Recovery of erectile function by the oral administration of apomorphine

Other clinical uses for apomorphine: Sedation and sleep disorders, withdrawal of oral dopaminergic medication, palliative care, restless legs syndrome, traumatic brain injury, sexual dysfunction

Apomorphine is now recognised as the oldest antiparkinsonian drug on the market. Though still underused, it is increasingly prescribed for patients with advanced Parkinson's disease (PD) with motor fluctuations in Europe, Asia and more recently on the other three continents. In light of its most recent uses and newest challenges, this paper focuses on a number of indications in Parkinson's disease and beyond, which are currently under development or which would benefit from development, given the generally high levels of evidence: sedation and sleep disorders, withdrawal of oral dopaminergic medication, palliative care, restless legs syndrome, traumatic brain injury and sexual dysfunction.

Erectile dysfunction in common neurological conditions: A narrative review

Neurogenic erectile dysfunction (NED) can be defined as the inability to achieve or maintain an erection due to central or peripheral neurologic disease. Neurologic diseases can also affect the physical ability and psychological status of the patient. All these factors may lead to a primary or secondary NED. Medication history plays an important role since there are many drugs commonly used in neurologic patients that can lead to ED. The assessment of NED in these patients is generally evolving with the application of evoked potentials technology in the test of somatic and autonomic nerves, and functional magnetic resonance imaging. With the electrophysiological examinations, neurogenic causes can be determined. These tools allow to categorize neurologic lesion and assess the patient prognosis. The first-line treatment for NED is phosphodiesterase inhibitors. Second-line treatments include intracavernous and intraurethral vasoactive injections. Third-line treatments are penile prostheses. The efficacy and safety of each treatment modality depend on the specific neurologic condition. This review discusses the physiology, pathophysiology, diagnosis, and treatment of ED in multiple peripheral and central neurologic conditions, as well as for future research.

Apomorphine for the Treatment of Erectile Dysfunction: Systematic Review and Meta-Analysis

Sublingual apomorphine could be an option in patients with erectile dysfunction who cannot take phosphodiesterase type 5 inhibitors (e.g., using nitrates). We have completed a systematic review to evaluate the effects of sublingual apomorphine comparing with placebo for treating erectile dysfunction. The evidence searching process finished on 9 January 2019. We included nine randomized controlled trials (RCTs). Treatment length varied from 4 to 8 weeks and doses ranged from 2 to 6 mg. The percent of successful sexual intercourse attempts per ingested dose of apomorphine was evaluated in eight studies. All the studies found that apomorphine was better than placebo (6-27% more successful intercourse attempts than with placebo), but differences were not statistically significant in one study done in patients previously treated with radical prostatectomy. Regarding erectile function scores, three studies reported higher improvement on the erectile function scores for apomorphine. Differences with placebo were not clinically relevant in another two studies, one in which only diabetic patients were included and one in which only patients with radical prostatectomy were involved. Discontinuation of treatment due to adverse events was higher for apomorphine, particularly for higher doses. Available evidence suggests that sublingual apomorphine is more effective than placebo, except for patients previously treated with radical prostatectomy, and is generally well tolerated at doses of 2 or 3 mg. Nowadays, sublingual apomorphine is the only licensed oral drug for erectile dysfunction not absolutely contraindicated with nitrates use, and more RCTs should be performed to evaluate its effects and safety for treating ED.

New tricks for an old dog: A repurposing approach of apomorphine

Apomorphine is a 150-year old nonspecific dopaminergic agonist, currently indicated for treating motor fluctuations in Parkinson's disease. At the era of drug repurposing, its pleiotropic biological functions suggest other possible uses. To further explore new therapeutic and diagnostic applications, the available literature up to July 2018 was reviewed using the PubMed and Google Scholar databases. As many of the retrieved articles consisted of case reports and preclinical studies, we adopted a descriptive approach, tackling each area of research in turn, to give a broad overview of the potential of apomorphine. Apomorphine may play a role in neurological diseases like restless legs syndrome, Huntington's chorea, amyotrophic lateral sclerosis, Alzheimer's disease and disorders of consciousness, but also in sexual disorders, neuroleptic malignant(-like) syndrome and cancer. Further work is needed in both basic and clinical research; current developments in novel delivery strategies and apomorphine derivatives are expected to open the way.

Pharmacotherapy for erectile dysfunction in diabetic males

INTRODUCTION

Numerous studies have highlighted the intimate association between erectile dysfunction (ED) and diabetes mellitus (DM). However, the true pathogenesis of ED among diabetic men has not yet been fully discovered. The treatment of ED in diabetic patients remains an interesting area of research. The last two decades have witnessed phenomenal advances in the management of ED with the efficacy of pharmacotherapy for ED in diabetic patients encouraging, especially with introduction of innovative conservative tools for treatment.

