Male Reproduction Physiology II PDF 2024 Ross University

Summary

This document is a Ross University 2024 lecture on male reproduction in veterinary medicine covering topics such as male fertility requirements, hormones, thermoregulation, anatomy, and more. It combines diagrams and text for comprehensive study.

Full Transcript

Male
L. Segabinazzi

2024
 Male fertility requires Physiology MM
II - Reproduction

Competent spermatogenesis
Endocrine regulation
Thermoregulation
Spermatocytogenesis
Mitosis, meiosis
Spermiogenesis
Morphological transformation
Functional delivery system
Accessory glands
Erection, ejaculation
Libido
 Male Physiology MM
II - Reproduction

Endocrinology of Male Reproduction

Anti-Mullerian Hormone (AMH)
Gonadotropin releasing hormone
(GnRH)
Luteinizing hormone (LH)
Follicle stimulating hormone (FSH)
Testosterone (T4)
Estradiol (E2)
Inhibin (INH)
 Hormones Physiology MM
II - Reproduction

AMH
Low levels in postnatal male
Produced by immature Sertoli cells
Elevated in cryptorchidism compared to castrated males (Diagnostic test on single blood test)

LH
Acts on Leydig cells – induce Testosterone secretion

FSH
Acts on Sertoli cells – major action is to promote protein synthesis (ABP)

Estradiol
Secreted by Sertoli cells – cause negative feedback to the anterior pituitary for the synthesis of FSH.

Androgen binding protein (ABP)
Secreted into the seminiferous tubules. It serves to ensure a constant high intratubular concentration
of testosterone essential for the function of the epididymis, and possibly other accessory glands.
 Hormones Physiology MM
II - Reproduction

Testosterone
Produced by Leydig cells
100 to 500x higher in the seminiferous tubules
Exchanges occurs in the pampiniform plexus, so arterial blood entering the testes has high concentration

Negative feedback on hypothalamus decreases GnRH and therefore FSH and LH
secretion by pituitary

Dihydrotestosterone (DHT)
More potent than testosterone
Local conversion in Sertoli cells and prostate
Mediator of sexual development and secondary sex characteristics Phenotype
Importance in clinical practice
Mediator of Benign Prostatic Hyperplasia (BPH)
5-α reductase inhibitors (e.g. finasteride) – Humans and dogs
 Hormones Physiology MM
II - Reproduction

Hypothalamic centers

▪ Hypothalamic centers
▪ Tonic (MALES) – Regulates the release of
frequent low amplitude tong GnRH pulses

▪ Surge - Only in females – responsive to high levels
of estradiol and release of high amplitude GnRH
pulse

Regulate by levels of Testosterone and Estrogens
 Male endocrinology * Physiology MM
II - Reproduction
I

Brain
(-) Steroides
(-) Opióides
Seasonality Melatonin
HYPOTHALAMUS

(+)

Gonadotropin concentrations
GnRH
decrease during the non-breeding
season
HIPOPHYSIS
Driven by effect of photoperiod on
pineal gland and subsequent
production of melatonin (which is

Testosterone (-)
FSH LH

Estrogens (-)
secreted mainly at night)
However

Inibin (-)
Mammal males are not as drastically
affect by seasonality as females
Some reptiles present 8
T4
spermatogenesis quiescence SERTOLI LEYDIG
Testis
 Male anatomy Physiology MM
II - Reproduction

Anatomy
Scrotum
Testis
Epididymis
Ductus deferens
Accessory glands
Penis
Prepuce
 Male anatomy Physiology MM
II - Reproduction

Scrotum Testes
Oval, laterally compressed
Blood supply
Vertical in bulls and rams; more horizontal in
External pudendal artery stallions, dogs, cats, and pigs
Nerves Blood supply
From 2nd and 3rd lumbar roots Originates from the anterolateral surface of
the abdominal aorta
(Genitofemoral nerve)
Testicular artery follows a tortuous route
Lymph drainage before entering the testis
Superficial inguinal lymph Testicular vein: Pampiniform plexus
node Lymphatic drainage:
Scrotal skin Lumbar lymph
Thin nodes
Sweat glands
Delicate

Ginther 2007
 Testicular thermoregulation Physiology MM
II - Reproduction

Testes approximately 3.1 °C/5.6 °F lower than core body temperature
Scrotal skin
Thin, numerous sweat glands
Tunica dartos similar to cremster muscle

Pampiniform plexus
Countercurrent arterio-venous exchange
coolet
the blood in the temperature
becomes

Cremaster muscle
Originates from internal oblique

Whole body response
Elevated scrotal temperature (in rams) → increased respiratory
rate!
 Pampiniform plexus also helps to Physiology MM
II - Reproduction

Network of veins and artery - Convoluted
veins and artery that drain blood and help
thermoregulation.

