Abstracts

Introduction

Carpal tunnel syndrome (CTS) is the most frequent of the compressive syndromes and is defined by compression and/or traction of the median nerve at wrist level. Its first description is attributed to Paget,¹1. Paget J. The first description of carpal tunnel syndrome. J Hand Surg Eur. 2007;32:195-7. who reported on a case of compression of the median nerve consequent to a fracture of the distal radius. In 1913, Marie and Foix²2. Marie P, Foix C. Atrophie isolée de 1'éminence thénar d'origine névritique. Rôle du ligament annulaire du carpe dans la pathogénie de la lésion. Rev Neural. 1913;26:647-9.published the anatomical and histopathological description of an hourglass-shaped lesion of the median nerve with neuroma, proximal to the flexor retinaculum. In the 1950s, studies by Phalen³3. Phalen GS. The carpal-tunnel syndrome. Seventeen years' experience in diagnosis and treatment of six hundred fifty-four hands. J Bone Joint Surg Am. 1966;48(2):211-28. established the principles of CTS.

The estimated prevalence of CTS among the population is between 4% and 5%, particularly affecting individuals between 40 and 60 years of age.⁴4. Atroshi I, Gummesson C, Johnsson R, Ornstein E, Ranstam J, Rosén I. Prevalence of carpal tunnel syndrome in a general population. JAMA. 1999;282(2):153-8. In 2008, 127,269 individuals aged 20 years and over were operated to treat CTS in metropolitan France, representing an incidence of 2.7/1000 (females: 3.6/1000; males: 1.7/1000).⁵5. Tuppin P, Blotiere PO, Weill A, Ricordeau P, Allemand H. Syndrome du canal carpien opere en France en 2008: caracteristiques des malades et de leur prise en charge. Rev Neural (Paris). 2011;167(12):905-15. There were two peak frequencies: the first and higher of them between 45 and 59 years of age (75% female); and the second between 75 and 84 years (64% female).

Anatomy

Limits

The carpal tunnel is a non-extendible osteofibrous tunnel defined as the space located between the flexor retinaculum, which forms the roof, and the carpal sulcus, which forms the base. It is delimited on the ulnar edge by the hamate hook, pyramidal bone and pisiform bone, and on the radial edge by the scaphoid bone, trapezoid bone and tendon of the flexor carpi radialis (FCR) muscle. The base is formed by the capsule, and the anterior radiocarpal ligaments cover the underlying portions of the scaphoid, lunate, capitate, hamate, trapezium and trapezoid.

Content

The median nerve is accompanied by four tendons from the superficial flexors of the fingers, four tendons from the deep flexors of the fingers and the long flexor of the thumb. The long flexor of the thumb is the most radial element.

At the tunnel entrance, the median nerve is situated dor-sally in relation to the long palmar muscle or between the FCR and the long palmar muscle. In neutral wrist position, the median nerve is in front of the superficial flexor of the index finger, or between the long flexor of the thumb and the superficial flexor of the index finger, or in front of the superficial flexor of the middle finger. In the distal part of the tunnel, the medial nerve divides into six branches: the motor or thenar branch; three specific palmar digital nerves (radial and ulnar of the thumb and radial of the index finger); and the common palmar digital nerves of the second and third spaces. The thenar branch passes through a separate tunnel before entering the thenar muscles, in 56% of the cases.

Anatomical variations

Anatomical variations may explain the variations in symptoms and give rise to risks of iatrogenic injuries.

Anatomical variations in the nerves

A bifid median nerve caused by high division is observed in 1–3.3% of the cases and may be associated with persistence of the median artery or with an accessory branch of the superficial flexor of the third finger.⁶6. Mitchell R, Chesney A, Seal S, McKnight L, Thoma A. Anatomical variations of the carpal tunnel structures. Can J Plast Surg. 2009;17(1):e3-7. In cases of a bifid median nerve, the radial portion is the most important one.

Variations of the motor branch of the median nerve

Lanz⁷7. Lanz U. Anatomical variations of the median nerve in the carpal tunnel. J Hand Surg Am. 1977;2(1):44-53. found five types of starting points and paths of the thenar branch: the extraligamentous form, which is the most frequent type (46%); the subligamentous form (31%) and the transligamentous form (23%). Kozin⁸8. Kozin SH. The anatomy of the recurrent branch of the median nerve. J Hand Surg Am. 1998;23(5):852-8.found that 4% of the cases had two motor branches that crossed the flexor retinaculum. The nerve bundles destined for the thenar branch are located radially to the median nerve in 60% of the cases, anteriorly in 20% and centrally in 18%.⁹9. Mackinnon SE, Dellon AL. Anatomic investigations of nerves at the wrist: I. Orientation of the motor fascicle of the median nerve in the carpal tunnel. Ann Plast Surg. 1988;21(1):32-5. Sometimes, the thenar branch passes through a tunnel before entering the thenar muscles. These variations may explain the variable motor impact in cases of severe compression of the median nerve.⁹9. Mackinnon SE, Dellon AL. Anatomic investigations of nerves at the wrist: I. Orientation of the motor fascicle of the median nerve in the carpal tunnel. Ann Plast Surg. 1988;21(1):32-5.

