SU1496775A1 - Method of determining arterial and portal blood flow of liver - Google Patents

Abstract

This invention relates to medical radiology and relates to a radionuclide method for determining arterial and portal blood flow of the liver. The aim of the invention is to improve the accuracy of determining hepatic blood flow. 185.0 MBq ^99m T of _c- sulfurcolloid is administered intravenously, then the first passage of the indicator through the heart and liver is recorded for 1 min at a recording speed of 1 frame / s, and then dynamic scintigraphy is performed for 20 min at 1 frame / min liver and heart. The gamma camera clinical computer displays three zones of interest: according to the left heart (to determine the indicator half-life from the blood), the portal area and the liver pyrenchyme. Transfer the time parameters from the portal area histogram to the liver parenchyma histogram and determine the areas under the indicator passing curve through the liver parenchyma corresponding to the arterial and portal phases. By mathematical formulas, on the basis of the data obtained, the arterial and portal blood flow of the liver is calculated, expressed in ml / min. The method allows, in almost all cases, to clearly identify the arterial and portal phases of the hepatic blood flow and accurately determine their absolute values.

Description

The invention relates to medicine, namely to radionuclide diagnostics, and relates to a method for determining the arterial and portal blood flow of the liver.

The aim of the invention is to improve the accuracy of determining the organ blood flow of the liver, depending on the state of systemic and local hemodynamics.

Example 1. Ill K., 60 years old, diagnosis: condition after surgery thrombectomy of the portal vein, resection of the small intestine for venous infarction of the intestine. In order to evaluate the arterial and portal blood flow of the liver and t after the operation of the patient, a dynamic hepatoscintigraphic examination was performed. The studies were performed on a standard Dyna-4/15 gamma camera from Picker (USA), the detector of which was installed above the liver and heart. A parallel collimator was used to emit an energy of 140 keV with a detection window width of 20%. 5 mCi (185 mBq) of the sulfurcolloid labeled was injected intravenously, after which the first passage of the indicator through the liver and the heart was recorded for 1 min at a recording speed of 1 frame / s, and then a dynamic liver scintigraphy was performed for 20 min and hearts. When analyzing the first passage of the indicator on the display, the gamma cameras selected zones of interest in the left heart (to determine the indicator half-life from blood T1 / 2), as well as in the portal area and the liver parenchyma. An analysis of the liver parenchyma histogram showed that the "tooth on the curve indicating the end of the arterial and the beginning of the portal phase of the hepatic blood flow is absent, i.e., it is not possible to calculate their values using the method-Od prototype. At the same time, the analysis of the histogram, which is located in the corresponding portal area of the liver, revealed a distinct separation of the arterial and portal phases of the hepatic blood flow. The transfer of the obtained time parameters to the histogram of the liver parenchyma made it possible to accurately determine the areas under the curve of the indicator through the liver parenchyma corresponding to both phases. Hepatic blood flow parameters were calculated based on the data obtained using the formulas: 20

,

I 1/2

where OPK - total hepatic blood flow,

ml / min;

BCC - circulating blood volume, determined in advance by the nomogram or using radio indication, ml; T | / 2 - the half-life of sulfur25

0 „„, 585хЬ2; 1 ООЗ, 585ХО, 5.

 792.5 ML / MIN (50%).

The data obtained indicate the restoration of total hepatic and portal blood flow after thrombectomy from the portal vein, as well as a compensatory increase in arterial blood flow to the liver.

Example 2. Patient S., 79 years old, diagnosis: acute destructive cholecystitis, local peritonitis. On admission, the patient's condition was severe, hemodynamic instability was noted. In order to assess the state of blood circulation in the liver, the patient underwent dynamic hepatoscintigraphy according to the method of Example 1. Due to significant systemic hemodynamic disturbances, the prototype method was not informative in this case. When using the proposed method and the calculation according to the formulas given in example 1, the following results were obtained: DIC - 1351 ml / min; Qapr - 924 ml / min (68.3%); QnopT - 428 ml / min (31.7%).

The findings suggest marked hepatic hemodynamic disorders, characterized by a decrease in total hepatic blood flow, mainly due to its portal fraction, as well as a compensatory increase

hearts, min; OPK 5490X0,603 / 2,4 1585 ml / min

where Q

colloid-Tc g, determined by the zoo of arterial blood. Phagocyte - according to the histogram of the left sections, liver activity is reduced.

The patient underwent laparoscopic cholecystostomy, drainage of the abdominal cavity. The complex of treatment includes drugs that improve blood circulation and phagocytic ability of the liver. The patient's condition improved. When you re-study after 2 days according to the method and formulas given in example 1, the following results were obtained: DIC - 1559 ml / min; Qapr - 559 ml / min (35.9%);

d,

Sapt. S pec.

