METHOD FOR CLEANING, DETOXIFYING AND CELLS AND TISSUES PRESERVATION OF FRESH ANIMAL LIVER

Abstract

The present application relates to a method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps: taking out a whole fresh liver from an animal body quickly and removing the gallbladder, with blood vessels in first porta hepatis of the liver being retained; dissecting quickly and determining portal vein, biliary tract, hepatic artery and upper and lower ends of the inferior vena cava, and then inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery; perfusing a perfusate into the catheters, eliminating macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver continuously and flushing bitter bile out from the biliary tract meantime; and completing processing of the liver when the fresh liver becomes white from blood red. It can be guaranteed that cells and tissues of the liver are not damaged as far as possible, and toxins, blood and harmful substances in the liver can be eliminated after the liver is treated by the method.

Claims

1. A method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps: S1: taking out a whole fresh liver from an animal body quickly and removing gallbladder, with blood vessels in first porta hepatis of the liver being retained when taking out the liver; S2: spreading the liver taken out gently on a clean plane, dissecting the first porta hepatis of the liver quickly and determining portal vein, biliary tract, hepatic artery and upper and lower ends of inferior vena cava, and inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery; S3: perfusing a perfusate of 30 C.-35 C. into the catheters in the portal vein, the hepatic artery and the biliary tract, the perfusate fully flows into a hepatic sinusoid system through the portal vein and the hepatic artery and fully flows into a biliary system through the biliary tract; S4: perfusing the perfusate continuously, macrophages and immune cells containing toxins, blood and harmful substances in the liver are eliminated from the upper and lower ends of the inferior vena cava continuously and bile is flushed out from the biliary tract system; S5: perfusing continuously, until the fresh liver becomes white from blood red, and then taking down the catheters from the portal vein, the biliary tract and the hepatic artery of the liver to complete the vascular perfusion cleaning, detoxification and cells and tissues preservation of the liver.

2. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein a length of the blood vessels retained in the first porta hepatis is 3 cm to 4 cm.

3. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein, in step S1, ensuring integrity of surface capsula of the liver taken out.

4. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein, in step S2, fixing joints where the blood vessels of the portal vein, the biliary tract and the blood vessels of the hepatic artery connect with the catheters.

5. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein, in step S3, a perfusion speed of the perfusate is 20-30 ml/s.

6. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein, in step S3, the perfusate is a solution of water and salt, and a ratio of the salt to the water is 8.5-9 grams of the salt per thousand milliliters of the water.

7. (canceled)

8. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 1, wherein, in step S5, the vascular perfusion cleaning, detoxification and cells and tissues preservation of the liver are completed when the fresh liver becomes white from blood red.

9-12. (canceled)

13. The method for cleaning, detoxifying and cells and tissues preservation of the fresh animal liver of claim 5, wherein, in step S3, the perfusate is a solution of water and salt, and a ratio of the salt to the water is 8.5-9 grams of the salt per thousand milliliters of the water.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] FIG. 1 is a micrograph of the morphology of liver tissues after being vascular perfusion cleaned according to Embodiment 1 (4 objective);

[0023] FIG. 2 is a micrograph of the morphology of liver tissues without vascular perfusion cleaning (4x objective);

[0024] FIG. 3 is a micrograph of the morphology of liver tissues after being vascular perfusion cleaned according to Embodiment 1 (10 objective);

[0025] FIG. 4 is a micrograph of the morphology of liver tissues without vascular perfusion cleaning (10 objective);

[0026] FIG. 5 is a micrograph of the morphology of liver tissues after being vascular perfusion cleaned according to Embodiment 1 (20 objective);

[0027] FIG. 6 is a micrograph of the morphology of liver tissues without vascular perfusion cleaning (20 objective);

[0028] FIG. 7 is a micrograph of the morphology of liver tissues after being vascular perfusion cleaned according to Embodiment 1 (40 objective);

[0029] FIG. 8 is a micrograph of the morphology of liver tissues without vascular perfusion cleaning (40 objective).

DETAILED DESCRIPTION OF THE INVENTION

[0030] The present application will be further described below in conjunction with specific embodiments.

[0031] The present application relates to a method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps:

[0032] S1: Taking out a whole fresh liver quickly from an animal body, removing gallbladder, with blood vessels in first porta hepatis of the liver being retained when taking out the liver. The propose of retaining the blood vessels in the first porta hepatis of the liver is to make it easier to determine the blood vessels during the subsequent dissection and perfusion and insert catheters into the blood vessels quickly.

