歧管902安装在透析系统901的竖直前面板903上。歧管通过多个对齐机构准确定位在该面板903上。第一对齐机构包括多个在面板903中的对齐销,其接合歧管902中的对齐孔。第二对齐机构包括至少一个锁闩,其保持歧管903在特定的安装位置,直到门906闭合并且最终的精确位置得以获得。在一个实施例中,歧管的后盖在顶部和底部具有两个设计在其中的凸片。这些凸片在门闭合以及随后布置歧管的精确位置之前锁闩歧管在第一保持位置。凸片使得锁扣机构能够手动释放或者通过球体制动器释放,所述球体制动器要求用手强迫地移除歧管。在另一个实施例中,锁闩机构包括在后盖顶部上的弹簧加载的插入和释放机构。该机构具有在顶部锁闩和底部锁闩之间的连杆。当在顶部的释放机构被促动时,底部锁闩也释放。
第三对齐机构包括外形导引器908,其导向歧管902的整体位置和构型。外形导引器908优选地成形为与歧管902的物理结构配合、匹配或者否则互补。在一个实施例中,导引器908总体为矩形并配置来配合在由第一部分、第二部分和连接部分的侧面界定的空间内部。第四对齐机构包括门906,其具有至少一个弹簧装载压力板905,该板905将歧管902保持在门906和前面板903之间,从而施加用于阀和压力传感的足够压力。门906还包括四个压力靴,其施加足够压力到泵送部件用于流体的旋转蠕动递送。应当认识到,可以使用单独或者组合一个或多个对齐机构,以实现必要的对齐和用于歧管的受压位置。应当进一步认识到,对齐机构附连到透析装置壳体内的凹陷区域的表面。凹陷区域包括前面板903,面板903相对于透析装置壳体凹陷并由四个壁(第一壁、第二壁、第三和第四壁)界定,所述四个壁从前面板903向上延伸以接触并固定地附着到透析装置壳体。凹陷足够深并配置来接收门906。
中间主体通道尺寸在中间主体侧面上的通道的底部边角处名义上为在.190”深、.190”宽、.020”半径的范围内。在通道的底部边角处的半径应当是最大的以防止在通道壁下方产生沉孔。这些通道壁具有在中间主体的相对侧面上的阀和压力膜片几何结构,其在这些区域会不利地受到沉孔的影响。在一个实施例中,流体通路是正方形的。防止沉孔的总的设计规则是肋部(在这种情况中通道壁)的壁厚度应当不超过它所附着到的相邻壁的50-60%。通道壁是.075”,相邻的壁(主歧管结构)是.130”,从而产生58%。.190”x.190”的透析液通道通过孔过渡到.155”管子端口。这最小化对齐前盖与中间主体所需的精度并最小化更厚的壁产生沉孔的可能性,所述沉孔会影响在中间主体的相对侧面上的密封特征。相同的方法可以用于抗凝血剂和注入液通道。稍微的弯曲设计到通道中以最大化层流并最小化紊流。在一个实施例中,抗凝血剂和注入液通道,如下面讨论的,测量为.190”深、.100”宽。
在一个实施例中,中间主体具有用于组装目的的对齐孔以保证前盖和后盖在超声波焊接工艺过程中与中间主体精确对齐。在对齐孔周围的升高的凸出部最大化与焊接夹具的对齐销的接触以使得塑料不会由于摩擦而轻易地熔化。这些凸出部并不接触并且不焊接以保证孔是特定的。
图4是示出根据本发明的一个实施例的用于紧凑歧管的流体回路的细节的图形。流体回路包括四个蠕动泵P1401、P2402、P3403和P4404。它进一步包括五个压力传感器S1405、S2406、S3407、S4408和S5409,和一个温度传感器S6410。在如图4所示的实施例中,三对阀-V1A和V1B411、V2A和V2B 412和V3A和V3B 413-集成到歧管中。以这种方式归类,六对单向阀411A、B,412A、B,413A、B形成三个双路阀组件411、412、413。
泵管部分401、402、403、404接合到紧凑歧管中。多个端口设置在歧管中,其与歧管外部的管连接以允许各流体流入和流出歧管。这些端口连接到血液提纯系统中的各个管,用于传送流体,如下:
端口A415-血管到透析器430;
端口B 416-透析器输出(用过的透析液);
端口C 417-来自患者的血液;
端口D 418-用于混合在血液中的肝素;
端口E 419-储存器输出(新的透析液);
端口F 420-透析器输入(新的透析液);
端口G 421-透析器输出(血液);
端口H 422-患者返回(清洁的血液);
端口J 423-连接到充灌和排出线路;
端口K 424-储存器注入液输入;
端口M 425-来自注入液储存器的注入液;
端口N 426-透析液流入吸附剂。
在一个实施例中,形成为模制到歧管结构400中的通路的管部分连接肝素的流体流动,经由端口D418进入到血液的流体流动,经由端口C 417进入。组合的肝素和血液流动通过端口417a,经由泵401,并进入歧管400的端口417b。压力传感器与形成为模制在歧管结构400中的通路的管部分物理连通,该管部分相应地使得血液和肝素流体通过端口A415。在端口A415从歧管400流出的流体通过位于歧管400外部的透析器430。透析的血液通过端口G 421向后通入歧管400中,并进入管部分中,该管部分形成为模制到歧管结构400中的通路,也就是与压力传感器407物理连通。流体然后从管部分通过端口H 422并进入患者返回线路。
