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Protect Against Sun-Induced Skin Aging From The Inside Out

  [ Not Yet Rated ]   [ Discuss This Article ]
By Michael Downey • www.ProHealth.com • July 19, 2014


Protect Against Sun-Induced Skin Aging From The Inside Out
Skin Protection From The Inside Out: What You Need to Know
  • Most people assume that the only protection against the skin-aging effects of ultraviolet light must come from topical skin application. But research demonstrates that the oral fern extract Most people assume that the only protection against the skin-aging effects of ultraviolet light must come from topical skin application. But research demonstrates that the oral fern extract Polypodium leucotomos works deep inside the skin to protect against ultraviolet rays and reduce skin aging.
  • Sunscreens are an important defense, but most people apply them too lightly and inconsistently.
  • Numerous studies indicate that Numerous studies indicate that Polypodium leucotomosinhibits inhibits degradative matrix remodeling, a main cause of photoaging. Most remarkable - it exerts these effects when taken orally.
  • This novel extract inhibits - and even repairs—the ultraviolet damage that prematurely ages the skin. Oral This novel extract inhibits - and even repairs - the ultraviolet damage that prematurely ages the skin. Oral Polypodium leucotomos is the most potent tool for preventing photoaged skin, especially when used with topical sunscreen for complete protection.
Even if you're exposed to solar rays for just a few minutes a day, photons in the sun's ultraviolet rays can wreak havoc on your skin, leading to wrinkles, age spots, and more.

Most people think that topical sunscreen is the best way to protect against the negative effects of ultraviolet radiation. But even if you faithfully apply sunscreen daily, some parts of your body remain vulnerable to the skin-aging and DNA-damaging effects of the sun.

Fortunately, there is an additional way to protect your skin.

A natural plant compound works at a deep level inside your skin's cells to reduce the effects of harmful ultraviolet rays and blunt skin aging

Polypodium leucotomos is a tropical fern extract containing a natural mixture of phytochemicals that have been shown to inhibit photoaging.(4-6) It inhibits a protein-degrading enzyme that is a prime cause of photoaging.(7) Most strikingly - it exerts its effects when taken orally.(4,5)

In this article, you'll learn how this plant extract significantly prevents(4,5 —and even repairs(5) - the ravages of ultraviolet radiation that lead to premature skin aging.

How The Sun Ages Your Skin

Your skin is exposed to the damaging rays of the sun far more than you realize. Even if you're only in the sun a few minutes a day, the photons (gamma rays) in the sun's ultraviolet (UV) rays can alter the structure of your skin(7) - leading to premature skin aging, wrinkles, sun spots, and more. UV rays are extremely damaging to your skin in a number of ways:
  1. The photons in the sun's UV rays oxidize proteins, which correlates with accelerated or premature aging.(8-10) Oxidation from UV radiation activates matrix metalloproteinase (MMP), enzymes that break down elastin and collagen—the proteins responsible for keeping your skin supple and firm.(11,12)
  2. UV radiation induces oxidative stress that triggers the release of proinflammatory cytokinesand growth factors, which further alter elastin and collagen. The result is accumulated breakdown of the skin's structural integrity.(11)
  3. UV rays generate free radicals and other harmful substances that damage DNA. The DNA encodes the information responsible for the continuing production of healthy new skin cells.(13)
  4. Ultraviolet radiation reduces skin levels of Langerhans cells, specialized immune cells that are abundantly found in the skin and are responsible for protecting against invading pathogens and for participating in the immune response.(13-16)
These destructive effects on tissue structure are eventually visible as photo-aged skin. The prominent clinical sign is wrinkling, but other effects include a loss of elasticity, age spots, hypo- or hyper-pigmentation, spider veins, and blackheads.(17)

Some people currently rely totally on topical sunscreens—but scientists have found this protection alone to be largely inadequate.(17-19)

The good news is that scientists have now established that an extract of the fern Polypodium leucotomos contains a high percentage of photo-protective compounds that block the skin aging that results from sun exposure.(5)