[0033] S2: Spreading the liver taken out gently on a clean plane, dissecting the first porta hepatis of the liver quickly and determining portal vein, biliary tract, hepatic artery and upper and lower ends of the inferior vena cava, and then inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery, respectively. Wherein, the upper and lower ends of the inferior vena cava are not limited to upper and lower ends and may also be represented as two ends of the inferior vena cava.

[0034] S3: Perfusing a perfusate of 30 C. to 35 C. into the catheters in the portal vein, the hepatic artery and the biliary tract, the perfusate fully flows into a hepatic sinusoid system through the portal vein and the hepatic artery and fully flows into a biliary tract system through the biliary tract. If the temperature of the perfusate is too low, the blood in the hepatic sinusoid would coagulate quickly, which is unfavourable for the perfusion process. If the temperature of the perfusate is too high, it is easy to destroy cells and tissues of the liver. Therefore, the temperature of the perfusate is selected as a temperature which is close to the animal's body temperature for perfusion. It can be understood that the temperature of the perfusate can be rationally selected within the above range, for example, it can be 32 C., 33 C., 34 C., etc.

[0035] The processes of slaughtering animals, taking out the liver and the perfusion should be performed quickly. If it is failed to perform the perfusion within a very short period of time, the blood in the hepatic sinusoid of the liver would coagulate quickly, and the internal liver tissues and immune cell structure would be autolyzed and destroyed. Therefore, in order to ensure the freshness of the liver, the perfusion must be performed within a very short period of time to keep the liver tissue structure from being destroyed. During the actual operation, it takes within ca.10 minutes.

[0036] S4: Perfusing the perfusate continuously, macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver are eliminated from the upper and lower ends of the inferior vena cava continuously and bile is flushed out from the biliary tract system. By perfusing and washing the hepatic sinusoid system and biliary tract system of the liver respectively, macrophages and other immune cells containing a large number of toxins, blood and harmful substances, as well as bile are removed. This guarantees the liver food product safety, and removes bitterness of the liver food product.

[0037] S5: Perfusing continuously, until the fresh liver becomes white from blood red, and then taking down the catheters from the portal vein, the biliary tract and the hepatic artery of the liver to complete the vascular perfusion cleaning, detoxification and cells and tissues preservation of the liver.

[0038] As a preferred implementation, a length of the blood vessels retained in the first porta hepatis is 3 cm to 4 cm. This aims at a better insertion of the catheters into the blood vessels and is helpful for fixation of the blood vessels with the catheters. If the blood vessels retained are too short, firstly, it is time-consuming to find them; secondly, it is not conducive to fix them with the catheters. Therefore, the blood vessels retained should be a little bit long, for example, the length of the above-mentioned blood vessels retained can be 3.2 cm, 3.4 cm, 3.6 cm, 3.8 cm, etc.

[0039] As a preferred implementation, in step S1, ensuring integrity of surface capsula of the liver taken out. If the surface capsula of the liver is broken during the operation, the perfusate used in the sequent perfusion would flow out from the broken surface capsula of the liver, which may cause incomplete perfusion cleaning as well as incomplete detoxification to the vessels of the liver.

[0040] As a preferred implementation, in step S2, fixing joints where the blood vessels of the portal vein, the biliary tract, the blood vessels of the hepatic artery connect with the catheters, in order to prevent the perfusate from flowing out from gaps between the blood vessels and the catheters, which causes incomplete perfusion cleaning and detoxification. The above fixation can be achieved by selecting conventional tools such as ropes and clamps etc. In addition, other methods for fixing the blood vessels with catheters can be used as alternates, as long as they conform to the food hygiene standards.

[0041] As a preferred implementation, in step 3, a perfusion speed of the perfusate is 20-30 ml/s. Such perfusion speed can enhance the efficiency and effectiveness of the perfusion and of the elimination of the macrophages and other immune cells containing a large number of toxins, the blood and the harmful substances, and can protect the liver cells and tissues from being destroyed to a maximum extent. It can be understood that the perfusion speed can be rationally selected within the above range as required, for example, it can be 22 ml/s, 24 ml/s, 25 ml/s, 26 ml/s, 28 ml/s, etc.

[0042] As a preferred implementation, in step S3, the perfusate is a solution of water and salt, a ratio of the salt to the water is 8.5 to 9 grams of the salt per 1000 milliliters of the water. It can be understood that the concentration of the perfusate can be rationally selected within the above range, for example, 8.6 g, 8.7 g, 8.8 g, 8.9 g, etc of the salt per 1000 milliliters of the water. As a preferred implementation, in step S3, the perfusate is a solution of water and salt, i.e. an aqueous solution of sodium chloride, the ratio of the sodium chloride to the water is 8.5-9 grams of the sodium chloride per 1000 milliliters of the water. It can be understood that the concentration of the perfusate can be rationally selected within the above range, for example, 8.6 g, 8.7 g, 8.8 g, 8.9 g, etc of the sodium chloride per 1000 milliliters of the water.

