RU2136218C1 - Method of topical diagnosis of heart inflammatory diseases - Google Patents

Abstract

FIELD: medicine, particularly, cardiosurgery. SUBSTANCE: method includes intravenous injection to patient of autoleukocytes labeled with 99 mTc hexamethylpropyleneaminooxym; in 20-24 h examination of heart region by method of tomoscintigraphy; without changing patient position, intravenous introduction of 0.6 mCi 20l-TI-chloride or 10 mCl of 99 mTc-technetrile; repeated tomoscintigraphic examination of heart on energy peak of 20l-TI or 99 mTc, respectively. Location of inflammatory focus in heart is determined by comparison of scintigrams. EFFECT: higher accuracy of diagnosis.

Description

 The invention relates to medicine, more specifically to radionuclide diagnostics, and may find application in cardiac surgery.

 A serious problem of purulent-septic cardiac surgery is the timely diagnosis of intracardiac infection, the most dangerous complication in valve surgery - infectious endocarditis of the valvular prosthesis (IEKP). Infectious endocarditis (IE) is one of the most serious diseases affecting mainly young and mature people. Over the past 20 years, its frequency has increased 3 times, and among patients with rheumatic heart disease it was 25%. With conservative therapy, mortality from IE is 100% [1]. With valve prosthetics for IE, along with the positive results (reduction in mortality and improved prognosis), a negative concomitant phenomenon appeared in the form of a complication - IEKP, which occurs with a frequency of 3 to 18% [2].

 The periclane spread of infection is a serious complication of IE, and with IEPP its frequency is 60%, which can lead to the development of heart abscesses, valve rupture, Valsalva sinus aneurysm, anular necrosis, and conduction disorders [3].

 According to modern concepts, routine clinical and laboratory-instrumental research methods are not sufficiently informative in the diagnosis of the intracardiac focus of infection (VOI), especially IEKP [4]. So, using X-ray methods, it is possible to detect signs of circulatory decompensation, to prove the fact of septic pulmonary embolism and the development of heart attack pneumonia [5], computed tomography in the diagnosis of VOI is not used due to low information content [3], magnetic nuclear resonance allows you to visualize the anatomical structures of the heart, but with IEKP it is uninformative due to signal distortion by metal elements of the valve prosthesis [3], echocardiography is highly effective in diagnosing IE of native valves, but in When using IEPP, this method often yields artifacts [6].

 In recent years, radionuclide methods have been used to visualize foci of infection, characterized by simplicity, high sensitivity and specificity. The most suitable for visualizing foci of inflammation and suppuration are research methods using radionuclide-labeled shaped elements of white blood - leukocytes and granulocytes, based on the natural migration of labeled leukocytes to foci of inflammation [7].

 Closest to the proposed is a method for the diagnosis of infections of synthetic vascular prostheses, taken by us as a prototype [8].

 The method consists in intravenously administering to the patient a mixture of leukocytes labeled with 99 mTc-HMPAO (hexamethylpropyleneamino oxime) and after 20-24 hours performing tomoscintigraphy of the heart region at an energy peak of 99 mTc. On the obtained scans, zones of increased accumulation of labeled leukocytes are visually determined, which indicates the presence of inflammatory foci in them. However, the prototype method does not allow determining the exact location of these foci, including unambiguously judging whether they are located in the heart itself or beyond.

 The technical result of the present invention is to improve the accuracy of the topical diagnosis of inflammatory foci of the heart due to the simultaneous contrasting of the focus of inflammation and the contours of the heart.

 This result is achieved by the fact that 20-24 hours after intravenous administration of a patient with autoleukocytes labeled with 99 mTc-HMPAO, immediately after tomoscintigraphy at an energy peak of 99 mTc, the patient, without changing his position, is injected intravenously with 0.5 mCi 201-Tl-chloride or 10 mCi 99 mTc-technetrile and repeat tomoscintigraphy of the heart, respectively, at an energy peak of 201-T1 or 99 mTc, and the location of the inflammatory focus in the heart is determined by comparing the obtained tomoscintigrams with the initial one.

