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Literature DB >> 3127899

The anatomy of erection.

G Benoit¹, V Delmas, C Gillot, A Jardin.

Abstract

Erection is due to a neurovascular mechanism: an inflow of arterial blood and an obstruction of venous return. The direction of this mechanism is of neurologic origin: (1) control of the smooth muscle tissue of the corpora cavernosa by the autonomic system controlled by reflex centers in the cord or cortical centers accessible to multiple (visual) stimuli (2) control of the perineal muscles by the somatic system. Tumescence is due to a reduction in the alpha-sympathetic tonus of the cavernous tissue permitting influx of arterial blood, and to decreased venous flow from compression of the subalbugineal venous network against the tunica albuginea of the corpus cavernosum. Once this obstruction to the venous return has been achieved, the arterial flow in the corpora cavernosa decreases but persists; the arterial blood in the corpora cavernosa is renewed and not shut off. Rigidity is due to an increase in intracavernous arterial pressure simultaneous with contraction of the perineal muscles (ischiocavernosus) under the somatic control of the pudendal nerve.

Entities: Disease

Mesh：

Year: 1987 PMID： 3127899 DOI： 10.1007/bf02105295

Source DB: PubMed Journal: Surg Radiol Anat ISSN： 0930-1038 Impact factor: 1.246

60 in total

1. [SOMATIC AND AUTONOMIC INNERVATION OF GENITOURINARY ORGANS].

Authors: S GILVERNET
Journal: Acta Urol Belg Date: 1964-07

2. The Innervation of the Pelvic and adjoining Viscera: Part II. The Bladder. Part III. The External Generative Organs. Part IV. The Internal Generative Organs. Part V. Position of the Nerve Cells on the Course of the Efferent Nerve Fibres.

Authors: J N Langley; H K Anderson
Journal: J Physiol Date: 1895-12-30 Impact factor: 5.182

The anatomy of erection.

1. [SOMATIC AND AUTONOMIC INNERVATION OF GENITOURINARY ORGANS].

2. The Innervation of the Pelvic and adjoining Viscera: Part II. The Bladder. Part III. The External Generative Organs. Part IV. The Internal Generative Organs. Part V. Position of the Nerve Cells on the Course of the Efferent Nerve Fibres.

3. Urinary striated sphincter: what is its nerve supply?

4. Adrenergic alpha receptors outnumber beta receptors in human penile corpus cavernosum.

5. Impotence following radical prostatectomy: insight into etiology and prevention.

6. Neuroanatomy of penile erection: its relevance to iatrogenic impotence.

7. Mechanisms of venous occlusion during canine penile erection: an anatomic demonstration.

8. Radical prostatectomy with preservation of sexual function: anatomical and pathological considerations.

9. Beta adrenergic receptors in human cavernous tissue.

10. Testosterone receptors in corpora cavernosa of penis.

1. Supra and infralevator neurovascular pathways to the penile corpora cavernosa.

2. Caverno-pudendal nervous communicating branches in the penile hilum.

Review 3. Evolution in the concept of erection anatomy.

4. Variability in superior hypogastric plexus morphology and its clinical applications: a cadaveric study.

5. Immunohistochemical study of the corpora cavernosa of the human clitoris.

6. Anatomy of the prostatic nerves.

7. Contribution to the study of the venous vasculature of the penis.

8. The neurovascular and muscular anomalies of the gluteal region: an atypical pudendal nerve.

9. The inferior hypogastric plexus (pelvic plexus): its importance in neural preservation techniques.

10. Novel pilot films providing indispensable information in pharmaco-cavernosography.