Unleash Your Skin's Internal Ultraviolet Defenses

For centuries, Honduran natives have protected themselves against sun damage and skin disorders by ingesting Polypodium leucotomos fern extract. The first report on its effectiveness was published 47 years ago in the journal Nature,(20 and since then, clinical trials have demonstrated that this antioxidant-rich extract safely bolsters the skin's defenses against the accelerated aging caused by ultraviolet rays.(5)

Polypodium leucotomos contains photoprotective compounds—phenolsbiological acidic molecules,and monosaccharides—that prevent the sun's rays from breaking down the body's own photoprotective molecules. Studies suggest no significant toxicity or allergenic properties.(5,6,21)

By preserving this natural, built-in protection against sun damage, Polypodium leucotomos exhibits strong anti-aging activity on the skin, both superficial and deeper layers.(22)

Polypodium leucotomos works in a number of ways to protect the structural integrity of your skin:
  1. Polypodium leucotomos prevents the destructive structural changes in the skin associated with increased oxidative stress. For example, Polypodium leucotomos inhibits ultraviolet light's dramatic disorganization of microfilaments—the tough but flexible, fibrous framework that supports skin cells.(22<)
  2. It also inhibits the ultraviolet light-induced mislocation of adhesion points between cells themselves, and also between cells and the surrounding matrix.(22,23 These adhesion points hold separate cells together and provide tissues with structural cohesion and an important signaling pathway—without which skin breakdown may occur.(24,25)
  3. Polypodium leucotomos extract helps protect the skin from premature aging by inhibiting several matrix metalloproteinases—enzymes that break down elastin and collagen—and by increasing the expression of tissue inhibitors of metalloproteinases (TIMP), your body's own inhibitor of metalloproteinase.(26,27)
  4. Polypodium leucotomos stimulates molecules that are reduced in the skin during the onset of photoaging—such as elastin, collagen, and transforming growth factor beta (TGF-beta), which is a protein that activates a host of signaling pathways involved in many cellular processes.(26,28)
  5. Ultraviolet radiation also damages cellular membranes in the skin by inducing lipidperoxidation.(29,30 Polypodium leucotomos extract blocks this process and thus prevents skin damage.(31)
  6. Recent research has established the effectiveness of Polypodium leucotomos at naturally protecting both ultraviolet-radiated and non-radiated fibroblasts(26 —cells that synthesize the extracellular matrix and collagen, the structural framework of skin tissue.(32)
  7. Additionally, extracts of Polypodium leucotomos have been shown to inhibit protein-destroying skin enzymes that decrease skin elasticity,(31 to inhibit damaging skin inflammation,(33 and to promote the survival of healthy skin cells.(22,33)
So by protecting from the harmful ultraviolet rays as well as blocking the multiple forms of damage they cause, Polypodium leucotomos extract provides the skin with extraordinary protection from photoaging(1,34 - allowing you to retain a high degree of healthy, youthful skin despite chronological aging.(2) Restore Sun-Damaged Skin

Remarkably, scientists found that Polypodium leucotomos not only prevents, but also repairs, the sun's damaging effects on the skin. It prevents sun-aged skin by directly inhibiting MMP (matrix metalloproteinase) expression, preventing the breakdown of collagen in the first place. It repairssun-aged skin by stimulating new production of collagen and elastin(5,31,32 —healing and regenerating photoaged skin after exposure to ultraviolet radiation.(5)

The regenerative properties underlying this anti-aging effect include reactive oxygen species scavenging capability, inhibiting premature apoptosis (cell death), and blocking improper extracellular matrix rearrangements that occur during oxidative damage.(5 These activities suggested to scientists that the benefits of Polypodium leucotomos may extend beyond skin care—and may be useful as a systemic anti-aging and antioxidant tool.(5)

In fact, scientists already suggest looking beyond the anti-aging effects of Polypodium leucotomoson the skin—and towards future research on its effects on other parameters related to body aging, such telomere length and telomerase activity.(5)

