CC BY
31
13. Modi A., Casten R., Rovner B. Relationship of Anticholinergic Drug Burden on Depression, Engagement in Activities, and Perceived Quality of Life in Older African-Americans. The Am. Journal of Geriatric Psychiatry. 2015. Vol. 23, No. 3. P. 109-110. DOI: https://doi.org/10.1016/jjagp.2014.12.109
14. Psychiatric complications of treatment with corticosteroids: Review with case report / H. Kenna et al. Psychiatry and Clinical Neurosciences. 2011. Vol.65, No.6. P.549-560. DOI: https://doi.org/10.1111/j.1440-1819.2011.02260.x.
15. Risk of Depressive Disorders Following Myasthenia Gravis: A Nationwide Population-Based Retrospective Cohort Study / H. Chu et al. Frontiers in Psychiatry. 2019. Vol. 10, No. 481. P. 1-7. DOI: https://doi.org/10.3389/fpsyt.2019.00481
16. Spillane J., Higham E., Kullmann D. Myasthenia gravis. BMJ. 2012. dec 21 (Vol. 345, No. 3). P. e8497-e8497. DOI: https://doi.org/10.1136/bmj.e8497
Стаття надшшла до редакцп 20.11.2019
♦
UDC 616.379-008.64-06:616.94:616.61-008.6]-085 https://doi.Org/10.26641/2307-0404.2020.1.200408
THE INFLUENCE OF XYLATE ON THE VOLUMO- AND OSMOREGULATORY FUNCTION OF THE KIDNEYS IN DIABETES COMPLICATED BY THE SYNDROME OF ENDOGENOUS INTOXICATION OF PURULENT-SEPTIC ORIGIN
HSEI Bukovinian State Medical University
Department of anesthesiology and intensive care 1
Department of internal medicine and infectious diseases 2
Golovna str., 137, Chernivtsi, 58022, Ukraine
ВДНЗУ «Буковинський державний медичний ун1верситет»
кафедра анестезюлогИ та реанiматологiï1
(зав. - д. мед. н., проф. В.М. Коновчук)
кафедра внутрiшньоï медицини та тфекцшних хвороб 2
(зав. - д. мед. н., проф. О.1. Федiв).
вул. Головна 137, м. Чернiвцi, 58022, Укра'ша
e-mail margaritaassistent@gmail.com
Цитування: Медичш перспективы. 2020. Т. 25, № 1. С. 104-109 Cited: Medicni perspektivi. 2020;25(1):104-109
Key words: volume and osmoregulatory function of the kidneys, insulin-independent diabetes mellitus, syndrome of endogenous intoxication of purulent-septic origin, xylate
Ключовi слова: об'емна й осморегуляторна функщя нирок, тсултонезалежний цукровий dia6em, синдром ендогенно'1 ттоксикаци гнтно-септичного походження, Kcrnim
Ключевые слова: объемная и осморегуляторная функция почек, инсулиннезависимый сахарный диабет, синдром эндогенной интоксикации гнойно-септического происхождения, ксилат
Abstract. The influence of xylate on the volumo- and osmoregulatory function of the kidneys in diabetes complicated by the syndrome of endogenous intoxication of purulent-septic origin. Konovchuk V.M., Kushnir S.V., Andrushchak A.V., Andrushchak M.O. The combination of insulin-independent diabetes mellitus with endogenous purulent-septic genesis syndrome is a fairly common nosology. The search for ways to optimize the results of its treatment, after screening observations, led to the expediency to consider the pharmacodynamic aspects of the
104 На умовах ящензп CC BY 4.0
V.M. Konovchuk1, S.V. Kushnir1, A.V. Andrushchak1, M.O. Andrushchak 2
МЕДИЧН1ПЕРСПЕКТИВИ / MEDICNIPERSPEKTIVI
action ofpolyhydric alcohols through the prism of homeostatic support functions. Detailing this direction was focused on the consideration of the action of xylate mediated through the volumetric and osmoregulatory function of the kidneys. The effect of xylate on the volumo-and osmoregulatory function of the kidneys in insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication of purulent-septic origin was investigated. The study group consisted of 53 patients with insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication ofpurulent-septic origin (IDCSEI). Under the condition of infusion loading (3 ml/kg/h for three hours) with Ringer's solution or xylate within the fragments of planned intensive care, indicators characterizing the state of the volumo- and osmoregulatory function of the kidneys were investigated. The loading with Ringer's solution in patients with IDCSEI increases sodium clearance by 260±47.8% (A, p=0.020), without changing the concentration of sodium ions in the blood plasma and filtration fraction and purifying the blood plasma from osmotically active substances 147±46.9% ( A, p=0.011). Extension of the extracellular space by infusion solutions by 3 ml/kg/h for three hours in patients with insulin-dependent diabetes mellitus, complicated by the syndrome of endogenous intoxication by purulent-septic genesis, activates volumetric and osmoregulatory function. Extension of extracellular space with infusion solution by 3 ml/kg/h for three hours in patients with insulin-independent diabetes mellitus activates volumo- and osmo-regulatory function. Activation of volumetric function occurs by reducing the reabsorption of sodium and water in the proximal nephron, without increase of glomerular filtration rate, increasing the distal transport of sodium and water.
