Главная страница

Клинические рекомендации Ведение больных с последствиями позвоно. Ведение больных с последствиями позвоночноспинномозговой травмы на втором и третьем этапах медицинской и медикосоциальной реабилитации


Скачать 0.77 Mb.
НазваниеВедение больных с последствиями позвоночноспинномозговой травмы на втором и третьем этапах медицинской и медикосоциальной реабилитации
Анкор111111
Дата09.06.2022
Размер0.77 Mb.
Формат файлаdocx
Имя файлаКлинические рекомендации Ведение больных с последствиями позвоно.docx
ТипДокументы
#581388
страница21 из 23
1   ...   15   16   17   18   19   20   21   22   23
Murphy K.P., Opitz J.L., Cabanela M.E., Ebersold M.J. Cervical fractures and spinal cord injury: outcome of surgical and non­surgical management // Mayo Clin. Proc. – 1990. – Vol. 65. – P. 949–959.

  • Mueller C., Compher C., Ellen D.M.; American Society for Par­enteral and Enteral Nutrition (A.S.P.E.N.) Board of Directors. A.S.P.E.N. clinical guidelines: Nutrition screening, assessment, and intervention in adults // J. Parenter. Enteral Nutr. – 2011. – Vol. 35 (1). – P. 16–24.

  • Kondrup J., Allison S.P., Elia M. et al. ESPEN guidelines for nutrition screening 2002 // Clin. Nutr. – 2003. – Vol. 22 (4). – P. 415–421.

  • Kyle U.G., Bosaeus I., De Lorenzo A.D. et al. Bioelectrical impedance analysis – part 2: utilization in clinical practice // Clin. Nutr. – 2004. – Vol. 23. – P. 1430–1453.

  • Dionyssiotis Y., Papachristos A., Petropoulou K. et al. Nutri­tional alterations associated with neurological and neurosurgical diseases // Open Neurol. J. – 2016. – Vol. 10. – P. 32–41.

  • Currie S., Saleem N., Stration J.A. et al. Imaging assessment of traumatic brain injury // Postgrad. Med. J. – 2016, Jan. – Vol. 92 (1083). – P. 41–50.

  • Lee B., Newberg A. Neuroimaging in traumatic brain imaging // NeuroRx. – 2005. – Vol. 2 (2). – P. 372–383.

  • Guérit J.M., Amantini A., Amodio P. et al. Consensus on the use of neurophysiological tests in the intensive care unit (ICU): electroencephalogram (EEG), evoked potentials (EP), and elec­troneuromyography (ENMG) // Neurophysiol. Clin. – 2009, Apr. – Vol. 39 (2). – P. 71–83.

  • Shein A.P., Krivoruchko G.A., Chukhareva N.A., Liulin S.V. Responsiveness and resistance of spinal cord structures in patients with closed thoracic and lumbar spinal injuries: neu­rophysiological and clinical aspects // Vestn. Ross. Akad. Med. Nauk. – 2000. – Vol. 2. – P. 35–41.

  • Stover J.F. Actual evidence for neuromonitoring-guided inten­sive care following severe traumatic brain injury // Swiss Med. Wkly. – 2011, Jul 21. – P. 141.

  • van Santbrink H., Schouten J.W., Steyerberg E.W. et al. Serial transcranial Doppler measurements in traumatic brain injury with special focus on the early posttraumatic period // Acta Neu­rochir. (Wien). – 2002. – Vol. 144 (11). – P. 1141–1149.

  • Rasulo F.A., De Peri E., Lavinio A. Transcranial Doppler ultra­sonography in intensive care // Eur. J. Anaesthesiol. (Suppl.). – 2008. – Vol. 42. – P. 167–173.

  • Moppett I.K., Mahajan R.P. Transcranial Doppler ultrasonogra­phy in anaesthesia and intensive care // Br. J. Anaesth. – 2004. – Vol. 93 (5). – P. 710–724.

  • McAllister T.W., Zafonte R., Jain S. et al. Randomized pla­cebo-controlled trial of methylphenidate or galantamine for persistent emotional and cognitive symptoms associated with PTSD and/or traumatic brain injury // Neuropsychopharmacol­ogy. – 2016, Apr. – Vol. 41 (5). – P. 1191–1198.

