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Wednesday, 31 October 2012

Case study – Rehabilitation and Performance Enhancement


Hamstring injury in a professional football player - Management and return to play strategies.

Summary
Following a FA cup match, a 29 year old professional footballer reported significant discomfort in his left hamstring. The injury was sustained within the first 10 minutes of the match while attempting to hook the ball out of play. He reported a tightness develop in the posterior thigh but continued to play as he thought it was a cramp. Although he could perceive the discomfort especially during long kicking, he completed the match. The initial clinical assessment indicated some degree of upper lateral hamstring damage.

This case study will focus on the subsequent assessment, rehabilitation and the strategies allowing for the earliest return to play without re-injury and to be able to participate at the same or an improved level.

Introduction
Hamstring injuries occur frequently in sport (12% in football) and result in a significant loss of playing time (Woods, Hawkins, Maltby, Hulse, Thomas & Hodson, 2004). The hamstrings are important in speed production, hip extension, paradoxical knee extension in the stance phase, deceleration of the lower leg during the swing phase (Wiemann & Tidow, 1995), and aid in pelvic stability (Panayi, 2010). The most commonly injured region is the proximal myotendinous junction of the bicep femoris and is normally non-contact (Koulouris & Connell, 2003). A hook kick; hip flexion, adduction and internal rotation with knee extension was reported and seems to indicate a reasonable mechanism of injury.

It is reported that hamstring injuries have a high recurrence rate (Orchard & Seward, 2002) and there is strong evidence to suggest that muscle weakness (Proske, Morgan, Brockett & Percival, 2004), past hamstring injury and age (Arnason, Sigurdsson, Gudmundsson, Holme, Engebretsen & Bahr, 2004) are pre-disposing intrinsic factors for hamstring injury. The relevant information pertaining to this player’s susceptibility to injury includes his age as well as his quadriceps to hamstring strength ratio and his flexibility, measured in an earlier assessment, may have contributed to this injury. Although he has no history of hamstring problems in the past, it is important to consider as this may be a predisposing factor for future injuries. The type of warm-up (Junge, Rosch, Peterson, Graf-Baumann & Dvorak, 2002) and player fatigue (Woods, et al., 2004) may also increase the risk of injury and interestingly on this occasion the warm-up was shorter than normal due to the bus arriving late and five players reporting tiredness a day earlier following a tight grouping of games

It is important to determine the extent of the injury early as well as to discuss any differential diagnosis. The challenge is to distinguish between a low grade hamstring strain and other non-specific pathologies (Turl & George, 1998). Failing to identify the correct cause may result in prolonged rehabilitation time or premature return to play resulting in recurrent injury.  

Assessment
The initial 48 hours following the injury remained uneventful. The player was advised on the importance of ice and compression as well as early mobilization but avoiding stretching and pain (Orchard, Best, Mueller-Wohlfahrt, Hunter, Hamilton, Webborn, Jaques, Kenneally, Budgett, Phillips, Becker & Glasgow, 2008). Due to the limited evidence pertaining to the use of non steroidal anti inflammatory drugs (Petersen & Holmich, 2005) immediately in acute muscle injuries, a mild analgesic was prescribed to assist early mobilization.

The main aim at the initial assessment was to take a history and examination to determine the extent of the injury as well other potential factors contributing to this problem. The player presented with a hyperlordotic lumbar spine and an apparent anterior pelvic tilt. A bilateral reduced range of motion was observed in his hip flexors, as well as a locked left sided sacro-iliac joint. There was a palpable hypertonicity and sensitivity over the lateral portion of the muscle with reduced active and passive range of movement as well as mild reduction in strength (4/5) with some discomfort. However the most remarkable feature was the neural tensioning straight leg raise which was highly sensitive in the hamstring compared to the other side. All other test were found to be unremarkable.