Реферат. Вплив ксилату на волюмо- та осморегуляторну функцш нирок при цукровому дiабетi, ускладненому синдромом ендогенно'1 штоксикацп гншно-септичного генезу. Коновчук В.М., Кушшр С.В., Андрущак А.В., Андрущак М.О. Поеднання ¡нсулгнонезалежного цукрового дгабету 1з синдромом ендогенно' штоксикацп гншно-септичного генезу е достатньо розповсюдженою нозолог1ею. Пошуки шляхгв оптим1зацп результатгв ïï лгкування, пгсля скринтгових спостережень, привели до доцшьностг розглянути фармакодинам1чн1 аспекти diï багатоатомних спиртгв через призму гомеостатичних функцш забезпечення. Детал1зац1я цього напрямку була зосереджена на розглядi diï ксилату, опосередковано' через волюмо- та осморегуляторну функцт нирок. До^джено вплив ксилату на волюмо- та осморегуляторну функцiю нирок при iнсулiнонезалежному цукровому дiабетi, ускладненому синдромом ендогенно'1' ттоксикацИ' гншно-септичного генезу. До^джувану групу складами 53 пацiенти з iнсулiнонезалежним цукровим дiабетом, ускладненим синдромом ендогенноï штоксикацп гншно-септичного генезу (1НЦДСЕ1). За умови шфузшного навантаження (3 мл/кг/год протягом трьох годин) розчином Ршгера або ксилату в межах фрагментiв планово' ттенсивно' терапИ' до^джували показники, що характеризують стан волюмо- та осморегуляторно' функцГ' нирок. Навантаження розчином Ршгера пацiентiв з 1НЦДСЕ1 збыьшуе кмренс натрт на 260±47,8% (A, р=0,020), без змти концентрацИ' iонiв натрт в Kno^i кровi та фыьтрацшноï фракцï та очищення плазми кровi вiд осмотично активних речовин 147±46,9% (A, р=0,011). Розширення позаклтинного простору шфузшними розчинами на 3 мл/кг/год протягом трьох годин у пацiентiв з шсулшозалежним цукровим дiабетом, ускладненим синдромом ендогенноï штоксикацп гншно-септичного генезу, активiзуе об'емну та осморегуляторну функцш. Збшьшення об'ему позаклтинного простору шфузшними розчинами в режимi 3 мл/кг/год протягом трьох годин у пацiентiв з iнсулiнонезалежним цукровим дiабетом. Актива^я волюморегуляторноï функцï нирок проходить шляхом зменшення реабсорбцп натрю та води в проксимальному вiддiлi нефрону, без збшьшення швидкостi клубочковоï фшьтрацИ', пiдвищенням дистального транспорту натрю та води.
The infusion therapy is basic in intensive care of disorders of biological unity of patients [4]. Its priorities are determined by the content of ingredients that are important for maintaining homeostasis and correcting its quality. Today, the combination of insulin-independent diabetes mellitus with endogenous intoxication syndrome, including purulent-septic genesis (IDSCDI), is a fairly common nosology [9]. It requires comprehensive treatment, thorough comprehensive monitoring, individualization of intensive care measures, taking into account the numerous complications of diabetes mellitus and factors of endogenous intoxication syndrome aimed at forming the spectrum of multi organ injury [7]. Therefore, clinical situations, questions, and discussions are constantly emerging regarding the choice of infusion therapy for the purpose of rehabilitation of the target organs of
diabetes combined with metabolic disorders initiated by concomitant endogenous intoxication syndrome [5, 6]. One of the answers to these questions is in the area of consideration of the action of the appropriate preparation of infusion therapy of diabetes mellitus (DM) through the prism of the volumetric and osmoregulatory function of the kidneys. This drug can be xylate, because its capabilities meet the requirements of correction of this pathology. In particular, the main component of xylate, xylitol, is a natural by-product of carbohydrate metabolism in humans and animals. Its pharmacokinetics is not associated with specific hormonal or enzymatic transport mechanisms. The degree of absorption does not depend on the age of the patient. It associates the pentose phosphate cycle with the exchange of uronic acid in its mechanism of action, and the end product of oxidation is carbon dioxide,
20/ Том XXV/1
105
which is eliminated by the lungs. Compared to glucose, xylitol is a more efficient source of energy conversion and its metabolism is independent of insulin. It has lipotropic and anti-ketogenic activity. Xylitol stimulates glycogen synthesis in the liver, insulin secretion. It improves microcirculation, normalizes water-salt metabolism and acid-alkaline state, has a detoxifying effect in burn disease, protracted purulent processes and infectious diseases [5,8].