Variations of the palmar cutaneous branch of the median nerve

The palmar cutaneous branch usually begins 4–7 cm above the wrist crease and follows along beside the median nerve for 1.6–2.5 cm. It then enters a tunnel formed by the fascia at the medial edge of the FCR and emerges 0.8 cm above the wrist flexion crease, to innervate the skin of the thenar eminence. The palmar cutaneous branch may cross the transverse ligament of the carpus or may go to the ulnar side of the median nerve.⁶6. Mitchell R, Chesney A, Seal S, McKnight L, Thoma A. Anatomical variations of the carpal tunnel structures. Can J Plast Surg. 2009;17(1):e3-7.

Intratunnel positioning of the ulnar nerve

It is extremely rare to find the ulnar nerve inside the tunnel. This abnormality presents the combined symptoms of the median and ulnar nerves.⁶6. Mitchell R, Chesney A, Seal S, McKnight L, Thoma A. Anatomical variations of the carpal tunnel structures. Can J Plast Surg. 2009;17(1):e3-7.

Areas of the hand innervated by the median nerve

The area sensitized by the median nerve comprises the palmar face of the three radial fingers and the radial half of the ring finger; and on the dorsal face, the last two phalanxes of the first three fingers and the radial half of the fourth finger. The more proximal the palmar cutaneous branch is, above the anterior ligament, the better this explains the lack of participation in the symptoms of the thenar zone. In relation to the motor plane, the median nerve classically innervates the opposition muscles (short abductor of the thumb, opponens pollicis muscle and superficial bundle of the short flexor of the thumb) and the first two lumbrical muscles.

There are anastomoses with the sensory ulnar nerve on the palmar face (Berretini) and on the dorsal or motor face (Martin and Grüber in the forearm and Riche and Cannieu in the hand).

Berretini's palmar sensory anastomosis

This anastomosis, which is found in 67–92% of the cases, is situated below the superficial palmar arch and is responsible for the variations in the sensitized area at the level of the ulnar edge of the third and fourth fingers and the radial edge of the fifth finger, between the median and ulnar nerves.¹⁰10. Meals RA, Shaner M. Variations in digital sensory patterns: a study of the ulnar nerve-median nerve palmar communicating branch. J Hand Surg Am. 1983;8(4):411-4.,¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003. In certain cases, this anastomosis is immediately distal to the flexor retinaculum.¹²12. Don Griot JP, Zuidam JM, van Kooten EO, Prose LP, Hage JJ. Anatomic study of the ramus communicans between the ulnar and median nerves. J Hand Surg Am. 2000;25(5):948-54.

Riche and Cannieu's motor anastomosis

This anastomosis, which is observed very frequently (77% to 100%),¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003. is responsible for the distribution of the innervation of the thenar muscles between the median and ulnar nerves and takes on a variety of forms:

• The most classical form is a communicating branch between the thenar branch of the median nerve and the deep branch of the ulnar nerve.

• Anastomosis at the level of the adductor muscle of the thumb.

• Anastomosis between the thenar branch and the deep branch of the ulnar nerve at the level of the first lumbrical muscle.

• Anastomosis between a collateral nerve of the thumb and the deep branch of the ulnar nerve.

• It should be noted that the innervation of the lumbrical muscles is superimposed on that of the deep flexors of the fingers.

Martin-Griiber and Marinacci's median ulnar anastomosis in the forearm

Anastomoses of the median nerve to the ulnar nerve in the forearm were described by Martin and Griiber. Their incidence ranges from 5 to 40%.¹³13. Rodriguez-Niedenfuhr M, Vazquez T, Parkin I, Logan B, Sanudo JR. Martin-Gruber anastomosis revisited. Clin Anat. 2002;15(2):129-34. The anastomosis comes from the median nerve or anterior interosseous nerve, or is situated between the branches that innervate the deep flexors of the fingers.¹⁴14. Shu H, Chantelot C, Oberlin C, Alnot JY, Shao H. Etude anatomique et revue de la litterature a propos de l'anastomose de Martin Gruber. Morphologie. 1999;83(260):71-4. This anastomosis coexists most frequently with an anastomosis in the hand¹³13. Rodriguez-Niedenfuhr M, Vazquez T, Parkin I, Logan B, Sanudo JR. Martin-Gruber anastomosis revisited. Clin Anat. 2002;15(2):129-34. and contains fibers that innervate the deep flexors of the fingers and the intrinsic muscles.¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003.There is controversy regarding the participation of sensory fibers. Inverse anastomoses from the ulnar nerve to the median nerve are very rare and are situated in the distal part of the forearm.

Leibouic and Hastings' anastomoses

Type I (60%): anastomosis of the median nerve with the ulnar nerve that continues into the hand due to innervation of the muscles that are normally innervated solely by the median nerve (Ia) or with some muscles innervated by the ulnar nerve (lb).¹⁵15. Leibovic SJ, Hastings H 2nd. Martin-Gruber revisited. J Hand Surg Am. 1992;17(1):47-53.

Type II (35%): anastomosis of the median nerve with the ulnar nerve that continues into the hand to innervate the muscles that are normally innervated by the ulnar nerve.¹⁵15. Leibovic SJ, Hastings H 2nd. Martin-Gruber revisited. J Hand Surg Am. 1992;17(1):47-53.

