RU2601100C1 - Method of transient multiple intake with subsequent replantation of abdominal organs and retroperitoneal space organs at their multiorgan lesion by tumor process in experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, surgery. Transitory sampling of abdominal organ complex and of retroperitoneal space by evisceration with replantation in experiment on patient model. After opening of abdominal cavity temporary axillary-femoral arterial and venous shunts are set. Complex is removed and cold perfusion arrest of organs is made. Complex is placed on surgical table. Surgical treatment of target organs is simulated, whereupon temporary shunts are removed, complex of abdominal organs is replanted. Replantation, restoring arterial and venous blood circulation and integrity of incised anatomical structures.

EFFECT: method enables simulating transplantation, surgical intervention, applicability of abdominal organs and retroperitoneal space organs for subsequent use.

1 cl, 1 ex

Description

The method of transient multiple collection followed by replantation of the organs of the abdominal cavity and retroperitoneal space with their multi-organ lesion by the tumor process in the experiment.

The invention relates to the field of medicine, in particular to transplantology, to a method for multiple collection and transplantation of abdominal organs and retroperitoneal space in an anatomical experiment.

The treatment of severe concomitant diseases of the abdominal organs and retroperitoneal space with their multi-organ lesion by the tumor process is a difficult task in surgery.

A known method of multiple sampling of the organs of the abdominal cavity and retroperitoneal space for transplantation (Method of multiple sampling of the organs of the abdominal cavity and retroperitoneal space for transplantation. RF Patent No. 1819579). In the patent, the authors cite the protocols of anatomical studies. In general, the method described by the authors in the patent is as follows:

A midline section from the xiphoid process of the sternum to the pubic joint opens the peritoneal cavity of the corpse (donor). At the level of the diaphragm, dissecting it from the anterior abdominal wall to the posterior parietal peritoneum, and at the level of the lower lumbar vertebrae, the abdominal aorta and inferior vena cava are isolated, cannulated and intersected. Through the introduced cannulas, they immediately begin to perfuse them at a constant overpressure of 15-20 mm Hg, under the control of a pressure gauge. The specified complex of organs is isolated in its entirety, placed on the preparation table with the back (retroperitoneal) surface upwards, and the selection, cannulation and intersection of the corresponding vessels of all organs subject to collection are carried out.

However, the described method has several disadvantages that determine the complexity and difficulties of its repetition in an anatomical experiment and hinder its ability to be used in a clinical setting.

1. In the description of the protocol of donor multiple abdominal organs and retroperitoneal space for transplantation, the authors do not give precise indications of the method and method of their subsequent multiple autologous transplantation to the donor.

2. The protocol used by the authors for donor multiple abdominal organs and retroperitoneal organ transplantation for transplantation does not provide for surgical treatment of the target organ during transient multiple abdominal organs and retroperitoneal organ sampling with multiple organ damage by the tumor process and with a tumor that cannot be removed otherwise.

The objective of the invention is to provide a simple and less invasive method that allows replanting the organocomplex after extracorporeal surgery.

The method can be used for surgical treatment of a target organ and be an affordable model for subsequent use in a clinical setting.

The technical result is the reliable viability of all the structures of the multiple complex organs of the abdominal cavity and retroperitoneal space, the constancy of its perfusion with deep hypothermia of the patient’s model (corpse), and the restoration of adequate arterial blood supply and venous outflow.

The task is achieved by the method of transient multiple collection followed by replantation of the abdominal cavity and retroperitoneal organs during their multi-organ lesion by the tumor process in an experiment on a patient model in which the abdominal cavity is opened sequentially, temporary axillary-femoral arterial and venous shunts are established, and the organ complex is removed from the abdominal aorta and inferior vena cava, simultaneously with compression of the abdominal aorta under the diaphragm above the bifurcation of the aorta and inferior vena cava hepatic diaphragm and proximal bifurcation followed by cannulation of the indicated sections of the abdominal aorta and inferior vena cava and perfusion with a solution of chilled saline or bushodiol, thereby performing cold perfusion arrest of the abdominal organs, cross the stomach in the cardiac section, the sigmoid colon and ureters, entirely by evisceration, place the complex on the operating table with the desired surface up, simulate surgical treatment of target organs, and then remove temporary high fur boots, replant a complex of organs of the abdominal cavity, restoring arterial and venous blood circulation and the integrity of crossed anatomical structures.

In practice, the method is as follows.

The first step in the model of the patient (corpse) is a midline incision from the xiphoid process of the sternum to the pubic joint, revealing the peritoneal cavity of the corpse. Axillo-femoral arterial and venous shunts are established. At the diaphragm level they secrete, cannulate, pinch and cross the abdominal aorta and above the diaphragm they secrete, pinch and cross the inferior vena cava. Through the introduced cannulas, perfusion immediately begins identical to the technique used to collect the complex of abdominal organs during transplantation, the entire abdominal aorta and the inferior vena cava with a solution of chilled saline or Custodiol, carrying out cold perfusion arrest of the abdominal organs (up to 4-6 hours).