单独地,透析流体从储存器经由端口E 419进入歧管400。在储存器中的流体具有在其中的注入液,流体经由端口M 425进入歧管400,通过形成为模制在歧管结构400中的通路的管部分,通过另一个端口425a,通过泵402,经由端口425b回到歧管400中。注入液通过形成为模制在歧管结构400中的通路的管部分,并在端口K 424从歧管400出来,在那里它通入储存器中。经由端口E 419进入的透析流体通过形成为模制在歧管结构400中的通路的管部分,通过另一端口419a,通过泵403,并经由端口419b返回到歧管400中。
透析液流体通入形成为模制到歧管结构400中的通路的管部分,该管部分与一对阀411物理连接。形成为模制到歧管结构400中的通路的管部分使得透析液流体通过到达另一对阀413。管部分与压力传感器408以及任选的温度传感器410物理连通。透析液流体通过端口F 420从歧管400出来,进入通入到透析器430中的线路中。
从透析器430出来的线路使得流体通过端口B 416回通到歧管400中,并进入管部分中,该管部分形成为模制到歧管结构400中的通路,也就是与第一对阀411、第二对阀412和压力传感器406物理连通。使用过的透析液流体通过端口426B从歧管400出来,通过泵404,经由端口426a回到歧管中。与端口426a流体连通的管部分与压力传感器409物理连通并使得流体通过端口N 426并到吸附剂再生系统。
管子端口设计用于回路管子.268”x.175”管子或者抗凝血剂和注入液管子.161”x.135”。优选地,管子端口与适当的溶剂接合。
在一个实施例中,双路阀通过使得安装在仪器上的阀致动器压缩火山密封上的弹性膜片以防止透析液流动通过它的各通路而进行操作。火山密封开口为大约.190”直径以匹配通道几何结构。通过阀内部的横截面通路至少等效于阀打开时.190”直径。当阀处于闭合位置时,阀致动器和弹性膜片消耗火山密封周围的大部分流体路径空间,从而最小化进入空气的可能性。在中间主体上具有升高的塑料特征,其最小化流体路径内的死空间,以及放逐防止膜片在负压力情形下在中心流体路径周围坍塌。弹性膜片具有围绕它的周边的O圈特征,该O圈配合到中间主体表面上的凹槽中。O圈挤压在中间主体和后盖之间以形成流体紧密封。提供该设计,用于在O圈上大约30%的压缩。双路阀控制透析液流动通过歧管的方向。
中间主体包含允许通过利用仪器中的传感器跨过膜片监测流体压力的结构。流体被允许通过在后盖侧面上的膜片下面的入口和出口孔从中间主体的前盖侧面上的通道流动。通过压力传感结构的内部的截面通路至少等于.190”。内部通路设计来最小化空气滞留,同时提供与膜片的足够的流体接触。弹性膜片具有围绕它的周边的O圈特征,该O圈特征配合到中间主体表面上的凹槽中。O圈挤压在中间主体和后盖之间以形成流体紧密封。提供该设计,用于在O圈上30%的压缩。
阀和膜片可以由各种不同的材料并通过不同工艺进行制造。在一个实施例中,弹性部件是由硅树脂制造。在另一个实施例中,弹性部件是由各种热塑性塑料弹性体制成。两射击模制可以用于附着阀和膜片到后盖。阀和膜片的两射击模制将消除单独组装这些部件到歧管中的需要,因此减小劳动成本并提高歧管组件的质量。
泵送部件在歧管设计中已经被限定为PVC头部管。与仪器的旋转蠕动泵送系统组合的这些头部提供血液、透析液和注入液的流动。用于透析液、注入液和抗凝血剂的回路管子材料优选为抗扭结的,例如称作Colorite,Unichem PTN 780的管子(80A硬度计),其由Natvar挤压成型,全部是TEKINIplex公司的。用于透析液线路的管子尺度为从.268”x.189”到.268”x.175”的范围。
如上面提及的,用于透析系统的紧凑歧管还包括温度传感器(图4中的附图标记410)。在PAK的一个实施例中,温度传感器位于储存器组件中。但是,温度传感器还可位于储存器组件外面,并且在这样的实施例中,它可以集成到歧管中,如图4所示。
将温度传感器集成到歧管中有三个主要的方法。本领域技术人员将认识到,可以对每一方法进行变化,而不引起歧管总体设计的任何明显变化。这些方法讨论如下:
高传导性流体接触:
在高传导性直接流体接触方法中,金属盘构建到歧管的壁中,本领域已知的热敏电阻或者任何其它的适当的温度传感器布置为与透析设备侧面上的盘接触,与患者侧面上的流体接触。流体温度因此可以通过金属盘进行监测。
传统地,温度通过直接布置热敏电阻在流体流中而进行监测。使用金属盘来监测本发明中的温度提供避免污染以及因此清洁热敏电阻的需要的优点。
本领域技术人员将认识到,任何适当金属例如316类型的不锈钢的金属盘可以用于该目的。进一步地,可以采用对于当前应用适当的任何的热敏电阻。示例性热敏电阻是由Beta Therm制造的零件号码10K 3A1A。
在一个实施例中,金属盘是用于单个患者使用的,并且为一次性的,并且热敏电阻是透析设备的一部分并且可以再次使用。
介质传导性流体接触:
紧凑歧管的压力传感器膜(图2的附图标记202)是相对薄的,并且由介质导热性材料构成。典型的.040”的厚度被使用,并且能够在.005”-.050”中变化。材料越薄并且导热性越高,压力传感器膜将越高精度地传递透析流体的温度到安装在透析设备内部的压力传感器。通过设计,它们与在设备侧面上的压力传感器和患者侧面上的流体直接接触。布置适当温度的传感器在压力传感器内部允许监测流体温度。本领域已经知晓的某些压力传感器包括用于修正由于温度漂移所致的传感器的温度传感器。这样的具有温度传感特征的压力传感器可以用于本申请的目的。示例性的组合的压力-温度传感器是由Micron Instruments制造的型号MPT40。采用这样的传感器的组合避免测量的流体的直接接触并减小歧管中部件的数量。这提供对如在前面的方法中使用的金属盘的替代。
间接光学温度测量
如果歧管流体路径的塑料壁是有限厚度的,例如大约.020”,那么塑料壁将使得歧管内部的流体的温度平衡。在这样的情形下,非接触的光学温度测量可以从薄壁的外面进行,并且可以确定内部的流体温度。示例性的非接触光学温度传感器是由Melxis制造的零件号码MLX90614。非接触的方法提供优点:它不需要在歧管中的额外的部件。唯一的要求是在流体路径壁中的薄的部分。该方法提供低成本并且仍保持单一患者使用安全特征。
除了压力传感器和温度传感器,其它的传感器也可以被包括进来,用于与紧凑歧管集成。这些其它的传感器包括,但是不限于,氨传感器、pH传感器和电导率传感器。氨和pH传感器可以作为单个采取集成到歧管中,或者作为包括两个传感器的单一“模块”。
在歧管中的一体的电导传感器的一个可能的实施例是作为具有接触透析液流体的电销的电导率单元。示例性的电导率单元的技术细节示出在图5中。参照图5,电导率单元500包括用于施加小的稳定的电流到流体的偏压销501。传感销502检测流体中的电压,其中检测到的电压的大小依赖于流体的电导率和温度。通过利用挨着电导率单元500布置的热敏电阻503测量温度。替代地,温度可以由上面公开的方式之一进行确定。在已知在传感销502处测量的温度和电压的值的情况下,流体的电导率可以被确定。
通过偏压销501施加的电流可以是直流或者交流信号,并且一般是在50-100千赫频率范围。在一个实施例中,施加的电流的大小是在10mA数量级的。传感销502一般在电导率单元的制造过程中定位的深度的,典型地对于单元中的cal溶液为到±0.001英寸的深度。热敏电阻503具有0.5摄氏度的典型精度。
电导率单元可以通过驱动或者模制就位传导销(偏压销和传感销)到歧管主体中以使得它们接触透析液但是不允许透析液泄漏到歧管外面而构建到紧凑歧管的透析液流体通路中。
在一个实施例中,用于血液泄露、气泡和/或梗塞的传感通过在透析设备中包括光学传感器而实现,所述透析设备附着到并围绕歧管的预定区域。回过来参照图3a,歧管300包括多个管子支撑支架322,其有利于精确布置回路管子到光学传感器例如Optek传感器中,当歧管被安装并且门关闭时所述传感器单独安装在仪器中。传感器提供用于检测动脉线路中的梗塞,透析器下游的血液线路中的血液泄漏和静脉血液线路中的空气检测的装置。支架限制管子在传感器的一个侧面上,而管子端口进行在传感器的另一侧面上的限制。这些光学传感器是U形制造,当安装歧管时管子迫压到U形装置中。管子支撑支架提供对管子的支撑以使得全部的这三个传感器在装载歧管时通过相同的运动进行装载,不需要用户部分的额外的努力。
如更早前提及的,本发明的体外血液处理系统实施为便携人工肾(PAK),其能够根据需要在血液透析或者血液过滤构型中进行操作。为了允许用户选择期望的操作模式(血液透析或者血液过滤),在一个实施例中,系统设置有双路阀。这些阀可以通过用户促动以要么在一个操作模式中导向透析液流动通过透析器,要么在第二操作模式中递送注入液级的透析液直接流动到患者。这些双路阀还可以集成有透析回路的紧凑歧管。这示出在图6a中,应当注意到,在图6a-6e中,为了清楚的目的,相应的元件具有相同的标记。
参照图6a,体外血液处理系统600包括塑料模制的紧凑歧管610,其封套多个模制的血液和透析液流体路径以及多个传感器、阀和流体泵。透析器605在当连接到歧管610的动脉血管601和静脉血管602时完成系统600的血液回路。在一个实施例中,透析器605是一次性的。两个线路603和604用于分别循环用过的和新的透析液。为了以两种模式(血液透析和血液过滤)的任一操作系统600,提供双路阀645和备用双路阀646。备用阀646被采用,因为在血液透析中使用的透析液没有消毒并且不是充灌等级的,而在血液过滤中使用的流体是消过毒并且是充灌等级的。在血液透析模式中操作以及阀645泄漏或者其它的故障的情形下,阀646提供双重保护,防止流体泵送到患者血流中。包括备用阀646允许一个歧管安全地用于血液透析和血液过滤二者。如上面注意到的,双路阀例如备用阀646是由两个单一阀构成。在这种情况中,两个单向阀串联,并因此通过闭合双路阀646的两个端口,能够进行双重保护,防止透析液进入血流中。在替代实施例中,歧管可以被制造来仅用于血液透析,从而在透析流体回路和血液回路之间连接,并且阀646得以安全地消除。
图6b示出用于根据本发明的血液透析/血液过滤系统的回路的进一步的细节。参照图6b,用过的透析液和新的透析液管603和604分别连接到透析液再生系统606,从而完成系统600的透析液回路。透析液再生系统606进一步包括一次性吸附剂盒615和储存器634以保持通过盒615纯化的透析液。如图6b所示的系统的其它的部件以及它们的功能参照图6c进行解释,图6c示出配置来在血液透析模式中操作的体外血液处理系统600的分解视图。在图6b和6c中对应元件具有相同的附图标记。