Four Problems with Suncreens
  1. The first problem with relying on sunscreens alone for skin protection is finding one that works. The only truly effective sunscreens are those that provide equal protection across the full range of ultraviolet B (UVB) and ultraviolet A (UVA) light.(54 Protecting against both is vital because short wavelength UVB injures the outer layers of the skin (epidermis), while long wavelength UVA damages deeper layers of the skin (dermis).(55)
  2. Second, studies demonstrate that most people apply sunscreen incorrectly and fail to consistently reapply when required—and further demonstrate that it is still important to avoid unnecessary sun exposure after its application.(17-19 Many consumers apply only 25 to50% of the amount used for SPF testing.(18) This results in an SPF that is 50% or less effective than the labeled SPF.(18)
  3. A third problem with sunscreens was underscored by a 2014 study showing that infrared radiation (IR)—which is outside the ultraviolet range—can also contribute to skin photoaging.Sunscreens do not generally protect against infrared radiation, and scientists have been scrambling to develop products that do.(56)
  4. Finally, no matter how effective and properly applied, topical sunscreens do not provide uniform, total-body surface protection—leaving the eyes, lips, and scalp open to damage by the sun's rays.
  5. To block photoaging, sunscreens should always be carefully selected, applied in appropriate doses, reapplied at correct intervals, and used in conjunction with other photoprotective measures,(54 such as shade, clothing—and ideally, an internal, whole-body protective option.
Powerful Skin Health Benefits

In an array of studies, Polypodium leucotomos has proven its ability to block the long-term skin-aging consequences of sun exposure—but the short-term benefits are equally impressive.

Sunburn

In the same way that oral Polypodium leucotomos extract can block long-term sun-induced skin aging, it will also help prevent the shorter-term skin damage known as sunburn, which over time greatly contributes to skin photoaging.

If you're used to covering up or using topical sunscreens, it may be difficult to imagine that swallowing a capsule could provide potent protection from harmful ultraviolet radiation from inside the skin. But multiple studies show that Polypodium leucotomos might increase the amount of time you can spend in the sun before your skin becomes red and inflamed.(1,2,34)

In an early clinical trial, 21 study participants experienced an almost 3-fold increase in the amount of UV radiation that would generate comparable redness/sunburn, compared to when they used no form of UV protection.(2 Those who took special drugs that increase photosensitivity experienced impressive results, in this case increasing the amount of UV radiation before visible suntan occurred by up to nearly 7 fold.(2,35)

In another study, scientists enlisted volunteers who had fair-to-light skin, which made them more naturally vulnerable to sunburn. The active group received Polypodium leucotomos extract in doses equivalent to 7.5 milligrams per kilogram of body weight—translating to 525 milligrams per 154-pound person—and was then directly exposed to varying doses of artificial ultraviolet radiation. Compared to control subjects, individuals taking Polypodium leucotomos extract experienced a substantial decrease in skin reddening.(1)

Microscopic effects are even more impressive. Extract-treated cells showed reduced skin damage caused by ultraviolet light—including significantly fewer sunburn cells, which are indicators of tissue injury.(1) 

Idiopathic Dermatoses

While sunburn is an inflammatory reaction with a known cause, some people are prone to specificskin disorders where the cause is unknown, called idiopathic dermatoses. This category can include polymorphic light eruption, a condition in which sufferers experience a skin rash after even brief exposure to sunlight.

In one study, when scientists gave idiopathic photodermatoses patients 480 milligrams per day of oral Polypodium leucotomos and then exposed them to sunlight, an astounding 80% of treated patients reported improvement.(36)

And in a more recent study of 57 patients with idiopathic photodermatoses, when subjects orally took 480 milligrams of Polypodium leucotomos daily and then exposed themselves to sunlight,73% of the patients experienced a significant reduction in symptoms.(37)

Skin Cancer

The same sunlight that leads to structural changes and accelerated skin aging can trigger changes that boost the risk of skin cancer.(38) Even though skin cancer now accounts for over 40% of all US cancers,(39) unprotected ultraviolet light exposure is the most preventable risk factor for skin cancer.(40) Fortunately, the same mechanisms through which Polypodium leucotomos protects the skin from photoaging provide unprecedented defense against skin cancer as well.(1,6,29,31,34,41-44)

Scientists found that oral Polypodium leucotomos appears to promote skin health by maintaining the skin's Langerhans cells, which scavenge toxins and debris.(1,2) They also found that the oral extract reduces ultraviolet light-induced DNA damage and mutations.(1,45)


CHRONOLOGICAL AGING VERSUS PHOTOAGING
Chronological aging of the skin is predetermined by each individual's physiological predisposition.