The goal of the work is to investigate the effect of xylate on the volume- and osmoregulatory function of the kidneys in insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication of purulent-septic origin.
MATERIALS AND METHODS OF RESEARCH
The study is open, randomized, prospective and controlled. Bioethics Protocol No. 9 of 20.06.2019.
The patients with insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication of purulent-septic origin were studied. Inclusion criteria: ICCD, age 42-65 years, established disease experience 5-12 years; from anamnesis: correction with diet, regimen, tableted hypoglycemic agents, insulin (9%); actual glycemia - 8-16 mmol/l, glycosylated hemoglobin >7%, transient microalbuminuria (30-300 mg/day); various clinical manifestations of angiopathy and neuropathy without significant disturbance of functions of the affected organs and systems were registered. The course of ICCD in these patients was complicated by the acute surgical infection after surgical repair of the lesion of different localization caused by the association of aerobic gram-positive and gram-negative flora; was accompanied by endogenous intoxication syndrome of purulent-septic genesis on the scale of cell-humoral intoxication index of 20-50 points) [2].
All patients (n=53) received appropriate surgical debridement and comprehensive standard intensive care. In-hospital sugar correction was performed with insulin at glycemia >10mmol/l. When enrolled, in the intensive care setting, the patients received Ringer's and xylate infusion solutions, and indicators characterizing the volumetric and osmoregulatory function of the kidneys were examined within the Ringer's solution infusion range and, after 20-24 hours, xylate. The group characteristics were determined: I-IV gr - ICDEI, among them - A: indicators in patients before infusion of Ringer's solution (group I) or xylate (group III); B - after infusion of Ringer's solution (group II) or xylate (group IV). The solution infusion mode is 3 ml/kg/h for three hours. The examination (urine analysis) took 4 h, taking into account the time of infusion load. The indicators of values studied in biological environments - urine, blood plasma [3] are shown in the table.
We used the Student's t-test for dependent and independent samples (Excell statistical package trial version) [1].
RESULTS AND DISCUSSION
There were two periods in terms of infusion therapy of patients with IDCSI (n=53): the first one concerned the study of the effect of Ringer's solution (3 ml/kg/h for three hours) on the volumetric and osmoregulatory function of the kidneys, the second (after 20-24 hours) - the effects of xylate under the same conditions (table). The involvement of the kidneys in the release of extracellular space from a certain volume of fluid and osmotically active substances (UARs) as well as urination is an ongoing process. The clearance characteristics are the most informative in a metric that reflects these features. In particular, sodium clearance, characterizes the volume of protein-free fluid containing sodium at a concentration consistent with blood plasma and excreted by the kidneys. The loading with Ringer's solution in patients with INCDEI (group II) increased clearance by 1.85±0.34 ml/min (260±47.8%; A, p=0.020). At the same time, the concentration of sodium ions in the blood plasma, the rate of glomerular filtration and the filtration fraction of the cation remained virtually unchanged. Therefore, it should be considered that sodium clearance was formed by other components that determine the excretion of the cation, the excreted fraction of sodium and water. Further analysis indicates that the reabsorbed water fraction decreased by 1.67±0.41% (A, p=0.015) and the reabsorbed sodium fraction - by 1.53±0.26% (A, p=0.022). Considering that the sodium free water clearance and the reabsorption of osmotically free water increased by 35±11.7% (A, p=0.011) and 147±44.5% (A, p=0,014, respectively), it should be considered that the depression of the reabsorption of water and sodium ions occurred at the level of the proximal nephron, and the distal one worked in the compensatory mode.