Due to the sudden onset with moderate pain and marked tenderness, further investigation was recommended. Diagnostic ultrasound can be helpful but a MRI seems to be more sensitive and also allows for an estimated return to play time (Koulouris & Connell, 2003), which is very useful in a professional sports environment. Prior to the receiving the MRI results, the working diagnosis was an acute grade I strain with some neural tissue involvement with associated lumbar-pelvic issues. The results confirmed a grade II myotendinous junction injury of the long head of biceps femoris with fluid around the sciatic nerve (Appendix 1, 2 & 3). A plan for the rehabilitation was established with an estimated time frame of 4 – 6 weeks until return to training.

Intervention with Clinical Reasoning
Following the initial 48 hours early resumption of activities was initiated. The evidence suggests that initial loading in a controlled, protected range is important during the early repair and remodelling phase (Sherry & Best, 2004) as well as progressing to jogging as soon as possible (Heiderscheit, Sherry, Silder, Chumanov & Thelen, 2010). The criteria the author selected as ‘return to jogging’ markers included pain-free bridging and full active knee extension while Heiderscheit, et al., (2010) includes normal walking without pain and pain free isometric contractions against submaximal resistance as well. These were achieved at day five at which point a progressive jogging programme was started. Although the evidence regarding soft tissue work and stretching is varied, regular massage and stretching sessions were undertaken as part of the general rehabilitation programme. Manual therapy consisting of Maitland mobilization and MET were used to reduce the thoracolumbar and left sacro-iliac joint restrictions as well as to assist in reducing the anterior pelvic tilt (Panayi, 2010).  

A progressive running programme was implemented as soon as possible to allow for a graded return to fitness (Heiderscheit, et al., 2010). With clear guidelines, it provided the author with an objective measure of player development and allows the player to grade his progression based on similar yet slightly more difficult, incremental tasks. The player’s progression was unremarkable, if slightly slower than expected. Sherry & Best (2004) showed that progressive agility and trunk stabilization decreased the recovery time and significantly reduced the rate of injury recurrence. Early change of direction movement and progressive plyometric activities were included in the rehabilitation programme to fully load the injured tissue and assist in improving the neuromuscular coordination. While general strength training may assist in recovery, specific loading with a focus on eccentric muscle action seem to provide the greatest benefits (Brooks, Fuller, Kemp & Reddin, 2006). Eccentric activity in the late swing phase is considered highly vulnerable in high speed running. By using eccentric high load exercises, it effectively allows the hamstring to work at a higher torque. The player struggled with these activities and although an improvement was observed, he was significantly below expectation at six weeks.    

As would be expected, the injury would prevent the player from participating in regular training sessions and thus susceptible to detraining effects (Mujika & Padilla, 2000). Together with the fitness coach, a conditioning programme was developed around the limitations of the injury (Dooman & Jones, 2009). Upper body and single leg strength and power activities were selected as well as bike and pool based activities to work different energy systems, maintaining leg speed and general fitness. Core and flexibility sessions were undertaken in an attempt to improve on vulnerable areas in an attempt to offset future injuries and improve performance. The return to sport criteria, were attained at six weeks post injury. The limiting factor for an earlier return was the sensation of adverse neural tension likely associated with the fluid surrounding the sciatic nerve.

Outcome
The outcome of this case was fairly uneventful. The player participated in a reserve fixture on Tuesday, few days over six weeks post injury. He played particularly well in his normal position and only reported some general stiffness the following day. The player was selected to play the next first team fixture; however the game was postponed due to snow. The two weeks leading up to the following game were unremarkable and no further problems have been reported since.

Discussion
The available literature shows that hamstring injuries are common is sport however there are still best practice inconsistencies (Goldman & Jones, 2011). There seems to be correlation between the rehabilitation programme and recovery rate as well as recurrent injury rate (Heiderscheit, et al., 2010). Strong evidence links age and previous injury; however this case study indicated that a combination of risk factors may lead to hamstring strains.

The evidence suggests, early loading and mobility are key, however it is important to manage the pain especially in the early stages of the injury. Although it is important to return to normal loads as quick as possible this needs to be introduced over a reasonable time frame to allow for tissue adjustment. A progressive running programme, core, agility and specific strength training allow for a graded return from injury as well as developing the components to cope with the load sustained by the local and surrounding tissue during high level activity. While risk elimination is unreasonable to consider, longer rehabilitation significantly reduces the recurrence rate (Orchard & Best, 2002).