AREAS COVERED

The aim of this review is to discuss the currently available information on ED pharmacotherapy in diabetic males and provide an expert perspective on the current treatment strategies.

EXPERT OPINION

Conservative treatment remains the initial step for the treatment of ED in diabetic patients. This kind of therapy consists of different modalities including: oral treatments, intracavernosal pharmacotherapy, and evolving modalities such as soluble guanylate cyclase activators, stem cells (SCs), and alternative treatments such as herbal treatment and transdermal/topical pharmacotherapy. However, it should be noted that the currently available pharmacotherapy is still far from ideal. One hopes to witness new drugs and technologies that may revolutionize ED treatment in the future, especially in such complex cases as DM.

The Many Faces of Apomorphine: Lessons from the Past and Challenges for the Future

Apomorphine is now recognized as the oldest antiparkinsonian drug on the market. Though still underused, it is increasingly prescribed in Europe for patients with advanced Parkinson's disease (PD) with motor fluctuations. However, its history is far from being limited to movement disorders. This paper traces the history of apomorphine, from its earliest empirical use, to its synthesis, pharmacological development, and numerous indications in human and veterinary medicine, in light of its most recent uses and newest challenges. From shamanic rituals in ancient Egypt and Mesoamerica, to the treatment of erectile dysfunction, from being discarded as a pharmacological tool to becoming an essential antiparkinsonian drug, the path of apomorphine in the therapeutic armamentarium has been tortuous and punctuated by setbacks and groundbreaking discoveries. Throughout history, three main clinical indications stood out: emetic (gastric emptying, respiratory disorders, aversive conditioning), sedative (mental disorders, clinical anesthesia, alcoholism), and antiparkinsonian (fluctuations). New indications may arise in the future, both in PD (palliative care, nonmotor symptoms, withdrawal of oral dopaminergic medication), and outside PD, with promising work in neuroprotection or addiction.

Challenges and trends in apomorphine drug delivery systems for the treatment of Parkinson's disease

Parkinson's disease (PD) is a chronic debilitating disease affecting approximately 1% of the population over the age of 60. The severity of PD is correlated to the degree of dopaminergic neuronal loss. Apomorphine has a similar chemical structure as the neurotransmitter dopamine and has been used for the treatment of advanced PD patients. In PD patients, apomorphine is normally administered subcutaneously with frequent injections because of the compound's extensive hepatic first-pass metabolism. There is, hence, a large unmet need for alternative administrative routes for apomorphine to improve patient compliance. The present review focuses on the research and development of alternative delivery of apomorphine, aiming to highlight the potential of non-invasive apomorphine therapy in PD, such as sublingual delivery and transdermal delivery.

The treatment of erectile dysfunction in patients with neurogenic disease

Erectile dysfunction (ED) related to compromise of the nervous system is an increasingly common occurrence. This may be due to the multifactorial nature of ED, the myriad of disorders affecting the neurotransmission of erectogenic signals, and improved awareness and diagnosis of ED. Nevertheless, neurogenic ED remains poorly understood and characterized. Disease related factors such as depression, decreased physical and mental function, the burden of chronic illness, and loss of independence may preclude sexual intimacy and lead to ED as well. The amount of data regarding treatment options in subpopulations of differing neurologic disorders remains scarce except for men with spinal cord injury. The treatment options including phosphodiesterase inhibitors, intracavernosal or intraurethral vasoactive agents, vacuum erection devices (VED) and penile prosthetic implantation remain constant. This review discusses the options in specific neurologic conditions, and briefly provides insight into new and future developments that may reshape the management of neurogenic ED.

Anatomy and physiology of genital organs - men

Male sexual functions involve a number of organs and structures in genitalia whose role is to produce fertilizing gametes and to allow female-partner insemination. The testes belong to the reproductive and endocrine systems as they synthesize spermatozoa and androgens, and are under finely regulated hormonal control by the hypothalamopituitary axis. Sexual responses are controlled by a complex and coordinated interplay of both the somatic and the autonomic nervous system in multiple components of the brain, spinal cord, and relevant peripheral organs. Erectile bodies are an essential element of the penis and engorgement of the penis with blood leads to penile tumescence. Blood engorgement is due to relaxation of smooth-muscle cells of erectile tissue and endothelium of the penile arteries. The penis gains additional rigidity when the ischiocavernosus muscles contract. Stimuli from peripheral and/or central origins activate particular spinal nuclei, causing penile erection. Ejaculation consists of two phases, emission and expulsion, which correspond, respectively, to secretion of the different components of the semen by sex glands and forceful expulsion of semen due to rhythmic contractions of the bulbospongiosus muscle. A spinal generator of ejaculation integrates genital stimuli and sexual cues and, when the excitatory threshold is reached, triggers ejaculation by orchestrating the activation of autonomic and somatic pathways commanding the peripheral events of ejaculation.