参照图6b和6c,具有两个流体回路-血液回路620和透析液回路625。血液回路620包括沿着管601抽取患者的动脉的不纯血液并泵送血液通过透析器605的蠕动血液泵621。注射器装置607注射抗凝血剂例如肝素到抽取的不纯的血流中。压力传感器608布置在血液泵621的入口处,而压力传感器609和611布置在透析器605的上游和下游以监测在这些优势点的压力。因为提纯的血液在透析器605下游流动并回到患者,血液温度传感器612设置在线路中以跟踪提纯的血液的温度。空气消除器613同样被提供以从透析器移除积聚在清洁血液中的气泡。一对空气(气泡)传感器(或者任选地单一的传感器)614和夹捏阀616用在回路中以防止积聚的气体返回到患者。
透析液回路625包括两个双通道透析液泵626、627。透析液泵626、627从透析器605抽取用过的透析液溶液,并从储存器634抽取再生的透析液溶液。在来自透析器605的用过的透析液流体进入透析液回路602的点上,血液泄漏传感器628被设置以传感和防止任何到透析液回路中的血液泄露。来自透析器605的出口的用过的透析液然后通过旁通阀629以抵达双路阀630。压力传感器631布置在阀629和630之间。超滤液泵632设置在透析液回路中,其定期操作以从用过的透析液抽取超滤液废物并将其储存在超滤液袋633中,超滤液袋633被定期排空。
如以前提及的,用过的透析液通过利用吸附剂盒进行再生。通过吸附剂盒615再生的透析液收集在储存器634中。储存器634分别包括电导率和氨传感器661和662。从储存器634,再生的透析液通过节流器635和压力传感器636以抵达双路阀637。取决于患者的要求,期望量的来自储存器650的注入液溶液和/或来自储存器651的浓缩溶液可以加入到透析流体。注入液和浓缩液是包含矿物和/或葡萄糖的消毒溶液,其帮助保持透析液流体中的矿物质例如钾和钙在医师规定的水平。旁通阀641和蠕动泵642被提供以选择期望量的注入液和/或浓缩溶液并保证溶液适当地流动到从储存器634流出的纯化的透析液。
透析液回路包括两个双路阀630和637。阀630导向用过的透析液的一个流到透析液泵626的第一通道,用过的透析液的另一个流到透析液泵627的第一通道。类似地,阀637导向再生的透析液的一个流到透析液泵626的第二通道,再生的透析液的另一个流到透析液泵627的第二通道。
来自泵626和627的用过的透析液的流通过双路阀638收集,而来自泵626和627的再生的透析液的流通过双路阀639收集。阀638组合用过的两个透析液流为单一流,该单一流经由压力传感器640泵送,并通过吸附剂盒615,在那里用过的透析液被纯化和过滤,收集在储存器634中。阀639组合再生透析液的两个流为单一流,该单一流通过旁通阀647流动到双路阀645。压力传感器643和透析液温度传感器644设置在到双路阀645的透析液流动流上。
通过颠倒双路阀630、637、638和639的状态,两个泵626和627在它们的动作方面反过来,一个从透析器605抽出透析流体,另一个供应透析流体到透析器605。这样的反向在当相对于透析部分端时间地定期进行时,保证整个透析部分的更长的期间上泵送到透析器中的透析液流体体积等于泵送出去的流体量并且仅通过透析回路625拾取的总的流体体积是通过超滤液泵632移除的体积。
在血液透析模式中,如图6c所示,双路阀645允许再生透析液进入透析器605中以使得患者的血液能够正常血液透析。阀645的一侧闭合,从而通向患者的血液返回线路。另一个双路阀646用作替补,从而保持透析液形成患者的血液线路,即便阀645泄漏或者失效,阀646的两个端口都闭合。
在血液过滤操作模式中,如图6d所示,双路阀645可以被促动以导向来自储存器652的新的超高纯的透析液的流通过阀646,此刻两个端口都打开以直接进入从透析器出来并流回患者的提纯血液的流中。
本领域技术人员应当注意到,备用双路阀646是冗余的安全阀以保证在血液透析模式中一个阀645的失效不会导致再生的透析液直接充灌到患者中。也就是,出于安全的考虑,两个阀645和646都能够由用户促动以允许流体导向到患者的静脉血液线路。在一个实施例中,两路备用阀646是单一的阀允许或者停止流体流动。
本领域技术人员应当进一步注意到,在上面描述的阀称作“旁通”或者“两路”,其取决于它们的使用。这样,当阀旁通一些东西例如透析器时它们称作“旁通阀”。否则,它们称作“双路阀”并简单地在至少两个方向导向流动。但是,旁通和双路阀在结构上是相同的。
在一个实施例中,用于本发明的双路阀制造为弹性膜,其抵靠着口由包含在透析设备内部的机构挤压以停止具有与流体回路的剩余部分接触的流体的流。
如提及的,双路阀645和646能够用于改变用于血液处理系统的操作模式。图6d示出一实施例,其中系统600配置为在血液过滤规程下操作。参照图6d,在血液和透析液回路620和625中的流体流动被描述。因为所述系统是在血液过滤模式下操作,因此用过的透析液管603连接到排出口,而新的透析液管604连接到新的超高纯的和可注射等级的透析液储存器652。通过球体阀排出室653的新的透析液通过加热器袋654以流入新的透析液管604中。其余元件以及血液和透析液回路620、625的流体路径与图6c的那些相似,除了当用过的透析液被排出并且不再使用时在血液过滤规程中新的透析液或者更换的流体被引入透析液回路625中之外。通过图6d中的灰色阴影表示的是,在血液过滤模式中,结合部件642、650、641和651的注入液子系统并不使用。