Conclusion
Hamstring injuries occur regularly within athletic populations and while some of the risk factors are unavoidable it is important for the therapist to consider all of these factors. The evidence seems to suggest that rehabilitation programmes may have a significant effect on the short and long term outcome. And while clear guidelines can assist in directing the process, therapist intuition is vital in minimizing the risk while still working within a reasonable time frame, especially in a sports environment.

References
Arnason, A., Sigurdsson, S.B., Gudmundsson, A., Holme, I., Engebretsen, L. & Bahr, R., (2004). Risk Factors for Injuries in Football. The American Journal of Sports Medicine. 32, 5-16.doi: 10.1177/0363546503258912. Accessed: 08/06/2011.

Brooks, J.H.M., Fuller, C.W., Kemp, S.P.T. & Reddin, D.B., (2006). Incidence, Risk, and Prevention of Hamstring Muscle Injuries in Professional Rugby Union. American Journal of Sports Medicine. 34, 1297-1306. doi:10.1177/0363546505286022. Accessed: 07/06/2011.

Dooman, C.S. & Jones, D., (2009). Down, but not out: In-season resistance training for the injured collegiate football player. Strength and conditioning journal. 31, 59-68.

Goldman, E.F. & Jones, D.E., (2011). Interventions for preventing hamstring injuries: a systematic review. Physiotherapy. 97, 91-99.

Heiderscheit, B.C., Sherry, M.A., Silder, A., Chumanov, E.S. & Thelen, D.G., (2010). Hamstring strain injuries: Recommendations for diagnosis, rehabilitation, and injury prevention. Journal of Orthopaedic & Sports Physical Therapy. 40, 67-81.

Junge, A., Rosch, D., Peterson, L., Graf-Baumann, T. & Dvorak, J., (2002). Prevention of soccer injuries: a prospective intervention study in youth amateur players. The American Journal of Sports Medicine. 30, 652-659.

Koulouris, G. & Connell, D.A., (2003). Evaluation of the hamstring muscle complex following acute injury. Skeletal Radiology. 32, 582–589.

Mujika, I. & Padilla, S., (2000). Detraining: Loss of training-induced physiological and performance adaptations. Part I: Short term insufficient training stimulus. Sports Medicine. 30, 79–87.

Orchard, J.W. & Best, T.M., (2002). The management of muscle strain injuries: An early return versus the risk of recurrence. Clinical journal of Sport Medicine. 12, 3–5.

Orchard, J.W., Best, T.M., Mueller-Wohlfahrt, H.W., Hunter, G., Hamilton, B.H., Webborn, N., Jaques, R., Kenneally, D., Budgett, R., Phillips, N., Becker, C. & Glasgow, P., (2008). The early management of muscle strains in the elite athlete: best practice in a world with a limited evidence basis. British Journal of Sports Medicine. 42, 158-159.

Orchard, J. & Seward, H., (2002). Epidemiology of injuries in the Australian Football League, seasons 1997–2000. British Journal of Sports Medicine. 36, 39–45.

Panayi, S., (2010). The need for lumbar-pelvic assessment in the resolution of chronic hamstring strain. Journal of Body work & Movement Therapies. 14, 294-298.

Petersen, J. & Holmich, P., (2005). Evidence based prevention of hamstring injuries in sport. British Journal of Sports Medicine. 39, 319–323.

Proske, U., Morgan, D.L., Brockett, C.L. & Percival, P., (2004). Identifying athletes at risk of hamstring strains and how to protect them. Proceedings of the Australian Physiological and Pharmacological Society. 34, 25-30.

Sherry, M.A. & Best, T.M., (2004). A comparison of 2 rehabilitation programs in the treatment of acute hamstring strains. Journal of Orthopaedic Sports Physical Therapy. 34, 116–125.