Type III (3%): anastomosis of the ulnar nerve with the median nerve that continues into the hand due to innervation of the muscles that are normally innervated by the median nerve.¹⁵15. Leibovic SJ, Hastings H 2nd. Martin-Gruber revisited. J Hand Surg Am. 1992;17(1):47-53.

Type IV (1%): anastomosis of the ulnar nerve with the median nerve that continues into the hand due to innervation of the muscles that are normally innervated by the ulnar nerve.¹⁵15. Leibovic SJ, Hastings H 2nd. Martin-Gruber revisited. J Hand Surg Am. 1992;17(1):47-53.

Vascular variations

Persistence of the artery of the median nerve

This leftover from the embryonic stage is observed in 1–16% of the cases.¹⁶16. Lindley SG, Kleinert JM. Prevalence of anatomic variations encountered in elective carpal tunnel release. J Hand Surg Am. 2003;28(5):849-55. According to Kleinert et al.,¹⁷17. Kleinert JM, Fleming SG, Abel CS, Firrell J. Radial and ulnar artery dominance in normal digits. J Hand Surg Am. 1989;14(13):504-8. who found it in 3.4% of their cases, it participated significantly in the superficial palmar arch in 0.5% of the cases. A bifid median nerve may be found together with this. The complication produced is thrombosis, which gives rise to acute CTS.

The ulnar artery is in a superficial position, under the fascia and above the muscle.⁶6. Mitchell R, Chesney A, Seal S, McKnight L, Thoma A. Anatomical variations of the carpal tunnel structures. Can J Plast Surg. 2009;17(1):e3-7.

Muscle and tendon variations

Long palmar muscle

There is a variation of the long palmar muscle with an intratunnel tendon, called the deep long palmar muscle, which is inserted in the deep face of the palmar aponeuro-sis and may give rise to constriction of the median nerve. The long palmar muscle may also be in an inverse position, with intratunnel muscle bodies, and this is called an inverse long palmar muscle.¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003.,¹⁸18. Rapp E. Anomalies musculaires et syndromes canalaires du membre supérieur. Chir Main. 2004;23:S188-98.

Superficial flexor of the fingers

Extension of the muscle body in the carpal tunnel is the most frequent variation: 46% in women and 7.8% in men.¹⁹19. Holtzhausen LM, Constant D, de Jager W. The prevalence of flexor digitorum superficialis and profundus muscle bellies beyond the proximal limit of the carpal tunnel: a cadaveric study. J Hand Surg Am. 1998;23(1):32-7. An accessory muscle body or an anastomosis with the long palmar muscle has been described in association with CTS.¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003.,¹⁶16. Lindley SG, Kleinert JM. Prevalence of anatomic variations encountered in elective carpal tunnel release. J Hand Surg Am. 2003;28(5):849-55.,¹⁸18. Rapp E. Anomalies musculaires et syndromes canalaires du membre supérieur. Chir Main. 2004;23:S188-98.

Lumbrical muscles

Extension of the intratunnel insertion or abnormal insertion over the superficial flexor of the index finger may be observed, but it remains unproven whether these occurrences might be responsible for compression of the median nerve.⁶6. Mitchell R, Chesney A, Seal S, McKnight L, Thoma A. Anatomical variations of the carpal tunnel structures. Can J Plast Surg. 2009;17(1):e3-7.,¹⁸18. Rapp E. Anomalies musculaires et syndromes canalaires du membre supérieur. Chir Main. 2004;23:S188-98.

Physiopathology and etiology

Ultrastructural nerve anomalies and clinical correlations

From a physiopathological point of view, compressive syndromes combine the phenomena of compression and tension. Anatomically, there are two sites of median nerve compression: one at the level of the proximal limit of the carpal tunnel, caused by wrist flexion because of changes in thickness and stiffness of the forearm fascia and in the proximal portion of the flexor retinaculum; and the second at the level of the narrowest portion, close to the hamate hook.¹¹11. Doyle JR, Botte MJ. Surgical anatomy of the hand and upper extremity. Philadelphia: Lippincott, Williams & Wilkins; 2003.

Nerve compression and traction may sequentially create problems relating to intraneural blood microcirculation, lesions at the level of the myelin sheath and at axonal level, and changes to the supporting connective tissue. Lundborg²⁰20. Lundborg G Nerve injury and repair. London: Churchill Livingstone; 1988. proposed the following clinical-anatomical classification:

Early stage

Initial, characterized by intermittent symptoms that only occur at night. In idiopathic CTS, many factors can originate increased nocturnal intratunnel pressure:

• Redistribution of fluids to the upper limbs, when in a supine position;

• Lack of a muscle pump mechanism that might contribute toward drainage of interstitial fluids in the carpal tunnel;

• Tendency to keep the wrist in a flexed position, thereby increasing the intratunnel pressure;

• Increased arterial pressure during the second half of the night.

If the pressure exceeds 40–50 mmHg, this will interfere with the venous return of the intraneural microcircula-tion and cause diminished intraneural oxygen supply and venous stasis, with permeability problems originating from the endoneurial edema. An increase in pressure of 30 mmHg for 2 h leads to progressive weakening of the slow and fast axonal transportation. This is corrected when the patient repositions his wrist and makes finger movements, thereby enabling drainage of the edema. After the compression has been relieved, there is a rapid improvement in the symptoms.