The pharmacological properties and therapeutic use of apomorphine

Apomorphine (APO) is an aporphine derivative used in human and veterinary medicine. APO activates D₁, D_2S, D_2L, D₃, D₄, and D₅ receptors (and is thus classified as a non-selective dopamine agonist), serotonin receptors (5HT_1A, 5HT_2A, 5HT_2B, and 5HT_2C), and α-adrenergic receptors (α_1B, α_1D, α_2A, α_2B, and α_2C). In veterinary medicine, APO is used to induce vomiting in dogs, an important early treatment for some common orally ingested poisons (e.g., anti-freeze or insecticides). In human medicine, it has been used in a variety of treatments ranging from the treatment of addiction (i.e., to heroin, alcohol or cigarettes), for treatment of erectile dysfunction in males and hypoactive sexual desire disorder in females to the treatment of patients with Parkinson's disease (PD). Currently, APO is used in patients with advanced PD, for the treatment of persistent and disabling motor fluctuations which do not respond to levodopa or other dopamine agonists, either on its own or in combination with deep brain stimulation. Recently, a new and potentially important therapeutic role for APO in the treatment of Alzheimer’s disease has been suggested; APO seems to stimulate Aβ catabolism in an animal model and cell culture, thus reducing the rate of Aβ oligomerisation and consequent neural cell death.

Mechanisms of penile erection and basis for pharmacological treatment of erectile dysfunction

Erection is basically a spinal reflex that can be initiated by recruitment of penile afferents, both autonomic and somatic, and supraspinal influences from visual, olfactory, and imaginary stimuli. Several central transmitters are involved in the erectile control. Dopamine, acetylcholine, nitric oxide (NO), and peptides, such as oxytocin and adrenocorticotropin/α-melanocyte-stimulating hormone, have a facilitatory role, whereas serotonin may be either facilitatory or inhibitory, and enkephalins are inhibitory. The balance between contractant and relaxant factors controls the degree of contraction of the smooth muscle of the corpora cavernosa (CC) and determines the functional state of the penis. Noradrenaline contracts both CC and penile vessels via stimulation of α₁-adrenoceptors. Neurogenic NO is considered the most important factor for relaxation of penile vessels and CC. The role of other mediators, released from nerves or endothelium, has not been definitely established. Erectile dysfunction (ED), defined as the "inability to achieve or maintain an erection adequate for sexual satisfaction," may have multiple causes and can be classified as psychogenic, vasculogenic or organic, neurologic, and endocrinologic. Many patients with ED respond well to the pharmacological treatments that are currently available, but there are still groups of patients in whom the response is unsatisfactory. The drugs used are able to substitute, partially or completely, the malfunctioning endogenous mechanisms that control penile erection. Most drugs have a direct action on penile tissue facilitating penile smooth muscle relaxation, including oral phosphodiesterase inhibitors and intracavernosal injections of prostaglandin E₁. Irrespective of the underlying cause, these drugs are effective in the majority of cases. Drugs with a central site of action have so far not been very successful. There is a need for therapeutic alternatives. This requires identification of new therapeutic targets and design of new approaches. Research in the field is expanding, and several promising new targets for future drugs have been identified.

Erectile dysfunction after radical prostatectomy: treatment options

Erectile dysfunction is a common problem after radical prostatectomy, with almost all men experiencing this complication for at least a short period after such surgery. There is evidence that early use of phosphodiesterase type 5 inhibitors, intracavernous vasoactive drugs, intraurethral alprostadil or vacuum devices can improve the recovery of postoperative erectile function. The same therapeutic modalities can be used to treat erectile dysfunction after radical prostatectomy. Physicians must be active and counsel patients and partners to improve adherence to penile rehabilitation or erectile dysfunction treatment.

Centrally acting mechanisms for the treatment of male sexual dysfunction

The development of pharmacologic therapy for erectile dysfunction (ED) has been possible because of incremental growth in our understanding of the physiology of normal erections and the complex pathophysiology of ED. Although the oral phosphodiesterase type 5 (PDE5) inhibitors have provided safe, effective treatment of ED for some men, a large proportion of men who have ED do not respond to PDE5 inhibitors or become less responsive or less satisfied as the duration of therapy increases. Also, men who are receiving organic nitrates and nitrates, such as amyl nitrate, cannot take PDE5 inhibitors because of nitrate interactions. The current options for treatment beyond PDE5 inhibitors are invasive, unappealing to some patients, and sometimes ineffective. The search for other options by which ED can be treated has branched out and now encompasses centrally acting mechanisms that control erectile function. Drugs available in Europe include apomorphine. This article focuses on the mechanism of centrally acting agents and reviews clinical data on potential new centrally acting drugs for men who have ED.