Turl, S.E. & George, K.P., (1998). Adverse neural tension: a factor in repetitive hamstring strain? Journal of Orthopaedic Sports Physical Therapy. 27, 16–21.

Wiemann, K. & Tidow, G., (1995). Relative activity of hip and knee extensors in sprinting - implications for training. New Studies in Athletics. 10, 29-49.

Woods, C., Hawkins, R.D., Maltby, S., Hulse, M., Thomas, A. & Hodson, A., (2004). The Football Association Medical Research Programme: an audit of injuries in professional football—analysis of hamstring injuries. British journal of sports medicine. 38, 36-41. doi: 10.1136/bjsm.2002.002352. Accessed: 08/06/2011.


Physiotherapy Abbreviations


Physiotherapy Abbreviations

There are many abbreviations specific to the field of physiotherapy, rehabilitation and health care. Many of the common abbreviation can be misinterpreted as they often represent different things. This can often be confusing to other physiotherapists, health care professionals and students alike. This resource was created to review the most common abbreviations and their meanings. This list is not complete as is this meant as an open project which will be added to as and when. If any viewer would like to comment on the content please feel free to do so.
Also see:
 
(A, B & C)
Abbreviation
Definition
Acup
Acupunture
a/c jt or ACJ
Acromioclavicular joint
A.N.T
Adverse neural tension
AROM
Active range of movement
ASIS
Anterior superior iliac spine
Ant
Anterior
Agg or aggrav
Aggravating factors
A.S.
Ankylosing spondylitis
a/a
As above
ACL
Anterior cruciate ligament
A.J. *
Ankle jerk
A.J.*
Ankle joint
aa*
Atlanto-axial joint
aa*
Aortic Aneurysm
Abd
Abduction
Add
Adduction
ANS
Autonomic nervous system
Ach T
Achilles tendon
B/T, btw or btwn
Between
B4
Before
Bc
Because
B*
Better
B*
Bilateral
BP
Blood pressure
Bilat
Bilateral
c/o
Complains of
Ca
Cancer
c.f
Compared with
C/sp, Cxsp or Cx
Cervical spine
CMP
Chondromalacia patella
CTD
Carpal tunnel decompression
CTJ
Cervico-thoracic junction
CNA
Could not attend
Canx or canc
Cancelled
Const
constant
CHF
Congestive heart failure
Chol
Cholesterol
CV
Cardiovascular
CVA
Cardiovascular accident
C1-7
Labelled 1st to 7th cervical vertebrae
Circ*
Circumduction
Circ*
Circulation
Ceph
Cephalad
Caud
Caudad
Contra
Contralateral
CMC
Carpometacarpal
CUS
Continuous ultrasound
CTS
Carpal tunnel syndrome

(D, E & F)
Abbreviation
Definition
D/H, DH or DHx
Drug history
D/C
Discharge
Dr
Doctor
D/W
Discuss with
DNA
Did not attend
DNF
Deep neck flexors
DTF*
Deep transverse frictions
DFT*
Deep tissue frictions
DOB
Date of birth
DRAM
Diastasis of rectus abdominus
DF
Dorsiflexion
DL
Double leg
Dist
Distal
DTM
Deep tissue massage
DKB
Double knee bend
d/t
Due to
Exs or X’s
Exercises
Ext
Extension
ER
External rotation
Elev
Elevation
Ep
Epilepsy
Elb
Elbow
EOD
End of day
EOR
End of range
ERP or EoRP
End of range pain
Ev or ever
Eversion
EIL
Extension in lying
EIS
Extension in standing
ERSL
Extended rotated side flexion left
ERSR
Extended rotated side flexion right
Flex or Fl
Flexion
FF
Forward flexion
FROM*
Full range of motion
FROM*
Full range of movement
FFD
Fixed flexion deformity
FHP
Forward head posture
FNT
Femoral nerve test
FIL
Flexion in lying
FIS
Flexion in standing
FT
Fingertips
FRSL
Flexed rotated side flexed left
FRSR
Flexed rotated side flexed right