Intermediary stage - The symptoms are both nocturnal and diurnal. Abnormalities of the microcirculation are constantly present, with epineural and intrafascicular interstitial edema, which causes increased endoneurial fluid pressure. This interstitial edema causes absence of cell flow and thickening of the connective envelope, notably in relation to the epineurium. Destruction of the myelin sheath and nodes of Ranvier also occurs, based on saltatory conduction of inflows to the surface of the myelinated nerve fibers. After the compression has been relieved, rapid improvement of the symptoms occurs through reestablishment of the intraneural microcirculation. Unlike the restoration, repair of the myelin sheath requires weeks to months and causes intermittent symptoms and persistent electrophysiological abnormalities.

Advanced stage - Symptoms are constantly present, especially signs of sensory or motor deficit, translated as disruption of a greater or lesser number of axons (axonotmesis). Walle-rian degeneration exists at the level of the disrupted axons. The connective envelopes form the site for reactive fibrous thickening. After release of the nerve, the recovery depends on nerve regeneration, which takes several months and may be incomplete. The significance of the recovery will depend on the patient's potential for axonal regeneration, particularly with regard to age, the existence of polyneuropathy and the severity of the compression.

In reality, even with compression of all the nerve fibers within the same nerve, they will not be at the same stage of injury. It has been demonstrated that the peripheral nerve fibers in the region of the nerve trunk are affected before the more central fibers and, likewise, the myelinated fibers in relation to the smaller fibers and the sensory fibers in relation to the motor fibers.

In chronic CTS cases, worsening may occur over a period of months or years.

Associated pathological conditions

Polyneuropathy

All forms of polyneuropathy, including those relating to diabetes mellitus, promote CTS with structural and functional alterations of the median nerve, which makes the nerve more sensitive to all compressive phenomena.²¹21. Chammas M, Bousquet P, Renard E, Poirier JL, Jaffiol C, Allieu Y. Dupuytren's disease, carpal tunnel syndrome, trigger finger, and diabetes mellitus. J Hand Surg Am. 1995;20(1):109-14.

Hereditary neuropathy with hypersensitivity to pressure is a hereditary sensory-motor form of neuropathy that is focal and recurrent. The first symptoms only rarely appear before the age of 20 years. It is characterized by occurrences of crises with paralysis and paresthesia in well-defined areas of the nerve trunk. These crises, which are generally secondary to mild trauma or prolonged compression, often regress. Recurrence is frequent. Paralysis may become definitively established. At the electrophysiological level, this condition is characterized by myelinopathy with stretching of the distal motor latency. Biopsies of the nerve show zones of focal thickening of myelin in the form of sausages (tomacula). Hereditary neuropathy with hypersensitivity to pressure is inherited as a dominant autosomal genetic lesion in 80% of the cases, through a deletion of chromosome 17. The treatment is symptomatic.

Nerve compression syndrome: "double constriction syndrome"

The concept of double compression of the nerve is attributed to Upton and MacComas²²22. Upton AR, McComas AJ. The double crush in nerve entrapment syndromes. Lancet. 1973;2(7825):359-62. and is based on the fact that proximal compression on the path of a nerve makes it more susceptible than if the compression was located more dis-tally, because of cumulative effects on anterograde axonal transportation. Likewise, this can occur in cases of distal compression, due to alterations of the retrograde axonal transportation ("inverted double constriction syndrome"). This may occur in practice in cases of association between proximal compression of the nerve route at the vertebral level (or thoracic outlet syndrome) and distal CTS. Careful clinical examination, aided by an electrophysiological study, will determine where the compression site is (proximal or distal), i.e. the main agent responsible for the symptoms, thus guiding the treatment. Treatment applied to the main compression site is generally sufficient for such patients. Compression of the nerve layer should be borne in mind if the results are incomplete or there is therapeutic failure in the medical or surgical treatment.

Etiologies

In the great majority of cases, CTS is called idiopathic. Secondary CTS maybe related to abnormalities of the container or content. Furthermore, dynamic CTS is frequently found under pathological conditions relating to manual work.

Idiopathic carpal tunnel syndrome

Idiopathic CTS occurs more frequently in females (65–80%) and between the ages of 40 and 60 years; 50–60% of the cases are bilateral.²³23. Michelsen H, Posner MA. Medical history of carpal tunnel syndrome. Hand Clin. 2002;18(2):257-68. The bilateral characteristic increases in frequency with the duration of symptoms.²⁴24. Bagatur AE, Zorer G The carpal tunnel syndrome is a bilateral disorder. J Bone Joint Surg Br. 2001;83(5):655-8. Idiopathic CTS is correlated with hypertrophy of the synovial membrane of the flexor tendons caused by degeneration of the connective tissue, with vascular sclerosis, edema and collagen fragmentation.²⁵25. Schuind F, Ventura M, Pasteels JL. Idiopathic carpal tunnel syndrome: histologic study of flexor tendon synovium. J Hand Surg Am. 1990;15(3):497-503. From meta-analyses conducted in 2002²⁶26. Falkiner S, Myers S. When exactly can carpal tunnel syndrome be considered work-related? ANZ J Surg. 2002;72(3):204-9. and 2008,²⁷27. Lozano-Calderon S, Anthony S, Ring D. The quality and strength of evidence for etiology: example of carpal tunnel syndrome. J Hand Surg Am. 2008;33(4):525-38. it was demonstrated that sex, age and genetic and anthropometric factors (size of the carpal tunnel) were the most important predisposing factors. Repetitive manual activities and exposure to vibrations and cold temperatures were the least important. Other factors involved were obesity and smoking.