  • Zafonte R.D., Bagiella E., Ansel B.M. et al. Effect of citico­line on functional and cognitive status among patients with traumatic brain injury: Citicoline Brain Injury Treatment Trial (COBRIT) // JAMA. – 2012, Nov. 21. – Vol. 308 (19). – P. 1993–2000.

  • Dougall D., Poole N., Agrawal N. Pharmacotherapy for chronic cognitive impairment in traumatic brain injury // Cochrane Data­base Syst. Rev. – 2015, Dec. 1. – Vol. 12. – CD009221.

    1. Shen Q., Hiebert J.B., Hartwell J. et al. Systematic review of traumatic brain injury and the impact of antioxidant therapy on clinical outcomes // Worldviews Evid. Based Nurs. – 2016, Oct. – Vol. 13 (5). – P. 380–389.

    2. Bengtsson M., Godbolt A.K. Effects of acetylcholinesterase inhibitors on cognitive function in patients with chronic trau­matic brain injury: A systematic review // J. Rehabil. Med. – 2016, Jan. – Vol. 48 (1). – P. 1–5.

    3. Spungen A.M., Koehler K.M., Modeste-Duncan R. et al. 9 clin­ical cases of nonhealing pressure ulcers in patients with spinal cord injury treated with an anabolic agent: A therapeutic trial // Adv. Skin Wound Care. – 2001. – Vol. 14 (3). – P. 139–144.

    4. Peripheral tissue ischemia: Topics by Science.gov [Electronic resource]. – URL: http://www.science.gov/topicpages/p/periph­eral+tissue+ischemia.html

    5. Albrecht J.S., Mullins D.C., Smith G.S., Rao V. Psychotropic medication use among medicare beneficiaries following trau­matic brain injury // Am. J. Geriatr. Psychiatry. – 2017, Apr. – Vol. 25 (4). – P. 415–424.

    6. Plantier D., Luauté J.; SOFMER group. Drugs for behavior dis­orders after traumatic brain injury: Systematic review and expert consensus leading to French recommendations for good practice // Ann. Phys. Rehabil. Med. – 2016, Feb. – Vol. 59 (1). – P. 42–57.

    7. Beaulieu C.L., Dijkers M.P., Barrett R.S. et al. Occupational, physical, and speech therapy treatment activities during inpatient rehabilitation for traumatic brain injury // Arch. Phys. Med. Rehabil. – 2015, Aug. – Vol. 96 (8 Suppl.). – S222–34.e17.

    8. Sandrow-Feinberg H.R., Houlé J.D. Exercise after spinal cord injury as an agent for neuroprotection, regeneration and reha­bilitation // Brain Res. – 2015, Sep. 4. – Vol. 1619. – P. 12–21.

    9. Hu Q., Manaenko A., Xu T. et al. Hyperbaric oxygen therapy for traumatic brain injury: bench-to-bedside // Med. Gas Res. – 2016, Jul. 11. – Vol. 6 (2). – P. 102–110.

    10. Wang F., Wang Y., Sun T., Yu H.L. Hyperbaric oxygen therapy for the treatment of traumatic brain injury: a meta-analysis // Neurol. Sci. – 2016, May. – Vol. 37 (5). – P. 693–701.

    11. Lobel D.A., Lee K.H. Brain machine interface and limb reani­mation technologies: restoring function after spinal cord injury through development of a bypass system // Mayo Clin. Proc. – 2014, May. – Vol. 89 (5). – P. 708–714.

    12. Tator C.H., Minassian K., Mushahwar V.K. Spinal cord stim­ulation: therapeutic benefits and movement generation after spinal cord injury // Handb. Clin. Neurol. – 2012. – Vol. 109. – P. 283–296.

    13. Rehman Y., Rehman N., Rehman R. Peripheral cytokines as a chemical mediator for postconcussion like sickness behaviour in trauma and perioperative patients: literature Review // Neurol. Res. Int. – 2014. – Vol. 2014. – P. 671–781.