The infusion loading of patients with IDCMSI with Ringer's solution activates purification of blood plasma from OAR) in the observation interval by 4.7±1.51 ml/min (147±46.9%; A, p=0.011), excreted fraction - by 3.9±1.1% (A, p=0.013), and the excretion rate based on the standardized glomerular filtration rate (GFR) - by 1290±416.1 mcos/min (154±49.7%; A, p=0.013). At the same time, the filtration fraction of OAR did not undergo any significant changes: 35.99±0.59 mcm/min - to increase the extracellular space volume by Ringer's solution; 36.84±0.62 msm/min after increase in extracellular volume (p>0.05) and did not lead to a decrease in OAR concentration in blood plasma.
106
На умовах лщензи CC BY 4.0
MEffHHHI nEPCnEKTHBH / MEDICNIPERSPEKTIVI
The effect of xylate on the volumo-and osmoregulatory function of the kidneys in insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication of purulent-septic origin (M±m)
Indexes INCDEI (n = 53)
I gr II gr Ill gr IV gr
V, ml/min EFH2O, % GFR, ml/min PNa, mmol/l Pns'GFR, mmol/min UNa, mmol/l UNaV, mmol/min CNa, ml/min EFNa, %
UNaV/GFR*100, mmol/min H 2 O , ml/min
C
Na Pocm, mos/l
Uocm, mos/l
UocmV, mcm / min
Cocm, ml/min
EFocm, %
UocmV/GFR*100, msm/min TCH2o, ml/min
1.22±0.03 1.03±0.02 118.0±1.7 140.0±1.2 16.5±0.21 80.0±3.5 97.9±3.1 0.71±0.03 0.60±0.02 83.0±2.9 0.50±0.004 305.0±2.0 808.0±17.5 986.0±18.2 3.2±0.07 2.7±0.06 836.0±15.0 1.9±0.05
3.24±0.10** 2.70±0.03** 120.0±1.9 139.0±1.1 16.7±0.24 109.0±3.6** 354.2±6..4** 2.55±0.04** 2.13±0.03** 296.0±6.1** 0.69±0.010**
307.0±1.9 754.0±18.6** 2443.0±41.0** 7.9±0.15** 6.6±0.08** 2036.0±27.3** 4.7±0.12**
1.23±0.03 1.05±0.02 120.0±1.8 141.0±1.2 16.9±0.23 79.0±3.4 98.2±3.2 0.69±0.03 0.58±0.02 82.0±2.8 0,54±0,004 304.0±1.7 801.0±18.2 987.0±18.9 3.3±0.07 2.8±0.06 822.0±15.8 2.0±0.04
3.58±0.08* ** 2.98±0.03* ** 122.0±1.9 138.0±1.3 16.7±0.25 110.0±3.5** 393.1±6.7* ** 2.87±0.05* ** 2.36±0.04* ** 318.0±5.9* ** 0,72±0,011**
306.0±1.9 742.0±19.3** 2657.0±39.7* ** 87±0.16* ** 7.1±0.09* ** 2178.0±31.0* ** 5.1±0.10* **
Note: I - IV gr. - INCDEI; A - patients before infusion of Ringer's solution (group I) or xylate (group III); solution (group II) or xylate (group IV); * / p<0.05 - reliability of indicators between I gr. and III gr., II c. indicators between I gr. and II gr. ; III gr. and IV gr. V is diuresis,
EFH2O - excreted fraction of water, GFR - glomerular filtration rate, PNa - the plasma concentration of sodium, PNaGFR - sodium filtration fraction, UNa _ sodium concentration in urine, UNaV _ excretion of sodium with urine, CNa _ sodium clearance, EFNa _ excreted sodium fraction, UNaV / GFR * 100 _ standardized sodium excretion, H O _ clearance of sodium water,
B _ patients after infusion of Ringer's and IV gr., ** / p<0.05 _ reliability of
C
Na
Posm _ the concentration of OAR in blood plasma,
Uosm _ the concentration of OAR in the urine,
UosmV _ excretion of UAR with urine,
Cosm _ OAR clearance,
EFosm _ excreted fraction of OAR,
UosmV / GFR * 100 - standardized excretion of OAR,
TcH2O _ reabsorption of an osmotically free fluid.
20/ TOM XXV/1
107
The intensive care in the format of randomization included infusion and study of the action of xylate 20-24 h after the study of the action of Ringer's solution (group IV). The medicine with diuretic action were abstained in terms of the use of complex therapy. The characteristics of starting indicators (I gr, III gr) of the volume- and osmoregulatory function of the kidneys are presented in the table. Among them, no statistically significant changes are registered.
