Management of anesthesia in cerebellum cavernous with developmental venous anomaly that causes acute cerebellar bleeding following COVID-19 infection: A case report

Pricilia Desiree; Dhania A. Santosa

doi:10.53730/ijhs.v6nS8.11593

Authors

Pricilia Desiree
priciliadesiree@yahoo.com
Resident of Anesthesiology and Reanimation Department, Faculty of Medicine, Universitas Airlangga, Dr. Soetomo General Hospital Surabaya, Indonesia
Dhania A. Santosa Staff of Anesthesiology and Reanimation Department, Faculty of Medicine, Universitas Airlangga, Dr. Soetomo General Hospital Surabaya, Indonesia

Keywords:

cerebellum cavernous, developmental venous anomaly (DVAs), COVID-19, scalp block, total intravenous anesthesia

Abstract

Cerebellum cavernous also known as cavernous hemangioma is a vascular malformation of the cerebellum, usually with characteristics that appear on the magnetic resonance image (MRI). Cerebellum cavernous is the third most malformation of the cerebellum after venous anomalies and capillary telangiectasis with an incidence of 0.5% of the General population usually not noticed until a hemorrhagic event occurs. Cavernomas can be seen in conjunction with developmental venous anomaly (DVAs) in 20% (range 20%-40%) cases, in which case they are known as mixed vascular malformations. We describe anaesthetic management in a 28-year-old woman with cerebellum cavern with developmental venous anomaly (DVAs) that causes acute bleeding. Occipital craniectomy for cerebellar tumor resection is performed using neuronavigation under total intravenous anesthesia and scalp block using 0.5% ropivacaine without complications. The surgery lasts for six hours and the cavernomas can be removed completely. The patient was discharged home on the fifth day of postoperative surgery with no neurological deficit.

Downloads

Download data is not yet available.

References

Afifah, B., Soeharsono, S., Mustofa, I., Santoso, K. P., Rahmahani, J., Ansori, A. N. M., Nidom, R. V., Nidom, A. N., Kusala, M. K. J., Prakoso, D., Ramadhaniyah, N. L., Indrasari, S., & Nidom, C. A. (2022). Interferon-Gamma profile of mice (Mus musculus L.) after complete SARS-CoV-2 vaccination. International Journal of Health Sciences, 6(S5), 5030–5038. doi: 10.53730/ijhs.v6nS5.11009

Akbarov, A. N., & Xabilov, D. N. U. (2021). The condition of the oral cavity in patients who have had a viral infection COVID-19. International Journal of Health & Medical Sciences, 4(4), 381-383. https://doi.org/10.21744/ijhms.v4n4.1796

ARSLAN, A., OZSOY, K. M., & OLGUNER, S. K. (2020). Surgical Results of Brainstem Cavernous Malformation Haemorrhage. Turkish Neurosurgery, 30(5), 768-775. doi:10.5137/1019-5149.JTN.31207-20.2.

Arunashree, S. & Hosagoudar, P. (2019). Intravenous Fentanyl 4 μg per kg administered before scalp pin application is inferior to scalp block in preventing hemodynamic changes. Anesthesia: Essays and Researches, 13(4), 625. doi:10.4103/aer.aer_107_19

Ayoub, C., Girard, F., Boudreault, D., Chouinard, P., Ruel, M., Moumdjian, R. (2006). A comparison between scalp nerve block and morphine for transitional analgesia after remifentanil-based anesthesia in neurosurgery. Anesthesia and Analgesia, 103(5), 1237-1240. doi:10.1213/01.ane.0000244319.51957.9f

Chattopadhyay, S., Roy, S., Rudra, A., Saha, P. (2013). Pain after craniotomy: A time for reappraisal?. Indian Journal of Pain, 27(1), 7. doi:10.4103/0970-5333.114853

Chohan, M. O., Marchiò, S., & Morrison, L. A. (2019). Emerging Pharmacologic Targets in Cerebral Cavernous Malformation and Potential Strategies to Alter the Natural History of a Difficult Disease: A Review. JAMA Neurology, 76(4), 492-500. doi:10.1001/jamaneurol.2018.3634.

Cisneros, O., Rehmani, R., & Garcia de de Jesus, K. (2019). Cerebellar Cavernous Malformation (Cavernoma): A Case Report. Cureus, 11(4), 2-5. doi:10.7759/cureus.4371.

Cole, C. D., Gottfried, O. N., Gupta, D. K., Couldwell, W. T. (2007). Total intravenous anesthesia: advantages for intracranial surgery. Neurosurgery, 61(5 Suppl 2), 368-369. doi:10.1227/01.neu.0000303996.74526.30

Cottrell James, E. & Piyush, P. (2017). Cottrel and Patel's Neuroanesthesia sixth edition. Elsevier. p.268

Daniel M. Gainsburg., Ethan O. Bryson., Elizabeth A.M. (2015). Anesthesia for Urologic Surgery. Springer. P.259

Dos Santos e Santos, C., dos S. e Santos, G., Araujo Tuma Santos, C. (2021). Anesthetic Management for Resection of a Cerebellar Hemangioblastoma Leading to Brainstem Compression in a Patient With Von Hippel-Lindau Disease. Cureus, 13(12), 1-7. doi:10.7759/cureus.20608

Fan, W., Zhu, X., & Wu, L. (2015). Propofol: An anesthetic possessing neuroprotective effects. European Review for Medical and Pharmacological Sciences, 19(8), 1520-1529.

Ghimire, P., Yogi, N., Karmacharya, B., Poudel, A., Mishra, S. (2021). Journal of Brain and Spine Foundation Nepal. Journal of Brain and Spine Foundation Nepal, 2(1), 13-18.

