Emergency (****); * (*): *-* This open-access article distributed under the terms of the Creative Commons Attribution Non Commercial 3.0 License (CC BY-NC 3.0). Copyright © 2016 Shahid Beheshti University of Medical Sciences. All rights reserved. Downloaded from: www.jemerg.com 25 Emergency (2016); 4 (1): 25-28 ORIGINAL RESEARCH True Vertigo Patients in Emergency Department; an Epidemiologic Study Ali Shahrami, Mehdi Norouzi*, Hamid Kariman, Hamid Reza Hatamabadi, Ali Arhami Dolatabadi Emergency Department, Imam Hossein Hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran. *Corresponding Author: Mehdi Norouzi; Department of Emergency Medicine, Imam Hossein Hospital, Shahid Madani Avenue,Tehran, Iran. Tel: +989123123138; Email: m58.norouzi@gmail.com Received: May 2015; Accepted: June 2015 Abstract Introduction: Vertigo prevalence is estimated to be 1.8% among young adults and more than 30% in the elderly. 13-38% of the referrals of patients over 65 years old in America are due to vertigo. Vertigo does not increase the risk of mortality but it can affect the patient’s quality of life. Therefore, this study was designed to evaluate the epidemiologic characteristics of vertigo patients referred to the emergency de- partment (ED). Methods: In this 6-month retrospective cross-sectional study, the profiles of all vertigo patients referred to the ED of Imam Hossein Hospital, Tehran, Iran, from October 2013 to March 2014 were evaluated. De- mographic data and baseline characteristics of the patients were recorded and then patients were divided into central and peripheral vertigo. The correlation of history and clinical examination with vertigo type was evaluated and screening performance characteristics of history and clinical examination in differentiating central and periph- eral vertigo were determined. Results: 379 patients with the mean age of 50.69 ± 11.94 years (minimum 18 and maximum 86) were enrolled (58.13% female). There was no sex difference in vertigo incidence (p = 0.756). A sig- nificant correlation existed between older age and increase in frequency of central cases (p < 0.001). No significant difference was detected between the treatment protocols regarding ED length of stay (p = 0.72). There was a sig- nificant overlap between the initial diagnosis and the final decision based on imaging and neurologist’s final opin- ion (p < 0.001). In the end, 361 (95.3%) patients were discharged from ED, while 18 were disposed to the neurology ward. No case of mortality was reported. Conclusion: Sensitivity and specificity of history and clinical examination in differentiating central and peripheral vertigo were 99 (95% CI: 57-99) and 99 (95% CI: 97-99), respectively. Key words: Vertigo; epidemiology; mass screening; emergency department Cite This Article as: Shahrami A, Norouzi M, Kariman H, Hatamabadi HR, Arhami Dolatabadi A. True vertigo patients in emergency department; an epidemiologic study. Emergency. 2016;4(1):25-28. Introduction: ertigo is an unpleasant symptom of diseases such as labyrinthitis, Meniere's disease, migraine, mul- tiple sclerosis, and cervical spine osteoporotic le- sions. Vertigo prevalence is estimated to be 1.8% among young adults and more than 30% in the elderly (1, 2). Its incidence increases with age, 13-38% of the referrals of patients over 65 years old in America are due to vertigo (3-6). Usually, vertigo does not increase the risk of mor- tality but it can affect the patient’s quality of life. The best treatment modality is still a matter of question. Cur- rently, various therapeutic strategies such as medica- tion, surgery, rehabilitation, and physical maneuvers are available (7-10). Most cases of vertigo are caused by be- nign and self-restricting diseases. Differentiation of cen- tral types of vertigo, which require hospitalization and supplementary diagnostic and therapeutic measures, is of great importance. Based on above-mentioned, this study was designed to evaluate the epidemiologic char- acteristics of vertigo patients referred to the emergency department (ED). Methods: In this 6-month retrospective cross-sectional study, the profiles of all vertigo patients referred to the ED of Imam Hossein Hospital, Tehran, Iran, from October 2013 to March 2014 were evaluated. Census sampling was used and all the vertigo patients referred to the hospital dur- ing this time were included. Demographic data and base- line characteristics of the patients including medical his- tory, accompanied symptoms (nausea, hearing loss, tin- nitus, headache), services that visited the patient, treat- V This open-access article distributed under the terms of the Creative Commons Attribution Non Commercial 3.0 License (CC BY-NC 3.0). Copyright © 2016 Shahid Beheshti University