AudiologyOnline Phone: 800-753-2160


GSI 75th Anniversary - March 2024

Benign Paroxysmal Positional Vertigo: A Common Dizziness Sensation

Benign Paroxysmal Positional Vertigo: A Common Dizziness Sensation
Richard Gans, PhD
November 4, 2002
Share:
Dear Colleague: This article was recently published on our consumer website (www.healthyhearing.com). Many patients have written to tell us how important this article has been for them personally. Therefore, Dr. Richard Gans has graciously allowed us to republish this article here (www.audiologyonline.com) as a patient handout. Please feel free to download and distribute this article to your patients. Special thanks to Dr. Richard Gans. ---Editor

Richard Gans Ph.D.
Founder and Director
The American Institute of Balance
www.dizzy.com

Introduction:

Have you ever rolled over in bed to kiss your spouse goodnight, turn off the alarm clock, or to toss ''Fluffy'' the cat, out of bed and then suddenly felt as though the world was spinning out of control? Well, you may have experienced the most common form of vertigo, known as Benign Paroxysmal Positional Vertigo. It is often referred to as BPPV.

This most common form of vertigo is prevalent in all age groups. By age seventy, fifty-percent of all individuals will experience this frightening sense of falling, tumbling, or spinning at least once in their lives. In younger individuals, it may occur following medical conditions such as Meniere's disease, vestibular neuronitis, labyrinthitis, migraine, or after even a mild head trauma.

The sensation can be quite frightening. It can be strong -- feeling like you're being pushed off a bridge, or being pulled down by a giant magnet. The condition itself is rarely dangerous or life threatening. However, the consequences of being acutely dizzy with such strong sensations of being out of control is what can really get you in trouble.

How the balance system works:

Most of us, when asked about the main function of the inner ear, would respond, ''It is our sense of hearing''. The correct answer is the primary function of the inner ear is equilibrium. Within the inner ear there are two distinct parts: the hearing portion, referred to as the cochlea; and the balance portion, which we call the vestibular system or labyrinth. The labyrinth is comprised of two portions. The undermost portion, referred to as the otolith system, is actually a gravity sensor, which tells our brain about the pull of gravity. This is made up of both the utricle and the saccule, and within these two structures are calcium carbonate crystals whose weight responds to the pull of gravity by resting on nerve endings that sends a signal to the brain about the force or pull of gravity. When astronauts travel into micro gravity, the lessening of the weight against the nerve endings will cause them to become ''space sick''. When they return to earth, the weight now pressing on the nerve endings causes them to be ''land sick''.

Why do we get positional vertigo?

Most of the time, this system works quite well. Any normal degeneration of these calcium carbonate crystals, also called otoconia, fall into the back semicircular canal, aptly named the posterior canal. The semicircular canals (the three balance canals) are designed to be velocity sensors and not gravity sensors. So, when the additional weight of the otoconia enters into these canals, it converts this velocity sensor into a gravity sensor. While our head is erect, seated, or standing, it may not cause difficulty. When we look up, however, or when we lie flat with our head completely back or rolled to one side, the debris, which is now in the back balance canal (the posterior canal), causes the nerve endings to be misdirected. This, in turn, causes the hallucination of rolling, spinning, or turning, which we term ''vertigo''. During this instance, if our eyes are open, our vision may seem blurred or the world around us may appear to be in a spin. This is because our inner ears are responsible for influencing eye movement.

The calcium carbonate needs to be in sufficient quantities where it becomes heavy enough to be able to push or move the nerve endings. We all have some amount of otoconia loose in our balance canals. The biochemistry of the human body is such that our bodies should normally absorb this calcium within hours, or certainly days, and it never gets to a point where it is heavy enough to cause dizziness symptoms. There are now some theories that the reason some individuals become symptomatic with BPPV is their body's biochemistry is having difficulty with calcium absorption. This, of course, is only a theory and is not intended to discourage the use of calcium, a critically important element in all organ functions, as well as necessary for our nervous system. It is just one of those odd things that seems to occur in some individuals.

Treatment:

The good news about BPPV is that for many people, the experience will not last more than a few days, and it will seem to disappear as quickly as it came. For others, however, it may last for days, weeks, months, and even years. There is no medication that will treat this problem. Anti-motion medication such as meclizine or Antivert may minimize the dizziness or accompanying nausea, but will not treat the problem itself.

In 1988, at the Paris Ear Institute, a French physiatrist, Alain Semont, along with a group of French ear, nose and throat physicians wrote a paper and presented a simple treatment, a five-minute physical therapy maneuver, which moved the debris to circulate through the long arm of the posterior canal and drop back into the utricle. Once the debris entered the utricle, if the patient did not return to the problem position for a day or two, the symptoms would resolve. The theory was that the biochemistry of the utricle, because it is a larger space, is different from that of the posterior canal, and this allows the calcium carbonate to readily dissolve in the larger space, while it could not do so when in the smaller area of the posterior canal.

