Cordless 3-in-1 mini massager

TENS to relieve pain in the body
EMS for muscle training and recovery
HEATING to improve the local blood circulation

An innovative device for the most effective therapies

Foto, das die Behandlung von Beinmuskelerkrankungen mit einem EMS-Massagegerät zeigt

You control the pain, not it you...

Use the more subtle TENS treatments to relieve chronic and acute pain. Place a pad with the fine electrodes on the area of the body where the pain occurs. Share it with friends and family.

Accelerate your muscle recovery

Home therapy allows you to use the EMS modes of the massager with stronger impulses to stimulate muscle shortening and thus improve muscle strength and functionality. Without the physical fatigue of real exercise, but with the nice results.

Relief for the whole body

6 manipulation modes with 19 intensity levels!

Adjust the intensity to your individual sensations and needs until the pain subsides and/or your muscles recover and strengthen.

Unique graphene technology in 3 heat levels

Combine the 6 massage modes with the unique graphene technology and promote blood circulation and local metabolism in 3 different temperature levels.

How our EMS massager differs from others on the market

PROPERTIES
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Heating function
3 levels on controlled temperature

Remote control
For more comfort during the procedure

Fastening straps
For more stability during handling

System for automatic switch-off
For more peace of mind

Two-channel LCD display
Better visualisation of processes

Powerful battery
800 mAh for a lithium-ion battery

Mechanical buttons
Reduces the likelihood of incorrect selection

PROPERTIES
-

Heating function
3 levels on controlled temperature

Remote control
For more comfort during the procedure

Fastening straps
For more stability during handling

System for automatic switch-off
For more peace of mind

Two-channel LCD display
Better visualisation of processes

Powerful battery
800 mAh for a lithium-ion battery

Mechanical buttons
Reduces the likelihood of incorrect selection

FRÜHERE MODELLE
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Different people, different problems and needs - one solution!

We have different professions, interests and daily routines. We are different ages. But we all want to feel comfortable wherever we are.

When we are with the people closest to us, but also when we are alone.

Some of us experience physical pain and discomfort. Others want to recover more quickly from intense exertion. We should make every effort to feel better.

Frequently Asked Questions

Yes, there are years of research and development behind these devices. The sources are extremely numerous and of great value:

  • Friedrich Wilhelm Hehrlein:** Herz und große Gefäße. In: Franz Xaver Sailer, Friedrich Wilhelm Gierhake (Hrsg.): Chirurgie historisch gesehen: Anfang – Entwicklung – Differenzierung. Dustri-Verlag, Deisenhofen bei München 1973, ISBN 3-87185-021-7, S. 164–185, hier: S. 178–182.
  • G. Schnabel** et al.: Trainingslehre – Trainingswissenschaft: Leistung-Training-Wettkampf. Meyer & Meyer Verlag, 2009, ISBN 978-3-89899-332-6, S. 328.
  • E. Senn:** Elektrotherapie. Thieme, 1990, ISBN 3-13-743701-6, S. 89.
  • V. M. Zatsiorsky** et al.: Krafttraining. Praxis und Wissenschaft. Meyer & Meyer Verlag, 2008, ISBN 978-3-89899-358-6, S. 90 und 178 ff.
  • M. J. Sillen**, **F. M. Franssen**, **H. R. Gosker**, **E. F. Wouters**, **M. A. Spruit:** Metabolic and structural changes in lower-limb skeletal muscle following neuromuscular electrical stimulation: a systematic review. In: PLoS One. 8(9), 2013, S. e69391. doi:10.1371/journal.pone.0069391
  • J. Gondin**, **M. Guette**, **Y. Ballay**, **A. Martin:** Electromyostimulation training effects on neural drive and muscle architecture. In: Med Sci Sports Exerc. 37(8), 2005, S. 1291–1299.
  • J. Gondin**, **L. Brocca**, **E. Bellinzona** et al.: Neuromuscular electrical stimulation training induces atypical adaptations of the human skeletal muscle phenotype: a functional and proteomic analysis. In: J Appl Physiol. Band 110. Nr. 2, 1985, S. 433–450. doi:10.1152/japplphysiol.00914.2010
  • N. A. Maffiuletti**, **M. Pensini**, **A. Martin:** Activation of human plantar flexor muscles increases after electromyostimulation training. In: J Appl Physiol. (1985), Band 92, Nr. 4, 2002, S. 1383–1392. doi:10.1152/japplphysiol.00884.2001
  • A. Filipovic**, **H. Kleinoder**, **U. Dormann**, **J. Mester:** Electromyostimulation--a systematic review of the effects of different electromyostimulation methods on selected strength parameters in trained and elite athletes. In: J Strength Cond Res. 26(9), 2012, S. 2600–2614. doi:10.1519/JSC.0b013e31823f2cd1
  • S. Colson**, **A. Martin**, **J. Van Hoecke:** Re-examination of training effects by electrostimulation in the human elbow musculoskeletal system. In: Int J Sports Med. 21(4), 2000, S. 281–288. doi:10.1055/s-2000-8882
  • A. Filipovic**, **H. Kleinoder**, **U. Dormann**, **J. Mester:** Electromyostimulation--a systematic review of the influence of training regimens and stimulation parameters on effectiveness in electromyostimulation training of selected strength parameters. In: J Strength Cond Res. 25(11), 2011, S. 3218–3238. doi:10.1519/JSC.0b013e318212e3ce
  • N. R. Glaviano**, **S. Saliba:** Can the Use of Neuromuscular Electrical Stimulation Be Improved to Optimize Quadriceps Strengthening? In: Sports Health. 8(1), 2016, S. 79–85. doi:10.1177/1941738115618174
  • V. Z. da Silva**, **J. L. Durigan**, **R. Arena**, **M. de Noronha**, **B. Gurney**, **G. Cipriano, Jr.:** Current evidence demonstrates similar effects of kilohertz-frequency and low-frequency current on quadriceps evoked torque and discomfort in healthy individuals: a systematic review with meta-analysis. In: Physiother Theory Pract. 31(8), 2015, S. 533–539. doi:10.3109/09593985.2015.1064191
  • K. Nosaka**, **A. Aldayel**, **M. Jubeau**, **T. C. Chen:** Muscle damage induced by electrical stimulation. In: Eur J Appl Physiol. 111(10), 2011, S. 2427–2437. doi:10.1007/s00421-011-2086-x
  • L. O. Dantas**, **A. Vieira**, **A. L. Siqueira, Jr.**, **T. F. Salvini**, **J. L. Durigan:** Comparison between the effects of 4 different electrical stimulation current waveforms on isometric knee extension torque and perceived discomfort in healthy women. In: Muscle Nerve. 51(1), 2015, S. 76–82. doi:10.1002/mus.24280
  • M. A. Vaz**, **F. A. Aragao**, **E. S. Boschi**, **R. Fortuna**, **O. Melo Mde:** Effects of Russian current and low-frequency pulsed current on discomfort level and current amplitude at 10 % maximal knee extensor torque. In: Physiother Theory Pract. 28(8), 2012, S. 617–623. doi:10.3109/09593985.2012.665984
  • A. R. Ward:** Electrical stimulation using kilohertz-frequency alternating current. In: Phys Ther. 89(2), 2009, S. 181–190. doi:10.2522/ptj.20080060
  • A. R. Ward**, **W. G. Oliver**, **D. Buccella:** Wrist extensor torque production and discomfort associated with low-frequency and burst-modulated kilohertz-frequency currents. In: Phys Ther. 86(10), 2006, S. 1360–1367. doi:10.2522/ptj.20050300
  • G. Alon** et al.: Comparison of the effects of electrical stimulation and exercise on abdominal musculature. In: J Orth
  • K.E. Nnoaham, J. Kumbang: Transcutaneous electrical nerve stimulation (TENS) for chronic pain. In: Cochrane Database Syst Rev. 2008 Jul 16;(3):CD003222. Review. PMID 18646088
  • A. Khadilkar, D.O. Odebiyi, L. Brosseau, G.A. Wells: Transcutaneous electrical nerve stimulation (TENS) versus placebo for chronic low-back pain. Cochrane Database Syst Rev. 2008 Oct 8;(4):CD003008. Review. PMID 18843638
  • L. Brosseau: Efficacy of the Transcutaneous Electrical Nerve Stimulation for the Treatment of Chronic Low Back Pain: A Meta-Analysis. Spine. 27(6):596–603, März 2002
  • R.M. Dubinsky, J. Miyasaki, Neurology 2010; 74: 173–176, zitiert nach Medical-Tibune, 28. Mai 2010, S. 12
  • Wolfgang Rössy und Yaren Acar: TENS-Therapie. In: Sankt Rochus Kliniken. 15. Juni 2021, abgerufen am 15. Juni 2021.
  • . Arne Hoffmann: Das Lexikon des Sadomasochismus. Der Inside-Führer zur dunklen Erotik: Praktiken und Instrumente, Personen und Institutionen, Literatur und Film, Politik und Philosophie. Schwarzkopf & Schwarzkopf, 2000, ISBN 3-89602-290-3, S. 100.
  • Bedienungsanleitung zum Gerät Tem-250 der Dittmann GmbH (2015), S. 9 (PDF)

