Herbal Treatments for Age-Related Macular Degeneration: A Literature Review

Received Date: Jan 15, 2020 / Accepted Date: Jan 27, 2020 / Published Date: Jan 29, 2020 Abstract Background and aim: Age-related macular degeneration (AMD) is one of the major causes of blindness and it has risk factors such as obesity, hypertension, smoking, or genetic characteristics. There is no certain cure for AMD till now, so it is very important to design new therapeutic agents or strategies for treatment of AMD. This literature review assessed the effects of different plants or herbal extracts on the retinal diseases such as AMD either for treatment or prevention of disease. Materials and methods: Fifteen studies were included in this literature review and assessed possible herbal treatments or preventions of AMD or its related diseases and risk factors. Results: From a wide range of medicinal plants, Artemisia annua contained artemisinin, Lycium barbarum, Fructus barbarum rich in carotenoids like zeaxanthin, Scutellaria baicalensis contained wogonin, saffron, rosemary contained carnosic acid, and Melissa officinalis are of the most important and beneficial medicinal plants that can be used for production and design of new drugs and therapeutics for AMD. They act via different mechanisms such as anti-oxidation, anti-VEGF, or anti-inflammatory actions. There are several other important herbal effective compounds for AMD, such as fisetin and luteolin that are polyphenols. Also, there are other herbal compounds such as HESA-A, Traditional Chinese Medicine (TCM), Guibi-tang (GBT), Samul-tang (SMT), and Sipjeondaebo-tang (SDT) that are contained in several different beneficial medicinal plants and their extracts for AMD. Conclusion: There is a need for more investigations on these medicinal plants and their benefits on AMD, but they can be beneficial in lowering the risk of AMD or several other retinal diseases and prevention of them. For each mechanism included in AMD pathogenesis, one or more medicinal plant is introduced in this review.


Introduction
Age-related macular degeneration (AMD) is the leading cause of irreversible sight loss in the elderly. There are several risk factors such as genetic characteristics, aging, obesity, smoking, and hypertension [1]. AMD is a chronic age-related degenerative eye disorder Page: 2 www.raftpubs.com and one of the major causes of blindness globally which has two main distinct types, dry or atrophic (nonneovascular) and wet or exudative (neovascular). The most common form of AMD is dry form which visual loss is usually gradual and irreversible and causes permanent scars in the retina. A common characterization of wet AMD is development of new blood vessels or neovascularization. Wet form of AMD damages the central eye very badly and patients with this form lose their visual tendency, rapidly. One of the most important causes of AMD is the abnormal levels of reactive oxygen species (ROS) in the retinal pigment epithelium (RPE) which will exert oxidative stress to the eyes and will damage to the DNA and mitochondria which will affect the cellular functions and morphological changes of RPE. Age-related degeneration of RPE causes loss of central vision via the death of photoreceptor cells in the eyes [2]. Retinal neovascularization or pathological growth of new blood vessels, is a cause of many diseases such as neovascular macular degeneration. Vascular endothelial growth factor (VEGF) plays a role in physiological and pathological angiogenesis and collaborates with other angiogenic factors such as fibroblast growth factor 2 (FGF2) and insulin-like growth factor-1 (IGF-1) to stimulate retinal neovascularization [3]. The development and progression of AMD are the results of a complex interaction between genetic and environmental risk factors. Oxidative stress and chronic inflammation are important in pathogenesis of AMD [4].
There is no certain cure for AMD till now and current treatments for wet AMD are restricted to photodynamic therapy, antiangiogenesis/permeability agents, and thermal laser very rarely. Several anti VEGF drugs have been approved by FDA and are used at clinics to cure choroidal neovascularization (CNV) in wet AMD, such as ranibizumab, pegaptanib, VEGF-trap (Eyelea), and avastin (off-lable) which has price advantage than other VEGF antagonists. Only 30-40% of patients experience vision improvement after treatment of wet AMD with anti-VEGF agents [5]. So, it is very important to search new therapeutic agents or strategies for treatment of AMD. One of these strategies could be herbal therapy. The aim of this literature review is to assess the effects of different plants or their extracts on the retinal diseases such as AMD either for treatment or prevention of disease.