Since Semont's article, dozens of studies and methods of varying techniques from balance specialists around the world have been published. The treatments may be referred to as Semont Liberatory Maneuver, Epley Repositioning Maneuver, Gans Repositioning Maneuver, or simply Canalith Repositioning Maneuver. These treatments, all basically achieve the same thing, but require the patient to be moved into slightly different head or body positions. The treatments are usually performed by an audiologist, physical therapist, or physician.

It is possible that other canals, predominantly the side canals (referred to as the horizontal canals) may also contain some trapped debris. These canals require other forms of treatment, which also have been written about for many years, and may include treatments known as Appiani, Casani, or Bar-b-que Roll. Research has not shown that one treatment is better than the other, but are decided upon by the individual clinician or therapist based on the nature of the problem, as well as any physical limitations or restrictions such as the range of motion of your neck, and any back or shoulder problems. The treatment is very simple, and may range anywhere from three to ten minutes to perform, depending upon the variation.

It has been customary to ask the patient not to lie flat for at least one or two nights following treatment, and to perhaps avoid lying on the side of the affected ear for several nights. Sometimes patients have been provided with a soft cervical collar as a friendly reminder to help them to keep their head from tipping or moving. Recent studies suggest, however, that some of these restrictions may not be necessary, but the jury is still out on this. In the meantime, it is likely that if you find you have BPPV and seek treatment, your clinician will ask you to restrict some of your daily activities or your head positions. There are a number of excellent web sites that provide additional information concerning the diagnosis and treatment of BPPV.

A word of caution: Although some web or information sites may show you the treatment diagrams, I am not in favor of having patients self-perform them. The reason being, it is very important that a proper diagnosis be made before treatment starts! There are a number of other rather serious medical conditions that share some of the same symptoms and may mimic BPPV. Positional vertigo can be caused by such other disorders as Arnold Chiari malformations, vascular loop, subdural hematoma, or posterior fossa cyst. Likewise, if a patient has cervico-spinal problems where there is a compression of blood flow through the vertebral artery, it is possible that if they are not properly screened and were to hyper-extend and rotate their neck improperly, a stroke could result.

The purpose of these comments is not to unnecessarily frighten anyone, but to further confirm that although BPPV is not a serious condition and can be treated quite readily with no discomfort or special equipment, there can be a number of other medical conditions, which are far more serious, which may need to be completely differentiated by a trained professional.

SUMMARY:

In summary, you can learn more about BPPV from various websites, but most importantly, recognize the fact that if you indeed are diagnosed with this condition, you do not have to learn to live with the problem because it can be treated simply and quickly.

PLEASE NOTE:
This article is meant for informational purposes only. It is certainly recommended that patients experiencing dizziness or vertigo consult with their physician.


BPPV DIAGNOSIS AND TREATMENT

REFERENCES


1. Appiani GC, Giuseppe C, Gagliardi M. A Liberatory Maneuver for the Treatment of Horizontal Canal Paroxysmal Positional Vertigo. Otology & Neurology An International Forum, 2001; 22, No. 1:66-69.

2. Barany R: Diagnose von Krankeitserschernungenin Bereiche des Otolithenapparaten, Acta Otolaryngol (Stockh)1921: 2: 434-7.

3. Bath AP, Walsh RM, Ranalli P, Tyndel F, Bance ML, Mai R, Rutka JA: Experience from a Multidisciplinary ''Dizzy'' Clinic, American Journal of Otology 2000; 21: 92-97.

4. Black FO, Angel CR, Pesznecker SC, Gianna C. Outcome analysis of Individualized Vestibular Rehabilitation Protocols. American Journal of Otology, 2000; 21: 543-551.

5. Brandt T, Daroff RB. Physical Therapy for Benign Paroxysmal Positional Vertigo. Arch Otolaryngol 1980; 106: 484-5.

6. Casani A, Vannucci G, Fattori B. The Treatment of Horizontal Canal Positional Vertigo: Our Experience in 66 Cases. Laryngoscope 2002; 112 : 172-178.

7. Cawthorne T. The Physiological Basis for Head Exercises. J Chart Soc Physiotherapy 1944; 30: 106-7.

8. Cohen H, Kimball KR, Adams AS. Application of the vestibular disorders activities of daily living scale. Laryngoscope 2000; 110, 1204-1209.

9. Coppo CF, Singarelli S, Fracchia P. Benign Paroxysmal Positional Vertigo: Follow up of 165 Cases Treated by Semont's Liberating Maneuver. Acta Otorhinolaryngol Ital 1996 Dec; 16 (6): 508-12.