The EMS massage device works on the basis of electrical muscle stimulation, a type of electrotherapy that uses electrical impulses to stimulate muscle contraction in order to strengthen weak muscles, reduce swelling, relieve pain and support wound healing.

The massager is equipped with a powerful 800 mA rechargeable battery that operates 6 operating modes with 19 intensity levels flawlessly and is equipped with the unique Graphene technology for 3-stage heating.

Our device is designed to relieve muscle pain, leg pain, back pain, shoulder pain and neck pain. It is versatile and can be used for different parts of the body.

You can expect temporary relief from pain and discomfort, whether it's to warm up the affected area before starting the day or to alleviate discomfort for a restful night's sleep. You may also experience better recovery after sport or prolonged activity.

Absolutely. Although originally developed for pain relief, our massager has become increasingly popular among athletes practising all sports due to its effectiveness in improving sports recovery.

The sensation during use differs significantly from conventional massage methods due to the electrical impulses that stimulate the feet. Although it may seem unfamiliar at first, users get used to this feeling over time. The device has 6 different therapy modes with 19 intensity levels and heating with 3 temperature levels. Our customers find the massager effective, pleasant and enjoyable to use.

Results can vary as it takes time for the device to address the underlying inflammation beneath the skin's surface or relieve muscle spasms that have lasted weeks, months or even years. Some users experience rapid relief, while others take longer, depending on the individual body's response and the nature of the condition being treated.

The optimum duration for using EMS massagers is 10 to 15 minutes once a day. You don't need to overdo it. Just make it part of your daily grooming routine. The device is lightweight and extremely easy to use, making it your faithful friend wherever you are.

Possible side effects of EMS therapy include muscle pain, strains or fatigue, especially if the intensity or duration of treatment exceeds tolerable limits. The consultants at EMSmassager.eu recommend starting with the lowest intensity levels and gradually increasing the power. The condition is to give you pleasure and relief.

Do not use in the following situations:

  • If you feel physically unwell.
  • If you have cardiac arrhythmia or heart problems.
  • For patients with epilepsy.
  • Pregnant women.
  • Cancer patients.

The consultants at EMSmassager.eu recommend that pregnant women, people with heart problems and those with heart implants do not use EMS/TENS massagers.

You should not perform a full body massage if you suffer from extreme tiredness, dizziness, are drunk, have a fever or within half an hour of eating.

If you have a skin disease or damaged skin, please do not use the electron devices on the affected areas.

The full body massage offers a therapeutic treatment, but cannot completely replace treatment by a doctor.

ALL ABOUT EMS AND TENS

Learn the scientific information and facts and make an informed decision about your health.

LEARN MORE
What is TENS?

Transcutaneous electrical nerve stimulation (better known as TENS) is a non-invasive method for effective pain relief. [...]

What is EMS?

Electronic muscle stimulation (EMS) is not only a method of physical therapy and fitness, but also a [...]

Relieve pain and stimulate your muscles

The 5th generation electric muscle massager offers you a unique combination of targeted massage and vibration that can help you to relieve and prevent muscle pain.