Sex-Dependent Skin Aging and Rejuvenation Strategies

: The skin, the largest external organ, serves as the primary defensive barrier against various environmental factors such as ultraviolet exposure, pollution, dietary habits, pathogens, and chemical compounds. Consequently, the skin reﬂects our age through visible signs of aging, such as wrinkles, age spots, dullness, and sagging. This review explores the gender-related aspects of cutaneous aging and the associated dermatological conditions. It highlights the different manifestations of aging in females and males that become evident after the age of 12, emphasizing the susceptibility to conditions such as seborrheic eczema, acne, and rosacea. Treatment strategies often vary between genders due to these disparities. While men tend to experience accelerated skin aging, most anti-aging products and strategies primarily target females. However, there has been a recent shift in men’s priorities, leading to increased interest in maintaining a youthful appearance and seeking cosmetic treatments. The manuscript covers a comprehensive range of modern dermal anti-aging and rejuvenation procedures, including plastic surgery, bio-revitalization methods, lasers, microneedling, and topical treatments. Additionally, it explores promising natural and synthetic therapeutics for combating age-related skin changes. The focus is on understanding the physiological aspects of gender-related cutaneous structure and aging to guide effective and tailored approaches in dermatological practice.


Introduction
Aging is a gradual process characterized by a progressive loss of adaptation and the accumulation of wear and tear throughout life, leading to an increased risk of morbidity and mortality [1].However, aging is a natural phenomenon that all humans will experience [1].
The skin is the largest external organ in the human body and acts as the first line of defense against various external factors that can be harmful, such as ultraviolet (UV) exposure, environmental pollution, pathogens, and chemical compounds [2,3].Due to the skin's reduced ability to adapt to these stressors, the skin displays signs of aging, including wrinkles, age spots, dullness, and sagging texture.Facial skin, in particular, exhibits the first signs of aging, such as fine lines and shallow wrinkles at the outer corners of the eyes, commonly known as crow's feet.Although aging is an inevitable biological process, it is associated with various cutaneous and systemic pathologies, including degenerative disorders and benign and malignant neoplasms [4].Understanding the physiological and pathological processes occurring in the skin, including the interplay of gender differences and biological mechanisms like extracellular matrix (ECM) protein synthesis, ECM degradation, molecular aspects of metabolic activity, and cell cycle regulation, is crucial for the development of anti-aging therapies [5].
Initially, the physiological properties of the skin, such as hydration of the stratum corneum, transepidermal water loss (TEWL), sebum content, and pH value, appear similar  Cutaneous aging is a complex process involving: intrinsic aging, also known as chronological aging, which is genetically determined; and extrinsic aging, which is caused by environmental factors such as chronic sun exposure, known as photoaging [13].Aging is characterized by the gradual development of wrinkles, sagging skin, and drooping.Intrinsically aged skin appears dry and exhibits fine wrinkles, but it remains relatively smooth and light [14].In contrast, extrinsically photoaged skin presents with thickened layers, a "leathery" appearance, rough wrinkles, pigmentation (referred to as "age spots", or actinic lentigines), and capillary telangiectasia [15,16].

Skin Functions and Structure
The skin, as the outermost and most prominent defensive organ in the human body, plays a crucial role in maintaining homeostasis.It achieves this through various functions, including the prevention of percutaneous loss of electrolytes, fluids, and proteins, the regulation of temperature, the mediation of immune activity, and sensory perception.
The outermost layer of the epidermis, known as the stratum corneum, serves two essential functions.Firstly, it acts as a barrier, providing waterproofing and physical protection against environmental factors such as UV radiation, temperature extremes, microbial invasion, allergens, and chemical irritants.Secondly, it plays a role in maintaining the body's water balance, as the human body consists of approximately 60-70% water.Additionally, the skin carries out vital processes such as cell proliferation, differentiation, stem cell maintenance, and programmed cell death, which contribute to the regeneration and healing of wounds.Cutaneous immune surveillance is also a key function, involving the synthesis and release of pro-and anti-inflammatory mediators, including cytokines, chemokines, and trophic factors, as well as the antimicrobial activity of the sebum.The skin has an endocrine role as well, being responsible for synthesizing vitamin D, steroids, and peptide hormones.It expresses functional hormone receptors and enzymes involved in hormonal synthesis and metabolism.Exocrine functions encompass the production and release of sweat and sebum, which are essential for thermoregulation, physical barrier formation, and antimicrobial activity.
The skin plays a vital role in maintaining body temperature through insulation, control of heat loss mechanisms (such as radiation, convection, and conduction), vasoregulation (where vasodilation promotes heat loss and vasoconstriction preserves body heat), evaporation, and piloerection (which assists in insulation).Cutaneous motor function involves the regulation of blood vessel dilation, constriction, and piloerection [3].
Furthermore, the skin contributes to body homeostasis by preventing the loss of fluid, electrolytes, and proteins.It facilitates the transport of respiratory gases and nutrients between skin layers and to/from the skin surface.Additionally, it has the ability to absorb topically applied medications.The skin also acts as a sensory perception organ, responsible for sensing heat, cold, touch, pressure, vibration, pain, and itch (which are related to tissue injury).It releases neuropeptides that regulate local vasculature, immune responses, inflammation, and trophic functions (Figure 2) [14,17].
The skin is composed of three distinct but functionally interdependent layers: the epidermis, dermis, and hypodermis.The thickness of these cutaneous layers varies across different regions of the body and is determined by the unique structural characteristics of the epidermis and dermis.For instance, "thick skin" is typically found on the palms of the hands and soles of the feet.It is characterized by being hairless and having an additional layer in the epidermis called the stratum lucidum.On the other hand, the skin on the face and most other parts of the body is considered "thin" as it lacks the stratum lucidum layer in the epidermis.The skin is composed of three distinct but functionally interdependent layers: the epidermis, dermis, and hypodermis.The thickness of these cutaneous layers varies across different regions of the body and is determined by the unique structural characteristics of the epidermis and dermis.For instance, "thick skin" is typically found on the palms of the hands and soles of the feet.It is characterized by being hairless and having an additional layer in the epidermis called the stratum lucidum.On the other hand, the skin on the face and most other parts of the body is considered "thin" as it lacks the stratum lucidum layer in the epidermis.

Epidermis
The epidermis, derived from the ectoderm, serves as the outermost layer of the skin [3].It is comprised of various cell types, including keratinocytes, Langerhans cells, melanocytes, and neuroendocrine (Merkel) cells, and lacks blood vessels.The

Epidermis
The epidermis, derived from the ectoderm, serves as the outermost layer of the skin [3].It is comprised of various cell types, including keratinocytes, Langerhans cells, melanocytes, and neuroendocrine (Merkel) cells, and lacks blood vessels.The arrangement of the epidermal cells varies depending on their maturation stage and location in the body, typically forming four to five layers (Figure 2).These layers, from internal to external, are the stratum basale, stratum spinosum, stratum granulosum, stratum lucidum (absent in the "thin skin"), and stratum corneum (SC) [3].
Notably, the SC functions differently depending on gender and age (Table 1).It plays a crucial role in maintaining skin hydration, TEWL, and water retention, preventing skin cracking.The SC is comprised of corneocytes, which are anucleated keratinocytes that have reached the final stage of differentiation.These corneocytes retain keratin filaments within a filaggrin matrix, and the cornified lipid envelope replaces the keratinocyte plasma membrane [18].