Secondary carpal tunnel syndrome

Abnormalities of the container

Any condition that modifies the walls of the carpal tunnel may cause compression of the median nerve.

• Abnormalities of the shape or position of the carpal bones: dislocation or subluxation of the carpus;²⁸28. Monsivais JJ, Scully S. Rotary subluxation of the scaphoid resulting in persistent carpal tunnel syndrome. J Hand Surg Am. 1992;17(4):642-4.,²⁹29. Knoll VD, Allan C, Trumble TE. Trans-scaphoid perilunate fracture dislocations: results of screw fixation of the scaphoid and lunotriquetral repair with a dorsal approach. J Hand Surg Am. 2005;30(6):1145-52.

• Abnormalities of the shape of the distal extremity of the radius: fractures (translation of more than 35%)³⁰30. Dyer G, Lozano-Calderon S, Gannon C, Baratz M, Ring D. Predictors of acute carpal tunnel syndrome associated with fracture of the distal radius. J Hand Surg Am. 2008;33(8):1309-13. or skewed consolidation of the distal radius; osteosynthesis material on the anterior face of the radius;³¹31. Henry M, Stutz C. A prospective plan to minimise median nerve related complications associated with operatively treated distal radius fractures. Hand Surg. 2007;12(3):199-204.

• Joint abnormalities: wrist arthrosis,³²32. Fassler PR, Stern PJ, Kiefhaber TR. Asymptomatic SLAC wrist: does it exist? J Hand Surg Am. 1993;18(4):682-6. inflammatory arthritis³³33. Chammas M. Le poignet rhumatoide. Chir Main. 2005;24(6):275-98. (due to synovial hypertrophy, bone deformation and/or carpal shortening), infectious arthritis,³⁴34. Hassanpour SE, Gousheh J. Mycobacterium tuberculosis-induced carpal tunnel syndrome: management and follow-up evaluation. J Hand Surg Am. 2006;31(4): 575-9.,³⁵35. Brutus JP, Baeten Y, Chahidi N, Kinnen L, Ledoux P, Moermans JR Atypical mycobacterial infections of the hand: report of eight cases and literature review. Chir Main. 2001;20(4):280-6.rhizarthrosis³⁶36. Florack TM, Miller RJ, Pellegrini VD, Burton RI, Dunn MG. The prevalence of carpal tunnel syndrome in patients with basal joint arthritis of the thumb. J Hand Surg Am. 1992;17(4):624-30. or villonodular synovitis;³⁷37. Chidgey LK, Szabo RM, Wiese DA. Acute carpal tunnel syndrome caused by pigmented villonodular synovitis of the wrist. Clin Orthop Relat Res. 1988;(228):254-7.

• Acromegaly.³⁸38. Jenkins PJ, Sohaib SA, Akker S, Phillips RR, Spillane K, Wass JA, et al. The pathology of median neuropathy in acromegaly. Ann Intern Med. 2000;133(3):197-201.

Abnormalities of content

• Tenosynovial hypertrophy;

• Inflammatory tenosynovitis: inflammatory rheumatism,³³33. Chammas M. Le poignet rhumatoide. Chir Main. 2005;24(6):275-98. lupus and infection;

• Metabolic tenosynovitis: diabetes mellitus²¹21. Chammas M, Bousquet P, Renard E, Poirier JL, Jaffiol C, Allieu Y. Dupuytren's disease, carpal tunnel syndrome, trigger finger, and diabetes mellitus. J Hand Surg Am. 1995;20(1):109-14. (abnormality of collagen turnover), primary or secondary amyloid-osis (chronic hemodialysis with deposition of beta-2-microglobulin),³⁹39. Allieu Y, Chammas M, Idoux O, Hixson M, Mion C. Carpal tunnel syndrome and amyloid tenosynovitis in patients undergoing chronic hemodialysis. Evaluation and treatment apropos of 130 cases. Ann Chir Main Memb Super. 1994;13(2):113-21.gout⁴⁰40. Schuind FA, Clermont D, Stallenberg B, Remmelink M, Pasteels JL. Gouty involvement of flexor tendons. Chir Main. 2003;22(1):46-50. and chondrocalcinosis;⁴¹41. Gerster JC, Lagier R, Boivin G, Schneider C. Carpal tunnel syndrome in chondrocalcinosis of the wrist. Clinical and histologic study. Arthritis Rheum. 1980;23(8):926-31.