of Medical Sciences. All rights reserved. Downloaded from: www.jemerg.com Shahrami et al 26 ment strategies, medications, and disposition were rec- orded using a checklist. Patients were then divided into central and peripheral vertigo groups based on the find- ings of their history and clinical examination such as pres- ence or absence of tinnitus, hearing loss, nystagmus char- acteristics, signs of sympathetic release, focal neurologic findings, etc. The final decision on the type of vertigo (pe- ripheral or central) was made based on the results of brain imaging or para-clinical findings and the opinion of an expert neurologist. Standard indications of brain com- puted tomography (CT) were considered age over 55 years, abnormal neurologic findings on examination, his- tory of diabetes and hypertension. In addition, brain mag- netic resonance imaging (MRI) indications were history of multiple sclerosis and abnormal cerebellar tests (heel to shin or finger to nose examination). The Ethics Committee of Shahid Beheshti University of Medical Sciences ap- proved this study. The researchers adhered to the princi- ples of Helsinki Declaration and confidentiality of patient information over the course of the study. Statistical analysis Data were statistically analyzed using SPSS version 21. Quantitative variables were reported as mean ± stand- ard deviation and qualitative ones were introduced as frequency and percentage. The correlation of history and clinical examination with vertigo type (central or periph- eral) was evaluated and finally screening performance characteristics of history and clinical examination in dif- ferentiating central and peripheral vertigo were deter- mined. Significance level was considered p < 0.05. Results: Demographic 492 patients with initial diagnosis of vertigo were re- ferred to the ED over the course of the study, 18 of them were excluded due to lack of access to their profile and 8 due to initial misdiagnosis. The other 379 patients with the mean age of 50.69 ± 11.94 years (minimum 18 and maximum 86) were enrolled (58.13% female). Table 1 shows the baseline characteristics of these patients. There was no sex difference in vertigo incidence (p = 0.756). 239 (65.3%) of the participants were in the 40- 60 years age range. Figure 1 displays the age distribution of central and peripheral vertigos. A significant correla- tion existed between older age and increase in frequency of central cases (p < 0.001). Table 2 shows the correla- tion between the results of history and clinical examina- tion and final decision of central or peripheral vertigo. Treatment 71 (18.7%) patients did not respond to the initial medi- cation and needed rescue doses. Most used treatment protocols are shown in table 3. Among double drug treat- ments, promethazine + ondansetron, promethazine + metoclopramide, diazepam + ondansetron, and diaze- pam + metoclopramide most efficiently relieved symp- toms, respectively (p < 0.001). In addition, in single drug treatments promethazine was the most efficient, while diazepam and ondansetron were both inefficient in symptom relief (p = 0.84). No significant difference was detected between the treatment protocols regarding ED length of stay (p = 0.72). Dix–Hallpike diagnostic maneu- ver was not carried out for any of the patients in ED. Diagnostic Brain CT showed hemorrhage in only 2 (0.5%) of the pa- tients. Neurology service consultation was required for 64 (16.9%) patients, while neurosurgery service consul- tation was necessary for 2 due to evidence of hemor- rhage in brain CT scan (0.5%). Based on the history and initial physical examination, 13 (3.4%) patients were di- agnosed with central vertigo (all over 40 years old). Table 1: Baseline characteristic of the studied patients Baseline characteristics Number (%) Sex Female 220 (58.13) Male 159 (41.86) Age (year) Under 40 72 (18.99) 40-50 111 (29.28) 50-60 140 (36.93) Over 60 56 (14.77) Triage level# 4 and 5 87 (17.68) 3 405 (82.13) Medical history Hypertension 78 (20) Diabetes 33 (8.7) Seizure 3 (0.7) head trauma 4 (1) Multiple sclerosis 1 (0.2) Vertigo 28 (7) Accompanying symptoms Nausea and vomiting 335 (88.39) Tinnitus 31 (8.17) Headache 14 (3.69) Hearing loss 2 (0.52) Cerebellar tests Normal 366 (96.54) Abnormal 13 (3.43) CT scan* With indication 173 (80.09) Without indication 43 (19.90) MRI** With indication 14 (36.84) Without indication 24 (63.16) Services visited Internal neurology service 68 (17.9) Neurosurgery service 2 (0.5) #, Base on emergency severity index (ESI) triage system.