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The epidermis undergoes renewal every two weeks through the activity of stem cells within the basal layer, also known as the germinativum.These highly proliferative stem cells support the production of differentiated progeny, ensuring the maintenance of a robust external barrier.The predominant cell type in the epidermis and its appendages is the keratinocyte.Keratinocytes produce various types of keratins, secrete lipids that regulate the epidermal water barrier, and synthesize vitamin D from cholesterol precursors under the influence of UV radiation [18].Keratins, the primary structural proteins in the epidermis, form intermediate filaments that are categorized into type I and type II keratins (Figure 3) [19].Alongside actin microfilaments and microtubules, keratin filaments contribute to the cytoskeletons of vertebrate epithelial cells, providing mechanical anchoring and strength to keratinocytes.They are organized into stabilized cell-cell adhesions called desmosomes as well as cell-substratum adhesions known as hemidesmosomes (Figure 2).Disruptions in these adhesive components and mutations in keratin genes can lead to cellular fragility, making the skin prone to rupture under physical stress and resulting in blistering skin disorders such as epidermolysis bullosa [20].
Notably, the SC functions differently depending on gender and age (Table 1).It plays a crucial role in maintaining skin hydration, TEWL, and water retention, preventing skin cracking.The SC is comprised of corneocytes, which are anucleated keratinocytes that have reached the final stage of differentiation.These corneocytes retain keratin filaments within a filaggrin matrix, and the cornified lipid envelope replaces the keratinocyte plasma membrane [18].
The epidermis undergoes renewal every two weeks through the activity of stem cells within the basal layer, also known as the germinativum.These highly proliferative stem cells support the production of differentiated progeny, ensuring the maintenance of a robust external barrier.The predominant cell type in the epidermis and its appendages is the keratinocyte.Keratinocytes produce various types of keratins, secrete lipids that regulate the epidermal water barrier, and synthesize vitamin D from cholesterol precursors under the influence of UV radiation [18].Keratins, the primary structural proteins in the epidermis, form intermediate filaments that are categorized into type I and type II keratins (Figure 3) [19].Alongside actin microfilaments and microtubules, keratin filaments contribute to the cytoskeletons of vertebrate epithelial cells, providing mechanical anchoring and strength to keratinocytes.They are organized into stabilized cell-cell adhesions called desmosomes as well as cell-substratum adhesions known as hemidesmosomes (Figure 2).Disruptions in these adhesive components and mutations in keratin genes can lead to cellular fragility, making the skin prone to rupture under physical stress and resulting in blistering skin disorders such as epidermolysis bullosa [20].Keratinocytes are produced by mitotically active stem cells.As they move toward the skin's surface, they gradually undergo changes and transform into flattened corneocytes.Each stage of differentiation brings about morphofunctional and metabolic modifications, corresponding to the formation of a new epidermal layer.Stem cells in the germinative layer primarily express keratins 5 and 14 [18].During the transition from basal to spinous type, keratinocytes enter a postmitotic state and start expressing keratins 1 and 10.This transition is accompanied by an upregulation of desmosomes, resulting in a spiny-like Keratinocytes are produced by mitotically active stem cells.As they move toward the skin's surface, they gradually undergo changes and transform into flattened corneocytes.Each stage of differentiation brings about morphofunctional and metabolic modifications, corresponding to the formation of a new epidermal layer.Stem cells in the germinative layer primarily express keratins 5 and 14 [18].During the transition from basal to spinous type, keratinocytes enter a postmitotic state and start expressing keratins 1 and 10.This transition is accompanied by an upregulation of desmosomes, resulting in a spiny-like appearance.Simultaneously, the structure of desmosomes undergoes changes during differentiation [21][22][23].
The epidermal differentiation complex, located on chromosome 1q21, encompasses proteins essential for forming a barrier that prevents fluid loss.Tight junctions in the granular layer establish cell-cell adhesions to restrict the flow of fluids and ions (Figure 2).Eventually, granular cells die, leading to the formation of cornified envelopes that subsequently shed.Melanocytes produce melanin, which protects against UV radiation and induces pigmentation in basal keratinocytes.Females typically have lighter skin color compared to males due to differences in melanin, hemoglobin, and carotene [21].Hormonal changes, such as estrogen and testosterone, can also influence skin color.In early adolescence, girls may have darker skin; both sexes tend to have equal pigmentation in middle adolescence; and boys may become darker than girls in late adolescence [21][22][23].
Langerhans cells, dendritic cells located in the stratum spinosum, play a crucial role in maintaining immune defense.These cells, derived from CD34-positive stem cells, express MHC I and MHC II molecules and are part of the mononuclear phagocytic system [18].Recent studies show that cutaneous immune cells express transient receptor potential channels of the vanilloid subtypes (TRPV) 1, 2, 3, and 4, as well as cannabinoid receptor 2 (CB2) (Figure 2) [24].Merkel cells, on the other hand, are tactile epithelial cells found in the stratum basale.They act as mechanoreceptors for light touch and contribute to sensory functions through their interaction with the free nerve endings in the skin.Merkel cells are connected to neighboring keratinocytes via desmosomes and are mostly concentrated in the fingertips, palms, soles, and oral and genital mucosa [3,18].

Differences between Male and Female Epidermal Structure and Functions
The stratum corneum (SC) serves as the primary exposed layer and acts as the body's first line of defense against external exposures such as the sun, chemicals, wind, and temperature.Interestingly, the reaction of female and male skin to these factors varies depending on age.A study by Liu (2012) found no significant changes in SC hydration after sun exposure in either young or aged males, compared to their age-matched control subjects.In contrast, in young females, baseline hydration of the outermost layer did not differ significantly between sun-exposed and non-sun-exposed conditions.However, on both the forehead and dorsal hand of aged females, hydration was significantly lower in sun-exposed individuals compared to non-sun-exposed subjects [29].Surprisingly, the rehydration capacity of the SC also differs based on sex and age.Several studies have shown that male skin is more prone to hydration [26] (Table 1).After the application of moisturizer, the gender difference becomes evident on the dorsal hand of sun-exposed aged groups, with higher hydration levels observed in aged males compared to aged females (46.81 ± 1.97 for aged males and 37.52 ± 2.62 for aged females; p < 0.01).Age-related changes in corneal layer hydration were observed on the dorsal hand of sun-exposed young and aged females (54.10 ± 2.68 and 37.52 ± 2.62; p < 0.0001, respectively), as well as on the Dermato 2023, 3 202 canthus of non-sun-exposed young and aged males (57.10 ± 2.93 and 48.05 ± 2.76; p < 0.05, respectively) [2,13,22,23,29,30].
Interestingly, female hormones influence the composition of SC sphingolipids.In females, the composition of these lipids varies significantly with age, whereas in males, it remains relatively constant.From the prepubertal period to adulthood, there is a substantial increase in ceramides 1 and 2, accompanied by a decrease in ceramides 3 and 6 [30].These lipids play a crucial role in maintaining the water-permeability barrier function of the human epidermis [22].
Differences in the adhesive properties of the SC have been observed to be age-and hormone-related.Measurements of the time required for blisters to form by controlled suction in vivo indicate that dermal-epidermal separation is slower in females than males from ages 15 to 69.This disparity is more pronounced in the age ranges of 15-39 years compared to 40-69 years [31].Moreover, blistering time serves as a marker for dermo-epidermal adhesion and reflects the structural and mechanical integrity of the deep cutaneous layers.It confirms the association between age and reduced dermo-epidermal adhesion, which, in turn, contributes to the increased vulnerability of aged skin to shear-type and other injuries [32].

