Después de la rigurosa búsqueda bibliográfica, controles médicos y asignación aleatoria de grupos, se ha realizado
un programa para identificar las posibles mejoras en la fuerza del miembro inferior producidas por el novedoso
método de La Estimulación Mecánica Muscular – Vibraciones de Cuerpo Completo (EMM- WHOLE BODY
VIBRATION) a corto plazo, con plataforma de vibración (8 semanas, 3 veces por semana); frente al entrenamiento
Convencional (CONV) con sobrecarga (sentadilla-squat), y la utilización de un grupo control con estudiantes del INEF
(n=62) de La Universidad de León, contando con 29 hombres de (21,1 ± 2,2años) y 33 mujeres de (21,1 ± 2,7 años).
Mediante el control del entrenamiento en tres momentos de medición se analizó la evolución y ganancia de: Fuerza
Explosiva (SJ-CMJ), Flexibilidad (Sit and Reach), Fuerza Isométrica, Fuerza Dinámica Máxima (1 RM), Resistencia a
la fuerza (Número de Repeticiones).
Los resultados obtenidos en nuestro estudio arrojan mejoras de orden significativo en la mayoría de los casos entre
género, que realizaron el mismo tipo de entrenamiento. Sin embargo no se observó ninguna diferencia de orden
significativo entre el entrenamiento con EMM y el Convencional después de la aplicación de los respectivos
programas, entre los momentos de evaluación. No obstante, sí se observan diferencias significativas entre grupos de
entrenamiento tanto de EMM como de CONV respecto de la primera evaluación tanto de hombres como de mujeres.

Abalakov, 1938, Citado por Bosco eny cols.

La Valoración de la Fuerza con el test de

Bosco. Paidotribo. Barcelona.

American College of Sports Medicine. Position

stand on progression models in resistance

training for healthy adults. Med. Sci. Sports

Exerc 2002 ; 34(2) 364-380.

Baltaci G, Un N, Tunay V, Besler A, and

Gerceker S. Comparison of three different sit

and reach test for measurement of hamstring

flexibility in female university stuedents. Bj. J

Sports Med 2003; 37: 59-61.

Bosco C, and Komi PV. Potentiation of the

mechanical behavior of the human skeletal

muscle through prestretching. Acta Physiol.

Scand 1979; 26: 47-67.

Bosco C, Belli A, Astrua M, Tiahnyi J, Pozzo R,

Kerllis S, Tsarpela O, Foti C, Manno R,

Tranquilli C. A dynamometer for evaluation of

dinamic muscular work. Eur. J. Appl. Physiol

; 70 : 379-386.

Bosco C, Cardinale M, Coli R, Tihanyi J, Von

Duvillard SP, Viru A. The influence of whole

body vibration on the mechanical behaviour of

skeletal muscle. Biol. Sport 1998a; 153:157-164.

Bosco C, Cardinale M, Tsarpela O, Colli R,

Tihanyi J, von Duvillard SP, Viru A. The

influence of whole body vibration on jumping

performance. Biol. Sport 1998b; 15: 157-164.

Bosco C, Cardinale M, Tsarpela O. Influence of

vibration on mechanical power and

electromyogram activity in human arm flexor

muscles. Eur. J. Appl. Physiol 1999 ; 79: 306-

Bosco C, Colli R, Introini E, Cardinale M,

Tsarpela O, Madella A, Tihanyi J, Viru A.

Adaptative responses of human skeletal muscle

to viration exposure. Clin. Physiol 1998c; 19(2)

-187.

Bosco C, Dellisanti F, Fucci A, Tsarpela O,

Annino G, Foti C, Giombini A, and D´Ottavio S.

Efetto de la vibrazione su forza explosiva,

resistenza alla forza veloce e flessibilta

musculare. Medicine dello Sport 2001; 54:287-

Bosco C, Lacovelli M, Tsarpela O, Cardinale M,

Bonifazi M, Tihanyi J , Viru M , De Lorenzo A,

Viru A. Hormonal responses to whole-body

vibration in men. Eur J Appl Physiol 2000; 79:

-311.

Bosco C, Tarkka I, Komi PV. The effect of

elastic energy and myoelectrical potentiation of

triceps surae during stretch-shortening cycle

exercises. Int . J. Sports Med 1982; 3: 137-140.

Bosco C, Tihany J, Komi PV, Fekete G, Apor P.

Store and recoil of elastic energy in slow and

fast types of human skeletal muscles. Acta

Physiol Scand 1982; 116: 343-349.

Bosco C, Viitasalo J, Komi PV, Luthanen P.

Combined effect of elastic energy and

myoelectrical potentiation during stretchshortening

cycle. Acta Physiol. Scand 1982;

: 557-566.

Bosco C, Viitasalo JT. Potentiation of

myoelectrical activity of human muscles in

vertical jumps. Electro and Clin Neurophys

; 22: 549-562.

Bosco C. Allenamento e condizionamento

muscolare. Considerazione fisiologiche sulla

forza. Societá stampa sportiva. (ed), Roma

; 24-49.

Bosco C. Metabolic and neuromuscular aspect

of muscle activation. In: Abstract book of the Vth

Scandinavian Manual Medicine and Manual

Therapy Congress, Marina Congress Center,

Helsinki, Ist-3rd September 1994b; 24-25.

Bosco C. Test di valutazione della dona nella

pratica del giuoco del calcio. In: Cambi R,

Paterni M (eds) IL calcio femminile, aspetti

medici e tecnici. atti del convegno Nazionale,

Figc publischer, Roma 1993; 219-230.

