Advertisement for orthosearch.org.uk
Bone & Joint 360 Logo

Receive monthly Table of Contents alerts from Bone & Joint 360

Comprehensive article alerts can be set up and managed through your account settings

View my account settings

Visit Bone & Joint 360 at:

Loading...

Loading...

Full Access

Spine

Rotator cuff injuries in medico-legal practice



Download PDF

Aetiology

Rotator cuff tears are a common cause of shoulder weakness and pain.1 Rotator cuff tears have been found in 36%2 of people with shoulder pain. One of the major difficulties from a medico-legal perspective is how to differentiate reliably between constitutional (degenerative) tears and work-related injuries or traumatic tears. Rotator cuff tears may be caused by extrinsic or intrinsic factors. Tears may be a result of exclusively extrinsic, exclusively intrinsic or a mixture of both factors. A tear resulting from extrinsic factors may be a result of a single traumatic event or degeneration and cuff failure due to a repetitive act, a ‘cumulative trauma disorder’. A tear due to exclusively intrinsic factors is a result of tendon degeneration as part of the ageing process with no associated mechanical cause. The crucial question when considering the issue of causation for a painful tendon tear is whether the pathology has a mechanical cause or is due to the normal ageing process. There still remains considerable range and difference of opinion among orthopaedic surgeons about surgical indications for cuff tears3 and there is much ongoing work looking at the clinical and cost effectiveness of rotator cuff repair.4

Extrinsic causes

Young adults typically have normal rotator cuff tendons. A single traumatic event causing a rotator cuff tear in an individual with normal tendons may include mechanisms such as a sporting injury, a significant fall or a road traffic collision. Acute rotator cuff tears generally occur in previously asymptomatic patients, who identify a significant traumatic incident leading to a sudden onset of symptoms including severe pain, immediate loss of strength and functional impairment of the shoulder. Acute rotator cuff tears only account for 8% of patients who present with symptomatic rotator cuffs.5 Correct and early clinical diagnosis is often difficult.6 Tears associated with degeneration occurring in connection with a repetitive task were described by Neer.7 The process begins with oedema and haemorrhage, followed by fibrosis, tendonitis and finally a tear of the rotator cuff tendon. Neer suggested that this degeneration resulted from mechanical impingement due to unfavourable bony anatomy of the shoulder and repetitive heavy overhead activity.7 In this type of degenerate tendon, as the pathology progresses, pain increases. At first the patient often reports pain not during the repetitive task but in the evening, after a day’s work. Pain may gradually increase but often the individual recalls a trivial injury or unusual exertion associated with a seemingly disproportionate increase in level of pain. Rotator cuff tears are a major cause of work-related shoulder pain. A meta-analysis of work activity and shoulder pain has identified occupational risk factors consistently associated with shoulder pain, including heavy load, awkward postures, working with forward flexed trunk, working with arms above shoulder level, repetitive movements, performing the same activity for a prolonged period, e.g. typing or driving, vibration and length of employment.8 Psychosocial factors such as mental stress and job pressure were also found to have associations with shoulder pain.9

Intrinsic tendon degeneration

Cuff tears are also more common with increasing age in the general population including, notably, those with no shoulder pain (Table I). Such age-related tendon degeneration and resulting rotator cuff tears are also present in those with no history of trauma. In the population studied by Fukuda et al,10 53% of patients with partial-thickness tears and 35% of those with a full-thickness tear did not recall any episode of injury. Rotator cuff degeneration and tears, therefore, may be considered part of the normal ageing/degeneration process in some individuals. A reduction in blood supply to the rotator cuff with age, as seen on ultrasound by Rudzki et al,11 is proposed as one of the causes of degeneration, as are other intrinsic structural changes. This may explain pathology in those without a mechanical cause and those experiencing a tear with no, or only minimal, trauma. Age-related rotator cuff degeneration is not inevitable for everyone and not all workers are susceptible to rotator cuff pathology as a result of performing repetitive tasks. The existence of an intrinsic predisposition to shoulder pain is supported by the finding that younger workers performing manual repetitive jobs are more affected by length of time in employment but not older workers, implying that only those without a predisposition to shoulder pain are able to continue in such a role.9 Higher rates of ultrasound-detected cuff tears are found in the asymptomatic siblings of individuals with symptomatic tears, adding further evidence for an inherited predisposition.12

Attributing a cuff tear to a particular injury

If a rotator cuff tear is found following an episode of significant trauma to a previously normal shoulder it can be concluded that the injurious event caused that tear. In the presence of age-related tendon degeneration and tears, the pre-existing state of the tendon and its susceptibility to tearing must, however, be considered. The incidence of rotator cuff tears increases with age in those who have suffered an acute shoulder injury.6 An extrapolation of this finding is that rotator cuff degeneration with increasing age results in increased susceptibility to tearing, and tears are caused by a less severe mechanism of injury. As well as the severity of trauma, the probability that the shoulder was normal prior to a traumatic event is key when judging the likelihood that a particular injury alone resulted in a rotator cuff tear. The observed frequency of cuff tears in the general population provides some guidance in predicting the likelihood of a pre-existing rotator cuff tear.