Dermis
The dermis is located beneath the epidermis and contains various structures such as hair, hair follicles, blood vessels, muscles, sensory neurons, and sweat glands.It is comprised of two layers of connective tissue: the papillary and reticular layers.The papillary layer, located close to the epidermis, is thinner and consists of loose connective areolar tissue.It contains fibroblasts, phagocytes, lymphatic capillaries, nerve fibers, and touch receptors called Meissner corpuscles [3].This layer provides mechanical support and supplies nutrients to the epidermis.Fibroblasts play a vital role in producing ECM components, including collagen bundles, thin elastic fibers, hyaluronan (also known as hyaluronic acid), and others, which form the dermal scaffold [3].
On the other hand, the reticular layer is thicker and composed of dense connective tissue with thicker collagen bundles and coarse elastic fibers.It is richly supplied with blood vessels as well as sensory and sympathetic nerves.Elastin fibers in the reticular layer contribute to dermal elasticity and movement.Collagen fibers, important for maintaining structural integrity and tensile strength, also have the ability to bind water and support skin hydration [18].

Differences between Male and Female Dermal Structure and Functions
The rate of collagen loss with age is similar for both genders, although the total dermal collagen content is lower in females compared to males at all ages [22].In the postmenopausal period, skin becomes thinner due to a reduction in cutaneous collagen content, primarily in the type III to type I collagen ratio [33,34].Recent studies have shown that hormonal replacement therapy with estrogen and testosterone for 2-10 years increases the mean hydroxyproline content and collagen content significantly.The collagen content was elevated by 48% (p < 0.01) compared to non-treated subjects [34].In females who received hormone replacement therapy for a median duration of 8 years, the portion of type III collagen increased by 25.4% (p < 0.01).Furthermore, after six months of estrogen implant therapy, the median cutaneous type III collagen increased from 19.9% to 22.5% (p < 0.01) [33].
The dermis, which determines dermal thickness, is the thickest layer of the skin.It is worth noting that men generally have thicker skin than women, except for the lower back, across all age ranges from 5 to 90 years.Interestingly, while males experience gradual cutaneous thinning with age, females' dermal thickness remains constant until the fifth decade and then decreases with age [22].Furthermore, it has been shown that men's skin is about 16% (p < 0.001) thicker than women's skin in age groups between 15 and 65.
However, in younger and older age groups, women have thicker skin, and the skin of the five-year-old age group is thicker than that of the 90-year-old age group [27].
Previous studies have demonstrated that there are no significant differences between males and females in terms of cutaneous elasticity and extensibility parameters, with gradual decreases in extensibility after 65 years.This decline is attributed to the deterioration and loss of certain structural components in the fibrous network of the adult dermis, including alterations in collagen cross-linking, reductions in glycosaminoglycans, and displacement of the interstitial fluid through the fibrous network with age [27].Another study by Xin et al. (2010) showed that the cutaneous resonance running time (CRRT), mainly influenced by collagen fibers in the papillary layers of the dermis, is negatively correlated with skin stiffness and positively correlated with SC hydration.The study found that CRRT is more prevalent on the hands compared to the forehead and canthus.Although age-related changes in CRRTs are less dramatic on the forehead and canthus, they still correlate negatively with age in all measured locations in both males and females [6].
Cutaneous functional properties such as elasticity, friction, and SC hydration do not show significant differences between males and females in both young (0-15) and elderly (over 70) age groups (Table 1).During the first two years of life, no differences in dermal TEWL, pH, or capacitance (corresponding to SC hydration) were observed based on sex or age.However, the skin of infants aged 8-24 months demonstrated functional signs of immaturity, which may be attributed to increased permeability and lower defense against chemical and microbial agents [7].
Another study examined different dermal mechanical properties across various age groups (20-74) and both genders.Cutaneous elasticity was measured three times on the cheek, neck, and dorsum of the hand to represent areas prone to extrinsic aging, while the volar forearm was selected as a predominantly sun-protected region.The results revealed a significant negative correlation between gross elasticity and age for both men (r = 0.811, p < 0.001) and women (r = 0.782, p < 0.001) in all tested areas, indicating an age-associated reduction in elasticity.On the other hand, the skin's ability to recover its elasticity after stretching was found to be more strongly affected by the aging process compared to dermal firmness.Moreover, the absolute parameters of skin distensibility (the capacity to swell) and immediate distensibility showed a significant negative correlation with age, with reductions of up to 50% observed in both genders.As a result, the measurements for males were significantly higher than those for females.The elastic properties of female skin experienced a sharp decline after the age of 30, while the age-related reduction in dermal results remained consistent in male skin [35].
Nerve endings, sweat glands, and sebaceous glands are all present in the dermis (Figure 3).The quantity and functional activity of these components influence dermal sensitivity, oiliness, and sweat production.Female skin is typically more sensitive than male skin, while men tend to sweat more than women [22].Furthermore, male skin is characterized by increased sebum production [22].

Hypodermis
The deepest layer of the skin, known as the hypodermis or subcutaneous fascia, is located beneath the dermis.It consists of adipocytes arranged in adipose lobules, as well as blood and lymphatic vessels, sensory neurons, sweat glands, fibroblasts, and skin appendages such as hair follicles (Figure 3).The color of the hypodermis can range from light to dark yellow, depending on the amount of carotene pigment present.The thickness of the hypodermis varies depending on location, hormonal status, genetics, and functional requirements.
In males, the hypodermis tends to be thicker in areas such as the lower back, abdomen, arms, and shoulders, primarily due to higher testosterone levels.On the other hand, in females, it is wider in the buttock (gluteus) muscles, hips, and thighs, which can be attributed to a higher amount of estrogen and increased lipoprotein lipase activity.Sexbased differences in the skin become more apparent after the age of 12, with subcutaneous fat increasing more than threefold in both sexes while internal fat mass increases less than two-fold.Importantly, females continue to accumulate more subcutaneous fat in the lower part of the body after the age of 12, whereas males do not experience the same increase [22].
The thickness of the hypodermis can vary across different regions of the body, with areas like the eyelids and external genitalia having a thickness of less than 1 mm.Together with other layers of the skin, the hypodermis plays a role in providing protection, insulation, and maintaining the shape of the body.Fibroblasts within the hypodermis produce ECM components that contribute to these functions.However, as aging occurs, the sponge-like architecture of the hypodermis deteriorates, leading to a loss of adipose and connective tissue that connects the bones and muscles to the dermis.This can result in a decrease in hypodermal thickness and ultimately contribute to a sagging appearance.