Sun-induced aging of the skin - or photoaging - varies with the degree of sun exposure and the amount of melanin in the skin.

Chronological aging of the skin is characterized by laxity and fine wrinkles, as well as possible development of benign growths such as seborrheic keratoses and angiomas. However, chronological aging is not associated with increased or decreased pigmentation or with the very deep wrinkles that are characteristic of photoaging.(57) This form of skin aging can occur anywhere on the body.

Sun-induced photoaging is clinically characterized by deep wrinkles, as well as mottled pigmentation, rough skin, skin tone loss, to name a few.(58,59) The accelerated aging of skin-photoaging-occurs most often on sun-exposed areas of the skin, such as the face, neck, upper chest, hands, and forearms.(60)

Seborrheic keratoses - small, benign, wart-like growths - are regarded as a key biomarker of chronological or intrinsic skin aging.(57,60 They are not caused by, and appear independently of, sun exposure.

Vascular lesions - such as broken blood vessels, facial veins, rosacea, telangiectasias, and many other kinds of vascular blemishes - are regarded as a key biomarker of photoaging. They are not caused by, and appear independently of, intrinsic aging. Studies in humans and in mice have demonstrated that acute and chronic ultraviolet B (UVB) irradiation greatly increases skin angiogenesis (the formation of new blood vessels from existing vessels).(61-63)

Enhancing The Photo-Protective Effects Of Polypodium Leucotomos

Scientists were intrigued to identify a specific extract that further enhances the potent photoprotective effects of Polypodium leucotomos. Obtained from three red orange varieties (Citrussinensis var. Moro, Tarocco, and Sanguinello), this extract is known as Red Orange Complex and provides abundant phenolic compounds, including anthocyaninsflavanones, ascorbic acid, and hydroxycinnamic acids.(46-48)

Early lab studies indicated that Red Orange Complex exerts an anti-inflammatory effect on human cells, including keratinocyte cells(48) - the predominant cell type in the epidermis. In cell culture studies, this complex has been shown to inhibit the growth and development of human cancer cells(49) and to inhibit cell death caused by UVB rays.(50)

In addition, in vivo research demonstrated that Red Orange Complex provides topical photoprotection against UVB-induced skin redness.(46,51) Supplementation was also found to increase serum thiol groups - which are free-radical quenchers - in individuals exposed to significant automobile exhaust pollution in the workplace(52) and were also found to reduce oxidative stress.(53)

Encouraged by these results, scientists conducted a clinical trial to study the complex's photoprotective capacity. Enrolling 18 volunteers, the study team measured the effects of oral Red Orange Complex supplementation on UVB-induced damage. After 15 days, the intensity of the induced redness decreased by about 35% - demonstrating significant sun protection for the skin.(51)

These various outcomes demonstrate that Red Orange Complex supports Polypodium leucotomosto further inhibit the aging effects of ultraviolet radiation on the skin.


Enhancing The Photo-Protective Effects Of Polypodium Leucotomos Scientists were intrigued to identify a specific extract that further enhances the potent photoprotective effects of Polypodium leucotomos. Obtained from three red orange varieties (Citrus sinensis var. Moro, Tarocco, and Sanguinello), this extract is known as Red Orange Complex and provides abundant phenolic compounds, including anthocyanins, flavanones, ascorbic acid, and hydroxycinnamic acids.(46-48)

Early lab studies indicated that Red Orange Complex exerts an anti-inflammatory effect on human cells, including keratinocyte cells(48) - the predominant cell type in the epidermis. In cell culture studies, this complex has been shown to inhibit the growth and development of human cancer cells(49) and to inhibit cell death caused by UVB rays.(50)