10. Crandell C. Hearing Aids: Their Effects on Functional Health Status. The Hearing Journal 1999. 51(2), 22-30.

11. daCruz MJ, Moffat DA, Hardy DG, Postoperative Quality of Life in Vestibular Schuannoma Patients Measured by the SF-36 Health Survey Questionnaire, Laryngoscope 110: Jan 2000, 151-155.

12. Dix MR. Hallpike CS: The pathology, symptomtology and diagnosis of certain common disorders of the vestibular system, Ann Otol Rhinol Laryngol 1952; 61: 987-1016.

13. Epley JM. The Canalith Repositioning Procedure for Treatment of Benign Paroxysmal Positional Vertigo. Arch Otolaryngol 1993; 119: 450-4.

14. Fung K, Hall SF. Particle Repositioning Maneuver: Effective Treatment for Benign Paroxysmal Positional Vertigo. J Otolaryngol 1996 Aug: 25 (4): 243-8.

15. Fife TD. Recognition and Management of Horizontal Canal Benign Positional Vertigo. AM J Otol 1998 May; 19 (3): 345-51.

16. Gans RE. VOG-VNG Handbook: A Clinical Guide. San Diego: Singular Publishing (In Press).

17. Gans RE. Vestibular Rehabilitation: Protocols and Programs, 1996. Singular Publishing Group.

18. Gans RE. Evaluating the Dizzy Patient: Establishing Clinical Pathways. Hearing Review 1999, June 45-47.

19. Gans RE. Overview of BPPV: Pathology and Diagnosis. Hearing Review Vol. 7; No. 8, Aug 2000; 38-43.

20. Gans RE. Overview of BPPV: Treatment Methodology, Hearing Review Vol. 7; No. 9, Sept 2000; 34-39.

21. Gans RE, Crandell C. Overview of BPPV: Evaluating Treatment Outcomes with Clinimetrics. Hearing Review Vol. 7 No. 11, Nov 2000; 50-54.

22. Gans RE, Gans PAH. Treatment Efficacy of Benign Paroxysmal Positional Vertigo (BPPV) with Canalith Repositioning Maneuver and Semont Liberatory Maneuver in 376 Patients. In: RE Gans, Ed.: Vestibular Diagnosis and Rehabilitation: Science and Clinical Applications. Seminars in Hearing. Thieme, NY. Vol. 23; No. 2, May 2002; 129-142.

23. Herdman SJ, Tusa RJ, Zee DS, et al. Single Treatment Approaches to Benign Paroxysmal Positional Vertigo. Arch Otolaryngol 1993; 119:450-4.

24. Jacobson GP, Newman CW. The Development of Dizziness Handicap Inventory. Arch Otolaryngo 1990; 116:424-27.

25. Li JC. Mastoid Oscillation: A Critical Factor for Success in Canalith Repositioning Procedure. Otolaryngol Head Neck surg 1995; 112: 670-75.

26. Lombardo, ME. The Biochemistry of Benign Paroxysmal Positional Vertigo: A Theoretical Consideration. In: RE Gans, Ed.: Vestibular Diagnosis and Rehabilitation: Science and Clinical Applications. Seminars in Hearing, Thieme, NY. Vol. 23; No. 2, May 2002; 143-148.

27. Myers AM, Powell LE, Make BE, Holliday PJ, Brawley LF, Sherk W. Psychological Indicators of balance confidence relationship to actual and perceived abilities. J. of Geronto 51A (1) 1995, M37-M43.

28. Nunez RA, Cass SP, Furman JM. Short and Long Term Outcomes of Canalith Repositioning for Benign Paroxysmal Positional Vertigo. J of Otolaryngol 2000, May: 122 (5) 647-652.

29. O'Reilly R, Elford B, Slater R. Effectiveness of Particle Repositioning Maneuver in Subtypes of Benign Paroxysmal Positional Vertigo. Laryngoscope 110: Aug 2000; 1385-1388.

30. Pardal Refoyo JL, Perez Plasencia D, Beltran Mateos LD: Ischemia of the anterior vertebral artery (Lindsay-Hemenway syndrome) review and comments, Acta Otorhinolaringol Esp 1998, Nov-Dec; 49(8):559-602.

31. Parnes LS, McClure JA: Free-floating endolymph particles: a new operative finding during posterior canal occlusion. Laryngoscope 1992;102:988-92.

32. Schuknecht HF: Cupulolithiasis, Arch Otolaryngol 1969; 90: 113-26.

33. Semont A, Freyss G, Vitte E. Curing the BPPV with a Liberatory. Adv Otorhino Laryngol 1988; 42:290-3.

34. Steddin S, Ing D, Brandt T. Horizontal Canal Benign Paroxysmal Positional Vertigo (h-BPPV): Transition of Canalalithiasis to Cupulolithiasis. Ann Neurol 1996 Dec; 40 (6): 918-22.