Hormones and Physiopathological Aspects of Gender-Related Cutaneous Aging
Gender-specific aspects of de rmal physiology also play a role in the predisposition and severity of certain skin conditions.Numerous studies summarized in Table 1 clearly indicate that the aging process differs between males and females.Hormonal changes occur as we age, including a decrease in estrogen after menopause and a decline in testosterone in aging men.Adrenal hormones such as dehydroepiandrosterone (DHEA) and dehydroepiandrosterone sulfate (DHEAS) also decrease significantly with age.Studies have shown that supplementation with these hormones can lead to a dramatic increase in sebum production, cutaneous hydration, and skin thickness [36].In men, the decline of testosterone is associated with the sexual dimorphism observed in aging, with testosterone levels decreasing as much as 0.4-2% annually after the age of 30.Importantly, males are more susceptible to the effects of free radicals and experience higher levels of oxidative stress compared to females.In contrast, females are enriched with estrogen, which acts as an innate antioxidant defense and regulates the expression of antioxidant molecules like superoxide dismutase [37].Furthermore, studies have demonstrated that men experience a decline of 3% to 6% in peak aerobic capacity per decade starting in their 30s and a decline of more than 20% per decade in their 70s and beyond.This steeper decline in aerobic and pulmonary function with age [38] contributes to accelerated cutaneous aging [38].
Physiologically, females have a thinner epidermis and dermis compared to males.They have less prominent facial musculature, a lower density of hair follicles, lower sebum and sweat production, and a decreased ratio of muscle to subcutaneous tissue [37].Consequently, the loss of hypodermal adipose tissue with age leads to deeper expression lines in men, while women typically develop superficial wrinkles (rhytides).Additionally, the reduction in androgen levels during aging results in epidermal thinning and flattening of the dermo-epidermal junctions, leading to cutaneous atrophy, diminished elasticity, impaired metabolic and reparative abilities, increased susceptibility to shear stress, reduced nutrient transfer, compromised skin barrier function, and alterations in hair follicles [37].
Hormonal changes primarily occur in a gender-specific manner, but exposure to external factors such as sunlight, lifestyle choices, and environmental pollutants can also accelerate the aging process.The cumulative exposure to these external factors increases with age.The interplay between extrinsic and intrinsic factors not only influences the speed of the aging process but also affects the predisposition to certain skin diseases such as acne vulgaris, actinic keratosis, eczema, and psoriasis and can exacerbate the penetrance of genetic conditions associated with premature aging, such as Hutchinson-Gilford Progeria syndrome and Werner syndrome (Table 2).

Treatments That Improve Cutaneous Appearance
Throughout history, humans have been in search of the mythical "Elixir of Youth", striving to extend their longevity and preserve a youthful appearance for as long as possible.Over time, we have developed various methods and techniques, ranging from diets and exercise regimens to pharmaceutical compounds and a wide array of cosmetic procedures, all aimed at slowing down the aging process.Despite the significant progress made in the field of anti-aging therapeutics and rejuvenation techniques, we are still in pursuit of groundbreaking therapies or extraordinary remedies that can truly rejuvenate the skin or the entire organism [4].
Strategies targeting anti-aging focus on preserving skin health and minimizing the visible signs of aging.Facial aging, in particular, is a multifaceted process involving muscle deterioration, loss of fat and volume, as well as changes in bony support [4].Modern approaches to dermal anti-aging and rejuvenation can be categorized into invasive, micro-invasive, minimally invasive, and non-invasive methods.These encompass surgical procedures, such as plastic surgery, as well as various techniques for skin revitalization and rejuvenation, including the augmentation and restoration of different skin layers using lasers, microneedling, injections, peels, and a multitude of topical treatments.Therefore, in this discussion, we will focus on popular anti-aging and rejuvenation procedures as well as promising natural and synthetic compounds used in topical and systemic therapies within the field of dermatology [4,52].

Invasive Procedures
Invasive procedures primarily involve plastic surgery rejuvenation treatments, with a focus on face-lift practices.These procedures aim to lift and tighten sagging skin on the face and neck.Typically performed under general anesthesia, they involve the excision of excessively loose dermal tissue.A facelift addresses issues such as nasolabial folds, midface drooping, a double chin, and loose neck skin, effectively reducing the visible signs of aging.Recovery from a facelift usually takes approximately two weeks.While complications are rare, they may include hematoma formation within 24 h of surgery, scarring (often associated with hormonal/vitamin imbalances or a predisposition to keloids), nerve injury resulting in temporary or permanent loss of sensation or facial muscle movement (lasting from a few months to a year), and potentially temporary hair loss around the incision sites due to damaged hair follicles, which may regenerate over time [53,54].
Another popular surgical procedure in rejuvenation medicine is blepharoplasty, which involves the removal of excess skin from the eyelids.This excess skin and the accumulation of fat result from weakened muscles and stretched eyelids.This condition leads to sagging eyebrows, drooping upper lids, and the appearance of under-eye bags.In addition to giving an older and tired appearance, it can also narrow the visual field and even cause partial blindness.Blepharoplasty is typically performed on an outpatient basis under local anesthesia, and the recovery period can take up to three weeks.Complications are uncommon but can include infection, bleeding, eye muscle or nerve injury, scarring, temporary blurred vision, or loss of eyesight requiring follow-up surgery [53,54].
Compared to injections, the positive outcomes of surgical rejuvenation procedures such as facelifts and blepharoplasty generally last for several years, whereas the effects of injections typically endure for anywhere from eight months to two years.

Gender Dominance in Anti-Aging and Rejuvenation Surgical Services
Historically, females have been at the forefront as customers in the beauty industry, seeking anti-aging products and services.As a result, the market has seen a proliferation of goods and services catering to their needs, with substantial cosmetology industries dedicated to maintaining the well-being of facial and body skin, largely targeting women.
However, over the last three decades, there has been a notable shift in attitude towards aesthetics and the pursuit of a youthful appearance among men of all ages, ethnicities, and cultures.This shift is evident in the increased interest in in-office cosmetic treatments, moving away from over-the-counter men's-specific cosmetics.According to the American Society for Aesthetic Plastic Surgery (ASAPS), there has been a remarkable 325% increase in the number of cosmetic procedures performed on men since 1997.In 2015 alone, men accounted for nearly 10% (approximately 1.2 million) of all plastic surgeries conducted that year [37].However, as per the ASAPS statistical data from 2021, women still make up approximately 94% of all procedures [52].Nowadays, both genders desire a youthful, fit, and attractive appearance.Interestingly, the ASAPS 2021 report highlights that liposuction rates were the highest among both males and females compared to other plastic surgery procedures (Table 3).Additionally, abdominoplasty was in high demand by both genders.However, blepharoplasty ranked third among surgical procedures for males, although it was nearly seven times less frequent than in females.