[0043] As a preferred implementation, in step S5, the catheters may also be remained and then carry out the next step directly, for example, the liver is perfused with seasoning directly through the catheters and then made into a liver product. That is, the step S5 can be replaced by: the vascular perfusion cleaning, detoxification and cells and tissues preservation of the liver are completed when the fresh liver becomes white from blood red.

[0044] As a preferred implementation, the animal liver used in the present application comprises, but is not limited to, pork liver, beef liver and lamb liver.

[0045] In the blood circulation system of the liver, the portal vein is the functional vessel of the liver, which delivers substances from the stomach and intestine into the liver. The portal vein is divided into left and right branches at the porta hepatis, which run to left and right lobes of the liver, respectively, and are then repeatedly branched between the hepatic lobules to form interlobular veins. Interlobular veins are branched into small branches, described as terminal portal venules, which run between two adjacent hepatic lobules. Branches of the terminal portal venules are connected to the hepatic sinusoids to deliver the portal vein blood into the hepatic lobules. In addition, the hepatic arterial blood is rich in oxygen and the hepatic artery is the nutritional vessel of the liver. Branches of the hepatic artery, which are accompanied with branches of the portal vein, are branched into interlobular arteries, and the interlobular arteries are then branched into terminal hepatic arterioles that finally run into the hepatic sinusoids. Interlobular arteries are also branched into small branches to supply the capsula, mesenchyme and bile ducts. Therefore, the hepatic sinusoids contain mixed blood from the portal veins and the hepatic arteries. The blood in the hepatic sinusoids flows from the periphery of the lobules to the center and enters into central veins. There is no smooth muscle outside the endothelium of the central veins, and instead, only a few of connective tissues are present therein. Several central veins merge into sublobular veins. The sublobular veins run in interlobular connective tissues separately and have a large diameter and a large thickness. The sublobular veins further merge into 2 or 3 hepatic veins, which then run into the inferior vena cava after exit from the liver.

[0046] It can be known according to the physiological anatomic structure of the liver that, by perfusing the perfusate through the portal vein, biliary tract and hepatic artery of the liver and by eliminating macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver through the upper and lower ends of the inferior vena cava, toxins, blood and harmful substances in all parts of the liver can be eliminated completely.

[0047] The animal liver used in the present application comprises, but is not limited to, pork liver, beef liver and lamb liver.

[0048] The present application will be further described below by specific embodiments.

Embodiment 1

[0049] A method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps:

[0050] S1: Taking out the whole fresh pork liver quickly from a pig body and removing gallbladder, with blood vessels in first porta hepatis of the pork liver being retained when taking out the pork liver; retaining the length of the blood vessels in the first porta hepatis with 3 cm, and ensuring the integrity of surface capsula of the pork liver taken out.

[0051] S2: Spreading the pork liver taken out gently on a clean plane, dissecting the first porta hepatis of the pork liver quickly and determining the portal vein, biliary tract, hepatic artery and the upper and lower ends of the inferior vena cava, inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery, respectively; and fixing the joints where the blood vessels of the portal vein, the biliary tract, the blood vessels of the hepatic artery connect with the catheters.

[0052] S3: Perfusing a perfusate of 30 C. into the catheters in the portal vein, the hepatic artery and the biliary tract, the perfusate fully flows into a hepatic sinusoid system through the portal vein and the hepatic artery and fully flows into a biliary tract system through the biliary tract. The perfusion speed of the perfusate was 25 ml/s. The perfusate was a solution of water and salt, the ratio of the salt to the water was 9 grams of the salt per 1000 milliliters of the water.

[0053] S4: Perfusing the perfusate continuously, macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver were eliminated from the upper and lower ends of the inferior vena cava continuously, and bile was flushed out from the biliary tract system.

[0054] S5: Perfusing continuously, until the fresh pork liver became white from blood red, and then taking down the catheters from the portal vein, the biliary tract and the hepatic artery of the pork liver to complete the vascular perfusion cleaning, detoxification and cells and tissues preservation of the pork live.