* Com- puted tomography (CT) scan indications: age over 55, Abnormal neurologic findings, history of diabetes and hypertension. ** Magnetic resonance imaging (MRI) indications: abnormal cere- bellar tests and history of multiple sclerosis. This open-access article distributed under the terms of the Creative Commons Attribution Non Commercial 3.0 License (CC BY-NC 3.0). Copyright © 2016 Shahid Beheshti University of Medical Sciences. All rights reserved. Downloaded from: www.jemerg.com 27 Emergency (2016); 4 (1): 25-28 There was a significant overlap between the initial diag- nosis and the final decision based on imaging and neu- rologist’s final opinion (p < 0.001). Screening perfor- mance characteristics of history and clinical examination in differentiation of vertigo with 95% confidence inter- val are reported in table 4. Outcome In the end, 361 (95.3%) patients were discharged from ED, while 18 were disposed to the neurology ward due to persistence of symptom or positive imaging findings. No case of mortality was reported. Discussion: The findings of the present study revealed 3.4% central vertigo frequency, 18.7% resistance to the initial treat- ment modality, 0.5% positive findings of brain imaging, and 4.7% need for hospitalization in true vertigo pa- tients referred to the ED. In previous studies, up to 25% of central causes of vertigo has been reported, which is in contrast with the findings of this study (11). Based on the results of the present study, history and initial clini- cal examination of the patients has high sensitivity and specificity for differentiating central and peripheral ver- tigo, which is in line with the results of Karatas et al. who introduced history and neurological examination along with imaging as keys for differentiation of central and pe- ripheral causes (11). Although, the absolute frequency of female patients was higher in this study, no significant correlation was detected between sex and type of vertigo (central or peripheral) as previous studies had also stated (12, 13). Frequency of central vertigo increased with age. This was also in line with previous studies such as Min Yin’s study, which evaluated 2169 patients aged 7-90 years over a 20-year period (12-16). Similar to a study by Degreli et al. nausea, vomiting, tinnitus, headache, and hearing loss were the most common accompanying symp- toms in this order in the present study (12, 13). Promethazine + ondansetron (double-drug) and pro- methazine (single drug) regimens were the most effi- cient in controlling symptoms in this study. Gananca et al. evaluated drug regimens in treating vertigo and showed that they are very effective in improving true vertigo patients’ conditions. They also reported that be- tahistine is more efficient in treating peripheral vertigo, while betahistine, cinnarizine, and clonazepam are more e ffective for central vertigo (17). In another study be- tahistine, prescription and Epley’s physical maneuver were evaluated and compared regarding treatment of benign positional vertigo. The results showed that Epley’s maneuver is more efficient than drug therapy in short-term treatment of benign positional vertigo (15). Degreli et al. assessed efficiency of diazepam, diphenhy- dramine, and dimenhydrinate in treating ED patients with acute vertigo. The results showed that these drugs were equally effective in treating vertigo but diazepam caused less sedation (12). Drug treatments did not have a significant effect on benign peripheral vertigo (18). In another study effectiveness of Epley’s maneuver in treat- ing benign paroxysmal peripheral vertigo patients was evaluated and symptom relief was seen in 92.5% of the patients (14). Since differentiating central vertigo plays a significant role in management of these patients in ED, evaluating the accuracy of history and initial clinical ex- amination is very important. The results of this study in- dicate the acceptable accuracy of history and initial clin- ical examination in triage and initial screening of these patients. This will be more important when there is a lack of equipment and resources, and patients need to be Table 2: Correlation between the results of history and clinical examination and final decision of central or peripheral vertigo Variables Frequency of vertigo type (%) P value Central Peripheral Nausea and vomiting 4 (1.2) 331 (98.8) < 0.001 Hearing loss 0 (0.0) 2 (100.0) 0.93 Tinnitus 0 (0.0) 100 (100.0) 0.32 Vertigo 0 (0.0) 28 (100.0) 0.36 Head trauma 1 (25.0) 3 (75.0) 0. 13 Headache 2 (14.3) 12 (85.7) 0.08 Seizure 0 (0.0) 3 (100.0) 0.90 Diabetes 4 (12.1) 29 (87.9) 0.02 Hypertension 8 (10.3) 70 (89.7) < 0.001 Figure1: Frequency of central and peripheral vertigo based on age groups (p < 0.001). Data are presented as frequency in this figure. 