Guilfoyle, M. R., Helmy, A., Duane, D., Hutchinson, P. J. A. (2013). Regional scalp block for postcraniotomy analgesia: A systematic review and meta-analysis. Anesthesia and Analgesia. 116(5), 1093-1102. doi:10.1213/ANE.0b013e3182863c22

Kim, H. S., Lee, S., Kim, C. S., Kim, J. T. (2011). Effect of triamcinolone added to scalp nerve block for postoperative pain management of Moyamoya disease. Korean Journal of Anesthesiology, 61(2), 173-174. doi:10.4097/kjae.2011.61.2.173

Korompoki, E., Gavriatopoulou, M., Fotiou, D., Ntanasis-Stathopoulos, I., Dimopoulos, M. A., Terpos E. (2022). Late-onset hematological complications post COVID-19: An emerging medical problem for the hematologist. American Journal of Hematology, 97(1), 119-128. doi:10.1002/ajh.26384

Krisna Jaya Sutawan, I. B., Pramana Suarjaya, I. P., Chasnak Saleh, S., Wargahadibrata, H. (2017). Konsep Dasar Target Controlled Infusion (TCI) Propofol dan Penggunaannya pada Neuroanestesi. Jurnal Neuroanestesi Indonesia, 6(1), 58-69. doi:10.24244/jni.vol6no1.131

Mark S. Greenberg. (2020). Handbook of Neurosurgery Ninth edition. Thieme. P.1308

Marzouk, O., Marzouk, S., Liyanage, S. H., Grunwald, I. Q. (2021). Cerebellar developmental venous anomaly with associated cavernoma causing a hemorrhage – a rare occurrence. Radiology Case Reports, 16(6), 1463-1468. doi:10.1016/j.radcr.2021.03.010.

Matsumoto, M. & Ishida, K. (2015). Anesthesia for spinal surgery. Neuroanesthesia and Cerebrospinal Protection, 417-428. doi:10.1007/978-4-431-54490-6_36

Morton, N. S. (2013). Total Intravenous Anesthesia (TIVA) and Target Controlled Infusions (TCI) in Children. Current Anesthesiology Reports, 3(1), 37-41. doi:10.1007/s40140-012-0005-2

Nidom, A. N., Madyawati, S. P., Rachmawati, K., Rahmahani, J., Santoso, K. P., Ansori, A. N. M., Nidom , R. V., Afifah, B., Kusala, M. K. J., Prakoso, D., Alamudi, M. Y., Indrasari, S., & Nidom, C. A. (2022). Protection and profile of immune response against SARS-CoV-2 among the COVID-19 vaccinated and unvaccinated individuals. International Journal of Health Sciences, 6(S5), 6011–6019. doi: 10.53730/ijhs.v6nS5.11265

Pang, Q., Wang, J., & Liu, H. (2022). Scalp Nerve Block versus Local Incision Infiltration, Which Can Provide Better Perioperative Analgesia for Craniotomy: A Systematic Review and Meta-Analysis, 2022. doi:10.37766/inplasy2022.3.0066

Papangelou, A., Radzik, B. R., Smith, T., Gottschalk, A. (2-13). A review of scalp blockade for cranial surgery. Journal of Clinical Anesthesia. 25(2), 150-159. doi:https://doi.org/10.1016/j.jclinane.2012.06.024

Prough, D. S., Pinosky, M. L., & Fishman, R. L. (1996). Skull Block on the Hemodynamic. Anesthesia & Analgesia, 1256-1261.

Rauschenbach, L., Santos, A. N., & Dinger, T. F. (2021). Predictive Value of Intraoperative Neuromonitoring in Brainstem Cavernous Malformation Surgery. World Neurosurgery, 156, e359-e373. doi:10.1016/j.wneu.2021.09.064.

Sá, L., Monteiro, D. R., Vilarinho, A., Pereira, J., Oliveira, S. (2022). Middle Cerebellar Peduncle Cavernous Malformation (Cavernoma): Case Report. Portuguese Journal of Pediatrics, 53(1), 429-434. doi:10.25754/pjp.2022.21867.

Saberi, H., Tanha, R. R., Derakhshanrad, N., Soltaninejad, M. J. (2022). Acute presentation of third ventricular cavernous malformation following COVID-19 infection in a pregnant woman: A case report. Neurochirurgie,68(2), 228-231. doi:10.1016/j.neuchi.2021.03.010

Salazar, M., Espeche, W., el.Ennis, J. B. (2020). Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-. Ann Oncol, (January), 2-5.

Schnider, T. W., Minto, C. F., Struys, M. M. R. F., Absalom, A. R. (2016). The Safety of Target-Controlled Infusions. Anesth Analg, 122(1), 79-85. doi:10.1213/ANE.0000000000001005

Suryasa, I. W., Rodríguez-Gámez, M., & Koldoris, T. (2021). The COVID-19 pandemic. International Journal of Health Sciences, 5(2), vi-ix. https://doi.org/10.53730/ijhs.v5n2.2937

Tuchinda, L., Somboonviboon, W., Supbornsug, K., Worathongchai, S., Limutaitip, S. (2010). Bupivacaine scalp nerve block: hemodynamic response during craniotomy, intraoperative and post-operative analgesia. Asian Biomedicine, 4(2), 243-251. doi:doi:10.2478/abm-2010-0031

Yang, Y., Ou, M., & Zhou H. (2020). Effect of Scalp Nerve Block with Ropivacaine on Postoperative Pain in Patients Undergoing Craniotomy: A Randomized, Double Blinded Study. Scientific Reports, 10(1), 1-9. doi:10.1038/s41598-020-59370-z