RU218268U1 - Container pathoanatomical - Google Patents

Abstract

The utility model relates to medical equipment, in particular to devices for transporting, storing and performing multislice computed tomography of newborn corpses in order to establish a post-mortem diagnosis. The pathoanatomical container made of layers to prevent the spread of an unpleasant odor, leakage of liquid, release of biologically hazardous contaminants has a rigid structure, the walls of which are made of high-pressure polyethylene with a thickness of at least 80 microns, the container is equipped with two rulers for measuring the linear dimensions of newborn corpses, contains an inner layer of fibrous carbon-filled material based on polyurethane, mated with the container from the inside on all sides, except for the top face, and has a substrate of a layer of polypropylene fabric designed to fix the underlying granular absorbent layers, a layer made of fibrous carbon-filled material based on polyurethane , a layer of polymer superabsorbent based on sodium polyacrylate with a granule size of 1-2 mm, a layer of acrylic sheet, a layer of cellulose superabsorbent. The pathoanatomical container has tightness and high strength, inhibits the spread of an unpleasant odor, prevents the leakage of liquids, the spread of biologically hazardous contaminants and allows post-mortem multislice computed tomography to be performed without removing the body from the container.

Description

The utility model relates to medical equipment, in particular to devices for transporting, storing and performing multislice computed tomography of newborn corpses in order to establish a post-mortem diagnosis.

Known sealed container for storage of remains with odor protection (patent US 5659933), made of flexible multilayer laminated walls, forming an internal chamber to accommodate the remains. The multilayer laminate includes two layers of polymeric sheet material with a layer of metal foil located between them. The polymeric laminates include polyolefin, nylon, or polyvinyl sheet materials and metal foil, which is aluminum foil.

The disadvantage of this device is the use of metal foil, which makes it difficult to carry out post-mortem multislice computed tomography.

Closest to the claimed technical solution is a sealed package (patent RU 210923), including a blank of composite material welded along the edges with a transverse seam, while the package film contains four layers: thermal varnish, polyethylene terephthalate, foil and medium pressure polyethylene. The metallized protective film bag is airtight when sealed, prevents the spread of an unpleasant odor, leakage of liquid, release of biohazardous contaminants and transmits x-rays.

The disadvantage of this model (prototype) is the presence of a layer of aluminum foil, which reduces the throughput for x-rays, which makes it difficult to conduct multispiral computed tomography of corpses to establish an accurate post-mortem diagnosis.

In addition, the hermetic bag is a non-rigid structure that, during transportation, can lead to additional damage to the body and cause an erroneous post-mortem diagnosis.

The objective of the utility model is to eliminate these shortcomings and create a device for transporting, storing and performing multislice computed tomography (MSCT) of the corpses of newborns in order to establish a post-mortem diagnosis.

The task is solved by a rigid structure of the pathoanatomical container, made of several layers of materials that make it airtight, prevent the spread of an unpleasant odor, prevent the leakage of liquid and the release of biologically hazardous contaminants and is applicable for MSCT of newborn corpses without removing them from the container in order to establish a post-mortem diagnosis.

The utility model is illustrated by the attached drawings, where

in fig. 1 shows a three-dimensional image of the container 1 with a zipper 8 and rulers 9.

Figure 2 shows the layers 3-7 of the substrate of the container 1.

The container 1 is made of high pressure polyethylene with a wall thickness of at least 80 µm. This wall thickness provides structural rigidity, resistance to mechanical damage and reliable isolation from the environment. The upper face of the container 1 is equipped with a zipper 8 for opening and closing the container from above and rulers 9 26 cm long along the end face of the container 1 and 38 cm long along the side face of the container 1. Rulers 9 are used to measure the linear dimensions of the corpses of newborns without being removed from the container. The inner layer 2 of fibrous carbon-filled material based on polyurethane is designed to adsorb cadaveric odor. The material consists of 50% activated carbon, the air permeability of this material is 300-350 dm ³ /m ² ⋅sec, and the benzene sorption capacity is 160-180 mg/g, which eliminates the possibility of odor spreading outside the container. Layer 2 is connected to container 1 from the inside on all sides, except for the top face. Layer 3 of polypropylene fabric (spunbond) is designed to fix the granular absorbent layers below and prevents possible mechanical damage to the corpse during its transportation, preventing direct contact of the body with absorbent granules. Optimum tissue density is in the range of 20 - 30 g/m ² , which provides the mechanical strength of the fabric from possible ruptures and does not prevent the penetration of liquid cadaveric poisons to absorbents. Layer 4 is made of the same material as layer 2 and serves to further prevent the spread of putrid odor. Layer 5 is a polymeric superabsorbent and is designed to absorb and retain cadaveric fluid. These are granular fractions based on sodium polyacrylate with a granule size of 1-2 mm for their uniform distribution in the layer. The grease trap layer 6 is made of an acrylic sheet designed to absorb grease. Layer 7 is a cellulose superabsorbent and is intended for greater adsorption of cadaveric secretions. Cellulose in this case acts as an additional barrier to retain cadaveric fluid.

The pathoanatomical container has tightness and high strength, inhibits the spread of an unpleasant odor, prevents the leakage of liquids, the spread of biologically hazardous contaminants and allows post-mortem MSCT to be performed without removing the body from the container. Its rigid design during transportation does not lead to additional damage to the body, which can cause an erroneous post-mortem diagnosis during MSCT of newborn corpses. The proposed container has industrial applicability, because. made using well-known technologies and materials.

As an example of the implementation of the utility model, showing the possibility of its use as a device for transporting, storing and performing multislice computed tomography of the corpses of newborns in order to establish a post-mortem diagnosis, a pathoanatomical container, of a rigid design, was made from high-pressure polyethylene with a wall thickness of 100 μm, equipped with two rulers for measuring the linear dimensions of the corpses of newborns, without removing from the container, and having a substrate made of a layer of fibrous carbon-filled material based on polyurethane, a layer of polypropylene fabric, an additional layer of fibrous carbon-filled material based on polyurethane, a layer of superabsorbent polymer based on sodium polyacrylate with a size granules 1-2 mm, a layer of cellulose superabsorbent. (Fig. 3). This container was tested in medical institutions of the Omsk region (BUZOO OKB, BUZOO BSME) and confirmed the possibility of achieving the stated technical result.

Claims (1)

Pathological anatomical container made of layers to prevent the spread of an unpleasant odor, leakage of liquid, release of biologically hazardous contaminants, characterized in that it has a rigid structure, the walls of which are made of high-pressure polyethylene with a thickness of at least 80 microns, the container is equipped with two rulers for measuring the linear dimensions of the corpses of newborns, contains an inner layer of fibrous carbon-filled material based on polyurethane, mated with the container from the inside on all sides, except for the upper face, and has a substrate of a layer of polypropylene fabric designed to fix the underlying granular absorbent layers, a layer made of fibrous carbon-filled material based on polyurethane, a layer of polymeric superabsorbent based on sodium polyacrylate with a grain size of 1-2 mm, a layer of acrylic sheet, a layer of cellulose superabsorbent.

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