Then, the parietal peritoneum is cut with fringing lateral sections along the outer edges of the ascending and descending intestines from the diaphragm to the pelvis, and the entire complex of abdominal and retroperitoneal organs together with the abdominal aorta and inferior vena cava are stupidly flashed to the level of the diaphragm. The stomach is mobilized with its intersection at the level of the cardia, a liver with a diaphragm is secreted. Cross the sigmoid colon and ureters. The resulting organocomplex is removed from the abdominal cavity and placed on the preparation table with the desired (front or retroperitoneal) surface up. Next, surgery is performed, for example, isolation and removal of a tumor of the abdominal cavity organs or retroperitoneal space, which cannot be removed in any other way. When carrying out the indicated manipulations to isolate and remove the tumor, the aorta and inferior vena cava are perfused all the time through previously introduced cannulas with a solution of chilled saline or kustodiol, carrying out cold perfusion arrest (up to 4-6 hours). After completion of the simulation of surgical treatment of target organs on the operating table, axillo-femoral arterial and venous shunts are removed, the complex of abdominal organs is reimplanted into place, arterial and venous blood circulation and the integrity of the crossed anatomical structures are restored.

The proposed method is implemented in the presented example.

Anatomical experiment.

Object: patient model - a corpse of a man, 48 years old, height 174 cm, weight about 80 kg.

The protocol of the operation is transient multiple sampling followed by replantation of the abdominal cavity and retroperitoneal organs during their multi-organ lesion by the tumor process for surgical treatment - removal of the tumor.

From the corpse of patient B. 48 l (cause of death: acute craniocerebral injury) immediately after ascertaining biological death, it is proposed to remove a giant tumor with the germination of the left kidney, abdominal aorta, and the inferior vena cava. Access, isolation, intersection, cannulation and perfusion of the abdominal aorta under the diaphragm and the inferior vena cava above the diaphragm with a solution of chilled saline or Custodiol was performed, carrying out cold perfusion arrest of the abdominal organs (within 4-6 hours). Then, the parietal peritoneum is cut with fringing lateral sections along the outer edges of the ascending and descending intestines from the diaphragm to the pelvis, and the entire complex of abdominal and retroperitoneal organs together with the abdominal aorta and inferior vena cava are stupidly flashed to the level of the diaphragm. The stomach is mobilized with its intersection at the level of the cardiac section, the liver with the diaphragm is isolated. The sigmoid colon and ureters are crossed. The resulting organocomplex is removed from the patient’s abdominal cavity, turned over and placed on the operating table with the retroperitoneal surface up.

The vessels of the left kidney and adrenal gland are isolated from a giant tumor. Similarly, arterial vessels emanating from the abdominal aorta and celiac trunk, and venous vessels are isolated. Since the organocomplex was placed with the retroperitoneal surface up, and the kidneys with adrenal glands and the pancreas are organs of the retroperitoneal space, they are all easily visualized and achieved, because they are not obscured by neighboring organs (primarily the intestines), and they are not covered by the parietal peritoneum.

After completion of surgical treatment (removal of the tumor), axillo-femoral arterial and venous shunts are removed, the complex of abdominal organs is re-implanted, the patient's arterial and venous blood circulation and the integrity of the crossed anatomical structures are restored

Thus, the proposed method differs from the known method:

1. The constancy of perfusion during deep hypothermia of the patient’s (corpse) model using approved methods of the complex of abdominal organs with a solution of chilled saline or kustodiol, carrying out cold perfusion arrest of the abdominal organs (up to 4-6 hours).

2. The ability to install and then remove the axillo-femoral arterial and venous shunts, reassemble the complex of abdominal organs, restore the arterial and venous blood circulation of the patient’s (corpse) model and the integrity of the crossed anatomical structures by performing a test for the preservation of other non-operated organs (blood flow modeling corpse).

3. The ability to produce this surgical intervention with the removal of target organs with varying degrees of tolerance to thermal ischemia.

4. The expansion of the accessibility zone and the reduction of the time for operating the target organ.

The method is simple to implement, can serve as an affordable model for subsequent use in a clinical setting, provides reliable viability of all organs of the abdominal cavity and retroperitoneal space.

Claims (1)

A method of transient multiple sampling followed by replantation of the abdominal cavity organs and retroperitoneal space during their multi-organ lesion by the tumor process in an experiment on a patient model in which the abdominal cavity is sequentially opened, temporary axillary-femoral arterial and venous shunts are established, and the complex of organs with the abdominal aorta and lower vena cava, simultaneously with compression of the abdominal aorta under the diaphragm above the bifurcation of the aorta and the inferior vena cava above the diaphragm and proximal to it furcations followed by cannulation of the indicated sections of the abdominal aorta and inferior vena cava and perfusion with a solution of chilled saline or kustodiol, thereby making cold perfusion arrest of the abdominal organs, cross the stomach in the cardiac section, the sigmoid colon and ureters, and the whole complex is isolated by evisceration complex on the operating table with the desired surface up, simulate the surgical treatment of target organs, then remove the temporary shunts, replant the organo complex abdominal cavity, restoring arterial and venous circulation and integrity crossed anatomical structures.