Buy Deep heat® cream 67 g
  • Buy Deep heat® cream 67 g

Deep heat®

Mentholatum
620 Items
2019-09-19
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$42.19
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Clinical Pharmacology

Pharmacotherapeutic group.
Anti-inflammatory, topical.
ATH code: M02AS.
Pharmacological properties.
Methyl salicylate penetrates the skin and has both analgesic and anti-inflammatory effects.
Racecentol, when applied to the skin, enhances the anesthetic effects of other components of the drug.
Purified turpentine (terpentine oil) when applied topically causes a reflex increase in blood flow, which accelerates the absorption of active ingredients.
Oil of eucalyptus leaves, when applied locally, has an irritating effect.
Thus, Deep Heath has an irritant and analgesic effect.
The combination of the components of the drug Deep heat® stimulates local blood circulation in the tissues, causing a feeling of warming at the site of application of the cream. The action of the drug leads to relief of pain in muscles and joints.

Indications

For the symptomatic treatment of muscle pain, muscle spasms (including back pain), sciatica, lumbago, myofascial pain, rheumatic pain, ligament damage, including those caused by minor sports injuries.

Composition

1 g of cream contains:
Active ingredients:
Methyl salicylate 128.0 mg
Racemol 59.1 mg
Gum eucalyptus
leaf oil 19.7 mg
Turpentine oil 14.7 mg
Excipients:
Cetostearyl Alcohol
[cetyl alcohol 60%, stearyl alcohol 40%] 180.0 mg
Sodium cetyl stearylsulfate 20.0 mg
Paraffin liquid 10.0 mg
Propylene glycol 10.0 mg
Anhydrous lanolin 5.0 mg
Water 553.5 mg

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Deep heat®

Dosage and Administration

Topically. To open the tube, flip the lid and press down to pierce the sealed hole.
For adults and children over 12 years old. A strip of cream 4-10 cm applied to the affected area or painful area, depending on their size, followed by soft rubbing until completely absorbed 2-3 times a day.
Children under 12 years of age should use a strip of no more than 1-2 cm, no more than 2 times a day.
Wash hands thoroughly after use. After 2 weeks of using the drug should consult a doctor.

Adverse reactions

Allergic skin reactions are possible: itching, redness, urticaria. When using a long time, large quantities of the drug does not exclude the possibility of systemic side effects.

Contraindications

Hypersensitivity to the components of the drug, pregnancy and lactation. Bronchial asthma, triggered by the use of acetylsalicylic acid or other NSAIDs. Do not use in children under 5 years of age. Violation of the integrity of the skin.

Drug interactions

Methyl salicylate enhances the effect of anticoagulants, methotrexate during absorption, which should be considered when using large doses of the drug for a long time. Before using the drug DIP HIT, you should consult a doctor if you are using any other drugs.

Special instructions

DIP HIT should be applied only to intact skin, avoiding contact with eyes and mucous membranes. It should not be used in children under 12 years of age without consulting a doctor. Do not use occlusive dressings. The drug does not contaminate clothing and bedding, it does not stain them.
Influence on ability to steer vehicles, mechanisms
Not known.

Overdosage

Not described. The development of overdose is not excluded if a large amount of the drug is accidentally swallowed. In this case, it is necessary to carry out symptomatic therapy.

  • Brand name: Deep heat®
  • Active ingredient: Methyl salicylate, Levomenthol, Turpentine oil, Eucalyptus oil
  • Dosage form: cream for external use
  • Manufacturer: Mentholatum
  • Country of Origin: Great Britain

Studies and clinical trials of Deep heat (Click to expand)

  1. Sensitivity of soil surface temperature in a force-restore equation to heat fluxes and deep soil temperature
  2. Deep geothermal energy – an interdisciplinary challenge. Shaft with 3D underground collector as heat exchanger / . Tiefe Geothermie – eine interdisziplinäre Herausforderung. Schachtbauweise mit 3D-Gebirgskollektoren als Wärmetauscher
  3. The management of heat flow in deep mines / . Management von Wärmeströmen in tiefliegenden Bergwerken
  4. The management of heat flow in deep mines (part 2)
  5. Effect of heat treatment on the hardness of micro deep drawn cups of Al-2Sc
  6. Consolidation around a heat source buried deep in a porous thermoelastic medium with anisotropic flow properties
  7. Physical behaviour of electron-beam fusion heat transfer and deep penetration in metals
  8. Combined forced and natural convection heat transfer in a deep lid-driven cavity flow
  9. Geochemical modelling of the hydrothermal alteration due to heat storage in deep rock reservoirs : Kan, M; Fritz, B Proc 5th International Symposium on Water-Rock Interaction, Reykjavik, 8–17 August 1986P306–309. Publ Orkustofnun: National Energy Authority, 1986
  10. Geochemical modelling of the hydrothermal alteration due to heat storage in deep rock reservoirs : Kan, M; Fritz, B Proc 5th International Symposium on Water-Rock Interaction, Reykjavik, 8–17 August 1986P306–309. Publ Orkustofnun: National Energy Authority, 1986
  11. Consolidation around a heat source buried deep in a porous thermoelastic medium with anisotropic flow properties : Savvddou, C; Booker, J R Int J Num Anal Meth GeomechV13, N1, Jan-Feb 1989, P75–90
  12. Thermal data (heat flow and heat production) measurements in deep drillholes : Vigneresse, J L Proc International Symposium on Rock at Great Depth, Pau, 28–31 August 1989V1, P395–401. Publ Rotterdam: A A Balkema, 1989
  13. Engineering considerations for teh disposal of heat generating nuclear wastes in deep ocean geological formations : Hickerson, J; Freeman, T J; Boisson, J Y; Gera, F; Murray, C N; Nakamura, H; Nieuwenhuis, J D; Schaller, K H Radioact Waste ManageV15, N2/3, 1991, P169–183
  14. Temperatures, fractures and heat flow density in the pilot-hole of the continental deep drilling project (oberpfalz, Germany) : Jobmann, M; Schulz, R Sci DrillingV3, N1/3, 1992, P83–88
  15. Modelling heat transfer near a deep underground waste repository: a discussion of boundary conditions : Bodenes, J M; Dewiere, L; Oustriere, P; Ausseur, J Y; Menjoz, A; Sauty, J P; Vauclin, M Proc Conference on Calibration and Reliability in Groundwater Modelling, The Hague, 3–6 September 1990P373–384. Publ Wallingford: IAHS Press, 1990 (IAHS Publication No. 195)
  16. Experiment in controlling stability of scarpment benches in deep-pit northern mines by means of foamed plastic heat-insulating shields: B. Sukumar, V. Yu. Izakson, A. V. Samokhin & V. I. Sleptsov, Journal of Mining Science, 30(5), 1994(1995), pp 502–513; translated from:Fiziko-Tekhnicheskie Problemy Razrabotki Poleznykh Iskopaemykh, 30(5), 1994, pp 100–112
  17. Deep ground coil evaporators for heat pumps
  18. Domestic heat pump with deep hole ground source evaporator
  19. Conductive heat extraction to a deep borehole: Thermal analyses and dimensioning rules
  20. Surface heat flow and deep temperatures in the Bradano Trough (Southern Italy). Possible effects of groundwater circulation
  21. Mathematical description of heat and mass transfer during deep bed drying: Effect of product shrinkage on bed porosity
  22. Modelling and performances of a deep-freezing process using low-grade solar heat
  23. Application of a spherical-radial heat transfer model to calculate geothermal gradients from measurements in deep boreholes

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