Thursday, 17 June 2010
Underarm cosmetics device - statement or myths
An considerable number of decorative products are practical topically on and around the humanlike breast on a daily cornerstone, often quaternate nowadays a day, including not only underarm antiperspirant/deodorant products but also body lotions, body sprays, moisturising creams, breast firming/enhancing creams and suncare products.
Saturday, 12 June 2010
EFFECT OF BODY FLUID REGULATION ON SWEATING
Prolonged exposure to hyperthermic conditions and/or prolonged exercise in the heat can induce water deficits due to profuse sweating, resulting in dehydration. This water deficit lowers both intracellular and extracellular volumes and results in plasma hyperosmolality and hypovolemia, both of which impair sweating. For example, Greenleaf and Castle proposed that the excessive rise in internal temperature in dehydrated subjects was due to inadequate sweating. Expanding this concept, Sawka observed that in progressively dehydrated subjects sweat rate was dramatically reduced despite greater elevations in rectal temperature. Later, Montain demonstrated that the threshold for the onset of sweating was elevated, whereas the slope of the relationship between the elevation in sweat rate relative to the elevation in internal temperature was attenuated, as a function of the level of dehydration, both of which are strongly suggestive of impaired sweating responsiveness.
Fortney conducted a study to identify the importance and independence of decreases in fluid volume (hypovolemia) from increases in plasma osmolality (hyperosmotic) on sweat rate.
Normovolemic subjects were exposed to heat stresses under hyperosmotic and isoosmotic conditions while sweat rate was assessed. During the ensuing exercise bout, the internal temperature threshold for the onset of sweating was significantly elevated relative to the response during exercise under isoosmotic conditions. The slope of the relationship between the elevation in sweating and the elevation in internal temperature was not affected by increased plasma osmolality.
Takamata extended these findings on assessing sweat rate in heat-stressed subjects who received an infusion of 0.9 or 3% saline.
They found that the threshold for sweating in the hyperosmotic condition (i.e., 3% saline infusion) was greatly shifted to a higher internal temperature relative to the isoosmotic condition. This hyperosmolality-induced suppres-sion of the sweating occurred regardless of heat acclimation status. In a follow-up study, Takamata found that when hyperosmotic subjects drink deionized water (38°C), sweat rate immediately increases without changes in plasma osmolality, although drinking deionized water in isoosmotic subjects did not alter sweat rate. These findings demonstrate that increased plasma osmolality, independent of plasma volume, impairs sweating responses and that an oral-pharyngeal reflex can modulate the sweating response in hyperosmotic individuals.
Fortney addressed the opposite question relative to that presented above, in that they investigated whether changes in blood volume, while keeping plasma osmolality constant, modulates the sweating response. They found that isoosmotic hypovolemia reduced the slope of the relationship between the change in sweating relative to the change in internal temperature, without altering the internal temperature threshold for the onset of sweating . Such a finding suggests that, once sweating has begun for the same elevation in internal temperature, there was less of an elevation in sweating. Conversely, isoosmotic hypervolemia does not change the internal temperature threshold for sweating or the aforementioned slope, unless plasma and blood volume expansion occurs via erythrocyte infusion. These observations suggest that sweating can be inhibited by isoosmotic hypovolemia, whereas hypervolemia in the absence of erythrocyte infusion does not alter sweating responses.
Fortney conducted a study to identify the importance and independence of decreases in fluid volume (hypovolemia) from increases in plasma osmolality (hyperosmotic) on sweat rate.
Normovolemic subjects were exposed to heat stresses under hyperosmotic and isoosmotic conditions while sweat rate was assessed. During the ensuing exercise bout, the internal temperature threshold for the onset of sweating was significantly elevated relative to the response during exercise under isoosmotic conditions. The slope of the relationship between the elevation in sweating and the elevation in internal temperature was not affected by increased plasma osmolality.
Takamata extended these findings on assessing sweat rate in heat-stressed subjects who received an infusion of 0.9 or 3% saline.
