L4-L5-S1 human dermatomes: a clinical, electromyographical, imaging and surgical findings

Faleiros, Antonio Tadeu de Souza; Resende, Luiz Antonio de Lima; Zanini, Marco Antonio; Castro, Heloisa Amélia de Lima; Gabarra, Roberto Colichio

doi:10.1590/S0004-282X2009000200017

Abstracts

There is substantial controversy in literature about human dermatomes. We studied L4, L5, and S1 inferior limb dermatomes by comparing clinical signs and symptoms with conduction studies, electromyographical data, neurosurgical findings, and imaging data from computerized tomography (CT) or magnetic resonance imaging (MRI). After analyzing 60 patients, we concluded that L4 is probably located in the medial aspect of the leg, L5 in the lateral aspect of the leg and foot dorsus, and S1 in the posterior aspect of the backside, tight, leg and plantar foot skin. This is the first time that these human dermatomes have been evaluated by combined analysis of clinical, electromyographical, neurosurgical, and imaging data.

eletromyography; human dermatome; imaging; inferior member

Há controvérsia na literatura sobre os dermátomos humanos. Estudamos dermátomos do membro inferior comparando sinais e sintomas com estudos eletromiográficos, de imagem e achados cirúrgicos. Analisando 60 pacientes, concluímos que o dermátomo L4 provavelmente está localizado na região medial da perna, o dermátomo L5 na região lateral da perna e dorso do pé, e o dermátomo S1 na nádega, região posterior da coxa e da perna e na região plantar. Este é o primeiro estudo que os dermátomos do membro inferior foram analisados através de dados clínicos, eletromiográficos, imagem e achados cirúrgicos.

dermátomo humano; eletromiografia; imagem; membro inferior

L4-L5-S1 human dermatomes: a clinical, electromyographical, imaging and surgical findings

Dermátomos humanos L4, L5 e S1: achados clínicos, eletromiográficos, de imagem e cirúrgicos

Antonio Tadeu de Souza Faleiros^I; Luiz Antonio de Lima Resende^I; Marco Antonio Zanini^I; Heloisa Amélia de Lima Castro^II; Roberto Colichio Gabarra^I

^IDepartment of Neurology, Psycology and Psychiatry, Botucatu Medical School, São Paulo State University (UNESP), Botucatu SP, Brazil

^IIDepartment of Morphology, Piracicaba Dental School, UNICAMP, Campinas SP, Brazil

ABSTRACT

There is substantial controversy in literature about human dermatomes. We studied L4, L5, and S1 inferior limb dermatomes by comparing clinical signs and symptoms with conduction studies, electromyographical data, neurosurgical findings, and imaging data from computerized tomography (CT) or magnetic resonance imaging (MRI). After analyzing 60 patients, we concluded that L4 is probably located in the medial aspect of the leg, L5 in the lateral aspect of the leg and foot dorsus, and S1 in the posterior aspect of the backside, tight, leg and plantar foot skin. This is the first time that these human dermatomes have been evaluated by combined analysis of clinical, electromyographical, neurosurgical, and imaging data.

Key words: eletromyography, human dermatome, imaging, inferior member.

RESUMO

Há controvérsia na literatura sobre os dermátomos humanos. Estudamos dermátomos do membro inferior comparando sinais e sintomas com estudos eletromiográficos, de imagem e achados cirúrgicos. Analisando 60 pacientes, concluímos que o dermátomo L4 provavelmente está localizado na região medial da perna, o dermátomo L5 na região lateral da perna e dorso do pé, e o dermátomo S1 na nádega, região posterior da coxa e da perna e na região plantar. Este é o primeiro estudo que os dermátomos do membro inferior foram analisados através de dados clínicos, eletromiográficos, imagem e achados cirúrgicos.

Palavras-chave: dermátomo humano, eletromiografia, imagem, membro inferior.

The most commonly affected territory of human inferior limb dermatomes in neurology are L4, L5, and S1, but controversy exists as to their exact location in the legs. Classical anatomy and neurology text-books contain discrepancies presenting these human dermatomes in different skin territories. The L4 map is presented differently by Bickerstaff¹, Barraquer², and Duus³; the L5 dermatome in Testut and Latarjet's⁴ classical text-book is different to text-books by Carpenter⁵ and DeJong⁶, and the S1 dermatome is different in text books by Déjerine⁷, Bing⁸, Moore⁹, and Mummenthaler¹⁰. The cause of the discrepancies may be due to the different methods employed.

The objective of this study is to furnish probable L4, L5 and S1 human dermatome maps by comparing clinical, electromyographical, surgical findings, CT scan, and MRI data from 60 patients. As far as we known, this is the first time that these human dermatomes have been evaluated by the combined analysis of clinical, electromyographical, neurosurgical, and imaging data.

