madman
Super Moderator
1. Introduction
Male erectile dysfunction (ED) or impotence refers to incompetence to reach and retain adequate penile tumescence for sexual intercourse [1]. Over 152 million men globally suffer from ED [1]. The global issue of ED is anticipated to affect around 322 million males by 2025 [46,47]. Incompetence in accomplishing normal penile erection leads to depression, loss of self-confidence, socialization, and communication with the family [4]. Also, ED leads to conflicts in the relationships that negatively influence the well-being of the couple [5]. ED led men to seek medical care. The fundamental workup for patients with ED includes a detailed history of family, medical, social, and sexual history, helps to disclose the underlying onset of ED. Family history includes diabetes and cardiovascular diseases (CVDs) [6,7]. The medical history includes medications used for depression, mental illness, CVDs, and hypertension [3,41]. Social history should include a history of smoking, drug use, alcohol consumption, diet, and exercise [7]. A detailed sexual history includes open-ended questions that require the patient to elaborate more about sexual performance, previous and current relationships, and sexual health status [6,7].
2. Views on male erectile dysfunction
2.1. Physiology of the penis
The penis is one of the major parts of the male reproductive system. It consists of three erectile (cavernous) tissues, two corpora cavernosa, and corpus spongiosum. The urethra extended inside the penis to the urinary meatus that opens outside. The deep penile artery and glans or head of the penis are covered with foreskin or prepuce [12–15].
2.2. Etiology of male erectile dysfunction
2.2.1. Endocrinopathies induced erectile dysfunction
2.2.2. Neurogenic erectile dysfunction
2.2.3. Vasculogenic erectile dysfunction
2.3. Risk factors for male erectile dysfunction
2.3.1. Diabetes
2.3.2. Hypertension
2.3.3. Obesity
2.3.4. Lack of physical activity
2.3.5. Alcoholism
2.3.6. Cigarette smoking
2.3.7. Drugs induced erectile dysfunction
2.3.8. Psychological factors
3. Sex therapy
3.1. Mechanisms underlying the pathophysiology of erectile dysfunction
3.1.1. Phosphodiesterase 5 enzyme activity
3.1.2. Nitric oxide synthase uncoupling
3.1.3. Insulin signaling pathway
3.1.4. Glucose oxidation-induced superoxide production
3.1.5. Renin-angiotensin system
3.1.6. Acetylcholinesterase pathway
4. Treatment of male erectile dysfunction
4.1. Phosphodiesterase inhibitors
4.2. Alprostadil
4.3. Penile prosthesis surgery
4.4. Gonadotropin replacement therapy
5. Promising medicinal plants for the treatment of male erectile dysfunction
5.1. Animal testing and in vitro studies
5.1.1. Arctium lappa L
5.1.2. Anogeissus leiocarpus
5.1.3. Asteracantha longifolia (L.) nees
5.1.4. Berberine
5.1.5. Bulbine natalensis (Baker)
5.1.6. Camellia sinensi
5.1.7. Cinnamomum cassia
5.1.8. Curcuma longa Linn
5.1.9. Cyperus esculentus L
5.1.10. Epimedium sagittatum
5.1.11. Ficus capensis
5.1.12. Garcinia kola
5.1.13. Ginkgo biloba
5.1.14. Gloriosa superba L
5.1.15. Hunteria umbellata
5.1.16. Massularia acuminata
5.1.17. Microdesmis keayana
5.1.18. Moringa oleifera Lam
5.1.19. Myristica fragnans
5.1.20. Ocimum gratissium linn
5.1.21. Pseudopanax arboreus
5.1.22. Telfairia occidentalis
5.2. Clinical studies
5.2.1. Crocus sativus L. - Saffron
5.2.2. Eurycoma longifolia Jack
5.2.3. Panax ginseng
5.2.4. Tribulus terrestris
5.2.5. Yohimbine
5.2.6. VigRx plus
6. Conclusion
ED is a complex disorder involving several pathophysiologic mechanisms such as nitric oxide synthase, insulin resistance, glucose oxidation-induced superoxide production, renin-angiotensin system, and acetylcholinesterase. Owing to the side effects resulting from usage of PDE inhibitors, alprostadil, penile prosthesis and hormonal replacement therapies excited prompted researchers’ interest to investigate more medicinal plant species and natural active constituents to alleviate and cure ED. Few clinical trials have evaluated the safety and efficacy of medicinal plants for the treatment of ED. According to the results of animal experiments and in vitro studies, medicinal plants have revealed potential therapeutic effects against male ED. Clinical trials on these medicinal plants could help in the development of new and abundant drugs for ED treatment.