• Abnormalities of fluid distribution: pregnancy,⁴²42. Stolp-Smith KA, Pascoe MK, Ogburn PL Jr. Carpal tunnel syndrome in pregnancy: frequency, severity, and prognosis. Arch Phys Med Rehabil. 1998;79(10):1285-7.,⁴³43. M'Bappe P. Complications neurologiques de la grossesse (sciatique exclue). Rev Rhum Ed Fr. 2005;72:719-24. in 0.34% to 25% of the cases, especially in the third trimester, with frequent signs of deficit in 37–85% of the cases; hypothyroidism;⁴⁴44. Bradley WG, Walton JN. Neurologic manifestations of thyroid disease. Postgrad Med. 1971;50(3):118-21. and chronic kidney failure (arteriove-nous fistula).³⁹39. Allieu Y, Chammas M, Idoux O, Hixson M, Mion C. Carpal tunnel syndrome and amyloid tenosynovitis in patients undergoing chronic hemodialysis. Evaluation and treatment apropos of 130 cases. Ann Chir Main Memb Super. 1994;13(2):113-21.

• Abnormal or supernumerary muscle: deep palmar muscle,⁴⁵45. Floyd T, Burger RS, Sciaroni CA. Bilateral palmaris profundus causing bilateral carpal tunnel syndrome. J Hand Surg Am. 1990;15(2):364-6. intratunnel position of the muscle body of the superficial flexor⁴⁶46. Schon R, Kraus E, Boiler O, Kampe A. Anomalous muscle belly of the flexor digitorum superficialis associated with carpal tunnel syndrome: case report. Neurosurgery. 1992;31(5):969-70. or proximal extension of the muscle body of the lumbrical muscles;⁴⁷47. Pierre-Jerome C, Bekkelund SI, Husby G, Mellgren SI, Osteaux M, Nordstrom R. MRI of anatomical variants of the wrist in women. Surg Radiol Anat. 1996;18(1):37-41.

• Persistent arterial hypertrophy of the median nerve;⁴⁸48. Lisanti M, Rosati M, Pardi A. Persistent median artery in carpal tunnel syndrome. Acta Orthop Belg. 1995;61(4):315-8.

• Intratunnel tumor: lipoma, synovial cyst, synovial sarcoma or neural tumor (schwannoma, neurofibroma or lipofi-broma);

• Hematoma: hemophilia,⁴⁹49. Moneim MS, Gribble TJ. Carpal tunnel syndrome in hemophilia. J Hand Surg Am. 1984;9(4):580-3.anticoagulant accident⁵⁰50. Bindiger A, Zelnik J, Kuschner S, Gellman H. Spontaneous acute carpal tunnel syndrome in an anticoagulated patient. Bull Hosp Jt Dis. 1995;54(1):52-3. or trauma;⁵¹51. Paley D, McMurtry RY Median nerve compression by volarly displaced fragments of the distal radius. Clin Orthop Relat Res. 1987;(215):139-47.

• Obesity⁵²52. Bland JD. The relationship of obesity, age, and carpal tunnel syndrome: more complex than was thought?. Muscle Nerve. 2005;32(4):527-32.

Dynamic carpal tunnel syndrome

The pressure inside the carpal tunnel increases during wrist extension and flexion.⁵³53. Gelberman RH, Hergenroeder PT, Hargens AR, Lundborg GN, Akeson WH. The carpal tunnel syndrome. A study of carpal canal pressures. J Bone Joint Surg Am. 1981;63(3):380-3. Repetitive extension and flexion movements of the wrist, along with flexion of the fingers and supination of the forearm, have been implicated in this increase.⁵⁴54. Mackinnon SE. Pathophysiology of nerve compression. Hand Clin. 2002;18(2):231-41. Incursions of muscle bodies from the superficial and deep flexors of the fingers, when the wrist and fingers are extended, have been found in 50% of the cases.⁵⁵55. Keir PJ, Bach JM. Flexor muscle incursion into the carpal tunnel: a mechanism for increased carpal tunnel pressure?. Clin Biomech (Bristol, Avon). 2000;15(5):301-5. This particular movement can be seen in occupational pathological conditions.⁵⁶56. Kerwin G, Williams CS, Seiler JG 3rd. The pathophysiology of carpal tunnel syndrome. Hand Clin. 1996;12(2):243-51.

CTS and urorking on computers

No increase in the prevalence of CTS in cases of working on computers for more than 15 h per week has been observed. A tendency toward increased prevalence has been demonstrated in cases of working on computers for more than 20 h per week.⁵⁷57. Andersen JH, Fallentin N, Thomsen JF, Mikkelsen S. Risk factors for neck and upper extremity disorders among computers users and the effect of interventions: an overview of systematic reviews. PLoS ONE. 2011;6(5):el9691.

Exposure to vibration

Exposure to vibration is one of the lesser predisposing factors.²⁷27. Lozano-Calderon S, Anthony S, Ring D. The quality and strength of evidence for etiology: example of carpal tunnel syndrome. J Hand Surg Am. 2008;33(4):525-38.,⁵⁴54. Mackinnon SE. Pathophysiology of nerve compression. Hand Clin. 2002;18(2):231-41. The ultrastructural consequences comprise microcirculatory compression problems and intraneural edema following injury of the myelin and axons.

Acute carpal tunnel syndrome

Etiologies:

• Trauma: displacement due to fracturing of the distal radius or dislocation of the wrist;

• Infection;

• Hemorrhage due to overdose of anticoagulant or in cases of hemophilia;

• High-pressure injection;

• Acute thrombosis of the artery of the median nerve;

• Burns.