Treatment options for erectile dysfunction

A wide variety of medications, devices, and surgical interventions are available to patients who have ED. These range from first-line oral agents to second-line therapy with injections or vacuum devices to third-line options, such as penile prosthesis implantation. In this article, we cover available treatments for erectile dysfunction, ranging from first-line to third-line therapies.

Sexual function in men and women with neurological disorders

The advent of non-invasive functional brain imaging has clarified which regions of the brain are recruited during sexual arousal. Injuries to those regions, and to the spinal cord and peripheral nerves that link genitalia to limbic and cognitive centres, can profoundly influence sexual wellbeing. In epilepsy, expressions of hypersexuality and hyposexuality interact with the location of epileptogenic foci in the temporolimbic circuitry, and are tempered by the sexual effects of drug treatments. We outline the sexual consequences of epilepsy, stroke, multiple sclerosis, Parkinson's disease, and other common neurological disorders. Management of sexual dysfunction from both disease and treatment is discussed. Nerve-sparing techniques could mitigate the substantial sexual dysfunction in both men and women through surgical disruption of the autonomic nerves during radical pelvic surgery.

The supraspinal network in the control of erection

Penile erection is a complex event controlled by vascular, hormonal and neuronal systems. The neuronal system involved in erection is often divided into spinal and supraspinal networks. It is generally accepted that the spinal system directly controls erection and that the supraspinal network modulates this control mechanism through different ascending and descending pathways. In contrast to the spinal control of erection, relatively little is known about the supraspinal network. In the present review, the authors outline the supraspinal network involved in the control of penile erection. Firstly, the brain regions reported to be involved in erection are described and the brain circuit of erection is outlined. Subsequently, the neuromediators involved in erection are summarised. Finally, these data are discussed in the light of therapeutic possibilities in the management of erectile dysfunction by targeting the supraspinal system.

Experiences with dose finding in patients in early drug development: the use of biomarkers in early decision making

With the increasing cost and complexity of drug development, biomarkers will play an increasing role in the early phases. Biomarkers can be classified into target, mechanistic, or outcome with varying degrees of linkage to disease or treatment effect. They can be used to determine proof of concept by characterising the efficacy or safety profiles, or determining differentiation from any competitor drugs. PK/PD modelling of biomarker data for novel and marketed compounds can be used to predict outpatient dose response. Subsequent simulations may replace or reduce the size and cost of larger phase 2b outpatient studies. Two examples of biomarkers and PK/PD modelling used to characterise dose response are presented. Penile plethysmography (RigiScan Plus) in male erectile dysfunction and phenylephrine challenge urethral pressure in benign prostatic hyperplasia are used to reduce time and cost to reach major exploratory development decision points in these indications.

A comparative review of apomorphine formulations for erectile dysfunction : recommendations for use in the elderly

Erectile dysfunction (ED) is a common medical condition that affects the sexual life of millions of men worldwide. First-line oral therapy for ED includes the use of phosphodiesterase type 5 inhibitors (sildenafil, tadalafil and vardenafil) and sublingual apomorphine. Apomorphine is a dopamine D(1) and D(2) receptor agonist that has been approved for marketing in Europe. Different apomorphine formulations have been tested, such as sublingual, subcutaneous and intranasal. However, the sublingual formulation has shown the best results in terms of efficacy, safety and tolerability, especially the 2mg and 3mg doses. Although clinical studies of the efficacy and tolerability of apomorphine sublingual (SL) have included older patients, who are more likely to have ED, no study has specifically assessed the efficacy and tolerability of different doses of apomorphine SL in aging men. Therefore, a MEDLINE search was conducted from January 1987 to November 2005 to identify studies of the efficacy, safety (in particular cardiovascular safety) and tolerability of different apomorphine formulations and doses as treatments for ED in the subcohort of aging men. On the basis of the most recent peer-reviewed publications, the first part of this article critically evaluates data regarding the epidemiology of ED in the aging population. The second part of the article focuses on the mechanism of action and pharmacokinetics of apomorphine both in the general and the elderly population. Finally, a critical analysis of the efficacy and safety of different apomorphine formulations and doses for the treatment of ED is reported. Apomorphine represents a first-line oral treatment for ED. Available formulations include only sublingual administration. Few studies have assessed the efficacy and safety of apomorphine in the elderly population. However, in clinical practice, older patients with multiple vascular risk factors and systematic vascular damage show poor overall response to apomorphine SL for the treatment of ED.