 Due to the fact that all known methods of visualizing foci of inflammation, including radionuclide ones, are not able to unambiguously determine their location, we tried to solve this most urgent task for cardiac surgery using an additional radiopharmaceutical [RFP], which allows to obtain a scintigraphic image of the heart, so that by combining it with the image of inflammatory foci establish their exact location.

 For this purpose, we decided to use a radionuclide having an energy peak different from 99 mTs, namely 201-Tl. Since the latter is known to be a relatively long-lived nuclide (T 1/2 = 2.7 days, whereas for 99 mTc T 1/2 = 6 hours), with their simultaneous use, the radiation load on the patient would increase significantly, we studied made an attempt to reduce its dose by a factor of 2, 3, 4, and it turned out that a dose of 201-Tl chloride, 1/4 of its diagnostic (2 mCi) dose, is sufficient to remove the heart contours 0.5 mCi. Intravenous administration of this dose of 201-Tl-chloride to the patient at a constant position after performing initial tomoscintigraphy with 99 mTc-HMPAO allows additionally to obtain a tomoscintigraphic image of the heart, highlight its circuits and then combine the two tomoscintigrams obtained at the energy peaks of 99 mTc and 201 -Tl, uniquely identify the topic of the inflammatory focus.

 Since 201-Tl-chloride is a cyclotron gamma-ray emitter, and therefore very expensive and therefore inaccessible to most medical institutions, we tried to solve the problem of identifying the topics of inflammation in another way, namely, try to use such radiopharmaceuticals on the basis of inexpensive and available 99 mTs, so that when combining the received tomoscintigraphic image with the original one, there is a significant difference in the pulse count. This was possible using 99 mTc-technetril, which we introduced no earlier than 20-24 hours after the administration of 99 mTc-autoleukocytes, when their accumulation in the inflammatory focus is much higher than in the surrounding tissues - in this case, the introduction of 99 mTc-technetril in the usual diagnostic dose (10 mCi) allowed us to get a clear image of the heart, and combining it with the original tomoscintigram, i.e. with the image of the focus of inflammation, it provided an accurate determination of its location in the heart.

 The essence of the method is as follows.

 In a patient with suspected presence of IEPS, a mixture of leukocytes is isolated from the blood, they are labeled with 99 mTc-HMPAO and administered intravenously. After 20-24 hours, a tomoscintigraphic study of the heart region is performed. Then, without changing the patient’s position, they are injected with 0.5 mCi 201-Tl-chloride or 10 mCi 99 mTc-technetrile and tomoscintigraphy of the same heart region is performed again at the energy peak 201-Tl or 99 mTc. The contours of the heart are drawn on the obtained tomoscintigram, after which they are compared with the initial one obtained at the energy peak of 99 mTc after intravenous administration of 99 mTc-HMPAO to the patient. A comparison of these tomoscintigrams gives the exact location of the inflammatory foci.

 The essence of the method is illustrated by examples.

 Example 1. B. S., 43 years old, was admitted to the clinic of cardiovascular surgery VMedA with fever of unknown origin. 8 months back he underwent aortic valve replacement.

 The clinical examination, including transesophageal echocardiography, did not reveal any clear signs of inflammation in the region of the heart.

 In connection with a suspected infectious endocarditis of the valvular prosthesis, it was decided to conduct a radionuclide study of the heart region. For this purpose, 300 ml of blood was taken from the patient, a mixture of leukocytes was isolated by centrifugation. To this suspension was added 4 ml of radiopharmaceutical (lipophilic complex 99 mTc-HMPAO), obtained by adding the eluate 99 mTc (13.5 mCi activity from a 99-molybdenum / 99m-technetium generator) to a vial containing 0.5 mg of NMRAO and 7, 5 mcg of divalent tin. The bottle was placed in a protective lead container. The 99 mTc eluate was obtained no earlier than 2 hours before preparation of the radiopharmaceutical. The mixture of leukocytes with radiopharmaceuticals was carefully mixed, incubated for 10 min at room temperature, and then centrifuged at 150 g for 5 min. The supernatant was completely removed, the precipitate was diluted in 5 ml of plasma and administered intravenously to the patient.