Micro-Invasive Procedures
Micro-invasive procedures encompass a wide range of techniques and treatments, including chemical peelings, dermal augmentation and contouring, injectable skin biostimulation, and rejuvenation.These procedures also focus on preventing dynamic wrinkles, correcting static wrinkles, utilizing visible light devices like intense pulsed light (IPL), restoring lost fat and volume, using ablative and nonablative lasers for photorejuvenation, and using radiofrequency.Most of these methods are performed in the office and aim to "resurface" the epidermis.This involves removing damaged skin layers and replacing them with remodeled and deeper layers while stimulating the formation of new collagen [4].The advantages and disadvantages of commonly used micro-invasive skin rejuvenation strategies are summarized in Table 4.

Intense Pulse Light Devices
Broadband light, also known as IPL, has been a prominent treatment option in skin rejuvenation for approximately two decades.It utilizes light waves with a broad range of wavelengths, typically between 500 and 1200 nm, which are absorbed by various components of the skin [55].One of the advantages of IPL is its versatility, achieved by applying different filters to the same device, allowing for the treatment of various targets.Through Dermato 2023, 3 209 selective photothermolysis, IPL can specifically target epidermal and/or dermal regions while minimizing damage to the surrounding tissues.This approach reduces the risk of widespread thermal injury and preserves neighboring cells.IPL is commonly used for managing vascular lesions (such as cavernous hemangiomas, facial telangiectasias, and poikiloderma of Civatte), pigmented lesions and dyschromia, rhytids, and skin tightening, as well as hair removal [55].However, it is important to note that there are still some limitations to the IPL.Long-term complications and their impact on age-associated conditions like actinic or seborrheic keratosis are yet to be fully understood.Furthermore, the potential effects of IPL on gene expression have not been determined.

Laser Treatment
Lasers can be broadly characterized as ablative, non-ablative, and fractional lasers [56].They utilize light energy at varying frequencies to achieve specific clinical outcomes.By employing selective thermolysis and targeted cell stimulation, lasers can spare neighboring tissues.These devices are commonly employed for skin rejuvenation, hair removal, and tattoo removal.However, it is important to note that there are potential complications associated with laser use, including scarring, skin pigment changes, erythema, and infection [57].
In the realm of anti-aging treatments, lasers that target specific layers of the dermis play a crucial role by stimulating new collagen formation and tightening the skin.Nonablative lasers, such as Nd: YAG and diode lasers, achieve their effects by heating water molecules and collagen in the dermal layer of skin, improving wrinkles and photodamage while preserving the integrity of the epidermis.On the other hand, ablative lasers like carbon dioxide (CO 2 ) lasers (wavelength 10,600 nm) and Er: YAG lasers (2940 nm) destroy the epidermis, which can be associated with complications such as infections, erythema, and scarring [56,57].
Recently, the Food and Drug Administration (FDA) has approved new laser-based devices for dermatological and cosmetic purposes, including Aerolase Neo and Cutera's AviClear lasers.The Aerolase Neo Elite, for instance, operates at a long wavelength of 1064 nm with a short pulse duration of 650 microseconds.This versatile 1064 nanometer Nd:YAG laser allows for a wide range of dermatological applications.It passes through the epidermis quickly, preventing the overheating of melanocytes and reducing the risk of hyperpigmentation.The treatment is virtually painless due to the rapid pulse duration.Furthermore, its deep penetrating property helps decrease sebum production in acne, reduce inflammation, and prevent future occurrences [58,59].
AviClear, on the other hand, utilizes a laser system with a distinct wavelength of 1726 nm.This particular wavelength enables selective photothermolysis of the sebaceous gland, offering a safe and effective approach for treating acne vulgaris [60].

Radiofrequency Microneedling
Radiofrequency (RF) is a non-ablative technology that utilizes thermal heating systems, in contrast to lasers, which rely on light sources.RF has the ability to penetrate deep into the skin, leading to dermal remodeling, skin tightening, and neocollagenesis.However, it is important to note that in some cases, deep penetration into the dermis and subcutaneous tissue can result in visible fat reduction, which may not be desired [61].RF microneedling combines traditional microneedling with RF energy to enhance skin tone, texture, wrinkles, fine lines, and skin laxity.It also aids in reducing blemishes such as acne scars and promotes the production of new collagen, resulting in skin resurfacing [62].The procedure is relatively painless and yields quick results by stimulating collagen production [62].
Unlike lasers, microneedling RF devices offer the advantage of adjustable treatment depths.The latest advancements in RF microneedling technology allow for precise control of the depth of exposure, even down to a tenth of a millimeter.This eliminates pain and minimizes potential damage to the skin's surface [62,63].GAG, glycosaminoglycan; HA, hyaluronic acid; RF, radiofrequency; TCA, trichloroacetic acid.

Injectable Cutaneous Rejuvenation Options and Dermal Fillers
The core concept of cutaneous rejuvenation and anti-aging strategies revolves around enhancing the biosynthesis of essential ECM components such as collagen, elastin, and HA by dermal fibroblasts.Microinjections in the superficial dermis offer a means to achieve this effect, utilizing products that contain either a single active ingredient or a combination of biocompatible and absorbable compounds.These revitalizers encompass a range of substances, including amino acids, autologous cultured fibroblasts, growth factors, HA, hormones, homeopathic products, minerals, nutrients, vitamins, and more [4].Mesotherapy and microneedling techniques are commonly employed for the application of these rejuvenation and anti-aging injectable compounds.
Mesotherapy involves the administration of multiple chemical injections using short, fine needles.These injections target the subcutaneous or intradermal layers as well as the subcutaneous fat, delivering pharmaceutical and homeopathic medications, plant extracts, vitamins, proteins, and other bioactive substances.On the other hand, microneedling, also known as percutaneous collagen induction (PCI) or collagen induction therapy, utilizes the physical trauma caused by needle penetration to stimulate skin regeneration [69].Unlike mesotherapy, microneedling does not remove the epidermis or create open wounds, as it leaves the stratum corneum and basement membrane intact.Consequently, microneedling offers a shorter healing phase compared to laser or dermabrasion techniques, and it can be used safely on all skin types with a reduced risk of photosensitivity, infection, and pigmentation changes [69].