Methods
This review was conducted in accordance with PRISMA guidelines. Bibliographic searches were carried out in PubMed for all studies and trials published between 1987 and 2019. The search comprised the terms macular degeneration herbal treatment, macular degeneration plant derived treatment, and macular degeneration and herbal extracts. We considered in all these searches and studies, both macular degeneration and other eye diseases related to this disease as its causes or results. Studies about diseases other than macular degeneration or related eye diseases, and studies that investigated any therapy other than herbal therapy were excluded.

Data extraction
The titles and abstracts of articles were assessed to determine study inclusion. Information from the full texts using a predefined data extraction sheet was extracted. Extracted study details were study characteristics (first author, year of publication, study design), and treatment (plants, herbal extracts, effective components of a plant).

Data synthesis
Studies were arranged and the data was synthesized based on direct treatment or prevention of age-related macular degeneration or its risk factors and related diseases by herbal medicine or plant-derived therapies. Page: 3 www.raftpubs.com

Results
The initial search of the literature using keywords according to the inclusion criteria retrieved 46 records. Three duplicate studies were removed and 43 potentially relevant studies were identified. After screening these 43 studies more carefully based on their titles and abstracts, 23 articles were excluded and remaining 20 full-text articles were assessed for eligibility; irrelevant articles, reviews, and studies that investigated any therapy other than herbal therapy, were excluded. Finally, 15 articles fulfilled the inclusion criteria which the language of all was English. Figure 1 shows the flow diagram for study selection. The studies are categorized based on the plants or herbal effective components that were assessed in the articles. Page: 4 www.raftpubs.com also with anti-tumor, anti-viral, anti-allergic, anti-inflammatory, anti-helminth, and antiprotozoan activities. More recently, Shuai Li et al. have found that clinical relevant dosages of artemisinin promote PC12 and cortical neuron cells survival against nitric oxide-induced toxicity and human retinal pigmented cells (D407) from hydrogen peroxide-induced cell damage. The results of this study with evidence on the protective activity of artemisinin in D407 cells and primary cultured RPE cells against H2O2-induced injury mediated by the activation of AMP-activated protein kinase (AMPK), indicate that H2O2 resulted in death of RPE cells, while pretreatment with artemisinin protected cells from H2O2-induced oxidative damage correlated with activation of AMPK. Artemisinin protection against H2O2induced cell damage involves various mechanistic routes such as reduction of intracellular ROS generation and inhibition of oxidative stress, decreasing lactate dehydrogenase (LDH) release and loss of mitochondrial membrane potential and changing the cell morphology. Therefore, artemisinin could be a potential therapeutic agent for treatment of AMD [2].

Polysaccharides of Wolfberry from Lycium barbarum
Feng-Chi Hsieh et al. assessed wolfberry which is the fruit of Lycium barbarum (LB), a traditional Chinese herbal medicine that has several pharmacological effects such as antioxidation, neuroprotection, antiaging, immunomodulation and cytoprotection, which are resulted from polysaccharides extracted from fruit of L. Barbarum called LBP. The antioxidation effect of LBP causes its protective effect against oxidative injury in cells. Crude polysaccharide extracts have stronger antioxidant activity than purified polysaccharide extracts, because other antioxidants such as ascorbic acid, riboflavin, carotenoids, thiamine, and nicotinic acid are more abundant in crude extracts. Environmental chronic photooxidative stress could cause increased ROS, integrity of the membrane, DNA damage and cell death of RPE and this could be involved in pathogenesis of AMD. Antioxidants could prevent from the oxidative stress. The primary active ingredient isolated from the aqueous extracts of L. Barbarum, LBA, could exert protective effects on hepatocytes and neurons of the eye. Both aqueous and ethanol extracts of L. Barbarum are potent antioxidants and could protect eyes from UVB-induced DNA damage and apoptosis of human retinal pigment epithelial (ARPE-19) cells and ethanol extracts have stronger antioxidant effects than aqueous extracts. More investigations are needed but it seems that extracts of L. Barbarum especially ethanol extracts could be effective in prevention of retinal degenerative-associated diseases such as AMD [6].