Role of the brain in the control of erection

In contrast to the spinal control of erection, relatively little is known about the brain control. In the present review, we have outlined the role of brain structures involved in penile erection and provided a synopsis on the brain circuit of erection. Findings from both animal and human studies are discussed. Evidence suggests that the most important structures are the frontal lobe, cingulate gyrus, amygdala, thalamus and hypothalamus. Within the brain circuit of erection, the thalamus serves as a gate-controller in which all relevant information is evaluated and further processed to higher and lower centres.

Aetiology and management of male erectile dysfunction and female sexual dysfunction in patients with cardiovascular disease

The historical basis for understanding erectile function as a neurovascular phenomenon and the advance from fanciful to effective treatment of erectile dysfunction (ED) are reviewed, with emphasis on patients with cardiovascular disease (CVD). ED occurs in 60% of CVD patients by 40 years of age. Male ED and female sexual dysfunction (FSD) diminish quality of life and often warn of occult CVD. ED is often unrecognised but is readily diagnosed during a 5-minute interview using a truncated International Index of Erectile Function questionnaire. Erection of the penis and clitoral engorgement result from local, arousal-induced release of neuronal and endothelial-derived nitric oxide (NO). Arterial vasodilatation and relaxation of cavernosal smooth muscle cells cause arterial blood to flood trabecular spaces, compressing venous drainage, resulting in tumescence. Cyclic guanosine monophosphate (cGMP)-induced activation of protein kinase G mediates the effects of NO by enhancing calcium sequestration and activating large-conductance, calcium-sensitive K+ channels. Future treatment strategies will likely enhance these pathways. Phosphodiesterase-5 inhibitors (sildenafil, tadalafil and vardenafil) increase cGMP levels in erectile tissue. These agents are effective in 80% of CVD patients with ED and can be used safely, even in the presence of stable coronary disease or congestive heart failure, provided nitrates are avoided and patients do not have hypotension, severe aortic stenosis or evocable myocardial ischaemia. Second-line therapies (vacuum constrictor device and transurethral or intracavernosal prostaglandin E1) can also be used in CVD patients. Treatment of FSD and its relationship to CVD are less well established, but similarities to ED exist. ED can be prevented by reduction of CVD risk factors, exercise, weight loss and abstinence from smoking.

Erectile dysfunction: anatomical parameters, etiology, diagnosis, and therapy

Functional anatomy of the human penis involves various parameters: cavernous tissue, covering integument, prepuce foreskin, corpora cavernosa, corpus spongiosum, glans, facia, arterial supply, venous drainage, lymph drainage, musculature, and nerve supply. Several factors affect the expression/degree of erectile dysfunction (ED) endocrine profile, aging/senescence, demyelinating diseases, and surgery. Risk factors of ED are: age, vascular factors, metabolic diseases (diabetes mellitus), neurologic diseases, and HIV/AIDS. Several drugs are associated with ED: antiandrogenic, anticholinergic, antidepressants, antihypertensive, major tranquilizers, anxiolytics, and certain medicines/metabolites. The International Index of Erectile Function (IIEF) is a multidimensional scale for assessment of erectile dysfunction. The main structures mediating erection are the corpora cavernosa or "erectile bodies," which are fused distally for approximately three-quarters of their length. They separate proximally to fuse with each ischial tuberosity of the pelvis. On their ventral surface lies the corpus spongiosum, which surrounds the urethra. Coital dysfunction is classified into "erectile dysfunction" (psychosexual and endocrine/neuro-endocrine) and "ejaculatory dysfunction" (psychosexual, and genitourinary surgery). Vasculogenic impotence was evaluated by high-resolution ultrasonography and pulsed Doppler spectrum analysis. Cavernosal, alpha-blockade is a technique used to evaluate and treat ED. Another diagnostic procedure for ED involves color floro and spectural Doppler imaging after papaverine-induced erection in impotent men. Color Doppler and duplex ultrasonography are used to evaluate Peyronie's disease. Sildenafil cilrate (Viagra) is an effective therapy of ED in men. Vardenavil is a highly selective phosphodiesterase 5 (PDE5) inhibitor which improved ED. Prostagland E1, vasoactive intestinal polypeptide (VIP), and phentolamine mesylate (administered by autoinjectors) have been applied to treat ED in patients resistant to other intracavernosal agents. Clinical trials were conducted on self-injection of vasoactive drugs, apomorphine SL, and tadalafil in diabetic men. Medical therapy of ED includes: medicated urethral system for erection (MUSE), intravenous pharmacotherapy, arterial revascularization, vacuum devices, two- and three-component inflatable penile prosthesis, semi-rigid penile prosthesis in situ, and inflatable one-piece penile prosthesis. Surgical therapy include procedures to correct Peyronie's penile deformity and penile deformity, procedures to avoid inevitable shortening accompanying Nesbit's disease, and for penile lengthening.

