The effect of selective hypothermia of the cerebral cortex on metabolism in patients with prolonged impairment of consciousness.

Background. Selective craniocerebral hypothermia (CCН), used in the acute period of brain damage, ensures the development of positive clinical effects (rapid and persistent reduction of neurological deficit, increased consciousness and maintenance of normothermy in feverish patients). The safety and efficacy of CCН in the acute period of cerebrovascular lesions prompted the use of craniocerebral cooling in patients with chronic disorders of consciousness (CDC). For this category of patients, the CCН technique has been developed, which requires careful study including its effect on overall metabolism. Aims. To find out the nature of the metabolic response to CСH procedures in patients in a vegetative state and with a minimal level of consciousness. Materials and Methods. A pilot study was conducted from 03.02.2021 till 12.03.2022. The study included 34 patients who were in a state of CDC after severe brain damage (stroke - 25, brain injury - 5, anoxic brain injuries - 4). Hypothermia was induced using the ATG-01 device, lowering the temperature of the scalp to 4-7 with a cooling procedure lasting for 120 minutes. Indirect calorimetry method was conducted before cooling and after 105 minutes of the CCH session. Statistical analysis was carried out using the program Stat Tech v. 2.6.5 (developer - Stattech LLC, Russia). Results. Craniocerebral cooling provided a decrease in the temperature of the frontal cortex of the large hemispheres already after 30th minute from 36.4 C to 34.9 0.41 C in the left and 34.7 0.47 C in the right hemisphere. By the 120th minute, the temperature in the left hemisphere reached 34.0 0.40 C, in the right 33.3 0.51 C, falling respectively by 2.4 C and 3.1 C. 30 minutes after the completion of CCH, the brain temperature remained lowered by 0.7 Changes in the level of metabolism under the influence of CCН were of a multidirectional nature. In 24 patients (70.59% of patients), the REE [resting energy expenditure] index increased to varying degrees by the end of the cooling procedure, and in 10 participants it decreased. A significant spread of data allowed only a descriptive analysis of the results obtained during a 120-minute CCH session. Conclusions. Chronic disordersofconsciousness are largely associated with severe damage of the cerebral cortex. It can be assumed that in patients who reacted with a decrease in REE to the induction of hypothermia, at least metabolic activity in the intact parts of the cerebral cortex was preserved to a certain extent, which may indicate some level of rehabilitation potential. The lack of expression of the reactions of the general metabolism to craniocerebral cooling may be due to the fact that the severe damage to the cerebral cortex excluded the selectivity of hypothermic exposure.