What is it about?
this article is about restructuring the penis to hold more blood (size) and keep it there (rigidity). Most "girth" procedures just stuff material under the skin, which doesn't change the erection itself. Dr. Hsu’s method is different: He cuts the "tire" (Tunica Albuginea): He makes surgical cuts in the tough outer shell of the erection chambers. He adds a "patch": He sews in a patch (using the patient's own vein walls or a medical material) to cover the cut. This makes the "tire" wider, so it can inflate to a larger size. He plugs the leak: At the same time, he removes the leaking veins so the new, larger erection stays hard.
Featured Image
Photo by Naoki Suzuki on Unsplash
Why is it important?
It validates "Size Surgery": It moves girth enhancement from "plastic surgery" (cosmetic) to "reconstructive surgery" (functional). It offers a permanent solution: Unlike fillers that dissolve, this changes the physical dimensions of the erection chambers. It proves the Anatomy: It confirms Dr. Hsu's theory that the "Fibro-vascular Assembly" (the mesh of tissues) is distinct and can be surgically manipulated safely.
Perspectives
The "Architect" Perspective (Surgeons): "You can't build a bigger house without expanding the foundation. This surgery expands the foundation (Tunica) rather than just painting the walls (Fillers)." The "Consumer Protection" Perspective (Patients): "Stop wasting money on sketchy supplements. If you want structural change, you need structural surgery. This is the only method backed by hemodynamic data." The "Hybrid" Perspective: "Why treat ED and Dysmorphia (unhappiness with body image) separately? This procedure treats the physical failure and the psychological confidence issue in one go."
Professor Geng-Long Hsu
Microsurgical Potency Reconstruction and Research Center, Hsu’s Andrology
Read the Original
This page is a summary of: Emergent Combining Factual Penile Girth Enhancement and Erection Restoration Based on Revolutionary Penile Fibro-vascular Assembly, June 2024, MDPI AG,
DOI: 10.20944/preprints202406.1377.v1.
You can read the full text:
Contributors
The following have contributed to this page