Dermal Fillers
Dermal fillers have become increasingly popular as a skin rejuvenation strategy.The quest for the perfect filler began over 100 years ago when paraffin injections were used for cosmetic purposes, resulting in the development of paraffinomas.However, in 1893, Neuber introduced a modified procedure involving the transfer of autologous fat, which is still practiced today.In the 1960s, medical-grade liquid silicone was successfully used in thousands of patients in the USA and elsewhere, although it is currently not approved by the FDA [67].
Dermal fillers are soft, gel-like products that are injected within or beneath the skin to enhance its physical features, such as soft tissue augmentation, wrinkle plumping, and line smoothing on the face.These fillers can be categorized into: (a) autologous fillers (cultured human fibroblasts, fat); (b) collagen-based fillers (derived from bovine or human tissue culture); (c) HA fillers (non-animal stabilized or viscoelastic HA produced through bacterial fermentation); (d) synthetic or pseudo-synthetic implants (such as calcium hydroxylapatite microspheres suspended in aqueous polysaccharide gel, alkyl-imide gel polymer, polymethacrylate microspheres, poly-L-lactic acid, and silicone) [4].The filler materials can be either absorbable or non-absorbable and are grouped based on the duration of their effects, ranging from temporary to semi-permanent (1-2 years) or permanent materials (over two years).An example of a non-absorbable or permanent filler is Polymethylmethacrylate beads (PMMA), which is a non-biodegradable, synthetic polymer [66,67].Allergic reactions are a significant adverse effect of using bovine collagen, requiring two tests to be conducted three weeks apart to assess possible allergic reactions.
When it comes to absorbable materials, a significant limitation of these fillers is their temporary effect, as most of them can be absorbed by the body over time.Examples of absorbable materials approved by the FDA [70] include: Hyaluronic Acid, which is naturally found in the skin.It is a glycosaminoglycan biopolymer that creates a fluid matrix for collagen and elastic fibers to build upon.HA swells as a polysaccharide and provides a smoothing or filling effect when combined with water.It can be sourced from bacteria or chemically modified for a lasting impact on the skin, with effects ranging from 6 to 12 months [57,66].Several clinical trials (NCT05609617, NCT02679924, NCT03461198, NCT02974985, NCT03677258, and NCT04088006, see Table S1) are currently focused on improving, prolonging, and comparing the effects of HA with other fillers, such as collagens.
Calcium hydroxylapatite (CaHA) is naturally found in bones and teeth and is commonly used to fill wrinkles on the face and hands [4].CaHA is injected into a gel-like solution to create a filling effect.The results of this material typically last around 18 months.The synthetic analog of CaHA approved by the FDA and successfully used over the past 20 years is Radiesse™ (Bioform Inc., San Mateo, CA, USA).This facial filler is a sterile, latex-free, nonpyrogenic, semisolid, cohesive subdermal injectable implant with synthetic CaHA as its principal component.It is supplied in 1.3-mL and 0.3-mL disposable syringes with Luer-lock fittings [71].One downside of using CaHA material is that it obscures underlying structures in X-rays [71].
Poly-L-lactic acid (PLLA) is a biodegradable synthetic polymer that is often administered through a series of injections over several months.It is a relatively long-lasting filler material, with effects lasting approximately 24 months [66].Unlike other fillers, PLLA has a delayed but progressive volumizing effect that begins following the initial response and lasts one week or less.The mechanism of action involves hydration, loss of cohesion and molecular weight, solubilization and phagocytosis of PLLA by the host's macrophages, and degradation into lactic acid microspheres, which are eliminated through respiratory excretion, leaving behind crystals that stimulate collagen production and trigger a granulomatous reaction.Ongoing inflammatory responses promote resorption and the formation of fibrous connective tissue around the foreign body, leading to dermal fibroplasia and the intended cosmetic effect [4].A recent clinical trial (NCT01307865, see Table S1) supported the efficacy of injectable PLLA (Sculptra/Sculptra Aesthetic; Valeant) as a long-lasting volumizing agent, with an increase in midfacial volume that remained at least one year after treatment [72].
In general, dermal fillers are popular among both females and males and rank second in demand after neurotoxins (Table 5).

Neurotoxins
Neurotoxins are highly popular injectable cosmetic treatments used to improve the appearance of facial lines, folds, and volume loss associated with aging.Botulinum toxin (BoTN) is a protease neurotoxin produced by the spore-forming, Gram-positive, obligate anaerobic bacterium Clostridium botulinum.It exists in seven different isoforms: BoNT-A, B, C, D, E, F, and G.Among the isoforms, BoNT-A and BoNT-B are commercially used and are commonly known as Botox [73].According to the ASAPS, Botox cosmetic injections were the most popular minimally invasive procedure in the United States in 2021, with 3,474,160 procedures for females and 155,882 procedures for males (Table 5), surpassing the usage of dermal fillers by more than double [52].
Botox A has found its place in dermatology for cosmetic purposes due to its ability to reduce the appearance of facial wrinkles.It works by blocking the release of acetylcholine, substance P, noradrenaline, vasoactive intestinal peptide, and calcitonin gene-related peptide at the neuromuscular junction, resulting in muscle paralysis [74].Paralysis occurs within 24 h to 2 weeks after a Botox injection and typically lasts for 3 to 6 months.Botox can be used to improve wrinkles around the lips (smoker's lines), marionette lines, elevate the eyebrows, reduce nasolabial folds, platysmal bands in the neck, and more.Additionally, Botox is applied to treat non-cosmetical issues such as strabismus, blepharospasm, cervical dystonia, lichen simplex, acne vulgaris, dyshidrotic eczema hyperhidrosis, and synkinesis following facial surgery [68,73].While there are numerous beneficial effects of BoNT, further studies are needed to explore its long-term efficacy and optimal injecting protocols.Clinicians worldwide are continuously studying different applications of BoNT in clinical trials, such as NCT02580370, NCT00986570, NCT00856414, NCT01529788, and more (Table S1).
The recommended dose of Botox for cosmetic purposes is typically 20 units, injected 1-1.5 cm from the superior, lateral, or inferior margins of the orbits.Common adverse effects associated with Botox injections include swelling, purpura, and ecchymosis.However, these can be managed by applying ice compression to the injection site before and after the procedure.After the injection, the injection sites should not be manipulated for at least 2 to 3 h, and patients are advised to maintain an upright posture or remain standing for 3 to 4 h [4,57].
Despite its widespread use for cosmetic purposes, Botox is not effective in preventing other signs of aging such as pigmentation disorders, dry skin, and vascular lesions.Moreover, it is contraindicated in patients who are allergic to the toxin, have conditions like Myasthenia gravis, Lambert-Eaton syndrome, Amyotrophic lateral sclerosis, or multiple sclerosis, and is not recommended for use in children, breastfeeding women, or pregnant women [57,68].

Chemical Peeling
Unlike mesotherapy and microneedling, chemical peeling is a topical treatment that involves the application of chemicals to induce epidermal and dermal injury.This process stimulates growth and exfoliation, effectively reversing skin degeneration caused by various factors, including time, extrinsic elements, and intrinsic factors [69].Epidermolysis resulting from chemical peeling leads to smoother skin, particularly through the lysis of the stratum corneum, thereby facilitating cutaneous resurfacing, rejuvenation, or remodeling.
Chemical peels have been utilized as rejuvenation techniques for centuries, with their origin dating back to ancient Egyptian times [69,75].During Cleopatra's era, individuals achieved aesthetically improved and smoother skin through the application of animal oils, alabaster, salt, and sour milk (which contains lactic acid and alpha-hydroxy acid as the main active components).Subsequently, the Greeks and Romans utilized poultices containing mustard, sulfur, and corrosive sublimate of limestone.They also employed pumice, frankincense, myrrh, and tree resins to lighten the skin and eliminate freckles and wrinkles.To induce light exfoliation, Turkish practices involved singeing the skin with fire, while Indian women mixed pumice with urine for cutaneous application [76].
Modern dermatology and cosmetology continue to utilize compounds for rejuvenation and anti-aging practices, albeit with significant changes over time.Chemical exfoliation substances are categorized based on their depth of penetration into the skin, and they can be classified as follows [4,57,77]:

•
Light peels: These peels exfoliate the epidermal layers without extending beyond the basal layer.Examples of substances in this category include α-hydroxy acids (such as glycolic acid at concentrations of 20-70%, lactic acid, pyruvic acid, malic acid, and tartaric acid), β-hydroxy acids (salicylic acid at concentrations of 10-30%), carbon dioxide snow, Jessner's solution, lipo-hydroxy acids, resorcinol, retinoic acid, Unna paste, 5-fluorouracil, retinoic acid, and trichloroacetic acid (TCA) at concentrations of 10-30%; • Medium peels: These peels reach a depth of approximately 0.45 mm into the upper reticular dermis.Examples of peeling agents in this category include TCA at concentrations of 35-50% combined with glycolic acid at 70% or Jessner's solution, as well as TCA at 35% combined with solid CO 2 ; • Deep peels: These peels penetrate the lower reticular dermis, reaching the basal layer where melanocytes, which synthesize and store melanin pigment, are located.Melanin is stored in melanosomes, which are membrane-bound organelles.Stimulated melanocytes release melanin to the surrounding keratinocytes, helping to maintain balanced dermal pigmentation.Deep peels that expose or remove the papillary or reticular layer of the dermis effectively reduce wrinkles (rhytids).Deep peels typically contain TCA concentrations exceeding 50% and may involve combinations of croton oil and phenol, such as the Baker-Gordon formula.
The depth of peeling is also influenced by the concentration of substances, the pH of the solution, and the duration of application.It directly correlates with potential side effects, including hyperpigmentation, solar lentigines, and the risk of postoperative infections [4] (Table 4).

Non-Invasive Aesthetic Strategies
Non-invasive aesthetic strategies encompass various agents that can be used as antiaging cream, serum, or oil components for topical application, as well as medications for internal use.These agents often contain antioxidants and cell regulators that can be applied alone or in combination with physical influences like light, temperature, and massage as part of regular or daily care routines.
Antioxidants play a crucial role in preventing or slowing down cell damage caused by free radicals, unstable molecules that contribute to aging and disease by damaging cells.Topical antioxidants offer protection against environmental stressors such as UV radiation and pollution, and they can also improve the appearance of fine lines, wrinkles, and age spots [78].Commonly used antioxidants include vitamins, polyphenols, and flavonoids, which help prevent or reduce the degradation of ECM components like collagen and elastin by eliminating free radicals' in the tissues (Table 6).Additionally, cell regulators such as retinols, peptides, and growth factors directly influence collagen production and metabolism, contributing to their anti-aging effects [4].
Botanical extracts have a long history of use in skin care as topical anti-aging products due to their abundance of bioactive compounds like polyphenols and flavonoids.Examples of commonly used botanicals in anti-aging formulations include green tea, aloe vera, chamomile, and lavender.Botanicals can be used alone or in combination with other anti-aging ingredients such as antioxidants, retinol, and vitamin C. Hormone-related therapies, particularly estrogen therapy, are also explored for their systemic benefits in improving skin dryness, texture, elasticity, and reducing wrinkles in estrogen-deficient skin [79] (Table 6).Furthermore, natural remedies associated with mushrooms have shown promise in anti-aging formulations, as mushroom extracts contain veratric acid with antioxidant and anti-inflammatory properties [80].Mushrooms have been found to aid in wound healing and offer various cosmetic benefits, including redness reduction, soothing effects, moisturization, antioxidant protection, nourishment, wrinkle reduction, and skin brightening.Commonly used mushrooms in skincare include shiitake (Lentinula edodes), reishi (Ganoderma lucidum), and chaga (Inonotus obliquus) [81].
These non-invasive anti-aging and rejuvenation strategies are highly sought after by both genders due to their effectiveness, low risk of severe adverse effects, easy accessibility, and relatively low costs.A summary of the advantages and disadvantages of the most prominent non-invasive treatments is presented in Table 6.Table 6.Non-invasive agents with anti-aging and rejuvenation properties.

Treatment Benefits Limitation Adverse Effects
Antioxidants for topical use Topical retinoids (vitamin A, tretinoin, and tazarotene) [4,12,57,82] Improve mottled hyperpigmentation, fine wrinkles, roughness, and lentigines via compaction of the stratum corneum and epidermal thickening; improve synthesis and deposition of GAGs; induce collagen biosynthesis; and reduce the expression of MMP 1 (collagenase 1) [4] Beneficial effects of topical retinoids are only evident over a long period of time, which often leads to early discontinuation [82] Skin irritation, erythema, dermatitis, pruritus, peeling, stinging, or burning, and sensitivity Ascorbic acid (AA) [4,83,84] Catalyzes the hydroxylation reaction in collagen synthesis, thereby increasing collagen synthesis and reducing degradation.AA reduces pigmentation by decreasing melanin formation; daily topical application of 3% vitamin C over four months led to a significant increase in the density of dermal papillae 831; 5-15% was proven to have an anti-aging skin effect by inducing the production of collagens 1 and 3 and modulating MMP1 [4] L-ascorbic acid is an unstable molecule, hydrophilic and charged, that reduceS penetration into the skin; albeit, lowering the pH to <3.5 improves penetration [84].Exposed to light and heat, AA inactivates, while air oxidize extremely fast to dehydroascorbic acid Allergy Table 6.Cont.

Treatment Benefits Limitation Adverse Effects
Topical and systemic endocrinological therapies Vital hormones (DHEA, DHEAS, testosterone, estrogen, TSH, T3, T4) [79,[85][86][87] Improves cutaneous hydration and reduces skin atrophy [79,85]; improves sebum production and cutaneous hydration with less progressive skin thinning in older patients [86].50 mg of DHEA daily for a year reduced bone mineral density loss in 140 postmenopausal women between the age of 60-79 years [87]; estrogen face creams contained 0.3% estriol (slightly superior results) or 0.01% estradiol for 6 months showed improvement in cutaneous vascularization, firmness and elasticity, hydration, and reduction in wrinkle depth and pore size in perimenopausal women [79] Use of hormonal therapy more than 5 years is associated with increased thromboembolic risk, breast, ovarian and endometrial cancers [86] Increases thromboembolic risks; breast, ovarian, endometrial cancers
Ref. [91] Non-invasive procedures for whole-body rejuvenation primarily focus on enhancing body shape through cryolipolysis, which is a controlled nonsurgical cooling technique used for localized fat reduction.One popular cryolipolysis treatment is CoolSculpting, which safely and effectively targets lipid-rich fat cells in specific areas such as the arms, flanks, thighs, back, abdomen, and face.This treatment leads to the apoptosis of adipocytes, and results can typically be seen within a month, with the desired effects becoming more noticeable over several months as the metabolization and elimination of fat cells occur [91].