The impact of psychosocial factors on the risk of erectile dysfunction and inhibition of sexual desire in a sample of the Brazilian population

CONTEXT

Sexual dysfunctions can have origins in physical, psychological and psychosocial factors.

OBJECTIVE

To describe the frequency of erectile dysfunction (ED) and female inhibition of sexual desire (ISD) in a Brazilian sample, and to estimate the risks of these dysfunctions.

TYPE OF STUDY

Non-random survey.

SETTING

Ten Brazilian cities.

METHODS

2,835 subjects (53% women) aged over 18 years answered a questionnaire about their general health and sex life. The chi-squared test and multivariate logistic regression were used. Values of p < or = 0.05 were considered significant.

RESULTS

The women's average age was 36.6 years (+/- 13.3) and the men's was 39.5 (+/- 13.3). 14.7% of men presented moderate/complete ED and 34.6% of women presented ISD. Depression was mentioned by 16.8% of men and 29.7% of women. The chances of having ED and ISD were higher for subjects who had had lower school attainment. Lack of a job and depression gave rise to 1.5 times (95% CI: 1.0 - 2.3) and 1.9 times (95% CI: 1.2 - 3.0) greater chances of ED respectively. Compared with men aged up to 25 years, those aged 41-60 had 1.9 times (95% CI: 1.0 - 3.4) and those aged 61 and over had 5.4 times (95% CI: 2.3 - 12.6) greater risk of ED. For women, lack of a job gave rise to 1.5 times (95% CI: 1.1 - 1.9) greater chance of ISD; depression was not associated with higher risk. Compared with women aged up to 25 years, those aged 41-60 and 61 or over had, respectively, 2.9 times (95% CI: 2.0 - 4.1) and 7.5 times (95% CI: 3.0 -18.6) greater risk of ISD.

DISCUSSION

Increasing unemployment has affected the whole population, but especially those with lower levels of school attainment. Such levels are positively linked with presence of sexual dysfunctions.

CONCLUSION

Lack of jobs, age and low school attainment are risks for the sexual dysfunctions studied. Depression increased the risk of ED but not female ISD.

Peripheral relaxant activity of apomorphine and of a D1 selective receptor agonist on human corpus cavernosum strips

Apomorphine is used in the erectile dysfunction therapy and its action has been ascribed to the stimulation of central dopamine receptor. At the present stage, very little is known about the peripheral action of apomorphine on human corpus cavernosum (HCC). We have investigated the peripheral action of apomorphine and the role of dopamine receptors in HCC. We here demonstrate that both D1 and D2 receptors were expressed in the HCC, D1 receptors were two-fold more abundant than D2 and that both receptors were mainly localized on the smooth muscle cell component. Apomorphine in vitro exerted an anti-alpha1 adrenergic activity in human cavernosal strips since it prevented contraction induced by phenylephrine (PE), but not by U46619 or endothelin. Apomorphine elicited endothelium-independent and concentration-dependent relaxation of the strips contracted by PE, U46619 or endothelin. The EC50 values (microM) for apomorphine, in the presence and absence of endothelium, were 51.0+/-16 and 16.0+/-14, 120+/-19 and 150+/-18, 59.0+/-15 and 140+/-50 on PE-, U46619- or endothelin-induced contraction, respectively. Selective dopamine receptor agonist A-68930 (D1-like), but not quinpirole (D2-like), caused concentration-dependent relaxation of the cavernosal strips, which was partially prevented by endothelium removal or by treatment with an inhibitor of nitric oxide (NO) synthase. In conclusion, we show that (1) apomorphine has a peripheral relaxant direct effect as well as an antiadrenergic activity, (2) HCC possesses more D1-like (D1 and D5) than D2-like (D2, D3 and D4) receptors, (3) both D1- and D2-like receptors are mainly localized on smooth muscle cells and (4) the relaxant activity is most probably mediated by D1-like receptor partially through NO release from endothelium.

Alternative therapies for male and female sexual dysfunction

Sexual dysfunction is prevalent in both men and women. Although new pharmaceutical agents have been identified for male erectile problems, sexual desire and orgasm disorders, individuals with sexual dysfunction often seek alternative therapies, including traditional Chinese medicine. This article reviews currently used alternative therapies, such as herbal medications, L-arginine, acupuncture, biofeedback and others. Potential herb-drug interactions are also presented.