The infusion load of xylate at INCDEI (Group IV) increases the clearance of sodium ions by 2.18±0.39 ml/min (316.0±57.2%, A, p=0.028). Its value is due to a decrease in reabsorption of water in the kidney tubules (by 1.90±0.42%, A, p=0.017) and sodium (1.78±0.31%, A, p=0.021), since the filtration fraction of the cation did not change. The degree of distal sodium elimination correction reflects the clearance of sodium free water (Table), and indicates that the infusion load with xylate reduces the extracellular water volume in patients with IDCSI by limiting the reabsorption of water and sodium ions in the proximal compartment. The changes in the clearance of osmotically active substances were 5.4±1.73 ml/min (A, p=0.010), which corresponds to the activation of purification of blood plasma from osmotically active substances by 164±52.5% (A, p=0.012), compared with the starting values, and are characterized by an increase of excreted fraction by 4.3±1.2% (A, p=0.014); the occurrence of osmotic diuresis in active nephrons, which is 166±51.1% (A, p=0.013) of the difference between the initial values and the final characteristics, subject to standardization of the glomerular filtration rate. The comparison of the clearance characteristics of the state of volume- and osmore-gulatory function of the kidneys by the results of
their values after the increase of extracellular space (group II, group IV) shows that xylate 56% (p<0.05) more strongly activates the volume-regulatory function of the kidneys than Ringer's solution and, respectively, osmoregulatory - by 17% A, p<0.05). The data obtained by infusion loading solutions indicate the presence of a universal mechanism of reaction of the kidneys to increase the volume of extracellular space, for example, Ringer's solution or xylate, and subject to the design of the study determines the compensatory adaptation range of their regulatory processes, and the level of non-regulatory processes namely: glomerular filtration rate and filtration fraction of sodium ions is unchanged, proximal transport of water and sodium - suppressed, distal transport of water and sodium activates.
CONCLUSIONS
1. Extracellular space volume increase with infusion solution by 3 ml/kg/h for three hours in patients with insulin-independent diabetes mellitus complicated by endogenous purulent-septic genesis syndrome indicates that xylate is by 56% p (clearance) prevails volume regulatory activity of Ringer's solution and, accordingly, osmoregulatory - by 17% (p<0.05).
2. Activation of the voloregulatory function of the kidneys by infusion loads in patients with insulin-independent diabetes mellitus complicated by the syndrome of endogenous intoxication of purulent-septic genesis indicates the presence of a mechanism of reaction of the kidneys to increase the volume of extracellular space, which is determined by the level of extracellular space. Sodium is unchanged, proximal transport of water and sodium is suppressed, distal transport is activated.
REFERENCES
1. Glanz S. [Biomedical statistics] Per. from English - M., Practice, 1998;459 p. Russian
2. Konovchuk VM., Andrushhak AV., Maksym-chuk NO. (patentee). Patent № UA 112508 Ukraine (korysna model) G01N 33/48(2006.01) Sposib otsinky perebihu endo-hennoi intoksykatsii [Patent UA 112508 Ukraine (utility model) G01N 33/48(2006.01). The way the course evaluation of endogenous intoxication]. Bulleten, 24. 2016. Ukrainian
3. Ryabova SI. Nephrology: a guide for doctors. -SPb.: SpetsLit 2013;767 p.Russian
4. Chatterjee S., Khunti K., Davies MJ. Type 2 diabetes. Lancet. 2017; 389: 2239-51. https://doi.org/10.1016/S0140-6736(17)30058-2
5. Lakshmikanth CL, Jacob SP, Chaithra VH, de Castro-Faria-Neto HC, & Marathe GK. Sepsis: in search of cure. Investigation of inflammation. 2018; 65 (8):587-602. doi: https://doi.org/10.1007/s00011-016-0937-y
6. Marik P., Bellomo R. A rational approach to fluid therapy in sepsis. British Journal of Anaesthesia. 2016; 3, 339-49. doi: https://doi.org/10.1093/bja/aev349
7. Nedel, WL & Deutschendorf, C. Early resuscitation for adults with sepsis in a low-income country. Jama. 2018;319(6):614-15.
doi: https://doi.org/10.1001/jama.2017.20406
8. Schepers Nicolien J., et al. "Impact of characteristics of organ failure and infected necrosis on mortality in necrotising pancreatitis." Gut 68.6 (2019): 1044-1051. doi: https://doi.org/10.1136/gutjnl-2017-314657
9. Yan Zheng, Sylvia H. Ley, Frank BH. Global aetiology and epidemiology of type 2 diabetes mellitus and its complications. Nature Reviews Endocrinology. 2018; 14: 8898. doi: https://doi.org/10.1038/nrendo.2017.151
108
На умовах лщензИ CC BY 4.0
МЕДИЧН1ПЕРСПЕКТИВИ / MEDICNIPERSPEKTIVI
СПИСОК Л1ТЕРАТУРИ
1. Гланц С. Медико-биологическая статистика: пер. с англ. Москва: Практика, 1998. 459 с.