    14. Dekker A.B., Krijnen P., Schipper I.B. Predictive value of cyto­kines for developing complications after polytrauma // World J. Crit. Care Med. – 2016, Aug. 4. – Vol. 5 (3). – P. 187–200.

    15. Sullivan M.P., Torres S.J., Mehta S., Ahn J. Heterotopic ossifi­cation after central nervous system trauma: A current review // Bone Joint Res. – 2013, Mar. – Vol. 2 (3). – P. 51–57.

    16. Schwab J.M., Zhang Y., Kopp M.A. et al. The paradox of chronic neuroinflammation, systemic immune suppression and autoim­munity after traumatic chronic spinal cord injury // Exp. Neurol. Author manuscript; available in PMC 2015 Aug 1.

    17. Rossi S., Hallett M., Rossini P.M., Pascual-Leone A.; Safety of TMS Consensus Group. Safety, ethical considerations, and appli­cation guidelines for the use of transcranial magnetic stimulation in clinical practice and research // Clin. Neurophysiol. – 2009. – Vol. 120 (12). – P. 2008–2039.

    18. Demirtas-Tatlidede A., Vahabzadeh-Hagh A.M., Bernabeu M. et al. Noninvasive brain stimulation in traumatic brain injury // J. Head Trauma Rehabil. – 2012, Jul. – Vol. 27 (4). – P. 274–292.

    1. Health Quality Ontario. Repetitive transcranial magnetic stim­ulation for treatment-resistant depression: A systematic review and meta-analysis of randomized controlled trials // Ont. Health Technol. Assess. Ser. – 2016. – Vol. 16 (5). – P. 1–66.

    2. Institute of Medicine (US) Committee on Nutrition, Trauma, and the Brain. Nutrition and traumatic brain injury: improving acute and subacute health outcomes in military personnel / Ed. by J.Erdman, M.Oria, L.Pillsbury. – Washington (DC): National Academies Press (US), 2011.

    3. Optimal oxygen saturation range for adults suffering from traumatic brain injury: A review of patient benefit, harms, and guidelines. – Ottawa (ON): Canadian Agency for Drugs and Technologies in Health, 2014.

    4. Barker A.L., Talevski J., Morello R.T. et al. Effectiveness of aquatic exercise for musculoskeletal conditions: a meta-analysis // Arch. Phys. Med. Rehabil. – 2014, Sep. – Vol. 95 (9). – P. 1776–1786.

    5. Wheeler S., Acord-Vira A., Davis D. Effectiveness of interven­tions to improve occupational performance for people with psychosocial, behavioral, and emotional impairments after brain injury: A systematic review // Am. J. Occup. Ther. – 2016, May- Jun. – Vol. 70 (3): 7003180060. – P. 1–9.

    6. Berger S., Kaldenberg J., Selmane R., Carlo S. Effectiveness of interventions to address visual and visual-perceptual impair­ments to improve occupational performance in adults with trau­matic brain injury: A systematic review // Am. J. Occup. Ther. – 2016, May-Jun. – Vol. 70 (3): 7003180010. – P. 1–7.

    7. Radomski M.V., Anheluk M., Bartzen M.P., Zola J. Effective­ness of interventions to address cognitive impairments and improve occupational performance after traumatic brain injury: A systematic review // Am. J. Occup. Ther. – 2016, May-Jun. – Vol. 70 (3): 7003180050. – P. 1–9.

    8. Powell J.M., Rich T.J., Wise E.K. Effectiveness of occupation-and activity-based interventions to improve everyday activities and social participation for people with traumatic brain injury: A systematic review // Am. J. Occup. Ther. – 2016, May-Jun. – Vol. 70 (3): 7003180040. – P. 1–9.

    9. Chang P.F., Baxter M.F., Rissky J. Effectiveness of interventions within the scope of occupational therapy practice to improve motor function of people with traumatic brain injury: A system­atic review // Am. J. Occup. Ther. – 2016, May-Jun. – Vol. 70 (3): 7003180020. – P. 1–5.