35. Vannucchi P, Giannoni G, Pagnini P. Treatment of Horizontal Semicircular Canal Benign Paroxysmal Positional Vertigo. J. Vestib Res 1997, Jan-Feb;7(1): 1-6.

36. Ware JE. How to Score the Revised MOS Short Form Health Scales (SF-36). Boston: The Health Institute, New England Medical Center Hospitals, 1988.

37. Whitney SL, Hudak MT, Marchetti GF. The activities-specific balance confidence scale and the dizziness handicap inventory: A Comparison. Journal of Vestibular Research 9 1999; 253-258.

38. Wolf JS, Boyev KP, Manokey DE. Success of the Modified Epley Maneuver in Treating Benign Paroxysmal Positional Vertigo. Laryngoscope 1999 June; 109(6):900-3.


Rexton Reach - November 2024

richard gans

Richard Gans, PhD

founder and executive director of The American Institute of Balance

Dr. Gans is the founder and executive director of The American Institute of Balance;one of the country’s lardest balance disorders treatment centers.  He received his Ph.D. from The Ohio State University in Auditory and Vestibular Physiology.  Dr. Gans has been a leader in the development of vestibular evaluation and rehabilitation techniques.  He has presented or published over 100 programs and papers in the area of equilibrium disorders and is a frequent lecturer at national and state meetings.  Dr. Gans is the author of several books including, Vestibular Rehabilitation: Protocols and Progrms and is completing VOG/VNG: A Clinical Workbook published by Singular/Thomson Learning.  He is adjunct professor at the University of South Florida and Nova Southeastern University.  He teaches vestibular and balbnce courses for three distant Au.D. programs including University of Florida, Arizona School of Health Sciences and Pennsylvania College of Optometry-School of Audiology.



Related Courses

Addressing Fall Risk: PT, OT, and Audiology Assessment and Intervention, presented in partnership with Salus University
Presented by Bre Myers, AuD, PhD, Helena Esmonde, PT, DPT, NCS, Anna Grasso, OTD
Recorded Webinar
Course: #38144Level: Intermediate3 Hours
Multidisciplinary assessment and intervention of individuals at risk of falls is crucial in identifying functional and diagnostic factors as well as effective rehabilitation and prevention of future falls. This series identifies areas of collaboration and supportive information-sharing strategies between professions who commonly see individuals who fall and are likely to be injured due to a fall.

Contemporary Concepts in Pediatric Vestibular Assessment and Management, presented in partnership with Seminars in Hearing
Presented by Sharon Cushing, MD, FRCSC, Katheryn Bachmann, PhD, Violette Lavender, AuD, Jennifer B. Christy, PhD, PT, Steven M. Doettl, AuD, PhD, Devin L. McCaslin, PhD, Kristen L. Janky, PhD, Amanda I. Rodriguez, PhD, AuD
Recorded Webinar
Course: #35586Level: Intermediate5 Hours
This 5-part webinar series is focused on the growing evidence of the need for pediatric vestibular evaluation, as well as the availability of successful treatment options for children. Guest editors, Dr. Devin McCaslin and Dr. Jennifer Christy along with a team of leading experts will present on select articles from a recent issue of the journal Seminars in Hearing (Issue 03 · Volume 39 · 2018).

Quantitative Vestibular Function Testing in the Pediatric Population, presented in partnership with Seminars in Hearing
Presented by Kristen L. Janky, PhD, Amanda I. Rodriguez, PhD, AuD
Recorded Webinar
Course: #35334Level: Intermediate1 Hour
The purpose of this presentation is to provide an overview of how to perform vestibular tests in children, including which tests are recommended based on the child’s age and any modifications or considerations that can be made.

Preview of the University of Pittsburgh Teaching Vestibular Assessment and Rehabilitation across the Lifespan Conference
Presented by Catherine Palmer, PhD, Devin L. McCaslin, PhD, Patricia Gaffney, AuD, David Jedlicka, AuD, Sam Bittel, AuD, Virginia Milne, AuD, Elaine Mormer, PhD
Recorded Webinar
Course: #32520Level: Introductory1 Hour
This course will present 5 topics critical to classroom and clinical teaching in the area of vestibular assessment and rehabilitation. This is a preview to the University of Pittsburgh Teaching Conference being held June 13-15, 2019.

Minimum Stimulus Strategy in the Diagnosis of BPPV
Presented by Andrea Castellucci, MD
Recorded Webinar
Course: #39433Level: Intermediate2 Hours
Benign Paroxysmal Positional Vertigo (BPPV) is the most common inner ear disorder, with a cumulative lifetime incidence of 10%. This course will cover the Minimum Stimulus Strategy (MSS), a nystagmus-based approach to streamline BPPV management, reducing the need for diagnostic and therapeutic maneuvers and minimizing patient discomfort.

Our site uses cookies to improve your experience. By using our site, you agree to our Privacy Policy.