35

the liver.

arterial blood flow ml / min;

Zart - the area under the curve of the first passage of the indicator through the tissue 40 QnopT - 1000 ml / min (64.1%). liver, corresponding to the artery

the normal phase of the blood flow, the beginning and end of which is determined by a curve from the portal zone of the liver, cond. unit;

- the area under the curve of the first passage of the indicator through the liver parenchyma, corresponding to the sum of the arterial and portal blood flow (end of

normalization of hepatic hemodynamics. Example 3. Patient Y., 26 years old, diagnosis: perforated stomach stomach, diffuse peritonitis. Two days after the operation — perforation of the perforating ulcer, drainage of the haul-off cavity — dynamic hepato-scintigraphy was performed to the patient. At the time of the study, the patient had a high cardiac output.

the total phase is determined by the curve as the manifestation of an adequate hyperdynamic

 art.

Voy from the portal zone of the liver),

conv. unit;

 1585X0.603 / 1.206 1585X0.5 792.5 ml / min (50%).

Opech. - oart

QnopT OnKX where Qnopr. - portal ml / min;

S pec,

blood flow

the liver.

This is the reaction of the blood circulation to the underlying disease, surgical trauma. As a result of the application of the methods and formulas described in Example 1, the following data obtained for the FSC was obtained - 55,2109 ml / min; 626 ml / min (29.7%); QncpT - 1483 ml / min (70.3%).

An increase in total hepatic blood flow is in this case a manifestation of

0

five

0 „„, 585хЬ2; 1 ООЗ, 585ХО, 5.

 792.5 ML / MIN (50%).

The data obtained indicate the restoration of total hepatic and portal blood flow after thrombectomy from the portal vein, as well as a compensatory increase in arterial blood flow to the liver.

Example 2. Patient S., 79 years old, diagnosis: acute destructive cholecystitis, local peritonitis. On admission, the patient's condition was severe, hemodynamic instability was noted. In order to assess the state of blood circulation in the liver, the patient underwent dynamic hepatoscintigraphy according to the method of Example 1. Due to significant systemic hemodynamic disturbances, the prototype method was not informative in this case. When using the proposed method and the calculation according to the formulas given in example 1, the following results were obtained: DIC - 1351 ml / min; Qapr - 924 ml / min (68.3%); QnopT - 428 ml / min (31.7%).

The findings suggest marked hepatic hemodynamic disorders, characterized by a decrease in total hepatic blood flow, mainly due to its portal fraction, as well as a compensatory increase

normalization of hepatic hemodynamics. Example 3. Patient Y., 26 years old, diagnosis: perforated stomach stomach, diffuse peritonitis. Two days after the operation — perforation of the perforating ulcer, drainage of the haul-off cavity — dynamic hepato-scintigraphy was performed to the patient. At the time of the study, the patient had a high cardiac output.

as the manifestation of an adequate hyperdynamic reaction of the blood circulation to the underlying disease, surgical trauma. As a result of the application of the methods and formulas described in example 1, the following data obtained for the SFC is obtained - 2109 ml / min; 626 ml / min (29.7%); QncpT - 1483 ml / min (70.3%).

An increase in total hepatic blood flow is in this case a manifestation of

hyperdynamic reaction of systemic hemodynamics and does not require correction. The ratio of arterial and portal fractions is not disturbed. Due to significant deviations of the parameters of systemic and organ hemodynamics from the norm, it was not possible to isolate the phases of the hepatic blood flow using the method of the prototype method.

The use of the proposed method for determining the arterial and portal blood flow of the liver, unlike the prototype, reveals even minor changes in the hepatic blood circulation, which makes it possible to expand the contingent of the examined patients and to improve the results of treatment of patients in abdominal surgery.

Claims (1)

Invention Formula The method for determining the arterial and portal blood flow of the liver by intravenous administration of a radiopharmaceutical, dynamic scintigraphy of the heart and liver, characterized in that, in order to improve the accuracy of the determination, an additional zone of interest is selected, respectively, the portal fissure region and the curve from this area determines the temporal parameters of the arterial and portal phases of the hepatic blood flow and taking into account these data, the absolute values of the blood flow fractions are calculated by the histogram of the liver parenchyma using the formulas .S. s, k ...- s. RT apT onKX-r -; OPK Opec, about 1N e Qapi. - arterial blood flow in the liver, ml / min; QrmpT - portal blood flow of the liver, ml / min; OPK - general hepatic blood flow (determined by the formula OCD OCCV, 603 / T, / 2, where G, /. Is the half-cap period BCC is the volume of circulating blood); 5art is the area under the curve of the first passage of the indicator through the liver tissue, corresponding to the arterial phase of the blood flow, the maximum of which is determined by the curve from the portal zone of the liver, cond. unit; 5pech - the area under the curve of the first passage of the indicator through the liver tissue, corresponding to the sum of the arterial and portal blood flow (the maximum of the portal phase is determined by the curve from the portal zone of the liver), cond. units