NEWTON’S LAWS OF MOTION & WHIPLASH INJURIES

 

 

By Matthew J. DeGaetano, DC and Floyd S. Villines, DC

Certified in Personal Injury

 

Newton’s laws of motion are three physical laws that together laid the foundation for classical biomechanics of whiplash injuries. They describe the relationship between a body and the forces acting upon it, and its motion in response to said forces. They have been expressed in several different ways over nearly three centuries, [1] and can be summarized as follows from the pure scientific perspective:

First law: An object at rest remains at rest unless acted upon by a force. An object in motion remains in motion, and at a constant velocity, unless acted upon by a force. [2][3]

Second law: The acceleration of a body is directly proportional to, and in the same direction as, the net force acting on the body, and inversely proportional to its mass. Thus, F = ma, where F is the net force acting on the object, m is the mass of the object and a is the acceleration of the object.

Third law: When one body exerts a force on a second body, the second body simultaneously exerts a force equal in magnitude and opposite in direction to that of the first body.

 

The three laws of motion were first compiled by Isaac Newton in his Philosophiæ Naturalis Principia Mathematica (Mathematical Principles of Natural Philosophy), first published in 1687.[4] Newton used them to explain and investigate the motion of many physical objects and systems.[5] For example, in the third volume of the text, Newton showed that these laws of motion, combined with his law of universal gravitation, explained Kepler’s laws of planetary motion.

 

Whiplash is a non-medical term describing a range of injuries to the neck caused by or related to a sudden distortion of the neck[1] associated with extension.[2] The term “whiplash” is a colloquialism. “Cervical acceleration-deceleration” (CAD) describes the mechanism of the injury, while the term “whiplash associated disorders” (WAD) describes the injury sequelae and symptoms.

 

Figure:  In the case of offset rear impact, the target vehicle, depending on crash speed and road condition, may rotate around its own center of gravity. The occupant will experience both linear and rotational acceleration; A. Rotation of the vehicle to the left would produce the same neck loads as would a non-offset rear impact vector crash in which the occupant’s head was rotated to the right, B. (Adapted from reference Croft AC: Biomechanics. In Foreman SM, Croft AC (eds): Whiplash Injuries: the Cervical Acceleration/Deceleration Syndrome (3rd edition). Baltimore, Lippincott Williams & Wilkins, 2002)

 

Whiplash is commonly associated with motor vehicle accidents, usually when the vehicle has been hit in the rear;[3] however, the injury can be sustained in many other ways, including head banging, bungee jumping and falls.[4] It is one of the main injuries covered by the car insurers.[citation needed] In the United Kingdom, 430,000 people made an insurance claim for whiplash in 2007, accounting for 14% of every driver’s premium.[5]

 

Before the invention of the car, whiplash injuries were called “railroad spine” as they were noted mostly in connection with train collisions. The first case of severe neck pain arising from a train collision was documented around 1919.[6] The number of whiplash injuries has since risen sharply due to rear-end motor vehicle collisions. Given the wide variety of symptoms are associated with whiplash injuries, the Quebec Task Force on Whiplash-Associated Disorders coined the phrase ‘Whiplash-Associated Disorders’.[6]

 

Whiplash is the term commonly used to describe hyperflexion and hyperextension,[7] and is one of the most common nonfatal car crash injuries. More than one million whiplash injuries occur each year due to car crashes. This is an estimate because not all cases of whiplash are reported. In a given year, an estimated 3.8 people per 1000 experience whiplash symptoms.[8] “Freeman and co-investigators estimated that 6.2% of the US population have late whiplash syndrome”.[9] The majority of cases occur in patients in their late fourth decade. Unless a cervical strain has occurred with additional brain or spinal cord trauma mortality is rare.[8]

 

Whiplash can occur at speeds of 2.5 miles per hour or less according to sigmond et. al.; it is the sudden jolt, as one car hits another, that causes ones head to be abruptly thrown back and sideways. The more sudden the motion, the more bones, discs, muscles and tendons in ones neck and upper back will be damaged. Spinal cord injuries are responsible for about 6,000 deaths in the U.S. each year and 5,000 whiplash injuries per year result in quadriplegia.[7]

 

Figure: This is an illustration of part of the cervical spine (black portion of inset). Part is cut in half for better viewing. This illustrates all of the lesions that have been reported to occur in whiplash trauma.

With permission from Whiplash! A Patient’s Guide to Recovery. San Diego, (c) Spine Research Institute of San Diego, 1999.

