Tuesday, November 27, 2012

New Approach Prevents Skin Cancer Using Photodynamic Therapy (PDT)

Every year there are more new cases of skin cancer than breast, prostate, lung and colon cancers combined. One in 5 Americans will get skin cancer in their lifetime. 90% of skin cancers are caused by excessive sun exposure, yet fewer than 33 percent of adults, adolescents, and children routinely use sun protection.

Cancer prevention and early detection techniques could eliminate up to 100,000 cancer cases and 60,000 US cancer deaths each year. New technologies in the evaluation and treatment of sun damaged skin could have a positive impact on changing these statistics.

The same sunny weather that attracts so many tourists and new residents to the sun-belt also increases the risk of skin cancer. The effects of chronic sun exposure result in superficial sun spots that are visible and also invisible changes that occur under the skin's surface. Ultraviolet photography and photodynamic therapy (PDT) are two recent developments that should help in the early detection and treatment of both types of pre-cancerous skin lesions.

Early Detection with UV Photography Ultraviolet (UV) photography offers a very useful screening tool to help the skilled physician detect sun damaged skin that may not be visible upon a routine examination. Visual inspection can only detect changes on the skin's surface, but damage due to sun exposure occurs beneath the outer layer of skin,

The UV camera briefly shines ultraviolet light on the face. UV light is able to penetrate 1.5-2.0 millimeters under the visible dead layer of skin and focus on the actual living portion where sun damage originates. The advantage to the doctor and the patient is that this technology allows for much earlier detection of skin problems before they develop into pre-cancers that are visible on the skins surface. After finishing the treatment plan, the doctor should take another UV photo to verify the treatment efficacy. UV photography also helps evaluate other skin conditions including acne, oil balance, hydration, inflammation, growths, fungi, pH, and thin skin due to reduced collagen which makes it an ideal tool to evaluate all problem skin.

After the damage to the deeper layers of skin, superficial signs of sun damage may eventually appear on the surface. The most common surface lesion is known as actinic keratoses (AK). AKs usually appear as rough or scaly patches. They may also flake, crust, and may temporarily disappear and then return.

An AK is most likely to appear on the face, ears, scalp, neck, backs of the hands and forearms, shoulders, and lips - the parts of the body most often exposed to sunshine. The scaly patch may be light or dark, tan, pink, red, or a combination of these...or the same color as your skin.

It is estimated that 10-20% of untreated AKs will develop into squamous cell cancers. If treated early, almost all AKs can be eliminated without becoming skin cancers. If you have AKs, it indicates that you have sustained sun damage and have a higher risk for developing all types of skin cancer - not just squamous cell carcinoma.

The more keratoses a person has, the greater the chance that one or more may turn into skin cancer. People may also have up to 10 times as many subclinical (invisible) lesions as visible, surface lesions. These invisible lesions were undetectable until the development of the UV camera.

Treatment options The most common treatment options for AKs have traditionally involved topical ointment 5-FU (Effudex), laser resurfacing, or chemical peels. To avoid the prolonged recovery period and possible scarring associated with these techniques, photodynamic therapy has been developed.

Photodynamic therapy (PDT) is the treatment of choice for the invisible deeper sun damage as well as the visible pre-cancerous AK lesions. PDT involves a two step process that has been proven effective in clinical testing. This treatment cleared 100% of the AKs in 2/3 of the patients after one treatment.

The first step is the application of a topical solution called Levulan. Abnormal cells have a much greater affinity for the solution and absorb it while the healthy cells do not. The solution is left on for an incubation period lasting anywhere from 15 minutes to 18 hours.

The second step of PDT is to apply a concentrated light source to activate the chemical reaction which destroys the abnormal cells. Since the solution is absorbed only in the damaged cells, the healthy cells are not affected. This process can cause a mild burning sensation during the treatment. Usually, this improves immediately after treatment and ends within 24 hours.

Following the treatment, most patients experience mild swelling, redness, and a peeling of the AK lesions and the surrounding tissue. Patients choosing a more aggressive treatment will experience more peeling and/or crusting of the damaged skin that resolves within in one or two weeks. The doctor can easily control the severity of these reactions by limiting the incubation period and the amount of exposure to the light source.

Patients not willing to experience a prolonged recovery time after the procedure may choose a more mild treatment and return to work after a day or two. The tradeoff is that they will require more treatments to achieve the same clinical results.

