2020 ARIA CARE PATHWAYS FOR ALLERGIC RHINITIS - GEORGIA.

Allergic rhinitis is the most common chronic disease worldwide. Treatment guidelines have improved the knowledge on rhinitis and have had a significant impact on AR management. In 20 years, ARIA has considerably evolved from the first multi-morbidity guideline in respiratory diseases to the digital transformation of health and care. Allergic rhinitis in Georgia, Next-generation ARIA-GRADE guidelines and ARIA, 2020 care pathways for Allergen Immunotherapy have been discussed in this review.

ACQUISITION AND CONSOLIDATION OF TWO-WAY ACTIVE AVOIDANCE IN THE HIGH IMMOBILIZATION "DEPRESSIVE" RATS.

Present study investigated possible changes in acquisition and consolidation of associative memory in high immobilization "depressive" and low immobilization "non-depressive" rats. Question is very topical because understanding the character of learning and memory disturbances, one of symptoms of major depressive disease, is very significant for more intimate definition of the pathophysiology of major depressive disorder and appropriate searching the ways of its correction. Selection of rats according to the level of immobilization was made by means of forced swim test. Learning and memory disturbances were studied using two-way active avoidance test that is fear motivated multi trial associative memory task. It was shown that ability to avoid/escape an aversive event by learning to perform a specific behavior, in response to a stimulus cue, is retained at the high level in high immobility "depressive" rats, selected by forced swim test. Acquisition of new information about an aversive stimulus is significantly facilitated and processes of consolidation are realized without any impairment. Thus, acquisition and consolidation of associative learning and memory is not impaired in high immobility "depressive" rats in two-way active avoidance task.

CHARACTER OF THE CHANGES IN FEAR MOTIVATED DECLARATIVE MEMORY IN THE HIGH IMMOBILIZATION "DEPRESSIVE" RATS.

Present study investigated possible differences in the learning and memory of declarative memory task in rats selected according to the differences in immobilization response that is in high immobilization "depressive" and low immobilization "non-depressive" rats. Understanding the character of learning and memory disturbances in basal conditions of animal models of depression is still very topical for more intimate definition of the pathophysiology of major depressive disorder and appropriate searching the ways of its correction. Experiments were carried out on the adult white wild rats (with the weight 200-250 g, n=20). Selection of rats according to the level of immobilization was made by means of forced swim test. Learning and memory disturbances were studied using passive avoidance test that is fear motivated one trial declarative memory task. It was shown by us that 100% of low immobilization "non-depressive" rats remember painful stimulation and therefore they are not enter in the dark compartment during whole period of observation during testing session. Behavior of high immobilization "depressive" rats is not similar in passive avoidance camera; 50% of "depressive" rats, with long escape latency during training session (92±10 sec), remember painful stimulation during testing session and therefore they are not enter in the dark compartment during whole observation period. The remaining 50%, that are not differ significantly from the low immobility "non-depressive" rats by the latency of escape (5±1 sec) during training session, are not able to remember painful stimulation during testing session and therefore they enter in the dark compartment with shortest escape latency (6±1 sec). In conclusion, high immobility "depressive" rats perform passive avoidance declarative memory task at the chance level that is a direct indicator for the serious disturbances of declarative memory mechanisms in "depressive" rats selected in forced swim test according to the level of immobility.

HYPOTHALAMIC OREXINE SYSTEM ACCELERATES REGULATION OF SLEEP HOMEOSTASIS AND SLEEP-WAKEFULNESS CYCLE RECOVERY FROM BARBITURATE ANESTHESIA-INDUCED ARTIFICIAL SLEEP.

The work was aimed for the ascertainment of following question - whether Orexin-containing neurons of dorsal and lateral hypothalamus and brain Orexinergic system in general are those cellular targets which can accelerate recovery of disturbed sleep homeostasis and restoration of sleep-wakefulness cycle behavioral states from barbiturate anesthesia-induced artificial sleep. Investigation was carried out on 18 wild type white rats (weight 200-250gr). Different doses of Nembutal Sodium were used for the initiation of deep anesthesia. 30 min after barbiturate anesthesia induced artificial sleep serial electrical stimulations of dorsal or lateral hypothalamus were started. Stimulation period lasted for 1 hour with the 5 min intervals between subsequent stimulations applied by turn to the left and right side hypothalamic parts. EEG registration of cortical and hippocampal electrical activity was started 10 min after intra-peritoneal administration of Nembutal Sodium and continued continuously during 72 hour. According to obtained new evidences, serial electrical stimulations of dorsal and lateral hypothalamic Orexin-containing neurons significantly accelerate recovery of wakefulness, sleep homeostasis, disturbed because of barbiturate anesthesia induced artificial sleep and different behavioral states of sleep-wakefulness cycle. Hypothalamic Orexin-containing neurons can be considered as the cellular targets for regulating of sleep homeostasis through the acceleration of recovery of wakefulness, and SWC in general, from barbiturate anesthesia-induced deep sleep.