Zeaxanthin from Fructus barbarum L
Dietary intake of zeaxanthin, an oxygenated carotenoid (xanthophyll), is negatively associated with the incidence of several cancers such as colorectal and lung cancer, progression of the early atherosclerosis, and ischemic stroke. Also, this compound has photo protective effect in the eye and the skin and can be concentrated in the central area of the macula, yellow spot of the eye, based on the study of Iris F. F. Benzie et al [7]. Thinning of the macular pigment is associated with aging, and irretrievable loss of central vision that is known as AMD. Increased intake of foods and beverages rich in carotenoids can be a successful strategy in lowering the AMD risk. Fructus barbarum L. which is a small red berry and known as Gou Qi Zi, Kei Tze (Cantonese), and wolfberry is one of the richest plant sources of zeaxanthin. The zeaxanthin bioavailability in a natural product, wolfberry, can be increased three-fold via homogenisation of the berries in hot skimmed milk. This strategy for enhancement of the bioavailability of zeaxanthin is important because increased dietary intake of zeaxanthin can help maintaining the macular pigment which lowers Zeaxanthin is a structural isomer of lutein which is located primarily in the central area of the macula, but lutein is found more peripherally; however, both compounds are concentrated in the yellow spot of the eye. These two compounds have antioxidant properties and also can absorb blue light; so, they can protect the retina against photo oxidative damage and reduce light scatter in the eye and therefore they maintain visual acuity. Increased dietary intake of carotenoids like zeaxanthin and lutein to enhance macular pigment is a suggested strategy to prevent AMD or delay in it and promote visual function. Studies of Chung Yuen Cheng et al. have shown that 6 weeks supplementation of monkeys with a wolfberry extract enhanced their plasma and macular zeaxanthin [8]. A controlled food-based supplementation trial showed that short term supplementation with 15 mg of whole wolfberries that is a modest daily dose of them, increased zeaxanthin in fasting plasma of healthy subjects. Wolfberry offers an inexpensive, safe and effective whole food dietary strategy to increase plasma concentration of zeaxanthin [8].

Wogonin from Scutellaria baicalensis
One of the most important pathological markers of dry AMD is the presence of age-dependent degenerative damage to the RPE which is a common barrier for solutes and fluids from the choroidal vasculature that must access the inner retina. The liquid is not able to penetrate the blood-retinal barrier (BRB) because of welldeveloped tight junctions Zonula Occludens-1 (ZO-1) and Claudin-1. Increased BRB permeability results in the activation of Tolllike receptor 4 (TLR4) and TLR4-mediated signalling pathways will activate nuclear transcription factor-kB (NF-kB). The activation of NF-kB is a cause of ocular inflammatory diseases such as AMD. Based on the study of Chen Chen et al., wogonin (5,7-dihydroxy-8-methoxyflavone) is a naturally-derived ingredient isolated from the roots of Scutellaria baicalensis (Huang-Qin) and it has been used to treat inflammatory diseases, allergies, and tumors in traditional Chinese medicine [1]. It has been revealed that wogonin could inhibit the activation of NF-kB. Wogonin inhibits inflammation in LPS-stimulated ARPE-19 cells and results in the protection of the tight junction proteins ZO-1 and Claudin-1. Also, wogonin reduces the LPS-induced inflammatory response by inhibition of IL-6, IL-8, IL1 beta, iNOS, TNF alpha, and COX-2 gene expression. The activation of the TLR4/NF-kB pathway is associated with the inflammatory response and wogonin inhibits this pathway. Therefore, according to this study, wogonin can be effective in treatment of AMD [1].