METHOD

This study included patients with a clinical diagnosis of lumbar radyculopathy, seen at our university hospital between 1992 and 2005. After approval from the Ethics Committee on Human Research, patients with clinical diagnosis of L4 and/or L5 and/or S1 lumbar radyculopathy were included in accordance with the following criteria:

I - Conduction studies and electromyographical diagnosis of lumbar radyculopathy on symptomatic leg were in accordance to electromyography text-books^11,12 and included: A) normal latencies, amplitudes, and conduction velocities of the saphenous internus, fibularis superficialis, and suralis nerve; normal latencies and velocities of the deep peroneal and tibialis posterior nerves, coexisting with neurogenic electromyographical findings in the vastus lateralis muscle for L4 diagnosis, tibialis anterior and extensor halux longus for L5 diagnosis, and soleus for S1 diagnosis. B) Neurogenic findings were: spontaneous activity, with positive sharp waves or fibrillations and/or muscle at rest fasciculation; increased duration and amplitude neurogenic motor unit potentials with mild effort; reduced recruitment and incomplete interference pattern at maximum muscle contraction. C) Decreased F wave persistence in deep peroneal and tibialis posterior nerve were additional criteria for L5 and S1 diagnosis (respectively).

II - Surgical findings: Several patients with unsuccessful clinical treatment required surgery for lumbar root decompression. These surgical anatomical data were analyzed.

III - Imaging diagnosis of L4 and/or L5 and/or S1 radyculopathy: All patients had imaging diagnosis of compressive radyculopathy by CT scan or MRI.

RESULTS

A total of 60 patients were analyzed in 2 groups: Group I, with associated radicular injuries (n=25) and Group II, with isolated radicular injuries (n=35). These 2 Groups were sub-divided into Ia, with L4, L5, and S1 impairment (n=12); Ib, with L5 and S1 injuries (n=13); IIa, with isolated L5 radyculopathy (n=26); and IIb, with isolated S1 radyculopathy (n=9). Table shows the sub-groups and number of patients with unsuccessful clinical treatment for whom surgical treatment was necessary.

Thumbnail

Figure 1A shows the clinical alteration territories for the 12 patients with associated L4, L5, and S1 injuries. Figure 1B shows the clinical alteration territory for the 13 patients with associated L5 and S1 injuries. From these 25 patients we can infer that the probable territory for the L4 dermatome coincides with the saphenous internus nerve territory, a distal branch of the femoral nerve (Figure 1C). Figure 2 shows the clinical alteration territory for the 26 patients with isolated L5 injury. Figure 3 shows coincident clinical alteration territories for the 9 patients with isolated S1 injury.

DISCUSSION

Associated injuries on L4-L5-S1 and L5-S1 territories are common in our university hospital; this is probably because it is located near an important highway linking the State Capital of São Paulo City to the interior of the State, with several patients suffering radyculopathies after lumbar trauma from automobile accidents. These days, demonstrating associated lumbar root injuries are simple using MRI imaging studies, but they were probably difficult in the past when this method was not available. Association of lumbar root injuries must have been difficult in the past and somewhat explains the dermatome differences between different classical semiology authors such as Dejérine⁷ and DeJong⁶, Barraquer², and Bickerstaff¹, in the same way that classical clinical dermatome studies on patients with Varicella zoster, which commonly affect more than one dermatome^13-15 .

Our initial objective was to analyze all, electromyographical, imaging, and surgical data. This was not possible because not all our patients needed surgery as clinical treatment was successful. This is a common problem in human clinical studies but it did not invalidate our findings, because we were able to obtain clinical, electromyographical, and imaging data from all patients, and surgical findings from the majority.

We concluded that the L4 dermatome is probably located in the medial aspect of the leg, coincident with the territory of the saphenous internous nerve, the distal branch of the femoral nerve. The L5 dermatome is probably located in the lateral aspect of the leg and foot dorsus, and S1 on the posterior aspect of the backside, leg and plantar foot skin. The maps presented here are similar to dermatomes presented by Dejerine⁷, Bickerstaff¹, Barraquer², Baker¹⁶, and Sunderland¹⁷, but are different to those of Testut⁴, Erhart¹⁸, Gardner¹⁹, Carpenter⁵, Moore⁹, and Bing⁸. Thus most similarities were found with authors who had employed clinical methods, and most differences were with anatomists.

Received 18 August 2008, received in final form 12 November 2008. Accepted 3 February 2009.