Integrated care pathways for airway diseases (AIRWAYS-ICPs).

The objective of Integrated Care Pathways for Airway Diseases (AIRWAYS-ICPs) is to launch a collaboration to develop multi-sectoral care pathways for chronic respiratory diseases in European countries and regions. AIRWAYS-ICPs has strategic relevance to the European Union Health Strategy and will add value to existing public health knowledge by: 1) proposing a common framework of care pathways for chronic respiratory diseases, which will facilitate comparability and trans-national initiatives; 2) informing cost-effective policy development, strengthening in particular those on smoking and environmental exposure; 3) aiding risk stratification in chronic disease patients, using a common strategy; 4) having a significant impact on the health of citizens in the short term (reduction of morbidity, improvement of education in children and of work in adults) and in the long-term (healthy ageing); 5) proposing a common simulation tool to assist physicians; and 6) ultimately reducing the healthcare burden (emergency visits, avoidable hospitalisations, disability and costs) while improving quality of life. In the longer term, the incidence of disease may be reduced by innovative prevention strategies. AIRWAYSICPs was initiated by Area 5 of the Action Plan B3 of the European Innovation Partnership on Active and Healthy Ageing. All stakeholders are involved (health and social care, patients, and policy makers).

Influence of serial electrical stimulations of perifornical and posterior hypothalamic orexin-containing neurons on regulation of sleep homeostasis and sleep-wakefulness cycle recovery from experimental comatose state and anesthesia-induced deep sleep.

The work was aimed for the ascertainment of following question - whether Orexin-containing neurons of dorsal and lateral hypothalamic, and brain Orexinergic system in general, are those cellular targets which can speed up recovery of disturbed sleep homeostasis and accelerate restoration of sleep-wakefulness cycle phases during some pathological conditions - experimental comatose state and/or deep anesthesia-induced sleep. Study was carried out on white rats. Modeling of experimental comatose state was made by midbrain cytotoxic lesions at intra-collicular level.Animals were under artificial respiration and special care. Different doses of Sodium Ethaminal were used for deep anesthesia. 30 min after comatose state and/or deep anesthesia induced sleep serial electrical stimulations of posterior and/or perifornical hypothalamus were started. Stimulation period lasted for 1 hour with the 5 min intervals between subsequent stimulations applied by turn to the left and right side hypothalamic parts.EEG registration of cortical and hippocampal electrical activity was started immediately after experimental comatose state and deep anesthesia induced sleep and continued continuously during 72 hour. According to obtained new evidences, serial electrical stimulations of posterior and perifornical hypothalamic Orexin-containing neurons significantly accelerate recovery of sleep homeostasis, disturbed because of comatose state and/or deep anesthesia induced sleep. Speed up recovery of sleep homeostasis was manifested in acceleration of coming out from comatose state and deep anesthesia induced sleep and significant early restoration of sleep-wakefulness cycle behavioral states.

The character of sleep disturbances produced by multiple administrations of atropine the antagonist of brain muscarinic cholinergic system.

Modification of brain muscarinic cholinergic system normal functioning can be considered as an appropriate strategy for the study of its role in sleep-wakefulness cycle basic mechanisms in general and in the course/maintenance of PS in particular. For this aim systemic application of muscarinic cholinoreceptors antagonists is significant because it gives possibility to modify functioning all of known five sub-types of muscarinic cholinoreceptors and to study the character of sleep disturbances in these conditions. Problem is very topical because the question about the intimate aspects of BMChS involvement in PS maintaining mechanisms still remains unsolved. In cats Atropine systemic administration was made once daily at 10:00 a.m. and continuous EEG registration of sleep-wakefulness cycle ultradian structure, lasting for 10 hour daily, was started immediately. In sum each animal received anti-muscarinic drugs for 12 times. Thereafter drug administrations were ceased and EEG registration of sleep-wakefulness cycle ultradian structure was continued during 10 consecutive days. On the basis of results obtained in these conditions we can conclude that brain muscarinic cholinergic system normal functioning is significant for basic mechanisms of sleep-wakefulness cycle. During wakefulness, at the level of neocortex and hippocampus, MChS supports only EEG activation, while it is one of the main factors in PS triggering and maintaining mechanisms.