They found that the threshold for sweating in the hyperosmotic condition (i.e., 3% saline infusion) was greatly shifted to a higher internal temperature relative to the isoosmotic condition. This hyperosmolality-induced suppres-sion of the sweating occurred regardless of heat acclimation status. In a follow-up study, Takamata found that when hyperosmotic subjects drink deionized water (38°C), sweat rate immediately increases without changes in plasma osmolality, although drinking deionized water in isoosmotic subjects did not alter sweat rate. These findings demonstrate that increased plasma osmolality, independent of plasma volume, impairs sweating responses and that an oral-pharyngeal reflex can modulate the sweating response in hyperosmotic individuals.
Fortney addressed the opposite question relative to that presented above, in that they investigated whether changes in blood volume, while keeping plasma osmolality constant, modulates the sweating response. They found that isoosmotic hypovolemia reduced the slope of the relationship between the change in sweating relative to the change in internal temperature, without altering the internal temperature threshold for the onset of sweating . Such a finding suggests that, once sweating has begun for the same elevation in internal temperature, there was less of an elevation in sweating. Conversely, isoosmotic hypervolemia does not change the internal temperature threshold for sweating or the aforementioned slope, unless plasma and blood volume expansion occurs via erythrocyte infusion. These observations suggest that sweating can be inhibited by isoosmotic hypovolemia, whereas hypervolemia in the absence of erythrocyte infusion does not alter sweating responses.
Wednesday, 2 June 2010
Friday, 28 May 2010
How To Stop Sweaty Armpits- Easy Ways To Stop Armpit Sweating
It can be a difficult thing to do when trying to stop underarm sweating. Especially when you're not sure what procedure or remedies to use. And having to deal with it can also be frustrating and embarrassing. So, what I'm going to do is share with you a couple of tips that will help you when you're trying to learn how to stop sweaty armpits.
This way, you will know what to do right now that will help you stop armpit sweating.
The first thing you can do that will help you with your underarm sweat problem is antiperspirant. There are some at your local grocery store that will help you. If you've already tried them, then your doctor might have a better recommendation. It won't completely stop armpit sweating, but it will help a little.
Another thing you can do when trying to find how to stop sweaty armpits is have surgery. I wouldn't do this, but some people will. To have the surgery done, it will cost about $5000 to get it done. Not to mention, the time it will take to recover. However, I have heard that it does help out alot with underarm sweating.
The third thing you can do that I highly recommend is use remedies. There are remedies that you can use that will stop armpit sweating. They're natural and work fast. It's one of the best ways to stop hyperhidrosis. Especially when you don't want to spend money on surgery and have already tried antiperspirants.
I know how embarrassing and frustrating it is to deal with armpit sweat. So, I understand what you're going through and how it feels. That's why the best way to stop the problem is through natural remedies. You don't have to sit back and battle with this anymore. There are things you can do.
This way, you will know what to do right now that will help you stop armpit sweating.
The first thing you can do that will help you with your underarm sweat problem is antiperspirant. There are some at your local grocery store that will help you. If you've already tried them, then your doctor might have a better recommendation. It won't completely stop armpit sweating, but it will help a little.
Another thing you can do when trying to find how to stop sweaty armpits is have surgery. I wouldn't do this, but some people will. To have the surgery done, it will cost about $5000 to get it done. Not to mention, the time it will take to recover. However, I have heard that it does help out alot with underarm sweating.
The third thing you can do that I highly recommend is use remedies. There are remedies that you can use that will stop armpit sweating. They're natural and work fast. It's one of the best ways to stop hyperhidrosis. Especially when you don't want to spend money on surgery and have already tried antiperspirants.
I know how embarrassing and frustrating it is to deal with armpit sweat. So, I understand what you're going through and how it feels. That's why the best way to stop the problem is through natural remedies. You don't have to sit back and battle with this anymore. There are things you can do.
Thursday, 29 April 2010
Excessive Sweating Symptoms
Every disease has its symptoms. In some cases, two different diseases share the same signs. This means that you have to go to the doctor to have your symptoms assessed. The doctor would then use the elimination process by using further diagnostic techniques.
It is normal to sweat and get sweaty. However, anything excessive is out of the ordinary. If you think you sweat too much even under acceptable conditions, you should see a health professional to have the problem addressed. You never know when what you are going through might just be a symptom of a more complicated disease.
Hyperhidrosis is a medical condition characterized by perspiring too much. It could be apparent in just one body part like the hands, feet, or underarms. Or, it could involve all of your body parts.