参照图6d,血液回路620包括蠕动血泵621,其沿着管601抽取患者的动脉的不纯血液并泵送血液通过透析器605。任选的泵607注入抗凝血剂,例如肝素,到抽取的不纯的血流中。压力传感器608不再在血泵621的入口处,而压力传感器609和611布置在透析器605的上游和下游。来自透析器605的提纯的血液泵送通过管602,通过血液温度传感器612、空气消除器613和空气(气泡)传感器614并回到患者的静脉。夹捏阀616同样被布置以如果在夹捏阀616的上游的线路中的气泡传感器614传感到空气就停止血液流动,从而防止空气抵达患者。
透析液回路625包括两个双通道透析液泵626、627。透析液泵626、627分别从透析器605抽取用过的透析液溶液和从储存器652抽取新的透析液溶液。来自透析器605出口的用过的透析液被抽取通过血液泄漏传感器628和旁通阀629以抵达双路阀630。压力传感器631布置在阀629和630之间。超滤液泵632定期操作以从用过的透析液抽取超滤液废物并储存在超滤液袋633(其定期排空)中。来自储存器652的新的透析液通过节流器635和压力传感器636以抵达双路阀637。本领域技术人员将认识到,在该规程中,注入液和浓缩液不是必需的,相应地,与那些功能相关的元件641、642、650、651示出为“被灰掉”。在图6e的流体图形中,双路阀641以及泵642表示为灰色的,从而表明它们并不处于在用中,而是为图6a的公共的歧管610的一部分。
加热器袋654充分地升高新的透析液的温度以使得从透析器605回到患者的超滤器血液的温度或者来自透析器605的超滤器血液和通过促动阀645、646直接充灌到提纯的血液中的新的透析液的混合物的总温度相当于患者的身体温度,从而防止任何热冲击。
图6e示出其中图6a-6c的备用双路阀646并不在用的流体装置的替代实施例。现参照图6e,血液回路包括蠕动血泵621,其沿着管601抽取患者的动脉不纯血液并泵送血液通过透析器605。泵607注射抗凝血剂例如肝素到抽取的不纯血流中。压力传感器608布置砸死血泵的入口处,而压力传感器609和611布置在透析器605的上游和下游。来自透析器605的提纯的血液泵送通过管602,通过血液温度传感器612、空气消除器613和空气(气泡)传感器614并回到患者的静脉。在连接到患者的回路之前还布置夹捏阀616以如果空气被夹捏阀616的线路上游中的空气(气泡)传感器614传感到就完全停止血液流动,从而防止空气抵达患者。
透析液回路包括两个透析液泵626、627。透析液泵626、627分别从透析器605抽取用过的透析液溶液和从储存器634抽取再生透析液溶液。来自透析器605的出口的用过的透析液被抽取通过血液泄漏传感器628以抵达旁通阀629。流动传感器630是两个流动传感器的一个(另一个是流动传感器646),其确定流动通过回路的透析液的体积。阀630’在结构上类似于双路阀并用到旁通透析液泵626。阀630’一般在旁通方向闭合。在停止透析液泵626的情形下,阀630’打开以导向泵626周围的流动。压力传感器631布置在流动传感器630和阀630’之间。在正常流动过程中,用过的透析液经由压力传感器泵送,并通过吸附剂盒615,在那里用过的透析液被纯化和过滤。纯化/过滤的透析液然后进入储存器634。超滤液泵632定期操作以从用过的透析液抽取超滤液废物并存储在超滤液袋(未示出)中,该超滤液袋定期排空。
来自储存器634的再生透析液通过节流器635、透析液温度传感器644、流量传感器646和压力传感器636以通过旁通阀641抵达双路阀645。当旁通阀629和645和641的各流动路径被促动时,它们导向再生的透析液以绕过透析器605。来自注入液和浓缩液储存器650、651的注入液和浓缩液流通过注入液和浓缩液泵642、643分别导向到从储存器634出来的纯化的透析液和流量传感器630下游的用过的透析液中。
双路阀645确定系统600在什么模式操作。这样,在一个操作模式中,双路阀645允许再生的透析液进入透析器以使得能够正常地血液透析患者的血液。在另一个操作模式中,双路阀645被促动以导向超高纯的注入液等级的透析流体的流体流动到静脉血线路中并直接到患者。相应地,多功能阀使得操作模式能够在血液过滤和血液透析之间切换。例如,在如图6d所示的血液过滤中,可充灌等级的流体传输通过直接在血流中三个阀,在那里阀646连接到后透析器。在这个模式中,阀645防止透析液流体进入到透析器的下端口。在血液透析中,如图6c所示,阀646闭合而阀647和645传输透析液流体到透析器。
应当注意到,尽管图6c和6e的实施例表示两个不同的流动控制构思。尽管图6c的实施例使用泵交换和多个阀以控制流体容器,图6e的实施例使用流动传感器630和646以控制流体体积。