Table I. Prevalence of rotator cuff tears by age.

Prevalence of rotator cuff tear, detected by ultrasound or MRI (%)
Age General population; those with and without shoulder pain2 General population; those with and without shoulder pain20 General population; those with and without shoulder pain21 Population without shoulder pain22
20 to 29 0 0 0 -
30 to 39 2.5 -
40 to 49 6.7 4 -
50 to 59 12.8 10.7 13
60 to 69 25.6 28 15.2 20
70 to 79 45.8 26.5 31
80 to 89 50 36.6 51

As well as predicting likelihood of a pre-existing tear, other factors must also be considered when judging the degree to which an injury or repetitive act resulted in a tear for an individual.

A medical history of confirmed pre-existing rotator cuff tear is highly significant. A cuff tear detected on diagnostic scanning following the injury in question may be a historic tear. For clarification, contemporary and historic diagnostic imaging may be compared. Both MRI and ultrasound are widely used diagnostic imaging techniques for soft-tissue shoulder pathology. Comparison between diagnostic tests when judging whether there is an additional tear, or extension of an existing tear, is usually possible with MRI but less reliable if ultrasound has been used due to the dynamic and operator-dependent nature of ultrasound. It has been noted that degenerative rotator cuff tears have a significant tendency to increase in size with time,13 so caution must be exercised when attributing an increase in tear size to a particular injury. A diagnostic scan performed acutely may identify signs of an acute tear, such as associated haematoma, which may not be detectable at a later stage even if symptoms persist. In the UK, patients with a painful shoulder following an injury are typically assessed in an emergency department and orthopaedic fracture clinic or by their general practitioner. For a clinically diagnosed rotator cuff tear, initial treatment consists of analgesia and rest followed by physiotherapy with possible injection of local anaesthetic and steroid to the shoulder. Acute traumatic tears are often treated surgically. Even if one assumes that a tear is due to the injury in question, a previous history of cuff tear may still be relevant as it provides evidence that an individual is at a higher risk of cuff tear due to intrinsic degeneration. Other factors would have to be considered in this situation such as the age of the individual and the severity of the injury mechanism of the previous tear, together with the mechanism of injury claimed for the current tear. It may be suggested, depending upon the nature of the trauma involved, that it has brought forward the onset of impingement or rotator cuff tear by a certain period of time. This does of course introduce the dangerous and somewhat imprecise concept of advancement or acceleration of symptoms. This is not a concept that has any value for us in clinical practice but sometimes needs to be considered in medico-legal practice in order to help the solicitors/insurers put a value on the claim when neither the total causation nor nil causation position appear to fit the particular scenario under consideration.

Long-term morbidity

There is significant inconsistency in the relationship between shoulder pain and the presence of a rotator cuff tear. It remains unclear why some tears are painful and others not. An initially asymptomatic tear may become painful, particularly after even a minor injury. It has been suggested that the degree of pain has more association with degree of bursitis than tear size.6 Yamaguchi et al13 found that 51% of those with an initially asymptomatic tear developed pain at a mean of 2.8 years later. This may give some indication of the timeframe in which patients may have developed symptoms in any case without any further trauma. Conversely, in the presence of a past medical history of an asymptomatic tear, an injury or series of injuries which results in ongoing symptoms from that point may be considered to have brought the symptoms forward by 2.8 years in 51% of patients. The intuitive position that pain increases with size of tear remains uncertain.14,15 Approximately 75% of those who sustain a rotator cuff tear can have a good outcome in terms of function and pain with non-operative treatment.16,17 For those who require operative intervention, outcomes are favourable in 77% to 89%, regardless of age, although outcomes for females are slightly poorer than for males.18 Those who have undergone surgery who experience re-rupture of the rotator cuff also seem to have long-term favourable outcomes.19


Correspondence should be sent to Mr A. Cole; e-mail:

1 Svendsen SW , FrostP, JensenLD. Time trends in surgery for non-traumatic shoulder disorders and postoperative risk of permanent work disability: a nationwide cohort study. Scand J Rheumatol2012;41:5965.CrossrefPubMed Google Scholar

2 Yamamoto A , TakagishiK, OsawaT, et al.Prevalence and risk factors of a rotator cuff tear in the general population. J Shoulder Elbow Surg2010;19:116120.CrossrefPubMed Google Scholar