P

Most cases of whiplash occur among Caucasians 66.1%, as compared to 27.1% for African Americans, 8.1% for Hispanics, and 2% for Asians, as seen in figure A. After 12 months, only 1 in 5 patients remain symptomatic, only 11.5% of individuals were able to return to work a year after the injury, and only 35.4% were able to get back to work at a similar level of performance after 20 years. Estimated indirect costs to industry are $66,626 per year, depending on the level and severity. Lastly, the total cost per year was $40.5 billion in 2008, a 317% increase over 1998.[7]

 

  1. Insurance Institute for Highway Safety. “Q&A: Neck Injury”. Retrieved 2007-09-18.
  2.  “whiplash” at Dorland’s Medical Dictionary a b c d e f Krafft, M; Kullgren A, Lie A, Tingval C (2005-04-01). “Assessment of Whiplash Protection in Rear Impacts” (pdf). Swedish National Road Administration & Folksam. Archived from the original on August 8, 2007. Retrieved 2008-01-18.
  3. (2010). Retrieved January 16, 2013 from http://www.njpcc.com/conditions-of-the-spine/neck-paininjury.html
  4. “Warning over whiplash ‘epidemic'”. BBC News. 2008-11-15. Retrieved 2010-04-06. a b Desapriya, Ediriweera (2010). Head restraints and whiplash : the past, present, and future. New York: Nova Science Publishers. ISBN 978-1-61668-150-0 a b c Foreman, Stephen M.; Croft, Arthur C. (2002). Whiplash injuries : the cervical acceleration/deceleration syndrom. Philadelphia: Lippincott Williams Wilkins. ISBN 0-7817-2681-6. a b Barnsley, L.; Lord, S.; Bogduk, N. (Sep 1994). “Whiplash injury.”. Pain 58 (3): 283–307. PMID 7838578.
  5. Freeman, MD.; Croft, AC.; Rossignol, AM.; Weaver, DS.; Reiser, M. (Jan 1999). “A review and methodologic critique of the literature refuting whiplash syndrome.”. Spine (Phila Pa 1976) 24 (1): 86–96. PMID 9921598.
  6.  Stemper, D. B., Yoganandan, N., Pintar, A.F., and Rao D.R. (2006)
  7.  Medical Engineering And Physics, 28(6), 515-524.
  8.  Panjabi, M.M., Cholewicki, J., Nibu,K., Grauer,N.J, Babat, B.L., and Dvorack,J.(1998) Mechanism of whiplash injury. Clinical Biomechanics, 13(4-5), 239-249.
  9.  Gorski, Jerrold M. (2007-08). “A New “Pain in the Neck””. Retrieved 2012-12-22. a b Bismil QMK,Bismil MSK, . Myofascial-entheseal dysfunction in chronic whiplash injury. J R Soc Med Sh Rep August 2012 vol. 3 no. 8 57 doi:10.1258/shorts.2012.012052
  10. Gorski JM and Schwartz LH, Shoulder Impingement Presenting as Neck Pain. The Journal of Bone & Joint Surgery Vol 85-A · Number 4 · April 2003 p635-638
  11.  Impingement Syndrome Associated with Whiplash Injury. S K Chauhan, T Peckham, R Turner, J Bone J Surg 85-British 2003;3:408-410.
  12. Whiplash Injury of the Shoulder: Is it a Distinct Clinical Entity? B. N. MUDDU, R. UMAAR, W. Yew KIM, M. ZENIOS, I. BRETT, Y. SHARMA Acta Orthop. Belg., 2005, 71, 385-387
  13. Subacromial Impingement in Patients with Whiplash Injury to the Cervical Spine. A. Abbassian, G. Giddins. Journal of Orthopaedic Surgery and Research 2008, 3:25, 1749 a b MedlinePlus Encyclopedia Whiplash
  14.  Roller Coaster Neck Pain, from the Spinal Injury Foundation “Whiplash injury”. 2006-08-23.
  15. Castro, WH; Meyer, SJ; Becke, ME; Nentwig, CG; Hein, MF; Ercan, BI; Thomann, S; Wessels, U et al. (2001). “No stress–no whiplash? Prevalence of “whiplash” symptoms following exposure to a placebo rear-end collision”. International journal of legal medicine 114 (6): 316–22. PMID 11508796.  Edit Gorski JM and Schwartz LH, Shoulder Impingement Presenting as Neck Pain. THE JOURNAL OF BONE & JOINT SURGERY VOL 85-A · NUMBER 4 · APRIL 2003 p635-638
  16.  Yamaguchi K, Ditsios K, Middleton WD, Hildebolt CF, Galatz LM, Teefey SA. The demographic and morphological features of rotator cuff disease. A comparison of asymptomatic and symptomatic shoulders. J Bone Joint Surg Am. 2006;88:1699-704
  17. “Whiplash — Topic Overview”. WebMD. 2006-11-16. Retrieved 2008-01-1

“Update Quebec Task Force Guidelines for the Management of Whiplash-

Associated Disorders” (PDF). 2001-01-01. Retrieved 2007-09-18.