Dr. Marco Antonio Zanini - Departamento de Neurologia e Psiquiatria / Faculdade de Medicina de Botucatu / UNESP / Rubião Jr S/N - Caixa Postal: 540 - 18618-970 Botucatu SP - Brasil. E-mail: mzanini@fmb.unesp.br

1. Bickerstaff ER. Exame neurológico na prática médica. Rio de Janeiro: Livraria Atheneu, 1975:182-183.
2. Barraquer Bordas L. Neurología fundamental. 3^rd ed. Barcelona: Ed. Toray, 1976:40.
3. Duus, P. Diagnóstico topográfico em neurologia. 4^thed. Rio de Janeiro : Ed. Cultura Médica, 1989:24.
4. Testut L, Latarjet A. Tratado de anatomia humana. Barcelona :Salvat, 1902:225.
5. Carpenter, MB. Neuroanatomia humana. 7^thed. Rio de Janeiro: Ed. Interamericana, 1978:157-161.
6. DeJong RN. The neurological examination. 4^rd ed. Hagerstown: Harper & Row Publishers, 1979:60.
7 .Déjérine J. Sémiologie des affections du systéme nerveux. Paris: Masson, 1914.
8. Bing R. Tratado de las enfermedades nerviosas. 3^rd ed. Barcelona: Ed. Modesto Usón, 1955:274.
9. Moore KL. Anatomia orientada para a clínica. 3^rd ed. Rio de Janeiro: Ed. Guanabara Koogan, 1994:379.
10. Mummenthaler M. Neurologie clinique à l'usage des éstudiants en médecine. Paris: Doin Éditeurs, 1974:9.
11. Kimura J. Electrodiagnosis in diseases of nerve and muscle: principles and practice. Philadelphia: F. A. Davis, 1983.
12. Dumitru D. Electrodiagnostic medicine. Philadelphia: Hanley & Belfus-Mosby, 1995.
13. Head H, Campbell AW. The pathology of herpes zoster and its bearing on sensory localisation. Brain 1900;23:353.
14. Sachs GM. Segmental zoster paresis: an electrophysiological study. Muscle & Nerve 1996;19:784-786.
15. Haanpaa M, Hakkinen V, Nurmikko T. Motor involvement in acute hespes zoster. Muscle & Nerve 1997;20:1433-1438.
16. Baker AB, Baker LH. Clinical neurology. Hagerston: Harper & Row, 1977:9-11.
17. Sunderland S. Nerves and nerve injuries. 2^nd ed. London: Churchill Livingstone, 1978:861- 1027.
18. Erhart EA. Neuroanatomia. 4^th ed. São Paulo: Atheneu, 1971:92.
19. Gardner E, Gray DJ, Rahilly RO. Anatomia. 4^th ed. Rio de Janeiro: Guanabara Koogan, 1998.

Publication Dates

Publication in this collection
05 June 2009
Date of issue
June 2009

History

Accepted
03 Feb 2009
Received
12 Nov 2008

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Bickerstaff ER. Exame neurológico na prática médica. Rio de Janeiro: Livraria Atheneu, 1975:182-183.

[2] 2. Barraquer Bordas L. Neurología fundamental. 3^rd ed. Barcelona: Ed. Toray, 1976:40.

[3] 3. Duus, P. Diagnóstico topográfico em neurologia. 4^thed. Rio de Janeiro : Ed. Cultura Médica, 1989:24.

[4] 4. Testut L, Latarjet A. Tratado de anatomia humana. Barcelona :Salvat, 1902:225.

[5] 5. Carpenter, MB. Neuroanatomia humana. 7^thed. Rio de Janeiro: Ed. Interamericana, 1978:157-161.

[6] 6. DeJong RN. The neurological examination. 4^rd ed. Hagerstown: Harper & Row Publishers, 1979:60.

[7] 7 .Déjérine J. Sémiologie des affections du systéme nerveux. Paris: Masson, 1914.

[8] 8. Bing R. Tratado de las enfermedades nerviosas. 3^rd ed. Barcelona: Ed. Modesto Usón, 1955:274.

[9] 9. Moore KL. Anatomia orientada para a clínica. 3^rd ed. Rio de Janeiro: Ed. Guanabara Koogan, 1994:379.

[10] 10. Mummenthaler M. Neurologie clinique à l'usage des éstudiants en médecine. Paris: Doin Éditeurs, 1974:9.

[11] 11. Kimura J. Electrodiagnosis in diseases of nerve and muscle: principles and practice. Philadelphia: F. A. Davis, 1983.

[12] 12. Dumitru D. Electrodiagnostic medicine. Philadelphia: Hanley & Belfus-Mosby, 1995.

[13] 13. Head H, Campbell AW. The pathology of herpes zoster and its bearing on sensory localisation. Brain 1900;23:353.

[14] 14. Sachs GM. Segmental zoster paresis: an electrophysiological study. Muscle & Nerve 1996;19:784-786.

[15] 15. Haanpaa M, Hakkinen V, Nurmikko T. Motor involvement in acute hespes zoster. Muscle & Nerve 1997;20:1433-1438.

[16] 16. Baker AB, Baker LH. Clinical neurology. Hagerston: Harper & Row, 1977:9-11.

[17] 17. Sunderland S. Nerves and nerve injuries. 2^nd ed. London: Churchill Livingstone, 1978:861- 1027.

[18] 18. Erhart EA. Neuroanatomia. 4^th ed. São Paulo: Atheneu, 1971:92.

[19] 19. Gardner E, Gray DJ, Rahilly RO. Anatomia. 4^th ed. Rio de Janeiro: Guanabara Koogan, 1998.