3 Dunn WR , SchackmanBR, WalshC, et al.Variation in orthopaedic surgeons' perceptions about the indications for rotator cuff surgery. J Bone Joint Surg [Am]2005;87-A:19781984.CrossrefPubMed Google Scholar

4 No authors listed. Centre for Healthcare and Randomised Trials: UK Rotator Cuff Surgery Trial. https://viis.abdn.ac.uk/hsru/UKUFF/Site/Public/Default.aspx (date last accessed 18 August 2014). Google Scholar

5 Bassett RW , CofieldRH. Acute tears of the rotator cuff. The timing of surgical repair. Clin Orthop Relat Res1983;175:1824.PubMed Google Scholar

6 Sørensen AK , BakK, KrarupAL, et al.Acute rotator cuff tear: do we miss the early diagnosis? A prospective study showing a high incidence of rotator cuff tears after shoulder trauma. J Shoulder Elbow Surg2007;16:174180.CrossrefPubMed Google Scholar

7 Neer CS 2nd. Impingement lesions Clin Orthop Relat Res1983;173:7077. Google Scholar

8 van der Windt DA , ThomasE, PopeDP, et al.Occupational risk factors for shoulder pain: a systematic review. Occup Environ Med2000;57:433442.CrossrefPubMed Google Scholar

9 Ohlsson K , AttewellR, SkerfvingS. Self-reported symptoms in the neck and upper limbs of female assembly workers. Impact of length of employment, work pace, and selection. Scand J Work Environ Health1989;15:7580.CrossrefPubMed Google Scholar

10 Fukuda H . Partial-thickness rotator cuff tears: a modern view on Codman's classic. J Shoulder Elbow Surg2000;9:163168.PubMed Google Scholar

11 Rudzki JR , AdlerRS, WarrenRF, et al.Contrast-enhanced ultrasound characterization of the vascularity of the rotator cuff tendon: age- and activity-related changes in the intact asymptomatic rotator cuff. J Shoulder Elbow Surg2008;17(1Suppl):96S100S.CrossrefPubMed Google Scholar

12 Harvie P , OstlereSJ, TehJ, et al.Genetic influences in the aetiology of tears of the rotator cuff. Sibling risk of a full-thickness tear. J Bone Joint Surg [Br]2004;86-B:696700.CrossrefPubMed Google Scholar

13 Yamaguchi K , TetroAM, BlamO, et al.Natural history of asymptomatic rotator cuff tears: a longitudinal analysis of asymptomatic tears detected sonographically. J Shoulder Elbow Surg2001;10:199203.CrossrefPubMed Google Scholar

14 Yamaguchi K , DitsiosK, MiddletonWD, et al.The demographic and morphological features of rotator cuff disease. A comparison of asymptomatic and symptomatic shoulders. J Bone Joint Surg [Am]2006;88-A:16991704.CrossrefPubMed Google Scholar

15 Unruh KP , KuhnJE, SandersR, et al.The duration of symptoms does not correlate with rotator cuff tear severity or other patient-related features: a cross-sectional study of patients with atraumatic, full-thickness rotator cuff tears. J Shoulder Elbow Surg2014;23:10521058. Google Scholar

16 Bokor DJ , HawkinsRJ, HuckellGH, AngeloRL, SchickendantzMS. Results of nonoperative management of full-thickness tears of the rotator cuff. Clin Orthop Relat Res1993;294:103110.PubMed Google Scholar

17 Itoi E , TabataS. Conservative treatment of rotator cuff tears. Clin Orthop Relat Res1992;275:165173.PubMed Google Scholar

18 Oh LS , WolfBR, HallMP, LevyBA, MarxRG. Indications for rotator cuff repair: a systematic review. Clin Orthop Relat Res2007;455:5263.CrossrefPubMed Google Scholar

19 Jost B , ZumsteinM, PfirrmannCW, GerberC. Long-term outcome after structural failure of rotator cuff repairs. J Bone Joint Surg [Am]2006;88-A:472479.CrossrefPubMed Google Scholar

20 Sher JS , UribeJW, PosadaA, MurphyBJ, ZlatkinMB. Abnormal findings on magnetic resonance images of asymptomatic shoulders. J Bone Joint Surg [Am]1995;77-A:1015.PubMed Google Scholar

21 Minagawa H , YamamotoN, AbeH, et al.Prevalence of symptomatic and asymptomatic rotator cuff tears in the general population: From mass-screening in one village. J Orthop2013;10:812.CrossrefPubMed Google Scholar

22 Tempelhof S , RuppS, SeilR. Age-related prevalence of rotator cuff tears in asymptomatic shoulders. J Shoulder Elbow Surg1999;8:296299.CrossrefPubMed Google Scholar