Thermoregulation
Countercurrent
Concentration of testosterone
Countercurrent blood testis barrier
it can
break the
Reduced pulsatility
Contorted and long if is higher
Blood testis barrier
 Testis Physiology MM
II - Reproduction

Seminiferous tubules
Sertoli cells
Spermatogenic cells
Rete testis
Efferent ducts
Interstitial cells of Leydig

Seminiferous tubules

Leidig cells

Sertoli cells

Basal lamina
 Male Physiology MM
II - Reproduction

Blood-Testis Barrier
Maintains a unique environment for the development
and maturation of germ cells
Protects germ cells from noxious agents
Prevents autoimmune response to sperm
toxicity
Structure
Specialized capillary endothelium
Non-fenestrated
Basement membrane
Specialized (tight) junctions between neighboring
Sertoli cells
 Male Physiology MM
II - Reproduction

Epididymis
Head, body and tail
Macroscopically, more or less cylindrical
Single tortuous duct – up to 15 m long
Functions in sperm maturation, storage, and
transit – motility and fertility capacity
All epididymal functions are androgen
(Testosterone) dependent
 Male Physiology MM
II - Reproduction

Accessory Glands

Species Ampulla Prostate Vesicular Bulbourethral
Gland Gland
Cat + +
Dog +
Stallion + + + +
Bull + + + +
Ram/Buck + + + +
Boar (Pig) + + +
Camelid + +

Fvention in the process
the sperm
Production of seminal plasma help
have a sexual glands
will
Most species
Spermatogenesis Physiology MM
II - Reproduction

Sperm function requires development and
maturation through the testis and epididymis

Overall 60ish days
Spermatogenesis
Bull - 61 days
Ram – 48 days
Boar – 39 days
Stalion – 59 days
Rabbit – 48 days
Dog – 61 days
Man – 74 days
 Male Physiology MM
II - Reproduction

Penis and erection stimulation and evation
Sensory - Pudendal nerve – initiation of erection and compressing of the veins
in the penis, which helps to maintain blood in the erectile tissues
most
Parasympathetic stimulus (external) - pelvic nerve - smooth muscle
relaxation in the corpora cavernosa, allowing increased blood flow into the
penis
Two basic variations of penile structure in domestic animals
Musculocavernous in stallions, dogs, cats (increase in size
due to blood engorgement within corpus cavernosum penis,
and to a lesser extent in corpus spongiosum penis) -
enormous blood supply for erection

Fibro elastic
Fibrous in ruminants, boar, camelids. A strong tunica
albuginea prevents substantial increase in diameter; increase
in length involves relaxation of retractor penis muscle and
extension of sigmoid flexure of penis - low addition of blood
volume but enormous increment in blood pressure
 Male Physiology MM
II - Reproduction

Erection

Sympathetic system (“automatic”) - controls “fight-or-flight”
responses - put your body’s systems on alert. In other words,
this system prepares the body for strenuous physical activity.
Its effects include increasing your heart rate and breathing
ability, improving your eyesight and slowing down processes
like digestion
Associated with the detumescence (the return to a flaccid state) of the
penis and ejaculation

Parasympathetic system - regulates "rest-and-digest" or
"feed and breed" activities that occur when the body is at rest,
especially after eating, including sexual arousal, salivation,
lacrimation (tears), urination, digestion, and defecation.
 Male Physiology MM
II - Reproduction

Erection and ejaculation

Fonte: McKinnon, 2014.
 Male Physiology MM
II - Reproduction

Ejaculation

EJACULATION/EJECTION
EMISSION

Ejection of sperm from epididymis Ejection of semen from urethra
and seminal fluid from the sexual
glands to the urethra Parasympathetic
Sympathetic

Reflex afferents – stimulus Efferent - stimulus from the brain
from the penis towards to the towards to the reproductive tract
brain Hypogastric nerve to muscles
Glans penis to pudendal nerve Neuro-endocrine loop
to spinal cord Oxytocin
 Male Physiology MM
II - Reproduction

Libido
Genetically determined fortune
levels tee
Threshold level of Testosteronehigh of
Estradiol

5α
Reductase
 Male Physiology MM
II - Reproduction

Seminal fluid (seminal plasma)

Testes
Accessory sex glands – mainly from
Ampullae, Vesicular glands, Prostate, Bulbourethral
glands, depending on species
Prostaglandins, Citrate, Fructose, Zinc, Mucus,
antioxidants etc.
Important for sperm motility, metabolism, uterine
contraction, DNA stabilization, control of
capacitation, immunoregulation and much more
β-Nerve Growth Factor (camelids)
Ovulation Inducing Factor (OIF)

finished
 Male Physiology MM
II - Reproduction

Copulation

Visual stimuli
Penile sensation
Musculoskeletal system
Initiate ejaculation
 Lorenzo Segabinazzi, DVM, MSc, PhD
Ross University School of Veterinary Medicine

THANK YOU
[email protected]

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