(G, H & I)
Abbreviation
Definition
G.H.
General health
GH Jt or GHJ
Gleno-humeral joint
GOOB
Getting out of bed
Gluts
Gluteus
Gmax
Gluteus maximus
Gmed or GM
Gluteus medius
Gmin
Gluteus minimus
GP
General practitioner
Gastroc
Gastrocnemius
HEP or HP
Home exercise programme
HPC, HoPC or HxPC
History of present complaint
HBB
Hand behind back
HBH
Hand behind head
H/o
History of
HOS
Hand opposite shoulder
HF
Horizontal flexion
HE
Horizontal extension
HFP
Head forward posture
Hypo
Hypomobility
Hyper
hypermobility
HU
Humero-ulnar
HJ
Hip joint
Hams, h/string or h/s
Hamstrings
IF
Interferential
IRQ
Inner range quadriceps
ILA
Inferior lateral angle
ITB
Ilio-tibial band
ISQ
In status quo or the same
Inf
Inferior
Inf TF
Inferior tibio-fibular joint
Infsp or i.s.
Infraspinatus
IL Lig
Iliolumbar ligament
Imp*
Impression of problem
Imp*
Improved
IR
Internal rotation
Ix or Invest
Investigations
IDDM
Diabetes (insulin dependent)
I/M*
Intermittent
I/M*
Intermuscular
Inv
Inversion
Ipsi
Ipsilateral
IC
Intercarpal
IP
Interphalangeal

(J, K & L)
Abbreviation
Definition
Jt or jnt
Joint
Kn
Knee
KJ
Knee jerk
KTW
Knee to wall
LL
Lower limb
L1-5
Labelled 1st to 5th lumbar vertebrae
L
Left
LLD
Leg length discrepancy
L.H.S.
Left hand side
LLTT
Lower limb tension test
LFT
Lower fibres of Trapezius
Ly
Lying
Lat rotn or LR
Lateral rotation
LBP
Lower back pain
LCL
Lateral collateral ligament
LF
Lateral flexion
Lx, LSp or Lx/sp
Lumbar spine
LSj or L/S
Lumbo-sacral junction
Lat epi
Lateral epicondyle
LG
Lateral glide
Lig
Ligament
LHOB
Long head of biceps

(M, N & O)
Abbreviation
Definition
Men
Meniscus
MAP
Myotatic activation procedure
Med rotn or MR
Medial rotation
MS
Multiple sclerosis
MSU
Mid stream urine
ME
Myalgic encephalitis
MET
Muscle energy techniques
M’s, m or mm
Muscle(s)
Mobs
Mobilizations
Manip
Manipulations
Mx
Management
MCP
Meta-carpo phalangeal
MCL
Medial collateral ligament
MF
Medium frequency
MFR
Myofascial release
MWM
Mobilisation with movement
MG
Medial glide
Mvmt, movt or mvt
Movement
NAD
Nothing abnormal detected
NOF
Neck of femur
NOH
Neck of humerus
NSAID’s
Non-steroidal anti-inflammatory drugs
NIDDM
Non-insulin dependent diabetes
Nag
Natural apophyseal glide
NE
No effect
NB
No better
NW
No worse
NBI
No bony injury
Neuro
Neurological
NRLSR
Neutral rotation left side flexed right
NRRSL
Neutral rotation right side flexed left
N
Nerve
OA*
Osteoarthritis
OA*
Occipito-atlanto joint
O/E
Objective examination
OP
Overpressure
OT or op
Operation
Occ*
Occasionally
Occ*
Occiput
OC
Oral contraceptive