In addition to eliminating AKs and the subsurface skin damage, PDT has also been effective in improving the appearance of the skin by greatly reducing moderate to severe acne (including cystic acne), reducing color splotches, lessening the fine lines, and decreasing pore size.

Anyone who currently has, has had, or wants to prevent AKs or pre-cancerous skin lesions should be evaluated and treated using UV photography and photodynamic therapy (PDT)." Once a person has been successfully treated using this approach, it is recommended they return for a yearly follow up to prevent future problems.

Sun Exposure & UV Rays - The Basic Facts   

New Approach Prevents Skin Cancer Using Photodynamic Therapy (PDT)

Every year there are more new cases of skin cancer than breast, prostate, lung and colon cancers combined. One in 5 Americans will get skin cancer in their lifetime. 90% of skin cancers are caused by excessive sun exposure, yet fewer than 33 percent of adults, adolescents, and children routinely use sun protection.

Cancer prevention and early detection techniques could eliminate up to 100,000 cancer cases and 60,000 US cancer deaths each year. New technologies in the evaluation and treatment of sun damaged skin could have a positive impact on changing these statistics.

The same sunny weather that attracts so many tourists and new residents to the sun-belt also increases the risk of skin cancer. The effects of chronic sun exposure result in superficial sun spots that are visible and also invisible changes that occur under the skin's surface. Ultraviolet photography and photodynamic therapy (PDT) are two recent developments that should help in the early detection and treatment of both types of pre-cancerous skin lesions.

Early Detection with UV Photography Ultraviolet (UV) photography offers a very useful screening tool to help the skilled physician detect sun damaged skin that may not be visible upon a routine examination. Visual inspection can only detect changes on the skin's surface, but damage due to sun exposure occurs beneath the outer layer of skin,

The UV camera briefly shines ultraviolet light on the face. UV light is able to penetrate 1.5-2.0 millimeters under the visible dead layer of skin and focus on the actual living portion where sun damage originates. The advantage to the doctor and the patient is that this technology allows for much earlier detection of skin problems before they develop into pre-cancers that are visible on the skins surface. After finishing the treatment plan, the doctor should take another UV photo to verify the treatment efficacy. UV photography also helps evaluate other skin conditions including acne, oil balance, hydration, inflammation, growths, fungi, pH, and thin skin due to reduced collagen which makes it an ideal tool to evaluate all problem skin.

After the damage to the deeper layers of skin, superficial signs of sun damage may eventually appear on the surface. The most common surface lesion is known as actinic keratoses (AK). AKs usually appear as rough or scaly patches. They may also flake, crust, and may temporarily disappear and then return.

An AK is most likely to appear on the face, ears, scalp, neck, backs of the hands and forearms, shoulders, and lips - the parts of the body most often exposed to sunshine. The scaly patch may be light or dark, tan, pink, red, or a combination of these...or the same color as your skin.

It is estimated that 10-20% of untreated AKs will develop into squamous cell cancers. If treated early, almost all AKs can be eliminated without becoming skin cancers. If you have AKs, it indicates that you have sustained sun damage and have a higher risk for developing all types of skin cancer - not just squamous cell carcinoma.

The more keratoses a person has, the greater the chance that one or more may turn into skin cancer. People may also have up to 10 times as many subclinical (invisible) lesions as visible, surface lesions. These invisible lesions were undetectable until the development of the UV camera.

Treatment options The most common treatment options for AKs have traditionally involved topical ointment 5-FU (Effudex), laser resurfacing, or chemical peels. To avoid the prolonged recovery period and possible scarring associated with these techniques, photodynamic therapy has been developed.

Photodynamic therapy (PDT) is the treatment of choice for the invisible deeper sun damage as well as the visible pre-cancerous AK lesions. PDT involves a two step process that has been proven effective in clinical testing. This treatment cleared 100% of the AKs in 2/3 of the patients after one treatment.

The first step is the application of a topical solution called Levulan. Abnormal cells have a much greater affinity for the solution and absorb it while the healthy cells do not. The solution is left on for an incubation period lasting anywhere from 15 minutes to 18 hours.

The second step of PDT is to apply a concentrated light source to activate the chemical reaction which destroys the abnormal cells. Since the solution is absorbed only in the damaged cells, the healthy cells are not affected. This process can cause a mild burning sensation during the treatment. Usually, this improves immediately after treatment and ends within 24 hours.

Following the treatment, most patients experience mild swelling, redness, and a peeling of the AK lesions and the surrounding tissue. Patients choosing a more aggressive treatment will experience more peeling and/or crusting of the damaged skin that resolves within in one or two weeks. The doctor can easily control the severity of these reactions by limiting the incubation period and the amount of exposure to the light source.