Guibi-Tang
Retinal neovascularization is a cause of neovascular macular degeneration. VEGF plays a role in physiological and pathological angiogenesis and collaborates with other angiogenic factors such as FGF2 and IGF-1 to stimulate retinal neovascularization. In studies and experiments of Yun Mi Lee et al. in cultured bovine endothelial cells, VEGF and FGF2 induced production of uPA and plasminogen activator inhibitor 1 (PAI-1) [3]. Loss or inhibition of PAI-1 downregulates overall retinal angiogenesis and can be a potential therapeutic target for retinal neovascularization. Guibi-tang (GBT) is a mixture of 12 herbs for treatment of anorexia, amnesia, fatigue, palpitation, insomnia, poor memory or forgetfulness, and neurosis and has specific bioactivities such as anti stress effects, antioxidant effects, immune regulation, and protective effect on the gastric mucosa. Also, GBT is a Chinese patent formula for wet macular degeneration. One of the major ingredients in GBT is a coumarin called decursin which inhibited retinal neovascularization in a mouse model of retinopathy of prematurity. GBT could reduce VEGF, FGF2, and PAI-1 expression in oxygen-

Samul-Tang
The activation of VEGF increases the migration and proliferation of endothelial cells and the formation of new blood vessels; therefore, VEGF plays a central pathogenic role in retinal neovascularization which is caused by hypoxiainduced retinal damage. The antagonists of VEGF can inhibit the angiogenesis, but such therapies can achieve only partial clinical success because they need repeated injections of expensive antagonists of VEGF. Also, this treatment has effects on the HIF pathwaymediated expression of other pro-angiogenic factors, such as platelet-derived growth factor-B (PDGF), stromal cell-derived factor 1 (SDF-1), erythropoietin, IGF-1, and etc. SDF-1 is one of the most important chemokines induced by ischemia. CXCR4 is a known receptor for SDF-1. SDF-1 and CXCR4 regulate specific steps in formation of new vessels, proliferation and angiogenesis. VEGF upregulates CXCR4 which is selectively expressed in vascular endothelial cells.
Samul-tang (SMT), Shimotsu-to in Japanese and Si-Wu decoction in Chinese, consists of four herbs, A. gigas, C. officinale, P. lactiflora, and R. glutinosa. SMT has been a traditional treatment for promoting blood circulation, relieving pain, and improving gynecological diseases, blood deficiencies, and chronic inflammation, for hundreds of years in Eastern Asia. It has recently been reported by Yun Mi Lee et al. that SMT has several other pharmacologic activities such as anti-cancer, anti-inflammatory and anti-pruritic effects [9]. Yun Mi Lee et al. showed that this herbal prescription has an inhibitory effect on the expression of VEGF, SDF-1, CXCR4, and HIF-1 alpha in OIR mice. The findings of this study indicate that SMT has anti-angiogenic activity in pathological retinal neovascularization. The observations on all four components of SMT suggest that the prevention of retinal neovascularization by SMT may occur due to a combination of the effects of all these four herbs. By the way, SMT inhibits the retinal pathogenic angiogenesis induced by ischemic retinopathy in OIR mice and also inhibits the overexpression of SDF-1, HIF-1 alpha, VEGF, and CXCR-4. Therefore, SMT could be a useful herbal medicine for treatment of ischemic retinopathy which is related to AMD and several other retinal diseases [9].

Sipjeondaebo-Tang
Platelet-derived growth factor (PDGF) family consists of five dimeric ligands, PDGF-AA, -BB, -AB, -CC, and -DD. These dimers bind to two membrane receptor tyrosine kinases, PDGF receptor alpha (PDGFR alpha) and PDGF receptor beta (PDGFR beta) and activate them. One of the most important regulators of angiogenesis is PDGF-BB which is released from platelets, endothelial cells, inflammatory cells, and vascular smooth muscle cells at sites of angiogenesis and it binds to PDGFR beta and leads to activation of downstream signalling pathways. Therefore PDGF-BB is important in retinal pathogenic angiogenesis. Sipjeondaebotang (SDT), Shi-Quan-Da-Bu-Tang in Chinese and Juzen-taiho-to in Japanese, is an important traditional herbal medicine for treatment of patients with lose of appetite, fatigue, anaemia, rheumatoid arthritis and atopic dermatitis in Korea, China and Japan. This herbal formula has 12 crude medicinal herbs and has several pharmacological activities such as antimicrobial, antioxidative, stimulation of . These studies also showed that SDT inhibited the binding of PDGF-BB to PDGFR beta which is its receptor. Based on these findings, SDT has anti-angiogenic effects on retinal neovascularization. It has found that SDT inhibited the interaction between PDGF-BB and its receptor PDGFR beta in vitro and blocked retinal neovascularization via downregulation of PDGF-BB and VEGF in vivo. It is very important that SDT has anti-angiogenic effect in ischemic retinopathy. The daily dose of SDT in human is almost 175.5 mg/kg/day and is clinically useful as herbal medicine for human ischemic retinopathy. The oral route is the most appropriate route of administration, but in these studies on SDT, this drug was administered intraperitoneally [10].