Diagnosis

The clinical approach toward patients with acroparesthesia of the hand consists of five stages:

• Discuss the diagnosis from the consultation office, challenge tests, analyses on possible associated pathological conditions and differential diagnosis;

• Determine the etiology;

• Evaluate the severity of compression through discriminative sensitivity analysis on the Weber test and analysis on the strength of the thenar muscles innervated by the median nerve;

• Judge whether it is appropriate to perform complementary examinations, starting with electroneuromyography (ENMG);

• Propose treatment adapted to the severity of the condition, etiology, location and activity context.

It should be noted first of all that there is no gold standard for a positive diagnosis of CTS.

Challenge tests

The median nerve is accessible in front of the wrist flexion crease and behind the long palmar tendon or in the middle of the wrist.

• Tinel sign: the test is positive if the patient perceives pares-thesia during manual percussion on the palmar face of the wrist at the level of the median nerve. The sensitivity is between 26 and 79% and the specificity is between 40 and 100%;⁵⁸58. Palumbo CF, Szabo RM. Examination of patients for carpal tunnel syndrome sensibility, provocative, and motor testing. Hand Clin. 2002;18(2):269-77.

• Phalen sign: the test is positive if, during maximum active flexion of the wrist for lmin (elbow extended), paresthesia appears in the area of the median nerve. The time taken for the symptoms to appear (in seconds) is noted. The sensitivity is between 67 and 83% and the specificity is between 47 and 100%.⁵⁸58. Palumbo CF, Szabo RM. Examination of patients for carpal tunnel syndrome sensibility, provocative, and motor testing. Hand Clin. 2002;18(2):269-77.,⁵⁹59. Buch-Jaeger N, Foucher G Correlation of clinical signs with nerve conduction tests in the diagnosis of carpal tunnel syndrome. J Hand Surg Br. 1994;19(6):720-4.

• Paley and McMurphy test:⁶⁰60. Paley D, McMurthry RY. Median nerve compression test in carpal tunnel syndrome diagnosis reproduces signs and symptoms in affected wrist. Orthop Rev. 1985;14(1):41-5. the sign is positive if manual pressure close to the median nerve (between 1 and 2 cm proximally to the wrist flexion crease) triggers pain or paresthesia. The sensitivity is 89% and the specificity is 45%.⁵⁸58. Palumbo CF, Szabo RM. Examination of patients for carpal tunnel syndrome sensibility, provocative, and motor testing. Hand Clin. 2002;18(2):269-77.

• Compression test with wrist flexed:⁶¹61. Tetro AM, Evanoff BA, Hollstien SB, Gelberman RH. A new provocative test for carpal tunnel syndrome. Assessment of wrist flexion and nerve compression. J Bone Joint Surg Br. 1998;80(3):493-8. pressure is applied using two fingers on the median region of the carpal tunnel, with the wrist flexed at 60°, elbow extended and forearm supinated. The test is positive if paresthesia appears in the area of the median nerve. Tetro et al.⁶¹61. Tetro AM, Evanoff BA, Hollstien SB, Gelberman RH. A new provocative test for carpal tunnel syndrome. Assessment of wrist flexion and nerve compression. J Bone Joint Surg Br. 1998;80(3):493-8. found sensitivity of 82% and specificity of 99%.

According to Szabo, the existence of nocturnal acropares-thesia is the most sensitive symptom (96%). The test with the highest sensitivity is direct compression (Paley and McMurphy) (89%), followed by the Phalen test, the monofilament test of Semmes-Weinstein (83%) and, lastly, the score of Katz et al.⁶²62. Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol. 1990;17(ll):1495-8. (76%). The typical form taken by nocturnal acroparesthesia comprises tingling, numbness, swelling or hypoesthesia, with or without pain reaching at least two of the first three fingers, palm and back of the hand excluded.

The most specific tests are the score of Katz et al.⁶²62. Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol. 1990;17(ll):1495-8. (76%) and the Tinel sign (71%). A combination of four abnormal tests (compression test, monofilament test, score of Katz et al.⁶²62. Katz JN, Stirrat CR, Larson MG, Fossel AH, Eaton HM, Liang MH. A self-administered hand symptom diagram for the diagnosis and epidemiologic study of carpal tunnel syndrome. J Rheumatol. 1990;17(ll):1495-8. and nocturnal symptoms) gives rise to a probability of a CTS diagnosis of 0.86. If these four tests are normal, the probability that the patient might have CTS is 0.0068. It was concluded that ENMG is no more frequently used in diagnosing CTS in either moderate or severe form.

Appreciating the severity: Lundborg's anatomodinical classification

From the analysis on the times when symptoms appear and investigation of signs of neurological deficit, symptoms can be classified into early, intermediate and advanced states. Paresthesia can occur at night, in the morning or throughout the day. For sensitivity, the Weber test, which analyzes how the pulp of the fingers discriminates between two points, is very practical. Starting from a distance of 6 mm, the sensitivity is considered to be abnormal. At the motor level, this study included the thumb opposition strength and investigated thenar amyotrophy.

Electroneuromyography (ENMG) examination

ENMG consists of a stimulation stage and a detection stage. It is bilateral. The stimulation-detection stage makes it possible to study the sensory and motor nerve conduction of the median nerve and highlight the elective weakening in passing through the carpal tunnel. It also enables analysis on the amplitude and duration of the sensory and motor responses. This exploration is completed by measurements of the nerve conduction of the homolateral ulnar nerve and by studies on the contralateral side.