Patients not willing to experience a prolonged recovery time after the procedure may choose a more mild treatment and return to work after a day or two. The tradeoff is that they will require more treatments to achieve the same clinical results.

In addition to eliminating AKs and the subsurface skin damage, PDT has also been effective in improving the appearance of the skin by greatly reducing moderate to severe acne (including cystic acne), reducing color splotches, lessening the fine lines, and decreasing pore size.

Anyone who currently has, has had, or wants to prevent AKs or pre-cancerous skin lesions should be evaluated and treated using UV photography and photodynamic therapy (PDT)." Once a person has been successfully treated using this approach, it is recommended they return for a yearly follow up to prevent future problems.

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

New Approach Prevents Skin Cancer Using Photodynamic Therapy (PDT)

Every year there are more new cases of skin cancer than breast, prostate, lung and colon cancers combined. One in 5 Americans will get skin cancer in their lifetime. 90% of skin cancers are caused by excessive sun exposure, yet fewer than 33 percent of adults, adolescents, and children routinely use sun protection.

Cancer prevention and early detection techniques could eliminate up to 100,000 cancer cases and 60,000 US cancer deaths each year. New technologies in the evaluation and treatment of sun damaged skin could have a positive impact on changing these statistics.

The same sunny weather that attracts so many tourists and new residents to the sun-belt also increases the risk of skin cancer. The effects of chronic sun exposure result in superficial sun spots that are visible and also invisible changes that occur under the skin's surface. Ultraviolet photography and photodynamic therapy (PDT) are two recent developments that should help in the early detection and treatment of both types of pre-cancerous skin lesions.

Early Detection with UV Photography Ultraviolet (UV) photography offers a very useful screening tool to help the skilled physician detect sun damaged skin that may not be visible upon a routine examination. Visual inspection can only detect changes on the skin's surface, but damage due to sun exposure occurs beneath the outer layer of skin,

The UV camera briefly shines ultraviolet light on the face. UV light is able to penetrate 1.5-2.0 millimeters under the visible dead layer of skin and focus on the actual living portion where sun damage originates. The advantage to the doctor and the patient is that this technology allows for much earlier detection of skin problems before they develop into pre-cancers that are visible on the skins surface. After finishing the treatment plan, the doctor should take another UV photo to verify the treatment efficacy. UV photography also helps evaluate other skin conditions including acne, oil balance, hydration, inflammation, growths, fungi, pH, and thin skin due to reduced collagen which makes it an ideal tool to evaluate all problem skin.

After the damage to the deeper layers of skin, superficial signs of sun damage may eventually appear on the surface. The most common surface lesion is known as actinic keratoses (AK). AKs usually appear as rough or scaly patches. They may also flake, crust, and may temporarily disappear and then return.

An AK is most likely to appear on the face, ears, scalp, neck, backs of the hands and forearms, shoulders, and lips - the parts of the body most often exposed to sunshine. The scaly patch may be light or dark, tan, pink, red, or a combination of these...or the same color as your skin.

It is estimated that 10-20% of untreated AKs will develop into squamous cell cancers. If treated early, almost all AKs can be eliminated without becoming skin cancers. If you have AKs, it indicates that you have sustained sun damage and have a higher risk for developing all types of skin cancer - not just squamous cell carcinoma.

The more keratoses a person has, the greater the chance that one or more may turn into skin cancer. People may also have up to 10 times as many subclinical (invisible) lesions as visible, surface lesions. These invisible lesions were undetectable until the development of the UV camera.

Treatment options The most common treatment options for AKs have traditionally involved topical ointment 5-FU (Effudex), laser resurfacing, or chemical peels. To avoid the prolonged recovery period and possible scarring associated with these techniques, photodynamic therapy has been developed.

Photodynamic therapy (PDT) is the treatment of choice for the invisible deeper sun damage as well as the visible pre-cancerous AK lesions. PDT involves a two step process that has been proven effective in clinical testing. This treatment cleared 100% of the AKs in 2/3 of the patients after one treatment.

The first step is the application of a topical solution called Levulan. Abnormal cells have a much greater affinity for the solution and absorb it while the healthy cells do not. The solution is left on for an incubation period lasting anywhere from 15 minutes to 18 hours.