HESA-A is a recently developed natural drug in
Iran and contains elements such as P2O5, CaO, Na2O, SO3, MgO, SiO2, Fe2O3, K2O, and Al2O3 as well as Ag, As, Zn, Cu, Tm, Ti, Sr, Mn, Br, Se, Ca ,Cd, Te, Cs, Er, Lu, and other elements at very low quantities. Some of these elements have anti-tumor properties, so HESA-A has anti cancer effects as well as hepatoprotective effect. Antiangiogenic drugs or anti-VEGF therapies like pegaptanib and ranibizumab have some disadvantages that are the need for repeated intravitreal injections, high cost and the need for long term treatment for several years. HESA-A has herbal-marine origin. In a study of Amrollah Ahmadi et al., ATP is a source of energy for the cell and extracellular ATP is also a neurotransmitter in the nervous system. The purinergic system can  [5]. This pharmaceutical composition can promote and stabilize the vision of a patient with AMD, enhance absorption of haemorrhage, and reduce macular area CNV leakage and CNV area. This TCM can treat both the symptoms and the causes of AMD. The herbs in this formula can promote blood stasis and prevent bleeding, nourish vital energy, clear or soften phlegm, reduce CNV lesion, promote the absorption of edema, haemorrhage and macular exudate, and totally improving visual acuity. This pharmaceutical composition targets hallmarks of AMD such as inflammation, vascular edema, oxidative stress and RPE cytotoxicity [5].

Carnosic Acid from Rosemary
Those protection strategies which activate endogenous antioxidant proteins in RPE cells and photoreceptors, can attenuate progression of AMD. Also, a study on age-related eye diseases by Tayebeh Rezaie et al. has shown that daily intake of vitamins C and E, zinc, copper, and beta-carotene reduced the progression of human's late AMD up to about 25% [15]. Sulforaphane and curcumin are two natural compounds that protect photoreceptor and RPE cells via induction of phase 2 genes by activation of the Nrf2 transcriptional pathway against light-induced oxidative damage. Carnosic acid (CA) is a pro-electrophilic compound in rosemary and it crosses the bloodbrain barrier. At the site of redox stress, CA undergoes oxidation which converts the compound from a prodrug to its active electrophilic form. This electrophilic form of compound upregulates a potent endogenous antioxidant enzyme system, causes activation of the Nrf2 transcriptional pathway. In this study, Tayebeh Rezaie et al. have found that CA activated phase 2 antioxidant genes and protected cells of the outer retina in vitro and in vivo. Thus, CA can be a useful therapeutic agent for diseases progressing with oxidative stress like AMD [15].

Melissa officinalis L. Extract
Oxidative stress from H2O2 causes preferential damage to mitochondrial DNA of RPE cells and leads to death of RPE cells. Antioxidants Page: 9 www.raftpubs.com have protective effects on progression of AMD and studies have shown that daily oral supplementation with antioxidant vitamins and minerals can reduce the risk of developing advanced AMD up to 25% during five years. The leaves of Melissa officinalis L., lemon balm, have been used as a traditional medicine for their anti spasmodic, tonic, carminative, anxiolytic, mood altering, memory enhancing, and sedative effects. It has also antitumoral, antiviral, neuroprotective, and antiangiogenic effects. Cheul Jeung et al. Said that the extract of M. officinalis L. effectively protects human RPE cells from oxidative stress induced by H2O2 by its antiapoptotic and antioxidant properties [17]. High dietary intake of polyphenols can decrease the risk of developing various chronic diseases such as several cancers, cardiovascular diseases, osteoporosis, diabetes, and neurodegenerative diseases. The M. officinalis L. extract can scavenge a wide range of synthetic and naturally occurring free radicals. This plant has a lot of polyphenolic compounds such as phenolic acid with derivatives of hydroxycinnamic acid, mcoumaric acid, flavonoid with caffeic acid, naringin, eriodictyol-7-O-glucoside, hesperidin, naringenin, rosmarinic acid, and hesperetin. The AREDS and AREDS2 formula used to prevent the progression of dry AMD consist of antioxidants such as zinc, copper, vitamins C and E, lutein, b-carotene, and zeaxanthin.
Also, flavonoids and hydroxycinnamic acid derivatives in M. officinalis L. are scavengers of ROS. An animal study by Lee EK et al. has shown that systemic administration of the M. officinalis L. extract inhibited formation of choroidal neovascularization via suppressing the expression of VEGF and matrix metalloproteinase-9 because of its antioxidant activity [16]. In clinical experiments, these activities can prevent the development of dry AMD and prevent conversion of dry into wet AMD. Therefore, this plant and its extract can act as potential natural treatment for dry AMD or can prevent it [17].