The earliest and most sensitive electrical abnormality is a decrease in the sensory conduction velocity (possibly identified through the centimeter measurement method) between the palm of the hand and the fingers and wrist. A median transtunnel velocity <45m/s in pathological cases can be accepted, versus normal values >50m/s.⁶³63. Bouche P. Encyclopédie médico-chirurgicale. Paris: Elsevier Masson SAS; 2008.,⁶⁴64. Corlobé P. L'electromyogramme des syndromes canalaires. Chir Main. 2004;23:S4-14.

This examination is operator-dependent. The skin temperature and age have an influence on the results. ENMG may be positive in 0–46% of asymptomatic subjects and negative in 16–24% of patients with a clinical diagnosis of CTS.⁶⁵65. Jablecki CK, Andary MT, So YT, Wilkins DE, Williams FH. Literature review of the usefulness of nerve conduction studies and electromyography for the evaluation of patients with carpal tunnel syndrome. AAEM Quality Assurance Committee Muscle Nerve. 1993;16(12):1392-14.–⁶⁸68. Redmond MD, Rivner MH. False positive electrodiagnostic tests in carpal tunnel syndrome. Muscle Nerve. 1988;11(5):511-8. Serror⁶⁹69. Seror P. Sonography and electrodiagnosis in carpal tunnel syndrome diagnosis, an analysis of the literature. Eur J Radiol. 2008;67(1):146-52. evaluated ENMG in cases in which the motor distal latency alone was studied and found sensitivity of 54% but specificity of 97.5%. ENMG does not provide supplementary evidence in diagnosing CTS in relation to the clinical evaluation, when the clinical diagnosis seems evident.⁷⁰70. Graham B. The value added by electrodiagnostic testing in the diagnosis of carpal tunnel syndrome. J Bone Joint Surg Am. 2008;90(12):2587-93. Anatomical variations of the Martin-Gruber and Riche-Cannieu types may disturb the interpretation of the ENMG analysis of stimulation-detection.

The working group of the French National Agency for Healthcare Accreditation and Evaluation (ANAES)⁷¹71. Anaes. Stratégie des examens paracliniques et des indications thérapeutiques dans le syndrome du canal carpien; 1998. concluded the following:

• ENMG is situated after clinical examination;

• ENMG is not indispensable for diagnosing typical forms;

• ENMG is unnecessary before corticoid infiltration;

• ENMG is recommended in cases of doubt. It aids in making differential diagnoses;

• ENMG is recommended before making surgical decisions;

• ENMG is requested in recognizing occupational diseases.

Images

Wrist radiographs and incidence of CTS

IN a study on 300 patients (477 cases),⁷²72. Bindra RR, Evanoff BA, Chough LY, Cole RJ, Chow JC, Gelberman RH. The use of routine wrist radiography in the evaluation of patients with carpal tunnel syndrome. J Hand Surg Am. 1997;22(1):115-9. radiographic abnormalities were found in 33% of the cases, and 18.6% of the patients had lesions that could be involved in the appearance of CTS. None of these etiologies modified CTS treatment. In two cases out of the 477, the abnormalities required specific treatment. It was concluded that systematic radiographic examinations made insufficient contribution to be justified.

Radiographs of the wrist (face, lateral and carpal tunnel views) are useful in the following situations:⁷³73. Hart VL, Gaynor V. Roentgenographic study of the carpal tunnel. J Bone Joint Surg Am. 1941;23:382-3.

• To explain the clinical examination;

• To explain the anamnesis.

Echography

Echography is operator and material-dependent. In the initial forms, the median nerve may conserve normal morphology. However, a median nerve of normal appearance does not rule out CTS. Echography may help in making an etiological diagnosis for morphological analysis of the content. The area of the median nerve is determined better on ultrasound at the level of the distal radius or the pisiform bone, which is considered to be the site of the proximal carpal tunnel and the expected location for maximum edema of the nerve. If an elliptical shape is assumed, the area of the nerve in the proximal carpal tunnel should not be greater than 10 mm.⁷⁴74. Turrini E, Rosenfeld A, Juliano Y, Fernándes AR, Natouri J. Diagnóstico por imagem do punho na sindrome do túnel do carpo. Rev Bras Reumatol. 2005;45(1):81-3.

Magnetic resonance imaging (MRI)

MRI is rarely indicated, but may be useful for etiological diagnoses in the following situations:

• For examining secondary synovial pathological conditions;

• As part of diagnosing CTS in children or young adults, with the aim of detecting intratunnel muscle abnormalities, particularly in cases of CTS occurring through exertion or intratunnel tumors.

Final remarks

Detailed anatomical knowledge is fundamentally important for medical practice, given that anatomical variations, when unknown, may give rise to severe complications in surgical procedures. Clinical comprehension of a disease is only attained when its physiopathology and etiology are known; from this knowledge, possible treatments can be analyzed. Thus, although CTS is mostly idiopathic, other causes need to be determined in order to progress with adequate prevention and treatment. Another difficulty in clarifying this syndrome is the absence of any gold standard for confirmation. Hence, the diagnosis is primarily clinical and most of the tests that can be applied for evaluating its severity vary in sensitivity and specificity. Nonetheless, such tests are of great value for ruling out other possible pathological conditions.

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