Plantar Hyperhidrosis (Foot Sweating)

The Chinese believe that a person feels the way their feet feel. Wouldn’t you rather feel fresh, clean and relaxed than cramped, sweaty and smelly?

It doesn’t have to be this way. With Klima’s arsenal of products for Plantar Hyperhidrosis, we literally have you covered.

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About Perspiration and Klima

You will notice that Klima Products are much stronger and more effective than the “clinical strength”, and the mass-produced antiperspirants you see for sale in America.

Axillary Hyperhidrosis (Underarm Sweating)

Axillary Hyperhidrosis, or excessive underarm sweating, is a medical condition in which the glands produce far more sweat than is needed for bodily temperature control. It’s thought to be caused by an overactive sympathetic nervous system, which in turn, over-stimulates the sweat glands.

Excessive Foot Sweating

Klima Antiperspirant Product Review

It all started in the summer of 2009, when I was in a short vacation in England with my wife and friends. I have some embarrassing sweat issues that I couldn’t control no matter how hard I tried. Someone recommended me Klima Antiperspirant, a clinical strength antiperspirant that helps people like me, that are suffering from a medical condition named hyperhidrosis.

Follow the guidelines on how to use efficiently Klima Antiperspirant:

After you shower, wait until your underarms are completely dry to apply Klima. Apply liberally (4-6 sprays each) and be sure to saturate the area. Your underarm should look and feel wet after you have sprayed.

After about 15 seconds, the product will dry and the chemical smell will dissipate. You are now protected from wetness and odor for up to 5 days. It’s OK to shower between uses, but this will reduce the effectiveness of Klima.

For those who suffer from severe odor or wetness, you may use Klima daily, and supplement your daily regimen with another over-the-counter deodorant or antiperspirant/deodorant of your choice.

It may take about a week of use for Klima to become 100% effective.

Follow the steps exactly like they are listed above and you’ll be fine. If you are allergic to any of the ingredients this antiperspirant contains, please refer to a specialist to make sure it’s O.K. to use Klima. However, if you have aluminum intolerance, then you can use other antiperspirant, produced by the same company named Hyper-Dri Aluminum-free Antiperspirant.

Ingredients: Ethyl Alcohol, Aqua (water), Aluminum Chloride, Aluminum Chlorohydrate, Glycerin, Alcloxa, Dimethicone, Propylene Glycol, Triethyl Citrate, Parfum (fragrance)

The 7 Best Deodorants for Excessive Sweating

Klima Underarm Antiperspirant / Deodorant

Klima Antiperspirant is for the underarms.

It may take about a week of use for Klima to become 100% effective.

About 50% of our clients have consistently been able to go up to 5 days without re-applying Klima, but people with more wetness and odor may need to use it more often.

Ingredients: Ethyl Alcohol, Aqua (water), Aluminum Chloride, Aluminum Chlorohydrate, Glycerin, Alcloxa, Dimethicone, Propylene Glycol, Triethyl Citrate, Parfum (fragrance)

Sweat Prevention Guidelines

Aluminum Toxicity: Is Your Anti-Perspirant Harmful?

How could a link live mechanistically between underarm toiletries and breast cancer?

An considerable signaling of enamel products are applied topically on and around the hominian breast on a regular cornerstone, ofttimes dual times a day, including not exclusive underarm antiperspirant/deodorant products but also embody lotions, body sprays, moisturising creams, breast firming/enhancing creams and suncare products. These products are not rinsed off but paw on the wound, allowing for unceasing dermal danger, sorption and accumulation into inexplicit tissues, which may be more enhanced by abrasions in the pare created by touching. The extent to which chemicals engrossed by this itinerary amaze metabolism remains unidentified, but they would certainly mystify the systemic metastasis to which orally plagiaristic chemicals would be subjected.

With rife ethnic pressures, these products are utilized with accelerando ratio and amount, and by e'er younger children including babies, and the personalty of long-term low-dose exposure to these mixtures of fivefold chemicals are region. The variety in pattern of these toiletries and the formation of contrasting products visible provides full option for cancer to uprise through issues of quantity utilised, finished imitate of utilization or finished idiosyncratic condition to particularized fluid formulations.

MODIFICATION OF SWEATING RESPONSES DUE TO EXERCISE-RELATED FACTORS

Alam and Smirk showed that blood pressure increases during dynamic and static exercise and remains elevated if blood flow to that limb was occluded just before the cessation of exercise. On release of the occlusion, blood pressure returned to preexercise levels. Their observations led to numerous and ongoing studies investigating the role of muscle metaboreceptors in modulating blood pressure during exercise.

A number of studies have been performed to investigate the possible role of metaboreceptors in modulating sweating responses during exercise. In general, the cited studies were performed by monitoring sweat rate during isometric exercise and subsequent postexercise ischemia, the latter of which isolates muscle metaboreceptor stimulation. In those studies, sweat rate increased during isometric exercise, remained elevated during postexercise ischemia, and then returned toward preexercise levels after release of ischemia. This pattern of response provides evidence that metaboreceptors are capable of modulating sweat rate during exercise.

However, during postexercise ischemia, blood pressure is also elevated and may therefore contribute to the elevation in sweating via loading of baroreceptors. To test this hypothesis, Shibasaki performed an experiment in which blood pressure during the postexercise ischemia period was restored to preexercise levels via intravenous administration of sodium nitroprusside. Under these conditions, muscle metaboreceptors remained stimulated but blood pressure returned to preexercise levels. Despite normalized blood pressure, sweat rate remained elevated throughout the ischemic period. Thus the elevation in sweat rate during post ex ercise ischemia occurred through activation of metaboreceptors and was independent of the increase in blood pressure during postexercise ischemia and presumably during isometric exercise.