Plant-Derived Polyphenols
Plant-derived polyphenols can possess anti inflammatory and antioxidant effects and have potential benefits for treating chronic diseases associated with prolonged inflammation and excessive oxidative stress such as AMD.

Discussion and Conclusion
This literature review investigated all types of studies and trials between 1987 and 2019 that assessed herbal treatments for AMD. All 15 included studies assessed plant-derived therapies for AMD. Reviewing the trends of the use of herbal agents or natural products in these articles can reveal new therapeutic targets or formulations for future AMD treatments or researches.
There are different mechanisms included in AMD pathogenesis. Oxidative stress and chronic inflammation are important in pathogenesis of AMD [4]. Abnormal levels of ROS in the RPE will exert oxidative stress to the eyes and will damage to the DNA and mitochondria which will lead to loss of central vision via the death of photoreceptor cells in the eyes [2]. VEGF plays a role in physiological and pathological angiogenesis and collaborates with other angiogenic factors such as FGF2 and IGF-1 to stimulate retinal neovascularization [3]. The activation of NF-kB also is a cause of ocular inflammatory diseases such as AMD [1]. There is no certain cure for AMD till now and just several anti VEGF drugs have been approved by FDA and are used at clinics to cure CNV in wet AMD [5]. It is very important to search new therapeutic agents or strategies for treatment of AMD such as herbal therapy. This study has investigated the effects of plantderived components and herbal extracts on AMD or its related retinal diseases. Different Page: 10 www.raftpubs.com plants in this review has effects on AMD via different mechanisms.
Artemisinin from Artemisia annua protected cells from H2O2-induced oxidative damage correlated with activation of AMPK via reduction of intracellular ROS generation and inhibition of oxidative stress, decreasing LDH release and loss of mitochondrial membrane potential and changing the cell morphology. Therefore, artemisinin could be a potential therapeutic agent for treatment of AMD [2]. Aqueous and ethanol extracts of L. Barbarum are potent antioxidants and could protect eyes from UVB-induced DNA damage and apoptosis of ARPE-19 cells, however ethanol extracts have stronger antioxidant effects. It seems that extracts of L. Barbarum especially ethanol extracts could be effective in prevention of diseases such as AMD [6].
Fructus barbarum L. and wolfberry are of the richest plant sources of zeaxanthin, a carotenoid that has photo protective effect in the eye and the skin and can be concentrated in the central area of the macula, yellow spot of the eye. The zeaxanthin bioavailability in a natural product, wolfberry, can be increased three-fold via homogenisation of the berries in hot skimmed milk. Dietary intake of zeaxanthin can help maintaining the macular pigment which lowers the risk of AMD which is a cause of visual disability [7]. Increased dietary intake of carotenoids like zeaxanthin and lutein to enhance macular pigment is a suggested strategy to prevent AMD or delay in it and promote visual function [8].
Wogonin from Scutellaria baicalensis could inhibit the activation of NF-kB and inflammation in LPS-stimulated ARPE-19 cells and results in the protection of the tight junction proteins ZO-1 and Claudin-1. Wogonin reduces the LPS-induced inflammatory response and inhibits the TLR4/NF-kB pathway. Therefore, wogonin can be effective in treatment of AMD [1]. GBT is a Chinese patent formula for wet macular degeneration. One of the major ingredients in GBT is a coumarin called decursin and another one is a flavonoid called glycyrrhizin which both could inhibite or reduce retinal neovascularization in mouse models. GBT could reduce VEGF, FGF2, and PAI-1 expression in OIR mice model. Other ingredients also could suppress several factors like VEGF, FGF2 or PAI-1 and can be effective in reduction of retinal neovascularization. Therefore, GBT can be effective in prevention or treatment of AMD [3].