(P & Q)
Abbreviation
Definition
Palp
Palpation
P*
Pain
P*
Pressure
PAIVM
Passive accessory intervertebral movement
PPIVM
Passive physiological intervertebral movement
PWB
Partial weight bearing
PID*
Prolapsed intervertebral disc
PID*
Pelvic inflammatory  disease
PKB
Prone knee bend
PMH or PMHx
Past medical history
P/F jt or PFJ
Patella-femoral joints
PSIS
Posterior superior iliac spine
PT
Physiotherapist or physical therapist
Pt.
Patient
PNF*
Proprioceptive neuromuscular facilitation
PNF*
Passive neck flexion
PROM
Passive range of motion/movement
Pr.ly.
Prone lying
PF
Plantar flexion
Post
Posterior
Prox
Proximal
Pat
Patella
PS
Pubic symphysis
PCL
Posterior cruciate ligament
PUS
Pulsed ultrasound
PC
Presenting complaint
PD*
Provisional diagnosis
PD*
Parkinson’s disease
Prn (Pro re nata)
As required
P1
Onset of pain
P2
Limits of pain
PDM
Pain during movement
PNS
Parasympathetic nervous system
Pron
Pronation
Piri or pir
Piriformis
PA
Posteroanterior
PGM
Posterior gluteus medius
QL
Quadratus lumborum
Quads
Quadriceps
QH
Quadriceps and hamstrings

(R & S)
Abbreviation
Definition
R1
Onset of resistance
R2
Point where resistance limits movement
RHS
Right hand side
Rx
Treatment
R
Right
ROM
Range of motion
RA
Rheumatoid arthritis
R/v, rv or rev
Review
Rotn
Rotation
RSD
Reflex sympathetic dystrophy
RTA
Road traffic accident
RTC
Road traffic collision
RO
Removal of
Ret or retn
Retraction
R.u.
Radioulnar
R.c.
Radiocarpal
RF
Rectus femoris
Rhom or rh
Rhomboids
RBB
Reach behind back
RBH
Reach behind head
RBN
Reach behind neck
R’d
Resisted
SH or SHx
Social history
Sh
Shoulder
SIJ
Sacroiliac joint
SLR
Straight leg raise
SQ/c
Static quads contraction
S1-5
Labelled 1st to 5th sacral segments
St*
Standing
St*
Stiffness/stiff
Sitt
Sitting
STM
Soft tissue massage
STI
Soft tissue injury
S/B
Seen by
SF
Side flexion
S.ly
Side lying
Sup
Superior
Supn
Supination
SCJ or S/C jt
Sternoclavicular joint
SS
Sacral sulcus
Sub occ
Sub-occipital
SP
Spinous process
SCM
Sterno-cleido mastoid
Supsp or ss
Supraspinatus
ST lig
Sacrotuberous ligament
SSTM
Specific soft tissue massage
SNAG
Sustained natural apophyseal glide
SG
Side glide
SGIS
Side glide in standing
SE
Subjective examination
Sl
Slightly
Sx
Surgeon
SHR
Scapulohumeral rhythm
SL/SLS
Single leg/single leg stance
S
Spasm
SNS
Sympathetic nervous system
ST
Sub talar
Scal
Scalenes
SKB
Single knee bend
Scol
Scoliosis
S/T
Spoke to
SNF
Superficial neck flexors

(T, U & V)
Abbreviation
Definition
T
Treatment
TOP
Tender on palpation
TP
Transverse process
Tx/sp, Tx sp,Thx sp or Tsp
Thoracic spine
TA*
Tendo Achilles
TA* or trans abdo
Transverse abdominus
TFL
Tensor fascia lata
T1-12
Labelled 1st to 12th thoracic vertebrae
TP
Trigger point
TPR
Trigger point release
Trap
Trapezius
Tmin
Teres minor
Tmaj
Teres major
Tibfem or TFJ
Tibiofemoral joint
TB
Tuberculosis
TL jxn
Thoraco-lumbar junction
TC or TCJ
Talo-crural (joint)
TN
Talo-navicular
Tx
Treatment
UL
Upper limb
UTA
Unable to attend
ULTT
Upper limb tension test
U/S
Ultrasound
UFT
Upper fibers of trapezius
Uni
Unilateral
VMO
Vastus medialis oblique
V. lat or VL
Vastus lateralis
v.
Very

(W,X,Y & Z)
Abbreviation
Definition
Wt or wgt
Weight
Wb
Weight bearing
W
Worse
WIN
Wake in night