用于血液透析系统的流体回路的歧管的使用使得透析单元(便携人工肾或者PAK)能够为模块化的和便携的,具有改进的功能性。歧管可以制造为单独的单元,该单元可以容易地安装到透析单元中。图7示出其中血液和透析液回路是完全一次性的并包装在套件700中的实施例。套件包括透析器701、歧管702、管子703、阀704(作为歧管的一部分)、储存器袋705和其它的一次性部件。
图8示出安装在透析设备中的歧管。参照图8,透析设备801具有前门803,其能够宽地打开以安装一次性部件。对于安装,歧管804简单地需要插入在为了塑身目的在透析单元801中提供的空间中。安装透析器802还包括简单插入指定的凹陷中。前门803设置有泵靴,其使得一次性部件的装载非常容易,因为不需要泵管子来在辊和靴之间螺纹连接。进一步地,该配置允许以保证正确对齐非一次性部件例如压力读取器、传感器及其他部件的方式安装透析器802和歧管804。该包装的简单的方法使得能够容易地处理装载并清洁系统。还保证流动线路正确配置并易于使用。
本发明可以至少在两个不同模式进行操作:充灌模式和治疗模式,其能够包括其它的操作模式(例如血液透析、血液过滤或者简单地非充灌模式)。关于示例性的治疗模式并同时参照图4和图10,在透析模式操作的透析系统1000包括透析器1002、430、吸附剂再生系统(例如盒)1012、歧管1010、400、通过端口M 425进入歧管1010、400中的注入液或者透析液源1016和储存器1015,新的透析液经由端口E 419从储存器1015输入回到歧管1010、400。在操作中,血液进入血液线路1001中,通过端口C 417进入歧管1010、400中,通过处于第一位置的双路阀1021,并进入到透析器1002中。提纯的血液退出透析器1002、430,处于第一位置的通过双路阀1022,并通过端口G 421进入到歧管1010、400中。血液通过歧管,通过多个阀,如上面关于歧管400、1010描述的,并从端口H 422出来并进入血液线路1023中,从而进入患者中。
同时,从源1016通过的注入液或者透析液通入到歧管1010、400中,通过端口M 425,通过歧管,通过端口F 420出来,进入到透析液内部线路1024中并进入到透析器1002、430中。在通过透析器1002之后,透析液通过外线路1025并通过端口B 416回到歧管1010、400中,在那里,透析液经由端口N 426传输到基于吸附剂的透析液再生系统1012。再生的透析液经由端口E 419向后通过歧管1010、430并用新的透析液再循环通过透析器1002、430,如需要的话和当需要时。为了管理透析液流,储存器1015用于存储再生透析液,如果需要的话和当需要时。在一个实施例中,储存器容纳5公升的透析液并具有保持高达10公升的透析液和来自患者的流出物的容量。
关于示例性的充灌模式并同时参照图4和图11,在充灌模式操作的透析系统1100包括透析器1102、430、吸附剂再生系统(例如盒)1112、歧管1110、400、注入液源1116和储存器1115。在操作中,从患者(例如图10中的1001)到歧管1110、430中的血液线路并不连接并且因此没有血液流动,或者能够流动,通过端口C 417进入歧管1110、400。而是,从源1116通过的透析液通过端口M 425通入歧管1110、430,通过端口B 416出来,并通过透析液内部线路1124,该线路1124连接到双路阀端口1122。
在优选实施例中,单一双路阀结合到歧管的物理主体中并且操控以在治疗操作模式和充灌操作模式之间切换。在这个实施例中,歧管包括双路阀,其如果从第一位置(例如闭合)被促动或者切换到第二位置(例如打开)导致到在歧管内的液体内部流动路径的变化。由于该流动路径变化,血液和透析液回路,其在当阀闭合时彼此流体隔离,现在布置为彼此流体连通。优选地,不需要其它的阀或者开关来操控以为了实现该状态变化,也就是使得单独的血液和透析液回路变成流体连接的。
阀切换可以通过现有技术已知的任何方式实行,包括通过物理操控在歧管的表面上的机械控制器,或者通过操作透析设备而进行电子操控,从而导致通过透析设备和阀接口之间的接口转变阀状态,其中所述透析设备具有控制器以根据用户选择的操作模式控制阀的状态,所述阀接口集成到歧管的表面中。在一个实施例中,本发明形成双稳态的磁驱动阀,如在于2009年1月12日提交的美国专利申请No.12/351,969中公开的,该专利申请在此被引入作为参考。
在优选实施例中,透析设备包括接口,其为具有触摸屏按钮、物理键盘或者鼠标的图形用户截面,其可以被操控以使得装载有歧管的如图8和9所示的透析设备在治疗模式或者充灌模式中开始操控。当指示在治疗模式中操作时,控制器产生信号(响应治疗模式命令)以使得歧管阀从打开、充灌状态转换到闭合、治疗状态。当指示在充灌模式操作时,控制器产生信号(响应那个充灌模式命令)以使得歧管阀从闭合、治疗状态转换到打开、充灌状态。本领域技术人员将认识到,上述的全部控制和用户命令功能通过结合一个或多个处理器实行,从而执行体现上述指令的程序,所述指令存储在当地存储器中。