2. Коновчук В. М., Андрущак А. В., Максим-чук Н. О. Споаб перебпу ендогенно1 iнгоксикацiï. пат. 112508. Укр.; заяв. 26.04.16; опуб. 26.12.16, Бюл. №24.
3. Рябова С. И. Нефрология: руководство для врачей. Санкт-Петербург: СпецЛит, 2013. 767 с.
4. Chatterjee S., Khunti K., Davies M. J. Type 2 diabetes. Lancet. 2017. Vol. 389. P. 2239-2251. DOI: https://doi.org/10.1016/S0140-6736(17)30058-2
5. Lakshmikanth C. L., Jacob S. P., Chaithra V. H. Sepsis: in search of cure. Investigation of inflammation. 2018. Vol. 65. P. 587-602.
DOI: https://doi.org/10.1007/s00011-016-0937-y
6. Marik P., Bellomo R. A rational approach to fluid therapy in sepsis. British Journal of Anaesthesia. 2016. Vol. 3. P. 339-349. DOI: https://doi.org/10.1093/bja/aev349
7. Nedel W. L. Deutschendorf C. Early resuscitation for adults with sepsis in a low-income country. Jama. 2018. Vol. 319. P. 614-615.
DOI: https://doi.org/10.1001/jama.2017.20406
8. Schepers Nicolien J. Impact of characteristics of organ failure and infected necrosis on mortality in necrotising pancreatitis. Gut. 2019. Vol. 69. P. 1044-1051.
DOI: https://doi.org/10.1136/gutjnl-2017-314657
9. Yan Zheng, Sylvia H. Ley, Frank B. Hu. Global aetiology and epidemiology of type 2 diabetes mellitus and its complications. Nature Reviews Endocrinology. 2018. Vol. 14. P. 88-98.
DOI: https://doi.org/10.1038/nrendo.2017.151
Стаття надшшла до редакци 28.10.2019
♦
УДК 616.6-022.7-053.2-085.371:615.33.015.8 https://doi.Org/10.26641/2307-0404.2020.1.200409
Т.В. Будшк', ВПЛИВ ВАКЦИНОТЕРАПП
ЛВ Кваш™на 2 НА КЛ1Н1КО-ЛАБОРАТОРН1 ПОКАЗНИКИ
В ПАЩеНТШ З РЕКУРЕНТНОЮ 1НФЕКЦ1еЮ СЕЧОВО1 СИСТЕМИ
Нацюналъна медична академiя тслядипломно! освти iM. П.Л. Шутка 1 кафедра нефрологп та нирково-замюноИ терапи вул. Дорогожицъка, 9, Кшв, 04112, Укра'та
ДУ «1нститут педiатрii, акушерства та гiнекологii iM. акад. О.М. Лук'яново! НАМН Укра'ти» 2
вiддiлення проблем здорово'1' дитини та преморбiдних станiв
вул. П. Майбороди, 8, Кшв, 02000, Укра'та
Shupyk National Medical Academy of Postgraduate Education 1
Department of Nephrology and Kidney Substitution Therapy
Dorohozhytska str., 9, Kyiv, 04112, Ukraine
SI «Institute of Pediatrics, Obstetrics and Gynecology named after Acad. O.M. Lukyanov National Academy of Medical Sciences of Ukraine» 2
Department ofproblems of healthy child and premorbid conditions P. Maiborody str., 8, Kyiv, 02000, Ukraine e-mail: budniktania8@gmail.com
Цитування: Медичш перспективы. 2020. Т. 25, № 1. С. 109-115 Cited: Medicniperspektivi. 2020;25(1):109-115
Ключовi слова: тфекцш сечово'1' системи, дiвчата, антибактерiалъна резистенттстъ, вакцинотератя Ключевые слова: инфекция мочевой системы, девочки, антибактериальная резистентность, вакцинотерапия Key words: urinary tract infection, girls, antibacterial resistance, vaccine therapy
20/ Том XXV/1
109
