Кирячков Юрий Юрьевич scite author profile

Кирячков Юрий Юрьевич

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A Randomized Controlled Study of the Effectiveness of Electrophysiological Monitoring of Dexmedetomidine in Patients with Brain Damage of Various Origins

Kiryachkov

Юрьевич²,

Petrova

et al. 2020

Annals RAMS

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Background.At the same time, the main effect of the use of this drug is the elimination of the autonomic nervous system dysfunction and sympatholysis. It seems important to search for a method of indications and selection of a dose of dexmedetomidine in intensive care.Aims to improve the clinical effectiveness of the electrophysiological navigation of the prolonged use of dexmedetomidine in patients with brain pathology of various origins.Methods.The study included 83 patients 2050 days after the traumatic brain injury, anoxic damage; consequences of acute disorders of cerebral. 37 patients comprised the 1st intervention group with a clinical course of dexmedetomidine (male 28; female 9; average age 49.62.3 years) and 46 patients comprised the 2nd control group without pharmacological correction with dexmedetomidine (male 23; female 23, average age 512.5 years). Criteria for the inclusion of prolonged infusion of the drug dexmedetomidine (Orion Pharma, Finland) are based on heart rate variability (HRV) indicators characteristic of sympathetic hyperactivity, the target task of titration of doses of dexmedetomidine served as the parameters for achieving normal HRV indicators, the appearance of parasympathetic hyperactivity served as the basis for reducing the dosage of the drug or stopping it of application. HRV parameters were recorded before dexmetomedine infusion-initially, on 13; 45; 910; 1520 days of drug administration.Results.The starting dose of dexmedetomidine with sympathetic hyperactivity in patients was 0.12 to 0.24 g.kg1.hr1(average dose 0.160.01; total 200 mg/day). According to digital data from HRV, the effective dose of dexmedetomidine ED50 was 0.260.03 g.kg1.hr1(total daily 353.835.1 g) and was achieved on day 910 using dexmedetomidine.Conclusions.The protective role of dexmedetomidine with correction of sympathetic hyperactivity based on electrophysiological navigation according to the HRV is reliable in the following indicators: The improvement of consciousness; a significant decrease in the incidence of distress lung syndrome; septic shock; mortality.

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Quality of models of scales of consciousness level, functional state, and General somatic severity in patients with consequences of brain damage in intensive care and rehabilitation department.

Kiryachkov

Юрьевич²,

Petrova

et al. 2020

Physical and rehabilitation medicine, medical rehabilitation

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Aims: development and substantiation of a typical scheme for the clinical use of scales of the level of consciousness, general somatic and functional status of patients with of brain damage. Methods: Included 118 patients on 20-50 days after traumatic brain injury, anoxic damage; consequences of acute cerebral circulatory disorders, and neurosurgical operations. In groups of patients who are in a coma, vegetative status, a state of minimal consciousness and a state of clear consciousness, the analysis of the statistical quality of clinical scales was carried out: scales of consciousness: the Glasgow coma Scale (GCS); FOUR (Full Outline of UnResponsiveness); CRS-R-Coma Recovery Scale-Revised; the Glasgow outcome Scale (COS); the extended scale of the Glasgow coma (COSE - Glasgow outcome scale extended); Rancho Los Amigos scale-scale of consciousness and interaction with the environment (the Rancho Los Amigos scale - RLAS); Functional status scales: DRS (the Disability Rating Scale); modified Rankin Scale mRS; Barthel Activities of Daily Living (ADL) Index; functional independence measure-FIM; Karnovsky Index; Rivermead Mobility Index self-assessment of everyday life opportunities in Merton and Sutton (checklist self-maintenance. Merton and Sutton community NHS trust); Scales of General somatic severity: assessment of multi-organ dysfunction on the APACHE II scale (Acute Physiology and Chronic Health Evaluation); APACHE IV scale; SAPS II scale (Simplified Acute Physiology Score); SOFA scale (Sequential Organ Failure Assessment). The functional state of the ANS was recorded using HRV parameters by recording 5-minute RR intervals of the electrocardiogram. Results: There are 4 groups of patients who are in a state of coma, vegetative status, a state of minimal consciousness and a state of clear consciousness. In 67 patients out of 118 examined (56.8%) the parameters of ANS functional activity are in the zone of pathological (sympathetic/parasympathetic hyperactivity) values. Conclusions: Various scales of the level of consciousness, functional and general somatic severity of patients objectively differ in clinical significance in the gradation of coma - vegetative status - minimal consciousness - clear consciousness.

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Prediction of the effectiveness of spontaneous breathing in patients with brain damage of various etiologies

Kiryachkov

Юрьевич²,

Petrova

et al. 2020

Annals RAMS

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BACKGROUND: Long-term respiratory support is a severe disabling factor and is accompanied by a long stay of patients in intensive care units. AIMS: The analysis of the predictors of the success of disconnection from mechanical ventilation on the basis of clinical and diagnostic criteria in patients with brain damage of various etiologies. METHODS: The study included 53 patients (husband ― 28, women ― 25; cf. age 53.69 2.34) who are in 2019 with the consequences of traumatic brain injury (TBI) (n = 18; 33.9%); consequences of acute cerebrovascular accident (n = 24; 45.3%); the effects of anoxic brain damage (n = 3; 5.7%); consequences of subarachnoid hemorrhage (n = 8; 15.1%). RESULTS: The statistically significant predictor of recovery of spontaneous breathing in the 1st and 2nd groups of patients were preserved chemoreflex sensitivity (IPCS), the sensitivity and specificity of IPCS was 78.57% [95 % DI 49.295.26] and 83.3 % [95 % CI 62.695.26]. The index of peripheral chemoreflex sensitivity (IPCS) was calculated using the formula: IPCS = [RRe / RRi] [Vt(e) / Vt(i)] [VE(e) / VE(i)] [Vt(e) VE(i)], where IPCS is the index of peripheral chemoreflex sensitivity in l/min; RRi and RRe; Vt(i) and Vt(e); VE(e) and VE(i) ― respiratory rate (RR, breaths/min), tidal volume (Vt), minute ventilation (VE), (l/min) of the starting point ― (i) before carrying out a functional stress test and (e) ― during a functional test of normobaric hypoxia with SpO2 in the range of 9080 %. CONCLUSIONS: The most significant clinical parameters statistically reliably hampering the process of successful recovery of spontaneous breathing in addition to chemoreflex sensitivity are the presence of severe heart failure, pneumonia, autonomic dysfunction, level of consciousness, age, higher levels of inspiratory and expiratory pressure mounted on a respirator.

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