    10. Sackheim K.A. Rehab clinical pocket guide: rehabilitation med­icine. – NY; London: Springer, 2013.

    11. Houghton P.E., Kincaid C.B., Campbell K.E. et al. Photographic assessment of the appearance of chronic pressure and leg ulcers // Ostomy Wound Manage. – 2000. – Vol. 46 (4). – P. 20–30.

    12. Bohannon R., Smith M. Interrater reliability of a modified Ashworth scale of muscle spasticity // Phys. Ther. – 1987. – Vol. 67 (2). – P. 206–207.

    13. Wolfe D.L., McIntyre A., Ravenek K. et al. Physical activity and SCI // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2012. – Version 4.0. – URL: http://scireproject.com/evidence/rehabilitation-evidence/ physical-activity

    14. Lam T., Wolfe D.L., Domingo A. et al. Lower limb rehabilitation following spinal cord injury // Spinal Cord Injury Rehabili­tation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Version 5.0. – Vancouver. – P. 1–73. – URL: http:// scireproject.com/evidence/rehabilitation-evidence/lower-limb

    15. Mehta S., Teasell R.W., Loh E. et al. Pain following spinal cord injury // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Version 6.0. – P. 1–92. – URL: http://scireproject.com/evidence/rehabilita­tion-evidence/pain-management

    16. Connolly S.J., McIntyre A., Mehta S. et al. Upper limb rehabil­itation following spinal cord injury // Spinal Cord Injury Reha­bilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Version 5.0. – P. 1–74. – URL: http://scireproject.com/evidence/rehabilitation-evidence/upper-limb

    1. Hsieh J.T.C., Wolfe D.L., Townson A.F. et al. Spasticity following spinal cord injury // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2012. – Ver­sion 4.0. – URL: http://scireproject.com/evidence/rehabilita­tion-evidence/spasticity

    2. Hsieh J., McIntyre A., Wolfe D. et al. Pressure ulcers following spinal cord injury // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Ver­sion 5.0. – P. 1–90. – URL: http://scireproject.com/evidence/ rehabilitation-evidence/pressure-ulcers

    3. Hsieh J., McIntyre A., Iruthayarajah J. et al. Bladder man­agement following spinal cord injury // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Version 5.0. – P. 1–196. – URL: http://scireproject.com/evidence/rehabilitation-evidence/ bladder-management

    4. Coggrave M., Mills P., Willms R., Eng J.J. Bowel dysfunction and management following spinal cord injury // Spinal Cord Injury Rehabilitation Evidence / Ed. by J.J.Eng, R.W.Teasell, W.C.Miller et al. – 2014. – Version 5.0. – Vancouver. – P. 1–48. – URL: http://scireproject.com/evidence/rehabilitation-evidence/ bowel-dysfunction-and-management

    5. Brotfain E., Gruenbaum S.E., Boyko M. et al. Neuroprotection by estrogen and progesterone in traumatic brain injury and spinal cord injury // Curr. Neuropharmacol. – 2016. – Vol. 14 (6). – P. 641–653.

    6. Peck K.A., Calvo R.Y., Schechter M.S. et al. The impact of pre­injury anticoagulants and prescription antiplatelet agents on out­comes in older patients with traumatic brain injury // J. Trauma Acute Care Surg. – 2014, Feb. – Vol. 76 (2). – P. 431–436.

    7. Бодрова Р.А. Определение реабилитационного потенциала у лиц, перенесших травму спинного мозга, с позиций Меж­дународной классификации функционирования, ограниче­ний жизнедеятельности и здоровья // Вестник восстанови­тельной медицины. – 2015. – № 4 (68). – С. 13–22.

    8. Бодрова Р.А., Аухадеев Э.И., Якупов Р.А., Закамырдина А.Д. Эффективность активной медицинской реабилитации у пациентов с травматической болезнью спинного мозга // Доктор.Ру. – 2016. – № 12 (129). – Часть II. – С. 31–38.

    9. Burton C.R., Horne M., Woodward-Nutt K. et al. What is rehabilitation potential? Development of a theoretical model through the accounts of healthcare professionals working in stroke rehabilitation services // Disabil. Rehabil. – 2014. – Vol. 12. – P. 1–6.