Male erectile dysfunction (ED) or impotence refers to incompetence to reach and retain adequate penile tumescence for sexual intercourse [1]. Over 152 million men globally suffer from ED [1]. The global issue of ED is anticipated to affect around 322 million males by 2025 [46,47]. Incompetence in accomplishing normal penile erection leads to depression, loss of self-confidence, socialization, and communication with the family [4]. Also, ED leads to conflicts in the relationships that negatively influence the well-being of the couple [5]. ED led men to seek medical care. The fundamental workup for patients with ED includes a detailed history of family, medical, social, and sexual history, helps to disclose the underlying onset of ED. Family history includes diabetes and cardiovascular diseases (CVDs) [6,7]. The medical history includes medications used for depression, mental illness, CVDs, and hypertension [3,41]. Social history should include a history of smoking, drug use, alcohol consumption, diet, and exercise [7]. A detailed sexual history includes open-ended questions that require the patient to elaborate more about sexual performance, previous and current relationships, and sexual health status [6,7].
2. Views on male erectile dysfunction
2.1. Physiology of the penis
The penis is one of the major parts of the male reproductive system. It consists of three erectile (cavernous) tissues, two corpora cavernosa, and corpus spongiosum. The urethra extended inside the penis to the urinary meatus that opens outside. The deep penile artery and glans or head of the penis are covered with foreskin or prepuce [12–15].
2.2. Etiology of male erectile dysfunction
2.2.1. Endocrinopathies induced erectile dysfunction
2.2.2. Neurogenic erectile dysfunction
2.2.3. Vasculogenic erectile dysfunction
2.3. Risk factors for male erectile dysfunction
2.3.1. Diabetes
2.3.2. Hypertension
2.3.3. Obesity
2.3.4. Lack of physical activity
2.3.5. Alcoholism
2.3.6. Cigarette smoking
2.3.7. Drugs induced erectile dysfunction
2.3.8. Psychological factors
3. Sex therapy
3.1. Mechanisms underlying the pathophysiology of erectile dysfunction
3.1.1. Phosphodiesterase 5 enzyme activity
3.1.2. Nitric oxide synthase uncoupling
3.1.3. Insulin signaling pathway
3.1.4. Glucose oxidation-induced superoxide production
3.1.5. Renin-angiotensin system
3.1.6. Acetylcholinesterase pathway
4. Treatment of male erectile dysfunction
4.1. Phosphodiesterase inhibitors
4.2. Alprostadil
4.3. Penile prosthesis surgery
4.4. Gonadotropin replacement therapy
5. Promising medicinal plants for the treatment of male erectile dysfunction
5.1. Animal testing and in vitro studies
5.1.1. Arctium lappa L
5.1.2. Anogeissus leiocarpus
5.1.3. Asteracantha longifolia (L.) nees
5.1.4. Berberine
5.1.5. Bulbine natalensis (Baker)
5.1.6. Camellia sinensi
5.1.7. Cinnamomum cassia
5.1.8. Curcuma longa Linn
5.1.9. Cyperus esculentus L
5.1.10. Epimedium sagittatum
5.1.11. Ficus capensis
5.1.12. Garcinia kola
5.1.13. Ginkgo biloba
5.1.14. Gloriosa superba L
5.1.15. Hunteria umbellata
5.1.16. Massularia acuminata
5.1.17. Microdesmis keayana
5.1.18. Moringa oleifera Lam
5.1.19. Myristica fragnans
5.1.20. Ocimum gratissium linn
5.1.21. Pseudopanax arboreus
5.1.22. Telfairia occidentalis
5.2. Clinical studies
5.2.1. Crocus sativus L. - Saffron
5.2.2. Eurycoma longifolia Jack
5.2.3. Panax ginseng
5.2.4. Tribulus terrestris
5.2.5. Yohimbine
5.2.6. VigRx plus
6. Conclusion
ED is a complex disorder involving several pathophysiologic mechanisms such as nitric oxide synthase, insulin resistance, glucose oxidation-induced superoxide production, renin-angiotensin system, and acetylcholinesterase. Owing to the side effects resulting from usage of PDE inhibitors, alprostadil, penile prosthesis and hormonal replacement therapies excited prompted researchers’ interest to investigate more medicinal plant species and natural active constituents to alleviate and cure ED. Few clinical trials have evaluated the safety and efficacy of medicinal plants for the treatment of ED. According to the results of animal experiments and in vitro studies, medicinal plants have revealed potential therapeutic effects against male ED. Clinical trials on these medicinal plants could help in the development of new and abundant drugs for ED treatment.