SMT inhibits the retinal pathogenic angiogenesis induced by ischemic retinopathy in OIR mice and also inhibits the overexpression of SDF-1, HIF-1 alpha, VEGF, and CXCR-4. Therefore, SMT could be a useful herbal medicine for treatment of ischemic retinopathy which is related to AMD [9]. SDT could prevent retinal neovascularization and inhibit the expression of PDGF-BB and VEGF in OIR mice. SDT has anti-angiogenic effects on retinal neovascularization. The daily dose of SDT in human is almost 175.5 mg/kg/day and the oral route is the most appropriate route of administration [10]. Treatment of AMD with HESA-A for 4 weeks can improve visual acuity. This effect was obvious up to 5 months after treatment. The advantages of this drug are its efficacy, simple oral usage and short treatment course [11]. Saffron can protect photoreceptors from retinal stress and it can preserve morphology and function via its antioxidant and anti-inflammatory properties and regulates the programmed cell death. A daily oral administration of saffron can ameliorate the macular function of patients with early AMD over a one-year period. The improvement of macular function observed after three months of supplementation with saffron, remained stable in the 12 months follow up in all patients with different genotypes [4]. The activation of degenerative proteases like calpains causes elevations in Ca2+ and induces photoreceptor apoptosis. Saffron directly reduces the Ca2+ response caused by purinergic P2X7R stimulation and thus has protective role in neurodegeneration Page: 11 www.raftpubs.com and light-induced photoreceptor degeneration and AMD [14].
The electrophilic form of CA of rosemary at the site of redox stress, upregulates a potent endogenous antioxidant enzyme system, causes activation of the Nrf2 transcriptional pathway. CA activates phase 2 antioxidant genes and protects cells of the outer retina in vitro and in vivo. Thus, CA can be a useful therapeutic agent for diseases progressing with oxidative stress like AMD [15]. The M. officinalis L. extract can scavenge a wide range of synthetic and naturally occurring free radicals. Flavonoids and hydroxycinnamic acid derivatives in M. officinalis L. are scavengers of ROS. Systemic administration of the M. officinalis L. extract can inhibit formation of choroidal neovascularization via suppressing the expression of VEGF and matrix metalloproteinase-9 because of its antioxidant activity. These activities can prevent the development of dry AMD and prevent conversion of dry into wet AMD. Therefore, this plant and its extract can act as potential natural treatment for dry AMD or can prevent it [17]. Fisetin and luteolin are two polyphenols which can increase the survival of RPE cells suffering from oxidative stress and decrease inflammation. Plant-derived polyphenols can possess anti inflammatory and antioxidant effects and have potential benefits for diseases like AMD [18].
TCM consists of Angelica sinensis, Astragalus membranaceus bunge, Poria cocos wolf, Panax pseudo-ginseng, Fritillaria thunbergii, charred Radix et Rhizoma Rhei, Curcuma aromatica Salisb, and Pollen Typhae, can promote and stabilize the vision of a patient with AMD and reduce macular area CNV leakage. This TCM can treat both the symptoms and the causes of AMD. The herbs in this formulla totally improve visual acuity. This pharmaceutical composition targets hallmarks of AMD such as inflammation, vascular edema, oxidative stress and RPE cytotoxicity [5]. Overall, this literature review is showing there are different plants and herbal extracts that could be beneficial in prevention or treatment of AMD and scientists should consider them for designing new formulations. There are different mechanisms included in AMD pathogenesis and for each mechanism, one or more medicinal plant is introduced in this review. However, there is a need for more investigations on these medicinal plants and their benefits on AMD, but they can be beneficial in lowering the risk of AMD or several other retinal diseases and prevention of them.