    10. Белова А.Н., Прокопенко С.В. Нейрореабилитация: руковод­ство для врачей. – М., 2010. – 1288 с.

    11. Зимина Е.В., Даминов В.Д., Кузнецов А.Н. Роботизированная реконструкция ходьбы в промежуточном периоде позво­ночно-спинномозговой травмы // Вестник восстановитель­ной медицины. – 2009. – № 3. – С. 62–64.

    12. Mlyavuch S.G., Morozov I.N. Orthopedic-surgical rehabilitation and regenerative treatment patients with spinal cord injury in the intermediate and late period // Poster International conference on recent advances in neurotraumatology ICRAN. – St. Petersburg, 2010. – P. 160–161.

    13. Румянцева С.А., Силина Е.В., Орлова А.С., Болевич С.Б. Оценка реабилитационного потенциала у коморбидных больных с инсультом // Вестник восстановительной меди­цины. – 2014. – № 3. – С. 91–92.

    14. Морозов И.Н. Позвоночно-спинномозговая травма: восста­новительное лечение в промежуточном и позднем периодах: Дис. … докт. мед. наук. – Н. Новгород, 2011. – 338 с.

    15. Смычек В.Б. Основы МКФ. – Минск, 2015. – 432 с.

    1. Пономаренко Г.Н. Международная классификация функци­онирования, ограничений жизнедеятельности и здоровья – инструмент научной оценки эффективности медицинской реабилитации // Вопросы курортологии, физиотерапии и лечебной физической культуры. – 2013. – Т. 90 (2). – С. 57–62.

    2. Орлова Г.Г., Лукьянова И.Е., Дагаева А.А. и др. Роль и зна­чение Международной классификации функционирования, ограничений жизнедеятельности и здоровья (МКФ) в орга­низации должной профилактической помощи населению // Фундаментальные исследования. – 2013. – № 3 (2). – С. 358– 361.

    3. Халак М.Е. Психологический реабилитационный потенциал больных с ТБСМ: Матер. II Междунар. конгр. «Нейрореаби­литация-2010». – М., 2010. − С. 134.

    4. Белова А.Н., Балдова С.Н. Методы электростимуляции в вос­становлении двигательных функций после позвоночно- спинномозговой травмы. Обзор литературы // Трудный пациент. – 2014. – Т. 12 (6). – С. 42–48.

    5. Медицинская реабилитация / Под ред. В.М.Боголюбова: в 3 т. – М., 2007. – Т. 2. – 470 с.

    6. Боголюбов В.М., Васильева М.Ф., Воробьев М.Г. и др. Тех­ника и методики физиотерапевтических процедур: справоч­ник. – М.: БИНОМ, 2015. – 464 с.

    7. Thrasher T.A., Flett H.M., Popovic M.R. Gait training regimen for incomplete spinal cord injury using functional electrical stimulation // Spinal Cord. – 2006. – Vol. 44 (6). – P. 357–361.

    8. Hofstoetter U.S., Krenn M., Danner S.M. et al. Augmentation of voluntary locomotor activity by transcutaneous spinal cord stim­ulation in motor-incomplete spinal cord-injured individuals // Artif. Organs. – 2015. – Vol. 39 (10). – P. E176–186.

    9. Daly J.J., Ruff R.L. Feasibility of combining multi-channel functional neuromuscular stimulation with weight-supported treadmill training // J. Neurol Sci. – 2004. – Vol. 225 (15). – P. 105–115.

    10. Витензон А.С., Петрушанская К.А. Физиологические обоснования метода искусственной коррекции движений посредством программируемой электростимуляции мышц при ходьбе // Российский журнал биомеханики. – 2010. – Т. 14 (2). – С. 7–27.

    11. Van der Salm A., Veltink P.H., Ijzerman M.J. et al. Comparison of electric stimulation methods for reduction of triceps surae spasticity in spinal cord injury // Arch. Phys. Med. Rehabil. – 2006. – Vol. 87 (2). – P. 222–228.

    12. 1   ...   15   16   17   18   19   20   21   22   23


  • написать администратору сайта