In addition, in vivo research demonstrated that Red Orange Complex provides topical photoprotection against UVB-induced skin redness.(46,51) Supplementation was also found to increase serum thiol groups - which are free-radical quenchers - in individuals exposed to significant automobile exhaust pollution in the workplace(52) and were also found to reduce oxidative stress.(53)

Encouraged by these results, scientists conducted a clinical trial to study the complex's photoprotective capacity. Enrolling 18 volunteers, the study team measured the effects of oral Red Orange Complex supplementation on UVB-induced damage. After 15 days, the intensity of the induced redness decreased by about 35% - demonstrating significant sun protection for the skin.(51)

These various outcomes demonstrate that Red Orange Complex supports Polypodium leucotomosto further inhibit the aging effects of ultraviolet radiation on the skin.

TOPICAL VERSUS ORAL SUNSCREEN
Sunscreens are generally applied in insufficient dosages such that the effective SPF is 50% or less than the labeled SPF(18) and they're seldom reapplied as required. Sunscreens do notgenerally block infrared radiation.(56,63) Also, few people are in the habit of wearing sunscreen on cloudy days—but radiation scattering by clouds can result in higher total radiation levels on partly cloudy days than on completely sunny days. In fact, 80% of ultraviolet light can penetrate light cloud cover.(64)

Oral Polypodium leucotomos tropical fern extract can block UV and IR radiation at the cellular level and can inhibit the many cellular skin photoaging effects.(2,5,22,26,31,33,34)

Sunscreens have one key mechanism: they function at the skin surface by limiting the amount of solar radiation that penetrates deeper to trigger photoaging.

Oral Polypodium leucotomos is active at multiple levels—from the skin surface to deep inside and in between skin cells, exerting broad effects that protect skin from the effects of radiation. Working through multiple mechanisms, Polypodium leucotomos reduces photoaging by:(2,5,22,26,31,33,34)
  • Preventing decomposition of the body's photoprotective molecules
  • Reducing the remodeling of the tissue matrix
  • Inhibiting oxidative stress-induced morphological (structural, form-related) changes
  • Preventing radiation-induced loss of cell-to-cell and cell-to-matrix anchorage points
  • Inhibiting several matrix metalloproteinases
  • Stimulating an endogenous tissue inhibitor of metalloproteinase (TIMP)
  • Reducing lipid peroxidation
  • Protecting fibroblasts
  • Inhibiting elasticity-decreasing enzymes
  • Lowering inflammation
  • Inhibiting apoptosis
  • Scavenging reactive oxygen species (ROS)
  • Repairing photoaging damage by stimulating elastin, collagen, and transforming growth factor beta (TGF-beta), and
  • Preventing DNA damage.

Summary

Many people assume that protection from the skin-wrinkling effects of ultraviolet radiation must occur outside the body - but clinical research shows that an oral extract of the fern Polypodium leucotomos works deep inside the skin to protect against ultraviolet rays and block skin aging.(1-3)

Polypodium leucotomos has been shown in numerous studies(4,5)to inhibit degradative matrix remodeling, a main cause of photoaging.(6) And most striking—it exerts these effects when taken orally.(4,5)

This novel extract helps prevent(4,5) - and even repair(5) - ultraviolet radiation damage that prematurely ages the skin.

The most effective program to protect against the accelerated skin aging (photoaging) involves limited exposure to sunlight (especially between noon and 2:00 p.m.), liberal application and reapplication of a quality topical sunscreen, and regular oral supplementation with Polypodium leucotomos fern extract with Red Orange Complex to further enhance the fern extract's effectiveness.

References
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  2. González S, Pathak MA, Cuevas J, Villarrubia VG, Fitzpatrick TB. Topical or oral administration with an extract of Polypodium leucotomos prevents acute sunburn and psoralen-induced phototoxic reactions as well as depletion of Langerhans cells in human skin. Photodermatol Photoimmunol Photomed. 1997 Feb-Apr;13(1-2):50-60.
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