Bosco, C. La fuerza muscular. Aspectos

metodológicos. Barcelona: Inde; 2000.

Bosco, C. La valoración de la fuerza con el test

de bosco. Barcelona: Paidotribo; 1994.

Bovenzi CT, Hulshof J. An updated review of

epidemiologic studies on the relationship

between exposure to whole–body vibration and

low back pain. (1986–1997). Int. Arch. Occup

Environ Health 1999; 72: 351 – 365.

Cardinale M, Bosco C. The use of vibration as

an exercise intervention. Exerc. Sport Sci. Rev

b; 31(1): 3-7.

Cardinale M, Lim J. Electomyography activity of

vastus lateralis muscle during whole body

vibrations of different frequencies. J. Strength

Cond. Res 2003a; 17(3): 621-624.

Cardinale M, Lim J. The acute effects of two

different whole body vibration frequencies on

vertical jump performance. Med. Dello Sport

; 56(4): 287-292.

Cardinale M, Lim J. The acute effects of two

different whole body vibration frequencies on

vertical jump performance. Med Sports 2003;

: 287-92.

Cardinale M, Pope MH. The effects of whole

body vibration on humans : dangerous or

advantageous ? Acta Physiol Hung 2003; 90:

-206.

Cardinale M, Wakeling J. Whole body vibration

exercise: are vibrations good for you? Br J

Sports Med 2005; 39: 585-589.

Cardinale M. High – frequency vibration training

able to increase muscle power in

postmenopausal women. Arch Phys Med

Rehabil 2004; 85(4): 687-8.

De Ruiter C, Van Raak SM, Schilperoort JV,

Hollander AP, De Haan A. The effects of 11

weeks whole body vibration training on jump

height, contractile properties and activation of

human knee extensors. Eur. J. Appl. Physiol

; 90: 595-600.

De Ruiter CJ, Van Der Linden RM, Van Der

Zijden MJA, Hollander AP, De Haan, A. Short –

Term effects of whole – body vibration on

maximal voluntary isometric knee extensor force

and rate of force rise. Eur. J. Appl. Physiol

a; 88 : 472-475.

Delecluse C, Roelants M, Diels R, Kanineky E,

Verschueren S. Effects of whole body vibration

training on muscle strength and sprint

performance in sprint – trained athletes. Int. J.

Sports Med 2005; 26(8): 662-8.

Delecluse C, Roelants M, Verschueren S.

Strength increase after whole-body vibration

compared with resistance training. Med. Sci.

Sports Exerc 2003; 35(6): 1033-1041.

Fleck SJ, Kraemer WJ. Designing resistance

training programs, 2nd Ed. Champaigh, IL:

Human kinetics; 1997.

Fleck SJ. Cardiovascular adaptations to

resístanse training. Med Sci. Sports. Exerc

; 20: S146-S141.

Fleck SJ. Periodized strength training: a critical

review. J. Strength Cond. Res 1999; 13: 82-89.

Issurin V, Lieberman D, Tenenbaum G. Effect of

vibratory stimulation training on maximal force

and flexibility. J. Sports Sci 1994; 12: 561-566.

Issurin V, Tenenbaum G. Acute and residual

effects of vibratory stimulation on explosive

strength in elite and amateur athletes. J. Sports

Sci 1994; 17: 177-182.

Issurin VB. Vibrations and their applications in

sports. A review. J. Sports Med Phys Fitness

; 45(3): 324-36.

Rittweger J, and Felsenberg D. Resistive

vibration exercise prevents bone loss during 8

weeks of strict bed rest in healthly male

subjects: results from the Berlin bed rest (BBR)

study, 26th Annual meeting of the American

Society of Bone and Mineral Research 2004;

Rittweger J, Beller G, Felsenberg D. Acute

physiological effects of exhaustive whole – body

vibration exercise in Man. Clin. Physiol 2000;

(2): 134-142.

Rittweger J, Ehrin J, Just K, Mutschelknauss M,

Kirch KA, Felsenberg D. Oxigen uptake in whole

body vibration exercise: Influence of vibration

frequency, amplitude, and external load. Int.

Sports Med 2002; 23: 428-432.

Rittweger J, Karsten J, Kautzsch K; Ms Psych,

Reeg P, Felsenberg D. Treatment of chronic

lower back pain with lumbar extension and

whole – body vibration exercise. A randomised

controlled trial. Spine 2002; 27(17) : 1829-1834.

Rittweger J, Mutschel Knauss, Felsenber D.

Acute changes in neuromuscular excitability

after exhaustive whole body vibration exercise

as compared to exhaustion by squatting

exercise. Clin. Physiol. And Func. Im 2003; 23:

-86.

Rittweger J, Schiessl H, Felsenberg D. Oxigen

uptake during whole-body vibration exercise:

comparison with squatting as a slow voluntary

movement. Eur. J. Appl. Physiol 2001 ; 86 : 169-

Anwar Abdelgayed Ebid, Mohamed Taher

Ahmed, Marwa Mahmoud Eid, Mohamed Salah

Eldien Mohamed. Effect of whole body vibration

on leg muscle strength after healed burns: A

randomized controlled trial. Burns 2012; 1019-

Bazil Basri; Michael Griffin. Predicting discomfort

from Whole Body Vertical Vibration when sitting

with an inclined backrest.Applied Ergonomics

; 44:423-444.