The second step of PDT is to apply a concentrated light source to activate the chemical reaction which destroys the abnormal cells. Since the solution is absorbed only in the damaged cells, the healthy cells are not affected. This process can cause a mild burning sensation during the treatment. Usually, this improves immediately after treatment and ends within 24 hours.

Following the treatment, most patients experience mild swelling, redness, and a peeling of the AK lesions and the surrounding tissue. Patients choosing a more aggressive treatment will experience more peeling and/or crusting of the damaged skin that resolves within in one or two weeks. The doctor can easily control the severity of these reactions by limiting the incubation period and the amount of exposure to the light source.

Patients not willing to experience a prolonged recovery time after the procedure may choose a more mild treatment and return to work after a day or two. The tradeoff is that they will require more treatments to achieve the same clinical results.

In addition to eliminating AKs and the subsurface skin damage, PDT has also been effective in improving the appearance of the skin by greatly reducing moderate to severe acne (including cystic acne), reducing color splotches, lessening the fine lines, and decreasing pore size.

Anyone who currently has, has had, or wants to prevent AKs or pre-cancerous skin lesions should be evaluated and treated using UV photography and photodynamic therapy (PDT)." Once a person has been successfully treated using this approach, it is recommended they return for a yearly follow up to prevent future problems.

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

New Approach Prevents Skin Cancer Using Photodynamic Therapy (PDT)

Every year there are more new cases of skin cancer than breast, prostate, lung and colon cancers combined. One in 5 Americans will get skin cancer in their lifetime. 90% of skin cancers are caused by excessive sun exposure, yet fewer than 33 percent of adults, adolescents, and children routinely use sun protection.

Cancer prevention and early detection techniques could eliminate up to 100,000 cancer cases and 60,000 US cancer deaths each year. New technologies in the evaluation and treatment of sun damaged skin could have a positive impact on changing these statistics.

The same sunny weather that attracts so many tourists and new residents to the sun-belt also increases the risk of skin cancer. The effects of chronic sun exposure result in superficial sun spots that are visible and also invisible changes that occur under the skin's surface. Ultraviolet photography and photodynamic therapy (PDT) are two recent developments that should help in the early detection and treatment of both types of pre-cancerous skin lesions.

Early Detection with UV Photography Ultraviolet (UV) photography offers a very useful screening tool to help the skilled physician detect sun damaged skin that may not be visible upon a routine examination. Visual inspection can only detect changes on the skin's surface, but damage due to sun exposure occurs beneath the outer layer of skin,

The UV camera briefly shines ultraviolet light on the face. UV light is able to penetrate 1.5-2.0 millimeters under the visible dead layer of skin and focus on the actual living portion where sun damage originates. The advantage to the doctor and the patient is that this technology allows for much earlier detection of skin problems before they develop into pre-cancers that are visible on the skins surface. After finishing the treatment plan, the doctor should take another UV photo to verify the treatment efficacy. UV photography also helps evaluate other skin conditions including acne, oil balance, hydration, inflammation, growths, fungi, pH, and thin skin due to reduced collagen which makes it an ideal tool to evaluate all problem skin.

After the damage to the deeper layers of skin, superficial signs of sun damage may eventually appear on the surface. The most common surface lesion is known as actinic keratoses (AK). AKs usually appear as rough or scaly patches. They may also flake, crust, and may temporarily disappear and then return.

An AK is most likely to appear on the face, ears, scalp, neck, backs of the hands and forearms, shoulders, and lips - the parts of the body most often exposed to sunshine. The scaly patch may be light or dark, tan, pink, red, or a combination of these...or the same color as your skin.

It is estimated that 10-20% of untreated AKs will develop into squamous cell cancers. If treated early, almost all AKs can be eliminated without becoming skin cancers. If you have AKs, it indicates that you have sustained sun damage and have a higher risk for developing all types of skin cancer - not just squamous cell carcinoma.

The more keratoses a person has, the greater the chance that one or more may turn into skin cancer. People may also have up to 10 times as many subclinical (invisible) lesions as visible, surface lesions. These invisible lesions were undetectable until the development of the UV camera.

Treatment options The most common treatment options for AKs have traditionally involved topical ointment 5-FU (Effudex), laser resurfacing, or chemical peels. To avoid the prolonged recovery period and possible scarring associated with these techniques, photodynamic therapy has been developed.

Photodynamic therapy (PDT) is the treatment of choice for the invisible deeper sun damage as well as the visible pre-cancerous AK lesions. PDT involves a two step process that has been proven effective in clinical testing. This treatment cleared 100% of the AKs in 2/3 of the patients after one treatment.