16 49 103 136 45 11 6 0 0 1 4 4 2 2 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% Age groups (year) This open-access article distributed under the terms of the Creative Commons Attribution Non Commercial 3.0 License (CC BY-NC 3.0). Copyright © 2016 Shahid Beheshti University of Medical Sciences. All rights reserved. Downloaded from: www.jemerg.com Shahrami et al 28 referred to more equipped centers to undergo brain im- aging. Only 3.4% of the vertigo patients had central causes and 0.5% of them had positive findings in their brain CT scan. 19.9% of the total 216 CT scans done did not have the indications mentioned in methods. Out of the 38 MRIs done, 63.16% were without indication. It seems that paying attention to minimum present clinical indications can broadly reduce the unnecessary ex- penses and side effects of radiation in patients. The pre- sent study was retrospective and done over a short pe- riod, which can lead to deficiency in data regarding out- come, final cause of vertigo, and other required data. A clinical survey is recommended to evaluate diagnosis and treatment of vertigo in patients referred to the ED and a standard protocol should be prepared for manage- ment of these patients. Conclusion: The findings of the present study revealed 3.4% central vertigo frequency, 18.7% resistance to the initial treat- ment modality, 0.5% positive findings of brain imaging, and 4.7% need for hospitalization in true vertigo pa- tients referred to the ED. History and initial clinical ex- amination showed acceptable accuracy in initial screen- ing of central vertigo. It seems that doing imaging based on the existing indications leads to about 20% and 60% decrease in CT scan and MRI orders, respectively. Conflict of interest: None Funding support: None Authors’ contributions: All authors passed four criteria for authorship contribu- tion based on recommendations of the International Committee of Medical Journal Editors. References: 1. Sloane PD, Coeytaux RR, Beck RS, Dallara J. Dizziness: state of the science. Ann Intern Med. 2001;134(9_Part_2):823-32. 2. Reid SA, Rivett DA. Manual therapy treatment of cervicogenic dizziness: a systematic review. Man Ther. 2005;10(1):4-13. 3. Sloane P. Dizziness in primary care. Results from the national ambulatory medical care survey. J Fam Pract. 1989;29(1):33-8. 4. Nakashima K, Yokoyama Y, Shimoyama R, et al. Prevalence of neurological disorders in a Japanese town. Neuroepidemiology. 1996;15(4):208-13. 5. Moulin T, Sablot D, Vidry E, et al. Impact of emergency room neurologists on patient management and outcome. Eur Neurol. 2002;50(4):207-14. 6. Kroenke K, Spitzer RL, Hahn SR, et al. Multisomatoform disorder: an alternative to undifferentiated somatoform disorder for the somatizing patient in primary care. Arch Gen Psychiatry. 1997;54(4):352-8. 7. Strain G, Myers L. Hearing and equilibrium. In: Reece W, editor. Dukes' physiology of domestic animals. 12 ed. United Kingdom: CAB Direct; 2004. p. 852-64. 8. Braunwald E, Fauci AS, Kasper DL, et al. Faintness, syncope, dizziness, and vertigo. Harrison's Principles of Internal Medicine. 1. Bahman: McGraw-Hill Professional Publishing; 2001. p. 111-8. 9. Parfitt K, Martindale W. The complete drug reference. London: Pharmaceutical Press; 1999. p. 51. 10. Cohen HS, Kimball KT. Increased independence and decreased vertigo after vestibular rehabilitation. Otolaryngol Head Neck Surg. 2003;128(1):60-70. 11. Karatas M. Central vertigo and dizziness: epidemiology, differential diagnosis, and common causes. Neurologist. 2008;14(6):355-64. 12. Değerli V, Çevik AA, Türkçüer i. Comparison of Intraveneous Diazepam, Dimenhydrinate and Diphenhydramine on Patients with Acute Peripheral Vertigo in the Emergency Department: A Randomized, Double Blind, Clinical Trial. Turk J Emerg Med. 2007;7(1):10-7. 13. Izadi P, Yarmohammadi ME, Afshinmajd S, et al. Effect of dimenhydrinate on benign paroxysmal positional vertigo. Razi J Med Sci. 2011;18(86):12-21. 14. Dashti-Khadivaki G, Absalan A, Boroumand P. Therapeutic effect of Epley maneuver on patients with posterior semicircular canal in benign paroxysmal positional vertigo. Zahedan J Res Med Sci. 2010;12(2):36-9. [Persian]. 15. 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Table 3: Most common treatment regimens prescribed for patients Treatment regimens Number (%) Promethazine-ondansetron 96 (25.3) Promethazine-metoclopramide 71 (18.7) Diazepam-ondansetron 83 (21.9) Diazepam-metoclopramide 59 (15.6) Promethazine 45 (11.9) Ondansetron 16 (4.2) Diazepam 9 (2.4) Table 4: Screening performance characteristics of history and clinical examination in differentiating central and pe- ripheral vertigo Screening characteristics (95% Confidence Interval) Sensitivity 90 (57-99) Specificity 99 (97-99) Positive predictive value 76 (49-93) Negative predictive value 99 (98-99) Positive likelihood ratio 3.3 (1.9-9.4) Negative likelihood ratio 0.002 (0.0003-0.01)