  1.  Zuby DS, Lund AK (April 2010). “Preventing minor neck injuries in rear crashes—forty years of progress”. J. Occup. Environ. Med. 52 (4): 428–33. doi:10.1097/JOM.0b013e3181bb777c. PMID 20357685.
  2.  Desapriya, Ediriweera (2010). Head restraints and whiplash : the past, present, and future. New York: Nova Science. ISBN 978-1-61668-150-0.
  3. Stemper, BD.; Yoganandan, N.; Pintar, FA. (Mar 2006). “Effect of head restraint backset on head-neck kinematics in whiplash.”. Accid Anal Prev 38 (2): 317–23. doi:10.1016/j.aap.2005.10.005. PMID 16289336.
  4.  Farmer CM, Wells JK, Lund AK (June 2003). “Effects of head restraint and seat redesign on neck injury risk in rear-end crashes”. Traffic Inj Prev 4 (2): 83–90. doi:10.1080/15389580309867. PMID 16210192.
  5.  Farmer CM, Zuby DS, Wells JK, Hellinga LA (December 2008). “Relationship of dynamic seat ratings to real-world neck injury rates”. Traffic Inj Prev 9 (6): 561–7. doi:10.1080/15389580802393041. PMID 19058103.
  6.  Long Fibre-Reinforced Polyamide for Crash-Active Car Headrests, August 22, 2006
  7. Top Safety Ratings For Saab Active Head Restraints, UK Motor Search Engine, August 22, 2006
  8.  Volvo Seat Is Benchmark For Whiplash Protection, Volvo Owners Club, August 22, 2006 a b c Bring, A.; Soderlund, A.; Wasteson, E.; Asenlöf, P. (2012). “Daily stressors in patients with acute whiplash associated disorders.”. Disabil Rehabil 34 (21): 1783–9. doi:10.3109/09638288.2012.662571. PMID 22512410.
  9.  Schnabel, M.; Ferrari, R.; Vassiliou, T.; Kaluza, G. (May 2004). “Randomised, controlled outcome study of active mobilisation compared with collar therapy for whiplash injury.”. Emerg Med J 21 (3): 306–10. PMID 15107368.
  10.  Logan, AJ.; Holt, MD. (Jul 2003). “Management of whiplash injuries presenting to accident and emergency departments in Wales.”. Emerg Med J 20 (4): 354–5. PMID 12835348.
  11.  Sterner, Y.; Gerdle, B. (Sep 2004). “Acute and chronic whiplash disorders–a review.”. J Rehabil Med 36 (5): 193–209; quiz 210. PMID 15626160.
  12.  Gurumoorthy D, Twomey L (1996). “The Quebec Task Force on Whiplash-Associated Disorders”. Spine 21 (7): 897–8. PMID 8779026. whiplash at NINDS
  13.  Suijlekom, Mekhail, N., H., Patel N., Van Zundert, J., Van Kleef, M., & Patijn, J. (2010)
  14.  Lundmark, H & Persson, A.L. (2006) SoÈderlund, A. & Lindberg P. (2001). Cognitive behavioural components in physiotherapy management of chronic whiplash associated disorders (WAD) a randomised group study. Physiotherapy Theory and Practice, 17, Juan, FJ. (Feb 2004). “Use of botulinum toxin-A for musculoskeletal pain in patients with whiplash associated disorders [ISRCTN68653575].”. BMC Musculoskelet Disord 5: 5. doi:10.1186/1471-2474-5-5. PMID 15018625.
  15.  Rydstad, M.; Schult, ML.; Löfgren, M. (2010). “Whiplash patients’ experience of a multimodal rehabilitation programme and its usefulness one year later.”. Disabil Rehabil 32 (22): 1810–8. doi:10.3109/09638281003734425. PMID 20350208.
  16.  Ferrari R, Schrader H (2001). “The late whiplash syndrome: a biopsychosocial approach”. J. Neurol. Neurosurg. Psychiatr. 70 (6): 722–6. doi:10.1136/jnnp.70.6.722. PMC 1737376. PMID 11385003.
  17.  Linnman C, Appel L, Furmark T, et al. (April 2010). “Ventromedial prefrontal neurokinin 1 receptor availability is reduced in chronic pain”. Pain 149 (1): 64–70. PMID 20137858.
  18.  Linnman C, Appel L, Fredrikson M, et al.. “Elevated [11C]-D-deprenyl uptake in chronic Whiplash Associated Disorder suggests persistent musculoskeletal inflammation”. PLoS ONE 6 (4). PMID 21541010. Text “e19182. doi:10.1371/journal.pone.0019182 ” ignored (help)