参照图4,在一个实施例中,两路或者两状态阀优选地定位在泵403的出口和泵401的出口之间的位置“V”处。在治疗模式,处于闭合位置的阀允许透析液流体流出泵403以循环通过歧管,通过端口F,并进入透析器430中。该透析液回路路径与血液回路流体隔离,在随偶数血液回路中血液流动通过泵401以循环出歧管,通过端口A并进入透析器430。相应地,在治疗模式,阀保证血液和透析液回路保持流体隔离。
在充灌模式中,阀将被打开,从而导致透析液流体流动通过泵403以在端口A通过歧管,进入到透析器430中,从透析器430出来,在端口G回到歧管中,并且在端口H从歧管出来。相应地,在充灌模式中,阀保证透析液循环通过血液回路,从而布置血液和透析液回路为流体连通。功能上,通过操控双路阀的状态,歧管布置在充灌模式中,优选地定位在歧管中的位置“V”。
在特定体积的透析液泵送进入和通过血液回路之后,双路阀闭合。透析液的泵送可以继续或者不继续。如果继续,新的透析液循环仅通过透析液回路。在血液回路中,剩余的透析液保留。为了从血液回路冲洗透析液,患者连接到“来自患者线路”1001,如图10所示,典型地称作动脉出入口线路。“到患者线路”1923,典型地称作静脉返回线路,要么保持在废物容器上,要么连接到患者。
布置系统在治疗模式中,来自患者的血液被抽取到血液回路中,经由端口C通入歧管中,通过泵401,在端口A从歧管出来,通过透析器430,在端口G回到歧管,以及在端口H向后从歧管出来。因此血液使得剩余的充灌流体“被驱赶”通过血液回路,从而移除在该工艺中保留的任何空气袋,并进入到废物容器或者患者二者之一中,其取决于静脉返回线路的连接状态。在血液已经完全充灌血液回路后,系统停止血泵或者用户手动停止泵。如果已经未连接,静脉返回线路然后连接到患者,治疗继续。
在另一个实施例中,过滤器,例如0.22μ过滤器,可以用于帮助移除任何剩余的不期望的物质,如果吸附剂小罐不适于产生基本上消毒的透析液的话。在一个实施例中,过滤器定位成与具有紧邻歧管端口E的储存器输入线路串联,并且在充灌与操作过程中都被使用。
通过利用该充灌系统,避免必须使用额外的单独的一次性用品组来仅仅是充灌回路的血液。特别地,本发明消除对单独的盐水源,特别是1公升的盐水袋的需求,相应地,也消除对到单独的盐水源的连接器和管子的需要,包括用于连接血液线路到盐水的双腔长钉或者单腔长钉。
尽管已经示出和描述目前认为是本发明的优选实施例的内容,但是,本领域技术人员应当理解,可以进行各种变化和修改,并且等效物可以替换其元件,而不脱离本发明的实际范围。此外,可以根据本发明的教导进行许多修改以适应特定情形或者材料,而不脱离本发明的中心范围。因此,意在的是,本发明并不限于作为实施本发明所能想到的最好的模式公开的特定实施例,而是本发明将包括落在所附权利要求的范围内的所有实施例。
Claims (20)
1.一种能够在充灌模式和治疗模式下操作的透析治疗系统,包括:
a.限定腔的壳体,所述腔能够容纳歧管,其中所述歧管包括:
i.包括第一层和第二层的塑料基板;
ii.由所述第一层的第一表面和所述第二层的第一表面限定的第一流动路径;
iii.由所述第一层的第一表面和所述第二层的第一表面限定的第二流动路径;以及
iv.与所述第一流动路径和所述第二流动路径都流体连通的阀,其中所述阀具有第一状态和第二状态,其中当处于所述第一状态时,所述第一流动路径和第二流动路径流体隔离,当处于所述第二状态时,所述第一流动路径和第二流动路径流体连通;以及
b.物理附着到所述壳体的阀接口,其中所述阀接口配置为传输信号到所述阀以使得所述阀在所述第一状态和所述第二状态之间切换。
2.如权利要求1所述的透析治疗系统,其中,所述歧管进一步包括:第一泵出口,其中所述第一泵出口接收由第一泵泵送的血液;第二泵出口,其中所述第二泵出口接收由第二泵泵送的透析液。
3.如权利要求2所述的透析治疗系统,其中,所述阀定位为与所述第一泵出口和所述第二泵出口相邻。
4.如权利要求3所述的透析治疗系统,其中,当所述阀处于第一状态时,所述第一泵出口和第二泵出口彼此流体隔离。
5.如权利要求3所述的透析治疗系统,其中,当所述阀处于所述第二状态时,所述第一泵出口和第二泵出口彼此流体连通。
6.如权利要求1所述的透析治疗系统,进一步包括控制器,其中所述控制器产生信号以使得所述阀在所述第一状态和所述第二状态之间切换。
7.如权利要求6所述的透析治疗系统,其中,所述控制器产生信号以响应使所述透析治疗系统采用充灌模式进行操作的命令使得所述阀从所述第一状态切换到所述第二状态。
8.如权利要求6所述的透析治疗系统,其中,所述控制器产生信号以响应使所述透析治疗系统采用治疗模式进行操作的命令而使得所述阀从所述第二状态切换到所述第一状态。
9.如权利要求1所述的透析治疗系统,进一步包括透析液储存器。
10.如权利要求9所述的透析治疗系统,其中,所述歧管的充灌通过利用来自所述透析液储存器而不是来自充灌流体的单独的源的透析液实施。
11.一种能够在充灌模式和治疗模式下操作的歧管,包括:
a.包括第一层和第二层的塑料基板;
b.由所述第一层的第一表面和所述第二层的第一表面限定的第一流动回路;
c.由所述第一层的第一表面和所述第二层的第一表面限定的第二流动回路;
d.与所述第一流动回路和所述第二流动回路都流体连通的阀,其中所述阀具有第一状态和第二状态,其中,当处于所述第一状态时,来自所述第一流动回路的流体不能进入所述第二流体回路,当处于所述第二状态时,来自所述第一流动回路的流体能够进入所述第二流动回路;以及
