DYNAMICS OF COGNITIVE FUNCTION OF PATIENTS WITH DEFECTS OF THE SKULL AFTER RECONSTRUCTIVE SURGERY
https://doi.org/10.20514/2226-6704-2017-7-2-131-138
Abstract
Due to the high social significance of traumatic brain injury and its consequences, dynamics of cognitive functions at the background of the reduction of reconstructive and plastic surgery is of interest to researchers in the world, but this topic is not sufficiently studied. A large number of patients with bone defects of the skull due to a traumatic brain injury and skull defects after surgery for tumors, and as a consequence of possible cognitive deficits of these patients makes it necessary to study and assess the possibility of its compensation as a result of reconstructive plastic surgery of the skull. Material and methods. In our study, we examined 54 patients (12 women and 42 men) in surgical treatment neurotrauma department (reconstructive surgery) after traumatic brain injury or skull defect after surgical removal of tumors. The average age of patients is33,09 years. All patients were examined by a psychologist before surgery, and on the first, third, and seventh-eighth day after the surgery. MoCA, FAB, Schulte tables, HADS, Spielberger-Hanin anxiety test, a set of stimulus materials for neuropsychological diagnosis, all patients were asked to subjectively evaluate their appearance: until defect acquisition prior to surgery after treatment (see questionnaire by Sinbukhova E.[8]), also was used projective drawing method, where patients were asked to perform a series of drawings on the given topics. In our study to reduce the high level of situational and personal anxiety of the patients they had Art-therapy sessions with a psychologist before surgery and from the second day after it. The purpose of research is to study the changes in cognitive function, level of depression, anxiety of patients with postoperative bone defects of the skull after a reconstructive-plastic surgery. Keywords cognitive function, depression, anxiety, reconstructive surgery. Results On the 3 days after surgery, a statistically significant increase was observed in the evaluation acording MoCA (preoperative mean value — 22 points, 3 days after the operation — 24 points, p = 0,0002033). Before сheck out (MoCA) significant improvement in cognitive function was confirmed. Depression, personal and situational anxiety was significantly reduced by the time сheck out. By the time of сheck out the emotional state of the patients showed significant improvement of emotional state level to the level prior to the defect acquisition. Subjective evaluation of appearance by the time of сheck out of patients showed a significant recovery of subjective apearance evaluation of the level prior to the defect acquisition. Conclusion. The obtained data revealed a statistically significant increase of early postoperative cognitive function of the background of reconstructive-plastic surgery. Statistically significant results of the reduction of depression, situational and personal anxiety, improvement of the emotional state of patients after surgery, at the background of daily Art-therapy (projective drawing) sessions with a psychologis.
About the Authors
E. V. Sinbukhova
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
A. D. Kravchuk
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
A. Yu. Lubnin
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
G. V. Danilov
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
V. A. Ochlopkov
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
L. A. Stepnova
Scientific Research Neurosurgery Institute named after the academician N. N. Burdenko
Russian Federation
Moscow
Russian Federation
Moscow
References
1. Вассерман Л.И., Дорофеева С.А., Меерсон Я.А. Методы нейропсихологической диагностики. Издательство «Стройлеспечать» СПб.:1997; 360 с. Vasserman L.I. Dorofeeva S.A. Meerson Y.A. A Metody nejropsihologicheskoj diagnostiki. [Methods of neuropsychological diagnostics.] Saint Petersburg: «Stroyles Print» Publishing house.: 1997; 360 p. [in Russian].
2. Копытин А.И. под ред. Диагностика в Арт-терапии. Метод Мандала. СПб.: Речь, 2002; 144 с. Kopytin A.I. pod red. Diagnostika v Art-terapii Metod Mandala. [Diagnosis in Art Therapy. Mandala method.] Saint Petersburg: Speech, 2002; 144 р. [in Russian].
3. Копытин А.И. под ред. Арт-терапия-новые горизонты. М.: Когито-центр, 2006; 336 с. Kopytin A.I. pod red. Art-terapiya-novye gorizonty [Art therapy, new horizons]. Moscow: Cogito Centre 2006; 336 p. [in Russian].
4. Лурия А.Р. Травматическая афазия. Издательство академии медицинских наук. СССР. М.:1947; 367 с. Luriya A.R. Travmaticheskaya afaziya [Traumatic aphasia]. Publisher Academy of Medical Sciences. The USSR. Moscow: 1947; 367 р. [in Russian].
5. Лурия А.Р. Высшие корковые функции человека. М.: Издательство Московского Университета. 1962; 431 с. Luriya A.R. Vysshie korkovye funktsii cheloveka [Higher cortical functions of man]. Publishing house of the Moscow University. 1962; 431 p. [in Russian].
