RU101925U1 - MEMBRANE BANDAGE - Google Patents

Abstract

 A membrane dressing comprising a semipermeable membrane, a dialysis solution injection and withdrawal system, characterized in that the dressing is made of two tubular semipermeable membranes sealed on an arcuately bent polyvinyl chloride tube, the ends of which are connected by a triple adapter; with a clamp mounted on it, while in the part of the arcuately bent tube located in the cavity of the membranes, 5 semilunar from versts.

Description

The utility model relates to medicine, in particular to surgery, and can be used in the local treatment of superficial wounds, as well as purulent-septic diseases of the skin and soft tissues.

The known method of wound dialysis using drainage from a semipermeable membrane, which provides, on the one hand, stable diffusion of drugs in the body tissue, and on the other hand, the removal of toxic products from the wound cavity [1]. The method is widely used in various fields of surgery, but it is ineffective, since it does not provide for the circulation of dialysate in the cavity of the membrane capsule. In addition, the replacement of the spent dialysis solution in the known method is carried out by repeatedly removing the membrane capsule from the wound, which leads to pain and disruption of reparative processes in the wound.

Closest to the proposed model in technical essence is a device for wound membrane dialysis of purulent-inflammatory diseases [2]. This device includes a membrane capsule with a medicinal composition and a tubular microirrigator for changing spent dialysis solution. 1/3 of the membrane capsule is filled with a highly osmotic 15% solution of chitosan ascorbate with a molecular weight of 15 ± 5 kDa and a deacetylation degree of at least 96%. However, this device cannot be effectively used in the treatment of superficial purulent wounds, since a single membrane capsule cannot provide wound dialysis of the entire wound surface due to the small coating area.

The objective of the utility model is to create a membrane dressing that provides reliable and efficient transmembrane dialysis of superficial purulent wounds.

The problem is achieved due to the fact that the dressing is made of two tubular semipermeable membranes, hermetically fixed to an arcuately bent PVC pipe, the ends of which are connected by a triple adapter, and a piece of PVC pipe is fixed at the free end of the adapter with a clip mounted on it, while in part arcuate bent tube located in the cavity of the membranes, made 5 semilunar holes.

Fig. 1 shows a membrane dressing, where 1 is a polyvinyl chloride tube; 2 - two tubular semipermeable membranes; 3 - semilunar holes; 4 - a segment of a polyvinyl chloride tube; 5 - clamp; 6 - triple adapter.

The membrane dressing consists of two tubular semipermeable membranes (2), tightly fixed to a polyvinyl chloride tube (1) with a diameter of 4 mm. Five half-moon holes (3) are made in the part of the tube located in the cavity of the membranes, through which the cavities of the membrane capsules are filled with a dialysis solution. The ends of the PVC pipe are interconnected by a triple adapter (6), on the free end of which a piece of PVC pipe (4) is fixed with a clip (5) mounted on it. Through the tube (4), the dialysis solution is replaced with a 20 ml syringe. Elastic pyrogen-free tubes (1) and (4) are made of polyvinyl chloride. Any type of semipermeable membrane can be used as a membrane capsule, but the most effective are dialysis tubular membranes made of synthetically modified cellulose (SMC) with a lumen diameter of 20 mm, a pore size of 3.0 nm, manufactured by Sigma-Aldrich Fine Chemicals (United States).

The dialysis solution is replaced as follows: 1) open the clamp (5) on the polyvinyl chloride tube (4); 2) attach a 20 ml syringe to the free end of the PVC tube (4); 3) to aspirate the spent dialysis solution from the cavities of the membrane dressing; 4) with another 20 ml syringe, introduce a new dialysis solution of the same concentration and volume; 5) close the clamp (5) on the PVC pipe (4).

Before applying to the wound surface, the membrane dressing is sterilized, for this it is placed for 1 hour in a 1% formalin solution, and then for 20-30 minutes in a physiological solution for washing off formalin. After sterilization, a dialysis solution is introduced into the membrane dressing in such a way that the cavity of the membrane capsules is 1/2 of their possible volume, after which the membrane dressing is placed on a previously treated wound surface, after which gauze napkins are applied over the membrane dressing and the membrane dressing is fixed to the surface of the skin with a gauze bandage.

Since the membrane capsules are 1/2 1/2 filled with the dialysis solution, and the dialysis solution absorbs wound exudate during dialysis, the membrane capsules fill up completely during the day. The spent dialysis solution is replaced once a day; the total duration of treatment of purulent wounds with a membrane dressing is 5-8 days, depending on the size of the wound area. The therapeutic effect of the membrane dressing is provided by diffusion on the wound surface through the pores of the membrane of the drug solution and the active sorption of toxins and exudate from the wound. As a dialysis solution, a mixture consisting of 6 grams of Polysorb MP enterosorbent with 50 ml of wound antiseptic Octenisept and 20 ml of Ringer-Locke solution was used.

The therapeutic effect of the use of a membrane dressing is achieved by creating optimal conditions in the wound for preserving and activating the natural mechanisms of antimicrobial protection, cleansing and regeneration; due to the continuous uniform diffusion in the tissue of medicinal substances and detoxification, a decrease in the frequency of purulent-septic complications, a sparing effect on the wound surface due to incomplete filling of the membranes with a dialysis solution and communication of the cavities of the membrane capsules with each other.

Thus, the use of the proposed membrane dressing does not require special energy-intensive equipment and allows for effective local detoxification of superficial purulent wounds, both in stationary and in extreme conditions of peacetime and war.

Information sources:

1. Vinnik Yu.S., Miller S.V., Karapetyan G.E. et al. Drainage in surgery. - Krasnoyarsk, 2007. - P.32-33;

2. RF patent No. 2228758, А61К 31/722, BIPM No. 26, 05.20.2004.

Claims (1)

A membrane dressing comprising a semipermeable membrane, a dialysis solution injection and withdrawal system, characterized in that the dressing is made of two tubular semipermeable membranes sealed on an arcuately bent polyvinyl chloride tube, the ends of which are connected by a triple adapter; with a clamp installed on it, while in the part of the arcuately bent tube located in the cavity of the membranes, 5 semilunar from versts.