Herbal and Myco-Based Remedies in Dermatology and Cosmetology
It is widely known that plants serve as sources of numerous biologically active substances and have been used as remedies since early human history.These active biological compounds can be extracted from various plant parts, such as flowers, leaves, roots, or the entire plant, and utilized in different formulations.Plants and their extracts have been employed in both conventional and alternative medicine for treating multiple diseases, and they also play a common role in anti-aging and rejuvenation practices.
For example, green tea (Camellia sinensis) contains catechin and epigallocatechin gallate, which have been found to inhibit collagenase and elastase, demonstrating their potential in preventing collagen and elastin degradation [92].These polyphenols also exhibit potent antioxidant activity (Table 6).Aloe vera (Aloe barbadensis) contains aloins that have shown strong anti-collagenase activity in vitro [92].Additionally, Finnish Chaga, a mushroom commonly found in Eastern and Northern Europe, possesses powerful antioxidant properties that protect against signs of aging, including wrinkles.Research on Inonotus obliquus (Chaga mushroom) extract has indicated its potential as a skin-lightening therapy by reducing melanin production [81].
In recent years, anti-aging and rejuvenation strategies have started exploring the potential of cannabis plants, which contain over 140 active medical ingredients known as phytocannabinoids (pCBs).Although current medical use of cannabis products often surpasses the existing scientific evidence, research has shown promising results in the therapeutic benefits of cannabis for various conditions affecting humans.The therapeutic potential of cannabinoids has been extensively studied in neurodegenerative disorders [93], gastrointestinal and liver diseases [94], cancer [93], cardiovascular disorders [95], inflammatory processes, obesity [96], musculoskeletal disorders [97], ischemia/reperfusion injury [98], pain management [93], and anti-allergic effects [99].These compelling findings have sparked the interest of researchers, clinicians in dermatology and gerontology medicine, and the beauty industry in exploring the versatile therapeutic potential of cannabis.
Recent in vitro studies have demonstrated that low doses (0.5 µM to 2.0 µM) of pCBs can promote cell growth, reduce senescence, and enhance wound healing in naturally aged and stress-induced premature senescence dermal fibroblast cell lines.These compounds also increase mRNA levels of cell cycle regulators and genes associated with ECM production [78,121].Interestingly, when combined with triacetylresveratrol, an acetylated form of resveratrol found in red wine, pCBs have demonstrated enhanced viability of aged cells, accelerated wound healing, and particularly effective stimulation of collagen and elastin production [78].Additionally, topical application of cannabis extracts in hydrogels has exhibited improvements in cutaneous hydration, reduction of oxidative stress markers, and suppression of MMPs, collagenase, and elastase activity [122].These findings suggest that cannabis compounds hold potential in the fields of anti-aging and rejuvenation [123] (Figure 2).
Eugenol (EU), also known as 4-allyl-2 methoxyphenol, is a safe botanical compound found in many medicinal herbs.EU possesses several pharmacological properties, including antioxidant, neuroprotective, antimicrobial, anti-inflammatory, and anti-carcinogenic actions [124].Recent studies have highlighted the potent antioxidant activity of EU, which can delay aging and age-related disorders by inhibiting lipid peroxidation.Animal studies have demonstrated that EU upregulates p53 and p21 mRNA expression levels, enhances brain antioxidant capacity, and attenuates aging-related oxidative alterations [125].Moreover, EU has been shown to effectively ameliorate UVB-induced photoaging by suppressing MMP secretion and activating Nrf2/ARE signaling [126].Overall, EU holds promise as a natural anti-aging product.
Psychedelics remain one of the most intriguing compounds due to their elusive effects.While mushrooms are the primary natural sources of psychedelics, certain plants also produce psychedelic substances.Psilocybin, a serotonergic hallucinogen, metabolizes into psilocin and is found in numerous mushrooms worldwide [127,128].Acting as a 5-HT2A receptor agonist, psilocybin induces distortions in perception, thoughts, emotions, and self-boundary dissolution.It has also been observed to affect animal behavior in various paradigms, including drug discrimination, head twitch response, prepulse inhibition of startle, exploratory behavior, and interval timing [129].Interestingly, recent data suggests that psilocybin can have long-lasting beneficial effects on mental health [130], metabolic disorders [131], and even influence leucocyte telomere length (a predictor of mortality and age-related diseases) [132].It also exhibits anti-inflammatory properties [127].Notably, 5-HT receptors, including 5-HT2 and 5-HT7, are found in the skin (Figure 3), and blocking these receptors ameliorated symptoms of atopic dermatitis and reduced serotonergic itch [133].Consequently, psilocybin may have the ability to slow down aging at an epigenetic level, enhance well-being and quality of life during the aging process, and potentially serve as a novel geroprotective and neurorestorative pharmaceutical agent.Additionally, there is speculation that topical application of psilocybin could have positive effects in treating certain dermatological diseases and may play a role in rejuvenation strategies (Figure 3).
While these newly discovered natural products show great potential for anti-aging and rejuvenation, it is essential to conduct well-designed clinical trials to confirm their efficacy as therapeutics.Furthermore, future development of medicinal formulations and commercial beauty products should take into account the accumulated knowledge about gender differences in dermal physiology and the aging process.

Conclusions and Future Directions
Humanity has always sought remedies for anti-aging, rejuvenation, and life extension, but unfortunately, there has been little success in anti-aging therapeutics.The skin, being the first organ that displays signs of aging, serves as a reflection of our age, albeit in different ways depending on gender.Numerous studies have shown that men's skin tends to age faster than women's due to functional, hormonal, and physiological differences.These facts are crucial to consider when developing anti-aging and rejuvenation products and

Figure 1 .
Figure 1.The main two groups of factors that trigger aging.This figure was created using imag from Servier Medical Art Commons Attribution 3.0 Unported License (http://smart.servier.coaccessed on 15 September 2022).

Figure 1 .
Figure 1.The main two groups of factors that trigger aging.This figure was created using images from Servier Medical Art Commons Attribution 3.0 Unported License (http://smart.servier.com,accessed on 15 September 2022).

Figure 3 .
Figure 3. Keratin family members' expression in the skin and appendages.Keratins (K) are shown as Type 1 in blue and Type 2 in red.

Figure 3 .
Figure 3. Keratin family members' expression in the skin and appendages.Keratins (K) are shown as Type 1 in blue and Type 2 in red.

Table 1 .
Differences in dermal properties between women and men.

Table 2 .
Gander-associated dermal diseases and premature aging conditions.

Table 3 .
Gender-and age-based demand in surgical procedures in America.
Data extracted from the 2021 report of the Aesthetic Plastic Surgery National Databank published at https: //www.theaestheticsociety.org/media/procedural-statistics (accessed on 14 January 2023).

Table 5 .
Gender-and age-based demand for non-surgical rejuvenation procedures in America.
Data extracted from the 2021 report of the Aesthetic Plastic Surgery National Databank published at https: //www.theaestheticsociety.org/media/procedural-statistics (accessed on 14 January 2023).

Table 7 .
Treatments of skin disorders based on the targeting of the cutaneous endocannabinoid system.