Blood pressure effects of intravenous apomorphine in conscious deoxycorticosterone-acetate salt-hypertensive rats

SUMMARY

The present study reports the effects of apomorphine (APO) on blood pressure and the principal site of action of this agonist in 4-week deoxycorticosterone-acetate (DOCA)-hypertensive conscious rats. In these preprations, intravenous (i.v.) administration of APO (0.50-1 mg/kg) induced short-lasting and dose-dependent decreases in mean arterial pressure. The hypotensive response to APO (0.3 mg/kg) was reversed into a significant pressor effect by i.v. hexamethonium (30 mg/kg), whereas it was enhanced by i.v. pretreatment with the vasopressor antagonist of arginine vasopressin (AVP) d(CH2)5Tyr(Me)AVP (10 microg/kg) and/or prazosin (1 mg/kg). This depressor effect was suppressed by the central and peripheral dopamine D2 receptor antagonist metoclopramide (5 mg/kg i.v.), unaffected by the selective dopamine D1 receptor antagonist SCH 23390 (0.2 mg/kg i.v.), partly reduced by intrathecal domperidone (40 microg per rat at T9-T10 level), a dopamine D2 receptor antagonist which does not cross the blood-brain barrier, and reversed into a significant pressor effect by i.v. domperidone (0.5 mg/kg). The latter pressor effect was fully abolished by combined i.v. pretreatment with the vasopressor antagonist of AVP and prazosin. These results show that, in conscious DOCA salt-hypertensive rats, APO induced a brief, initial depressor effect, which is opposed to a central pressor component. The depressor component is related to an inhibition of norepinephrine transmission through activation of dopamine D2 receptors, some of which are located in the spinal cord and some of which are located in the peripheral circulation. The central pressor component, which became manifest after peripheral dopamine D2 receptor blockade, appears to be related to an increase in vasopressin release and sympathetic tone through activation of brain dopamine D2 receptors.

Erectile dysfunction:

The treatment of male sexual dysfunction in the elderly offers special challenges. Commonly, these men have other conditions requiring medical treatment and the possibility of adverse drug interactions is common. Similarly, the severity of dysfunction is frequently increased by alteration in various organ systems. For instance, ED is commonly associated with significant cardiovascular problems and hormonal alterations. The treatment of these men requires familiarity with the various options available and good clinical judgment to determine when and how modification of therapeutic regimens and combinations of specific drugs may provide the best responses. Frequently one hears the embarrassed older man coming for a consultation and stating that, "At my age, I should not be thinking of this." It is imperative to remember that advancing age does not preclude sexual interest and desire for performance. A well-informed, understanding physician can provide sound advice, institute appropriate therapies, and organize intelligent referrals.

New achievements and pharmacotherapeutic approaches to impotence in the elderly

Erectile dysfunction (ED) has a negative impact on the quality of life of elderly men, but impotence is not an absolute concomitant of aging. Aging changes influencing sexual function in men consist of a decreased capacity to reach arousal by imagination or view, fragility of erection, and an increase in the refractory period. These events may be part of the andropause syndrome, which includes a decrease in intellectual activity, fatigue, depression, decreases in body hair, lean body mass and bone mineral density, accompanied by an increase in weight. As a consequence, the overlap of aging processes, concurrent diseases and social situations to which elderly men are subject, results in the great variability reported in epidemiological studies. In the same way, the complex physiology of erection depends on the social, environmental, or physical context in which it occurs. New achievements in research on intracellular mechanisms of erection and on the neuroendocrinology of aging contribute to better understanding the pathophysiology of ED in the elderly. For example, testosterone declines with age with great interindividual variability, since other hormonal changes are also involved. What currently can be easily identified is the alteration of LH-testosterone feedback alterations, although hormone levels fall in the normal range. Nevertheless, the extent to which age-dependent decline in hormones leads to health problems that may affect the quality of life remains to be clarified. Several concepts on aging-related processes have been challenged, and conditions that were once accepted as physiologically age-related are now thought to lead to medical problems, but until now erectile dysfunction remains underreported, underdiagnosed, and undertreated, especially in the elderly. Nowadays, we are witnessing a rapid growth in available pharmacotherapies, from intracavernous injections of vasoactive drugs, to powerful new oral agents, with differing pharmacological dynamic and kinetic properties. New options for treatment are therefore possible, taking into account both the possibility of changing ineffective drugs and augmenting efficacy by means of synergistic associations. This rich generation of progress is certainly contributing to a better medical approach to sexuality in aging people.