6. Люшер М. Сигналы личности. Ролевые игры и их мотивы. Воронеж: Модэк, 1995; 176 с. Lyusher M Signaly lichnosti Rolevye igry i ih motivy [Individual signals. Role playing and their motives]. Voronezh Modek, 1995; 176 p. [in Russian].
7. Люшер М., Сара Д.М. Цвета вашего характера. Тайны почерка. Москва: Вече, Персей, АТС, 1996; 400 с.
8. Lyusher M., Sara D. Tsveta vashego haraktera. Tajny podcherka [The colors of your character. Secrets handwriting]. Moscow: Veche, Perseus, AST, 1996; 400 р. [in Russian].
9. Синбухова Е.В., Степнова Л.А., Коновалов Н.А. Аспекты аутопсихологической компетенции пациентов со спинальными опухолями. Журнал земский врач. 2015; 3: 37-43. Sinbukhova E, Stepnova L, Konovalov N. Aspekty autopsihologicheskoj kompetentsii patsientov so spinalnymi opuholyami [Aspects of autopsychology competence of patients with spinal tumors]. Journal Zemsky vrach. 2015; 3: 37-43 [in Russian].
10. Abhishek Songara, Rakesh Gupta, Nilesh Jain, et al. Early Cranioplasty in Patients With Posttraumatic Decompressive Craniectomy and Its Correlation with Changes in Cerebral Perfusion Parameters and Neurocognitive Outcome. World Neurosurgery. 2016; 94: 303-308.
11. Bender A., Heulin, S., Röhrer, S., Mehrkens, J.H. et al. Early cranioplasty may improve outcome in neurological patients with decompressive craniectomy. Brain Inj. 2013; 27: 1073-1079.
12. Chibbaro S., Vallee F., Beccaria K. et al. The impact of early cranioplasty on cerebral blood flow and its correlation with neurological and cognitive outcome. Prospective multi-centre study on 24 patients. Rev. Neurol. 2013; 169(3): 240-248.
13. Corallo F., De Cola M.C., Buono V.L. et al. Early vs late cranioplasty: what is better? Int. J. Neurosci. 2016; 9: 1-18.
14. Di Stefano C., Sturiale C., Trentini P. et al, Unexpected neuropsychological improvement after cranioplasty: a case series study. Br. J. Neurosurg. 2012; 26: 827-831.
15. Douglas S., James I., Ballard C. Non-pharmacological interventions in dementia. Advances in Psychiatric Treatment. 2004; 10(3): 171-179.
16. Jorge R.E., Arciniegas D.B. Mood Disorders After TBI. Psychiatr Clin North Am [Internet]. 2014; 37(1): 13-29.
17. Newman M.F., Kirchner J.L., Phillips-Bute B. et al. Longitudinal assessment of neurocognitive function after coronary-artery bypass surgery. N. Engl. J. Med. 2001; 344: 395-402.
18. Jelcic N., Puppa A., Mottaran R. et al. Case series evidence for improvement of executive functions after late cranioplasty. Brain Inj. 2013; 27(13-14): 1723-1726.
19. Bajwa N.M., Halavi S., Hamer M. et al. Mild Concussion, but Not Moderate Traumatic Brain Injury, Is Associated with LongTerm Depression-Like Phenotype in Mice. PLoS One. 2016; 11(1): e0146886.
20. Skvarc D.R., Dean O.M., Byrne L.K. et al. The Post-Anaesthesia N-acetylcysteine Cognitive Evaluation (PANACEA) trial: study protocol for a randomized controlled trial. Trials. 2016; 17: 395.
21. Zhi X.-L., Li C.-Y., Xue M. et al. Changes in cognitive function due to combined propofol and remifentanil treatment are associated with phosphorylation of Tau in the hippocampus, abnormal total water and calcium contents of the brain, and elevated serum S100β levels. Eur. Rev. Med. Pharmacol. Sci. 2016; 20(10): 2156-2162.
Review
For citations:
Sinbukhova E.V., Kravchuk A.D., Lubnin A.Yu., Danilov G.V., Ochlopkov V.A., Stepnova L.A. DYNAMICS OF COGNITIVE FUNCTION OF PATIENTS WITH DEFECTS OF THE SKULL AFTER RECONSTRUCTIVE SURGERY. The Russian Archives of Internal Medicine. 2017;7(2):131-138. (In Russ.) https://doi.org/10.20514/2226-6704-2017-7-2-131-138
Views:
14700
Email this article 