e.接收来自信号源的信号以使得所述阀在所述第一状态和所述第二状态之间切换的接口。
12.如权利要求11所述的歧管,其中,所述歧管进一步包括:第一泵出口,其中所述第一泵出口接收由第一泵泵送的血液;以及,第二泵出口,其中所述第二泵出口接收由第二泵泵送的透析液。
13.如权利要求12所述的歧管,其中,所述阀定位为与所述第一泵出口和所述第二泵出口相邻。
14.如权利要求13所述的歧管,其中,当所述阀处于所述第一状态时,所述第一泵出口和第二泵出口彼此流体隔离。
15.如权利要求13所述的歧管,其中,当所述阀处于所述第二状态时,所述第一泵出口和第二泵出口彼此流体连通。
16.如权利要求11所述的歧管,其中,所述接口响应采用充灌模式进行操作的信号使得所述阀从所述第一状态切换到所述第二状态。
17.如权利要求11所述的歧管,其中,所述接口响应采用治疗模式进行操作的信号使得所述阀从所述第一状态切换到所述第二状态。
18.一种用于充灌用于透析治疗中的透析设备内的歧管的充灌方法,包括下述步骤:
a.将所述歧管插入到所述透析设备中,其中所述歧管包括每个由基板限定的血液回路和透析液回路,以及与所述血液回路和透析液回路的每个流体连通的阀,其中所述阀具有第一状态和第二状态,并且其中当处于所述第一状态时,来自所述透析液回路的流体不能进入所述血液回路,当处于所述第二状态时,来自所述透析液回路的流体能够进入到所述血液回路中;
b.布置所述阀在所述第二状态中;
c.泵送透析液通过所述血液回路;
d.布置所述阀在所述第一状态;以及
e.从所述血液移除透析液。
19.如权利要求18所述的充灌方法,其中,所述透析液从透析液储存器泵送,而不从充灌流体的单独的源泵送。
20.如权利要求18所述的充灌方法,其中,所述阀通过通信来自定位在所述透析设备内的控制器的信号而布置在所述第一状态或者第二状态中。
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US11278654B2 (en) | 2017-12-07 | 2022-03-22 | Medtronic, Inc. | Pneumatic manifold for a dialysis system |
US11033667B2 (en) | 2018-02-02 | 2021-06-15 | Medtronic, Inc. | Sorbent manifold for a dialysis system |
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CA2976872C (en) | 2021-04-13 |
EP2334412B1 (en) | 2019-08-21 |
AU2009302327B2 (en) | 2015-02-26 |
CN105148344B (zh) | 2019-06-11 |
EP3586946B1 (en) | 2023-03-29 |
US9968725B2 (en) | 2018-05-15 |
AU2009302327C1 (en) | 2015-09-10 |
CA2976872A1 (en) | 2010-04-15 |
US20100116740A1 (en) | 2010-05-13 |
AU2009302327A1 (en) | 2010-04-15 |
US20190111201A1 (en) | 2019-04-18 |
MX343532B (es) | 2016-11-09 |
WO2010042666A3 (en) | 2012-06-28 |
US20120204968A1 (en) | 2012-08-16 |
CA2739786A1 (en) | 2010-04-15 |
US20170021085A1 (en) | 2017-01-26 |
EP3586946A1 (en) | 2020-01-01 |
US20210001033A1 (en) | 2021-01-07 |
US10758662B2 (en) | 2020-09-01 |
NZ592653A (en) | 2013-11-29 |
CN102307650B (zh) | 2015-09-16 |
CA2739786C (en) | 2018-01-02 |
HK1218890A1 (zh) | 2017-03-17 |
MX2011003737A (es) | 2011-09-06 |
CN105148344A (zh) | 2015-12-16 |
US9295772B2 (en) | 2016-03-29 |
HK1165749A1 (zh) | 2012-10-12 |
EP2334412A2 (en) | 2011-06-22 |
WO2010042666A2 (en) | 2010-04-15 |
US8137553B2 (en) | 2012-03-20 |
EP2334412A4 (en) | 2017-08-23 |
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