These findings strongly suggest that the muscle metaboreflex is capable of modulating sweat rate.

Another muscle afferent signal that could contribute to sweating responses during exercise is that related to mechanical stimulation of the muscle, which has previously been suggested to contribute to the pressor response during exercise. These studies used protocols involving passive limb movement or passive cycling while assessing sweating responses in heat-stressed subjects. In general, these findings suggest that stimulation of muscle mechanoreceptors is capable of modulating sweat rate, although responses appear to be less than that observed during augmentation of central command or muscle metaboreceptor stimulation.

Despite the aforementioned studies, not all studies support the concept that sweating can be modulated by nonthermal factors associated with exercise. For example, neither the internal temperature threshold for the onset of sweating nor the slope of the relationship between the elevation in sweating relative to the elevation in internal temperature is different when responses are compared between dynamic exercise and passive heating states. Such findings are perplexing given that, relative to resting conditions, central command, muscle metaboreceptor, and muscle mechanoreceptors are stimulated during dynamic exercise. Furthermore, the internal temperature threshold for the onset of sweating is not altered by exercise intensity, whereas the slope of the relation between elevations in sweating and internal temperature is not changed in the majority of studies; however, one study found an elevation of this slope with exercise intensity. A key difference between those studies showing an effect of central command and metabo- and mechanoreceptors stimulation in modulating sweating with those that do not may be the magnitude of the heat stress before the perturbation. For example, in those studies in which sweating is already engaged, or is very close to the threshold to be engaged, stimulating the aforementioned nonthermal factors associated with exercise more consistently increases sweat rate. This is in contrast to those studies in which exercise began with the subject in a normothermic state and thus nonsweating condition, where sweating is reported to be less affected by nonthermal factors associated with exercise. Another potential explanation for differences in these findings may be related to whether the workload was static or dynamic. Clear influences of nonthermal factors in modulating sweating are observed when static (i.e., isometric) exercise is used as the perturbation, whereas these influences are less pronounced when dynamic exercise is used. Undoubtedly, further studies are needed to clarify the effects of nonthermal factors during exercise, and possible interaction between these factors, on sweat responses.

Botox Reduces Excessive Sweating (Hyperhidrosis)

Hyperhidrosis IontophoresisTherapy- A Painless, Inexpensive Solution For Sweaty Hands and Feet

What is hyperhidrosis Iontophoresis therapy treatment and how does it work? Hyperhidrosis Iontophoresis is a therapy treatment that's popular for treating sweating hands and feet. According to recent research, three percent of the world's population suffers from hyperhidrosis.

Read below as we explain one of the most popular treatments used to reduce the amount of excessive moisture on hands and feet.

I can think of a few other things that could be more embarrassing; however, shaking sweat filled hands is right up there with the worst. To some there is nothing more embarrassing then attempting to shake hands but before doing so you have to first dry your hands. Or worst yet, having to lie on the sofa with your shoes on because the smell from your feet will run the family away for good! Without doubt, hyperhidrosis obviously reveals visual problems, but also since the disorder can develop at such an early age many sufferers, develop personality problems, shyness, isolate themselves from family and friends, or find it very difficult to participate in everyday business environments.

The above problems are common for sufferers but they don't have to be permanent situations, since Hyperhidrosis Iontophoresis therapy is becoming a very popular non-invasive solution for those that suffer with hyperhidrosis (sweaty palms, feet or underarms).

Hyperhidrosis Iontophoresis therapy

Do you remember seeing on TV shows where patients were hooked up to wires and electrical cords from their head? I really didn't understand how electricity could cure a disorder or disease. With that in mind, Hyperhidrosis Iontophoresis therapy is a similar method that resembles what we used to see on TV a long time ago. The only difference is, instead of wires being hooked up to a device on your head, with this device you place your hands or feet in it and are treated with electric current not supplied through wires.(with no wires it seems a lot less threatening) Iontophoresis therapy started back around 1952, when medical professionals started to use electric current as a treatment for sweaty palms.

Even medical professionals find that the therapy process is pretty perplexing to explain how it really works. We will do our best here; Hyperhidrosis Iontophoresis therapy is a process that uses the combination of electric current, pH, and ionic movement found in tap water, through the interaction between electric current, pH, and tap water, sweat glands are blocked. With this 3 part combo action, the movement from the water creates an interruption in the sweat gland function, which creates a blockage; this causes a decrease in sweat flow.

Frequency of use

We all know, there are no two people alike so exact numbers are nearly impossible. Normally, the device is used just a few times per week in up-to 30 minute applications. The treatment method provides current of 15-20 mA. Remember, always consult with your doctor before starting any kind treatments.

Potential Side Effects

Since side effect are minimal, many people find hyperhidrosis Iontophoresis therapy treatment is at least worth a try.

Listed are a few of the normal side effects:

* dry skin, * redness, burning, * irritation, * and stinging

Many sufferers notice these minor annoyances usually subside once you discontinue use of the hyperhidrosis Iontophoresis therapy treatment device. Don't hesitate to consult with your doctor if these discomforts don't subside once you discontinue use of the device.

Hyperhidrosis excessive sweating Treatment options