Anthropometric data peculiarities in early school children population.

The anthropometric data were studied in early school aged (6-7 years old) children and the degree of harmonization during physical development was evaluated. Representative population of 400 otherwise healthy early school aged children was included in study group. Study period covered the end of school year. In the selected under observation focused population the level of individual anthropometric data was determined in percentile intervals according its position. Anthropometric data assessments by using percentile method it was revealed in early school aged (6-7 years of old children) excess in body height and weight in comparison with normal values. This phenomenon indicates the prevalence of acceleration and weight gain. Anthropometric data in boys were increased while comparing with physical development data in girls. This result difference has the tendency to statistically insignificant. Physical development harmonization values were studied in 200 children. Harmonized physical development revealed in 50 children (25%); disharmonized physical development I 50 children (15%), among them with I degree weight gain were 48 (24%), and with I degree weight deficit were 2 (1%). Markedly disharmonized development had 100 children (50%), among them with II degree weight gain were 98 (49%), and with II degree weight deficit were 2 (1%). According to the children's anthropometric data and assessment by physical development harmonization percentiles tables three groups of children were organized: main, risk group and the group with deviation in physical development. On the basis of resulted data the study of early school age children's physical development gives possibility for risk groups stratification, which in turn itself makes a strong basis for reasonable preventive measurements and stepwise monitoring implementation.

Changes of open field behavior in animal model of depression.

Animal model of depression was developed by means of chronic exposure of rat pups to anticholinergic drugs (Atropine, Scopolamine) during the early life period from postnatal day 7 (P7) and/or 14 (P14) to P21 and/or P28, respectively. Such procedure resulted in lasting behavioral changes that were evident long after drug discontinuation and persisted at mature age (2-3 month period). Behavioral changes included most indices of open field behavior. Modeled animals exhibited significant depression of locomotor activity certified by sharp reduction of the number of crossed squares, rising of a head and vertical standings. Grooming behavior was also significantly decreased. Frequency of center entrance and the time of staying in the center of open field were sharply shortened. Modeled animals exhibited complete loss of exploratory motivation which wasn't related to the enhancement of fear emotion so far as values of incidence of urination and defecation remained unchangeable. These findings indicate that postnatal exposure of rat pups to Atropine and/or Scopolamine induces lasting behavioral "despai"' or "refractory loss of interest" at mature age. In sum animal model of depression which are characterized by super sensitivity of brain muscarinic cholinergic system exhibit more depressed behavioral items in open field than other types of animal models of depression. These data imply the preference of muscarinic cholinergic super sensitivity for the development of depressive state and therefore they are very significant for both basic science and clinical research issues.

Effects of trihexyphenydil, the structural analog of phencyclidine, on neocortical and hippocampal electrical activity in sleep-waking cycle.

Finding about structural and functional relation between NMDA receptors specific binding and phencyclidine sites was very important for a possible modulation of NMDA receptors' function. We have therefore got interested what would happen with EEG and vegetative patterns of PS in the case when NMDA receptors function is modulated by blocking of phencyclidines' site. Consequently, we studied the effects of Trihexyphenydil, the structural analog of phencyclidine, on neocortical and hippocampal electrical activity in SWC. On cats (n=5) metallic electrodes were implanted under Nembutal anesthesia. EEG registration lasting 12 hr daily started after animals' recovery. Trihexyphenydil was administered intraperitoneally (0.5 mg/kg - 1 mg/kg). Statistical processing was made by Students' t-test. Trihexyphenydil resulted in dissociated triggering of PS. Rapid eye movements and PGO waves appeared on the face of active waking state. Therefore on the background of behavioral active waking according to electrical activity of the visual cortex and rapid eye movements, electrographic patterns of paradoxical sleep were recorded. Thus in our experiments it was shown firstly that the mechanism of hallucinogenic action of Trihexyphenydil is closely related to the disturbance of paradoxical sleep integrity. Blocking of NMDA receptors phencyclidines site and therefore functional modulation of these receptors produce the splitting of PS patterns and their intrusion in waking state. Such an effect never takes place in normal conditions since the waking system has the powerful inhibitory influence on the PS triggering system. Suggestion is make that NMDA glutamate receptors must be involved in mechanisms providing structural and functional integrity of PS and that fulfillment of such function is possible in the case when the NMDA receptors phencyclidine site isn't in blocked state. Normal functioning of NMDA receptors phencyclidine site represents the mechanism which inhibits and/or hampers appearance of hallucination. NMDA glutamate receptors, possessing phencyclidine site, are implicated in the mechanisms providing structural and functional integrity of PS.