The first step is the application of a topical solution called Levulan. Abnormal cells have a much greater affinity for the solution and absorb it while the healthy cells do not. The solution is left on for an incubation period lasting anywhere from 15 minutes to 18 hours.

The second step of PDT is to apply a concentrated light source to activate the chemical reaction which destroys the abnormal cells. Since the solution is absorbed only in the damaged cells, the healthy cells are not affected. This process can cause a mild burning sensation during the treatment. Usually, this improves immediately after treatment and ends within 24 hours.

Following the treatment, most patients experience mild swelling, redness, and a peeling of the AK lesions and the surrounding tissue. Patients choosing a more aggressive treatment will experience more peeling and/or crusting of the damaged skin that resolves within in one or two weeks. The doctor can easily control the severity of these reactions by limiting the incubation period and the amount of exposure to the light source.

Patients not willing to experience a prolonged recovery time after the procedure may choose a more mild treatment and return to work after a day or two. The tradeoff is that they will require more treatments to achieve the same clinical results.

In addition to eliminating AKs and the subsurface skin damage, PDT has also been effective in improving the appearance of the skin by greatly reducing moderate to severe acne (including cystic acne), reducing color splotches, lessening the fine lines, and decreasing pore size.

Anyone who currently has, has had, or wants to prevent AKs or pre-cancerous skin lesions should be evaluated and treated using UV photography and photodynamic therapy (PDT)." Once a person has been successfully treated using this approach, it is recommended they return for a yearly follow up to prevent future problems.

Sun Exposure & UV Rays - The Basic Facts   

Sun Exposure & UV Rays - The Basic Facts

The human body benefits from sun exposure. And a little bit of tan protects you from the sun. Right? Wrong!

The body does indeed benefit from sun exposure. But a little bit of tan does not necessarily protect you from the sun. Let's see why.

The sun's rays are a major source of vitamin D and help the body's systems acquire much needed calcium for building healthy bones. However, most people don't need to spend large amounts of time exposed to the sun in order to get their required amount of vitamin D.

In fact, the body's health can actually suffer negative effects when it's exposed too long to the sun's rays, especially if it's unprotected. Results can vary from skin and eye damage to immune system suppression and ultimately cancer, even for the young.

So let's look at the basic facts about sun exposure.

There are three kinds of invisible ultraviolet (UV) rays in the sun that reaches earth: UVA, UVB, and UVC. When these rays come in contact with our skin, affects of UVA and UVB can be - tans, burns and other reactions (e.g. like acne and cancer).

It's also notable that the effects of all UV rays are not the same. Depending upon the season, time of day and place on the planet in relation to the sun - (i.e. your altitude and latitude), the rays' intensities vary. For example, during summertime, UV rays are at their strongest. Between 10 a.m. and 4 p.m., the rays are strongest. And close to the equator and at high altitudes (where air and cloud cover are less, resulting in increased harmful penetration of UV rays into the environment), the rays are also strongest.

In order to protect ourselves from the harmful UV rays, let's look at the skin's first defense - melanin.

Melanin is a chemical present in a variety of colors and concentrations in most people's skin that helps with defense from the sun. Melanin reacts with UV rays and absorbs them. Or rather, to be more specific, the rays act upon melanin, causing the melanin to spread out or grow, increasing its presence in response to the sun's exposure. The result? A 'sun tan'. The darker the skin color, the more melanin the skin has for protection. And 'tanning' for darker color is included here; 'color' does not have to refer to just the original skin color.

A word of caution...

Tanning may look great on the surface, - but the amount and length of time a person is exposed to the sun, determines the amount of possible damage. It also determines the future risk of damage that's likely.

For example, people who are exposed to the sun in huge doses like ship crews, field workers and beach surfers, are at higher risks for skin damage than indoor workers. What happens is that when the amount of UV exposure is greater than what the skin's melanin can handle, sunburn can result. And those with lighter, fairer skin, who have less melanin, absorb less UV, suffering less protection.

Since research has shown that UV damage from the sun is the main cause of skin cancer, (with as high as 20% of some populations developing skin cancer during their lifetime), we need to take a proactive approach in relation to sun exposure to avoid harmful skin damage.

As we say colloquially here in Australia - "Slip, Slop, Slap". (I.e. 'Slip' on a shirt, 'Slop' on a hat, 'Slap' on a sunscreen). Look after the skin you've got, because you're the one who will be living with it!

Sun Exposure & UV Rays - The Basic Facts   

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