[0055] FIGS. 1 to 8 are micrographs of pork liver tissues of this embodiment after being vascular perfusion cleaned at different magnifications and micrographs of liver tissues without any processing at corresponding magnifications. Wherein, in the morphology of liver tissues after being cleaned by the method of this embodiment, 1 represents a blank area left after eliminating original macrophages and immune cells phagocytosing toxins and containing pathogens by vascular perfusion, and 2 represents macrophages and immune cells phagocytosing toxins and containing pathogens contained in liver tissues without processing. It should be noted that 1 and 2 in the drawings are exemplarily marked, not exhaustive.

[0056] It can be known from comparison and analysis of the above micrographs that, in the animal liver obtained by cleaning and detoxifying by the method of this embodiment, toxic tissue cells such as macrophages and immune cells phagocytosing toxins and containing pathogens are basically not found even if at high magnifications. It means that macrophages and immune cells phagocytosing toxins and containing pathogens contained in the liver tissues are removed basically, and the cleaning and detoxification of liver tissues are completed. In addition, the characteristics of liver cells are obvious, almost not destroyed.

Embodiment 2

[0057] A method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps:

[0058] S1: Taking out the whole fresh beef liver quickly from a cattle body and removing gallbladder, with vessels in first porta hepatis of the liver being retained when taking out the beef liver; retaining the length of the blood vessels in the first porta hepatis with 3 cm, and ensuring the integrity of epidermis of the beef liver taken out.

[0059] S2: Spreading the liver taken out gently on a clean plane, dissecting the first porta hepatis of the liver quickly and determining the portal vein, biliary tract, hepatic artery and the upper and lower ends of the inferior vena cava, inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery, respectively; fixing the joints where the blood vessels of the portal vein, the biliary tract, the blood vessels of the hepatic artery connect with the catheters.

[0060] S3: Perfusing a perfusate of 35 C. into the catheters in the portal vein, the hepatic artery and the biliary tract, the perfusate fully flows into a hepatic sinusoid system through the portal vein and the hepatic artery and fully flows into a biliary tract system through the biliary tract. The perfusion speed of the perfusate was 20 ml/s. The perfusate was a solution of water and salt, the ratio of the salt to the water was 8.5 grams of the salt per 1000 milliliters of the water.

[0061] S4: Perfusing the perfusate continuously, macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver were eliminated from the upper and lower ends of the inferior vena cava continuously and bile was flushed out from the biliary tract system.

[0062] S5: Perfusing continuously, until the fresh liver became white from blood red, and then taking down the catheters from the portal vein, the biliary tract and the hepatic artery of the liver to complete the vascular the perfusion cleaning, detoxification and cells and tissues preservation of the liver.

[0063] The micrograph of the morphology of the test result in this embodiment is similar to that of FIGS. 1, 3, 5 and 7 in Embodiment 1. Here will be not described in details.

Embodiment 3

[0064] A method for cleaning, detoxifying and cells and tissues preservation of a fresh animal liver, comprising the following steps:

[0065] S1: Taking out the whole fresh lamb liver quickly from a lamb body and removing gallbladder, with blood vessels in first porta hepatis of the liver being retained when taking out the liver; retaining the length of the blood vessels in the first porta hepatis with 4 cm, and ensuring the integrity of surface capsula of the liver taken out.

[0066] S2: Spreading the liver taken out gently on a clean plane, dissecting the first porta hepatis of the liver quickly and determining the portal vein, biliary tract, hepatic artery and the upper and lower ends of the inferior vena cava, inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery, respectively; and fixing the joints where the blood vessels of the portal vein, the biliary tract, the blood vessels of the hepatic artery connect with the catheters.

[0067] S3: Perfusing a perfusate of 33 C. into the catheters in the portal vein, the hepatic artery and the biliary tract, the perfusate fully flows into a hepatic sinusoid system through the portal vein and the hepatic artery and fully flows into a biliary tract system through the biliary tract. The perfusion speed of the perfusate was 30 ml/s. The perfusate was a solution of water and salt, the ratio of the salt to the water was 8.7 grams of the salt per 1000 milliliters of the water.

[0068] S4: Perfusing the perfusate continuously, macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver were eliminated from the upper and lower ends of the inferior vena cava continuously, and bile was flushed out from the biliary tract system.

[0069] S5: Perfusing continuously, until the fresh liver became white from blood red, and then taking down the catheters from the portal vein, the biliary tract and the hepatic artery of the liver to complete the vascular perfusion cleaning, detoxification and cells and tissues preservation of the liver.

[0070] The micrograph of the morphology of the test result in this Embodiment is similar to that of FIGS. 1, 3, 5 and 7 in Embodiment 1. Here will be not described in details.

[0071] The animal liver treated by the method of the present application has no toxins, and is safer and more delicious to serve and can provide the corresponding nutrients for human body; besides, the liver tissue is preserved intact and looks good when served.