Home Men Health Can human chorionic gonadotropin supplements enhance penile growth?

Can human chorionic gonadotropin supplements enhance penile growth?

0
Can human chorionic gonadotropin supplements enhance penile growth?

In a recent study published in Scientific Reports, researchers investigated whether human chorionic gonadotropin (HCG) [Food and Drug Administration (FDA)-authorized testosterone-releasing agent without compromising spermatogenesis] supplements could expedite tunica albuginea restructuring to assist penile development.

Study: HCG complement didn’t speed up tunica albuginea remodeling to facilitate penile growth. Image Credit: Prostock-studio/Shutterstock.com

Background

A small penis is commonly related to sexual dysfunction, resulting in significant psychological issues amongst couples. Penile development relies on androgen, making testosterone alternative therapy advisable for people with micropenis.

In a previous study, the authors demonstrated that lysyl oxidase (LOX) inhibitors (anti-LOX) together with a vacuum erectile device (VED) prolonged the penis by remodeling the tunica albuginea, reducing collagen crosslinking, and ultimately increasing penile length.

Concerning the Study

On this study, researchers explored whether HCG supplementation could enhance tunica albuginea remodeling and increase penile length when combined with LOX inhibitors and VED.

Forty-two four-week-old male Sprague-Dawley (SD) rats were divided into seven groups: anti-LOX, control, VED, HCG, anti-LOX and VED, VED and HCG, and VED+HCG+anti-LOX. Anti-LOX activity was induced through intragastric gavage using a selected LOX inhibitor, beta-aminopropionitrile fumarate, at a dosage of 100 milligrams per kg per day.

HCG was administered intramuscularly thrice per week at 100 international units (IU) per kg. The VED force (aspiration pressure, -300 mm Hg) was applied twice every day on weekdays (five-minute sessions with a two-minute gap) to stretch the penis.

4 weeks after the intervention, all rats’ erectile function, exposed penis length, and total penile length were assessed. The maximal ratio of intracavernous pressure (ICP) level within the penile crus to carotid mean artery pressure (MAP) was calculated to measure erectile function. The exposed length of the penis was measured from the corpus cavernosum and urethral bulb junction to the glans cartilage tip.

Blood samples were collected to guage testosterone, dihydrotestosterone, and HCG levels using an enzyme-linked immunosorbent assay (ELISA). Moreover, radioimmunoprecipitation assays (RIPA) and Western blot tests were conducted, and the corpus cavernosum of the penis was histopathologically examined.

Results

All treated mice exhibited significantly larger penises than control rats (31 mm). Specifically, anti-LOX (36 mm), VED (35 mm), HCG (33 mm), LOX inhibitor and VED (39 mm), VED and HCG (34 mm), and LOX inhibitor + VED + HCG (38 mm) significantly lengthened the penis by 15% (5.0 mm), 8.0% (2.3 mm), 12% (4.0 mm), 26% (8.0 mm), 10% (3.2 mm), and 22% (7.0 mm), respectively.

Anti-LOX increased the exposed length of the penis and total penile length by 9% and 15%, respectively. Penile lengthening was more pronounced within the LOX inhibitor + VED group (19% and 26%).

While HCG induced an eight percent increase in penile length, it only barely affected the exposed penile length (three percent). Moreover, anti-LOX+VED+HCG increased the exposed length of the penis and total penile length by 18% and 22%, respectively, which was comparable to LOX inhibitor and VED treatment (19% and 26%, respectively).

HCG significantly stimulated dihydrotestosterone and testosterone secretion within the presence or absence of LOX inhibitors and VED, and it increased androgen receptor (AR) expression greater than other intervention groups. Notably, not one of the interventions improved or compromised erectile function.

Conclusion

In summary, the study’s findings indicate that HCG supplementation didn’t synergize with LOX inhibitors and VED to speed up albuginea remodeling and facilitate penile growth.

While HCG injections prolonged the penis by increasing dihydrotestosterone and testosterone release, the underlying mechanism stays unknown and requires further research.

LEAVE A REPLY

Please enter your comment!
Please enter your name here