Add to ORKGWe recently described a two-step process of urethral plate canalization and urethral fold fusion to form the human penile urethra. Canalization ("opening zipper") opens the solid urethral plate into a groove, and fusion ("closing zipper") closes the urethral groove to form the penile urethra. We hypothesize that failure of canalization and/or fusion during human urethral formation can lead to hypospadias. Herein, we use scanning electron microscopy (SEM) and analysis of transverse serial sections to better characterize development of the human fetal penile urethra as contrasted to the development of the human fetal clitoris. Eighteen 7-13 week human fetal external genitalia specimens were analyzed by SEM, and fifteen additional human fetal ...
The penile erectile tissue has a complex microscopic anatomy with important functions in the mechani...
We present a detailed review of the embryonic and fetal development of the human female reproductive...
BACKGROUND: Tissue-engineered (TE) urethra is desirable in men with urethral disease (stricture or h...
PurposeWe describe the "double zipper" mechanism of human male urethral formation, where the distal ...
The urethra within the human penile shaft develops via (1) an "Opening Zipper" that facilitates dist...
This paper addresses the developmental mechanisms of formation of the mouse and human penile urethra...
PurposeWe characterized the early gestation development of the female external genitalia using optic...
The human penis and clitoris develop from the ambisexual genital tubercle. To compare and contrast t...
To better understand how the human fetal penis and clitoris grows and remodels, we undertook an inve...
We present a detailed review of fetal development of the male and female human urogenital tract from...
A histological study was performed on serially sectioned human and mouse embryos to study the influe...
We present a detailed review of fetal development of the male and female human urogenital tract from...
In this paper, we introduce our novel renal subcapsular xenograft model for the study of human penil...
In this paper, we introduce our novel renal subcapsular xenograft model for the study of human penil...
The penile erectile tissue has a complex microscopic anatomy with important functions in the mechani...
The penile erectile tissue has a complex microscopic anatomy with important functions in the mechani...
We present a detailed review of the embryonic and fetal development of the human female reproductive...
BACKGROUND: Tissue-engineered (TE) urethra is desirable in men with urethral disease (stricture or h...
PurposeWe describe the "double zipper" mechanism of human male urethral formation, where the distal ...
The urethra within the human penile shaft develops via (1) an "Opening Zipper" that facilitates dist...
This paper addresses the developmental mechanisms of formation of the mouse and human penile urethra...
PurposeWe characterized the early gestation development of the female external genitalia using optic...
The human penis and clitoris develop from the ambisexual genital tubercle. To compare and contrast t...
To better understand how the human fetal penis and clitoris grows and remodels, we undertook an inve...
We present a detailed review of fetal development of the male and female human urogenital tract from...
A histological study was performed on serially sectioned human and mouse embryos to study the influe...
We present a detailed review of fetal development of the male and female human urogenital tract from...
In this paper, we introduce our novel renal subcapsular xenograft model for the study of human penil...
In this paper, we introduce our novel renal subcapsular xenograft model for the study of human penil...
The penile erectile tissue has a complex microscopic anatomy with important functions in the mechani...
The penile erectile tissue has a complex microscopic anatomy with important functions in the mechani...
We present a detailed review of the embryonic and fetal development of the human female reproductive...
BACKGROUND: Tissue-engineered (TE) urethra is desirable in men with urethral disease (stricture or h...