Pain Relief Spray​​


Best Knee Pain Gel

What Causes Knee Pain?

Knee joint pain is common with ageing. Having sore knees is common and isn’t usually a sign of anything serious. There are many possible causes, which can range from a simple muscle strain or tendonitis to some kind of arthritis. Sometimes a cause can’t be found. Knee pain can often be treated at home and you should start to feel better after a few days. As you age, getting knee pain may become more common. You’re also more at risk of getting knee pain if you are overweight. Knee pain may sometimes be the result of a sport or other injury.

Knee pain can be a symptom of many different knee injuries. Be it men or women, a significant part of the population above the age of 40 suffers from knee joint pain. Conventional pain relief spray does not provide desired pain relief, because of incomplete penetration through the layers of the skin.

Why is Sport a Common Cause Of Knee Pain?

  • Knee pain in sports: It is a common injury in sports which can be caused due to sprain.
  • Knee pain related to running: It is commonly observed in people who are taking part in marathons or running competitions.
  • Knee pain related to weight training exercises: Knee pain is commonly found in people who are into heavy lifting or the fitness industry.

Dynapar QPS Pain Relief Spray is a One Stop Solution for Knee Pain

Dynapar QPS is the world’s first topical Diclofenac solution, providing rapid, powerful, and long-lasting pain relief by allowing Diclofenac to penetrate the skin barrier (Stratum corneum) more quickly after topical application. Diclofenac has a five times greater (5X) penetration than Diclofenac gel. These advantages of Dynapar QPS over Diclofenac gel have been established in multiple clinical trials published in reputable journals.

Dynapar QPS’s potent action allows users to reduce or eliminate the use of commonly used oral pain relievers.

Advantages of using Dynapar QPS over Diclofenac gel include precise dosing, sophisticated application techniques, and total absorption, leaving no residue.