To know if you have hyperhidrosis, look for the following symptoms:
1. Excessive sweating on the soles, armpits, palms, breasts or groin.
Hyperhidrosis is apparent if you tend to produce sweat on these critical body parts. These are the parts where many sweat glands are positioned. The symptom may be localized or general. It could happen on multiple parts of the body at the same time or on one part alone. While too much physical activitiy or heat may trigger the problem, it may also occur without stimuli. In such case, an underlying medical condition or disease could be causing it.
2. Blue-white or pinkish skin on the affected area.
More often than not, the parts where there is too much sweat excreted tend to develop discolored skin tone. This is most observable in people with fair complexion. Try to check if your palms, underarms, or soles are getting pinkish even in the absence of sweat. This is an indication that you could be suffering from hyperhidrosis.
3. Presence of macerated skin.
Discoloration is not the only indication that you have hyperhidrosis. Try to check the condition of your palms. Is there a presence of fine skin breaking away from the rest? This is another symptom of hyperhidrosis. It may be evident on the soles of the feet and underarms as well.
4. Skin cracking
Skin cracking is most evident on the feet area. It would appear that the skin of your feet is shedding. While you think that this is merely caused by too much dryness on the skin, lotions and creams can't treat it. Most likely, the problem is caused by hyperhidrosis, especially if the cracking recurs every now and then. Check with a doctor and see how to address the problem.
5. Skin scaling
Aside from cracking, the skin on the foot area may start to form scales. More often than not, this is also the reason why the skin will begin to crack eventually. Scaling is usually a dehydration problem. In this case, the body's abnormal reaction to sweating becomes the main reason why your skin tends to become scaly.
These symptoms can be observed in both children and adults. Children are more likely to develop hyperhidrosis than adults. However, they are able to outgrow the condition naturally.
The ones who don't outgrow the disease and those who develop the problem at the later stages of their lives are the ones that are advised to consult with a doctor for proper medication.
It is normal to sweat and get sweaty. However, anything excessive is out of the ordinary. If you think you sweat too much even under acceptable conditions, you should see a health professional to have the problem addressed. You never know when what you are going through might just be a symptom of a more complicated disease.
Hyperhidrosis is a medical condition characterized by perspiring too much. It could be apparent in just one body part like the hands, feet, or underarms. Or, it could involve all of your body parts.
To know if you have hyperhidrosis, look for the following symptoms:
1. Excessive sweating on the soles, armpits, palms, breasts or groin.
Hyperhidrosis is apparent if you tend to produce sweat on these critical body parts. These are the parts where many sweat glands are positioned. The symptom may be localized or general. It could happen on multiple parts of the body at the same time or on one part alone. While too much physical activitiy or heat may trigger the problem, it may also occur without stimuli. In such case, an underlying medical condition or disease could be causing it.
2. Blue-white or pinkish skin on the affected area.
More often than not, the parts where there is too much sweat excreted tend to develop discolored skin tone. This is most observable in people with fair complexion. Try to check if your palms, underarms, or soles are getting pinkish even in the absence of sweat. This is an indication that you could be suffering from hyperhidrosis.
3. Presence of macerated skin.
Discoloration is not the only indication that you have hyperhidrosis. Try to check the condition of your palms. Is there a presence of fine skin breaking away from the rest? This is another symptom of hyperhidrosis. It may be evident on the soles of the feet and underarms as well.
4. Skin cracking
Skin cracking is most evident on the feet area. It would appear that the skin of your feet is shedding. While you think that this is merely caused by too much dryness on the skin, lotions and creams can't treat it. Most likely, the problem is caused by hyperhidrosis, especially if the cracking recurs every now and then. Check with a doctor and see how to address the problem.
5. Skin scaling
Aside from cracking, the skin on the foot area may start to form scales. More often than not, this is also the reason why the skin will begin to crack eventually. Scaling is usually a dehydration problem. In this case, the body's abnormal reaction to sweating becomes the main reason why your skin tends to become scaly.
These symptoms can be observed in both children and adults. Children are more likely to develop hyperhidrosis than adults. However, they are able to outgrow the condition naturally.
The ones who don't outgrow the disease and those who develop the problem at the later stages of their lives are the ones that are advised to consult with a doctor for proper medication.
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