RU2133128C1 - Centrifugal pump for assisted blood circulation - Google Patents

Abstract

FIELD: cardiology and cardiac surgery; may be used in treatment of acute cardiovascular insufficiency. SUBSTANCE: pump body is made of flexible material allowing variation of geometry of pump flow passage under pulsing conditions to provide for minimal blood injury, minimum energy losses and increased pump head. Pump includes impeller consisting of driving disk where magnet is installed for rotation of impeller, vanes or intermediate disk, covering disk (bandage). Impeller is installed on shaft and supported in bearings. Flexible body with inlet and outlet pipe unions is secured in base. Body thickness is not in excess of 0.3 mm. EFFECT: reduced injury to blood and higher pump head. 1 dwg

Description

 The invention relates to devices used in medicine, in particular in cardiology and cardiac surgery, for the treatment of acute cardiovascular failure.

 Known centrifugal pump for auxiliary blood circulation Biopump (BioMedicus, USA), comprising an impeller with disks, a magnet mounted on a shaft in bearings, a rigid housing with input and output fittings, base [Shumakov V.I., Tolpekin V.E., Popov T.A. Atlas of auxiliary circulation. Alma-Ata. - 1992. - 301 p.].

 Centrifugal pumps connected to the left ventricle, as devices for auxiliary circulation, always operate in pulsating modes, when, due to the contraction of the left ventricle, the pressure at the pump inlet and the blood flow through it change. The geometry of such pumps is designed for rated operation. In other modes, there are flow breaks from the working elements of the impeller. Therefore, the known and currently used pumps cause significant blood injury and have a low pressure.

 The aim of the invention is to reduce blood injury and increase the pressure of the pump. This is achieved by the fact that the pump casing is made of an elastic material, while the thickness of the elastic casing is not more than 0.3 mm, which allows changing the geometry of the pump flow part in pulsating operation modes and thereby ensuring minimal blood injury, minimal energy loss and increased pressure pump.

 The drawing shows a General view of the proposed pump for secondary circulation, which includes an impeller, consisting of a drive disk 1, in which a magnet 2 is installed, through which the impeller, blades 3 or an intermediate disk, a cover disk (bandage) 4 mounted in bearings 5 on shaft 6, an elastic housing 7 with input 8 and output 9 fittings, mounted in the base 10.

 The device operates as follows. The inlet fitting 8 through the tube, the pump is connected to the left ventricle. Under the influence of a rotating wheel, blood from the left ventricle is pumped into the aorta through the outlet fitting and the tube connected to it. The rotation of the impeller is carried out from an external electric drive through a magnet 2, mounted in the impeller. The pump operates in a pulsating mode due to contraction of the left ventricle. Changes in the pressure at the inlet to the pump and the flow through it due to the elasticity of the pump casing cause synchronous changes in the geometry of the pump casing (the elastic casing is compressed or stretched), reducing the flow separation zones, ensuring minimal blood trauma and an increase in pressure.

 The use of a centrifugal pump with an elastic casing with a thickness of not more than 0.3 mm made it possible to reduce blood trauma by 20–15% and increase the pump head by 30–40%.

Claims (1)

 A centrifugal pump for auxiliary circulation, comprising a housing fixed at the base with inlet and outlet fittings, an impeller mounted in bearings on the shaft and consisting of a drive disk in which a magnet is mounted that interacts with an external electric drive, vanes or an intermediate disk and a cover disk, characterized the fact that the body is made of elastic material and its thickness is not more than 0.3 mm