Dopamine D1 receptor agonists induce penile erections in rats

The dopamine receptor agonist apomorphine has been recently introduced in the treatment of erectile dysfunction. While it is well established that dopamine D2-like receptors play a crucial role in this effect, conflicting result are reported in the literature as for the role of dopamine D1-like receptors. The aim of this study was to determine the effect of systemic administration of dopamine D1-like receptor agonists on penile erection in rats. Male Wistar rats were treated with three different, and not structurally related, dopamine D1-like receptor agonists: the partial agonists SKF38393 ((+) 2,3,4,5-tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine) and CY 208-243 ((-)-4,6,6a,7,8,12b-exahydro-7-methylindole [4,3-ab]fenantridine), and the full agonist A 77636 ((-)-(1R,3S)-3-Adamantyl-1-(aminomethyl)-3,4-dihydro-5,6-dihydroxy-1H-2-benzopyran hydrochloride). All three compounds dose-dependently increased the number of penile erections, with the full agonist A77636 showing a more pronounced effect with respect to the other two. Moreover, the dopamine D1-like receptor antagonist SCH 23390 ((R)-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine) dose-dependently antagonised A77636 effect. These results show that systemic administration of dopamine D1-like receptor agonists induce penile erection in rats. This observation suggests that dopamine D1-like receptor agonists might be considered as a possible alternative to apomorphine in the treatment of erectile dysfunction, thus avoiding the typical side effects related to the stimulation of dopamine D2-like receptors such as nausea.

The hemodynamics of erection and the pharmacotherapies of erectile dysfunction

The past few years have been witness to a sea of change in understanding the diagnosis and treatment of erectile dysfunction. In the wake of Viagra, effective orally administered therapies are now the expected gold standard. Currently available therapies include both peripherally (at the level of the penis) and centrally (brain, e.g., hypothalamic nuclei) acting compounds. When all modes of pharmacotherapy are considered, ranging from oral, to topical, to intraurethral, to intracavernous injection, it is clear that the vast majority of men with mild to moderate erectile dysfunction can now be effectively treated. However, all forms of pharmacotherapy have the lowest efficacy and greatest side effect profiles (including cardiovascular events) in the patients that need the therapy most, that is, those with relatively severe and longstanding erectile dysfunction. The newer generation of pharmacotherapies, which will likely include gene therapy techniques as well, will therefore have to target this latter group. Improved mechanism-based, perhaps patient-specific therapies are foreseen that will dramatically increase the number of patients seeking treatment, as well as the quality of their lives.

Interactions between drugs for erectile dysfunction and drugs for cardiovascular disease

The association of erectile dysfunction (ED) and cardiovascular disease is well-documented in the literature and both conditions share risk factors. Therefore, it is difficult to distinguish the effect of underlying disease and adverse effects of the drugs and/or interactions between ED drugs and drugs implemented for cardiovascular disease. The known interactions of systemic administered drugs for ED with drugs for cardiovascular disease are mainly pharmacodynamic. Thus, nitrates enhance the production of cyclic GMP and combined with phosphodiesterase type-5 inhibitors this can lead to severe hypotension. The same is the case for the treatment with phentolamine in patients treated with beta-adrenoceptor antagonists. Due to increased partial thromboplastin time, the risk of bleeding is enhanced for intracavernous alprostadil injection in heparin-treated patients. Pharmacokinetic interactions of clinical importance have been described for ED drugs with other therapeutic groups such as sildenafil with the antifungal drug, ketoconazole, and apomorphine with the antiparkinson drug, entacapon. Although sildenafil and antihypertensive dihydropyridines like amlodipine are metabolized by the same cytochrome P450 enzyme, CYP3A4 in the liver, the combination of these drugs does not exhibit a synergistic blood pressure lowering action. Unfortunately documentation concerning drug interactions is often poor and occasional.

Pharmacological aspects of erectile dysfunction

Erectile dysfunction (ED) is a common problem with a prevalence of approximately 50% in men aged 40 to 70. There are several etiologies for ED including vasculogenic, neurogenic, hormonal and/or psychogenic factors; one-fourth of ED cases can be drug-related. Penile erection involves a complex interaction between the CNS and local factors. It is a neurovascular event modulated by psychological and hormonal factors. Pharmacologically, neural modulation and endocrine status are very important to attaining penile erection. There have been several significant advances for the pharmacologic treatment of ED. Treatments include agents that are not only orally effective, but possess either local or central acting mechanisms of action. Apomorphine, a centrally-acting agent, is effective in the treatment of ED. Sildenafil, another orally effective agent, acts by inhibiting cyclic GMP-specific phosphodiesterase Type V. Testosterone can be effective transdermally. Non-orally active agents include alprostadil and papaverine. Phentolamine and trazodone are effective in selected cases. Some agents can interact with other medications. Several pharmacological agents, some with central-acting mechanisms and some with Iocally-acting vascular effects, are therapeutically useful in the treatment of ED.