 Scintigraphy was performed using a single-photon emission computed tomography (SPECT) "Elcint-Apex-Sp-6".

 Then, without changing the position of the patient, he was injected intravenously with 0.5 mCi 201-Tl-chloride (1/4 of his diagnostic dose). In 10 minutes. repeated SPECT at the energy peak 201-Tl.

 On the obtained tomoscintigram, the heart is clearly visualized. He outlined its contours and combined this tomoscintigram with the original one (at an energy peak of 99 mTs).

 When comparing tomoscintigrams, an inflammatory lesion was detected in the area of the aortic ring with a diameter of 8 mm.

 The patient underwent a reoperation in which the abscess was removed and the aortic valve was replaced.

 Example 2. B. B., 40 years old, was admitted to the hospital with suspicion of the presence of a focus of intracardiac infection.

 Based on transesophageal echocardiography, it was not possible to confirm the presence of an absent aortic valve in the patient. To clarify the diagnosis, the patient underwent a radionuclide study of the heart, similarly to Example 1, with the only difference being that instead of 201-Tl chloride, 10 mCi 99 mTc-technetrile was intravenously administered to the patient before repeated scintigraphic examination.

 When comparing the obtained tomoscintigrams, 4 inflammatory foci were identified in the aortic ring area from 0.8 to 1.5 cm in size.

 The patient underwent valve reprosthesis with the removal of abscesses. To date, the proposed method has carried out a diagnostic study of 28 cardiac surgery patients with suspected intracardiac foci of infection, of which 22 had artificial valve prosthetics. On the basis of a radionuclide study, 8 patients revealed IEPS, the rest did not confirm the suspicion of infectious foci, as a result of which they had canceled the planned surgical interventions.

The proposed method in comparison with the known has several significant advantages, the main of which are as follows:
1. The method for the first time allowed to solve the most serious problem of cardiac surgery regarding the topical diagnosis of inflammatory foci of the heart, giving an unambiguous answer regarding IEKP.

 2. Due to the high accuracy of the diagnosis of IEKP, the method eliminates the implementation of unreasonable surgical interventions.

 The method was developed in the laboratory of radionuclide research methods TsNIRRI together with the Department of Cardiovascular Surgery VMedA and passed clinical testing in 28 cardiosurgical patients.

Used Books:
1. Shevchenko Yu.L. Surgical treatment of infectious endocarditis, St. Petersburg. Science, 1995, 230 p.

 2. Calderwood S.B. et al., Circulation, 1985, Vol. 72, P. 31-37.

 3. Carpenter J.L., Rev. Infect. Dis, 1991, Vol. 13, N 1, P. 127-138.

 4. Shevchenko Yu.L. and others, "Abscesses of the heart", St. Petersburg, Science, 1996, 159 S.

 5. Arnett E.N. et al., Amer. J. Cardiol, 1976, Vol. 38, No. 3, P. 181-192.

 6. Scanlan J. G. et al., Amer. J. Cardiol, 1982, Vol. 49, N 7, P. 1794-1780.

 7. Blumberg E.A. et al., Chest, 1995, Vol. 104, No. 4, P. 898-903.

 8. Prats, E. et al., J. Nucl. Ved., 1994, 35, 1303-1307.

Claims (1)

 A method for the topical diagnosis of inflammatory heart diseases, including intravenous administration of autoleukocytes labeled with 99mTc-hexamethylpropyleneamino oxime, and performing a heart tomoscintigraphy at an energy peak of 99mTc after 20-24 hours, characterized in that the patient is administered immediately after tomoscintigraphy at an energy peak of 99mTc, without changing its position, intravenously 0.5 mCi 201-TI-chloride or 10 mCi 99mTc-technetrile and repeat tomoscintigraphy of the heart, respectively, at the energy peak 201-TI or 99mTc and compared by tomostsintigramm scientists determine the location of the inflammatory center in the heart.