Paper - On the anlage of the bulbo-urethral and major vestibular glands in the human embryo
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Eggerth AH. On the anlage of the bulbo-urethral (Cowper’s) and major vestibular (Bartholin’s) glands in the human embryo. (1915) Anat. Rec. 9(2): 191-206.
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On the Anlage of the Bulbo-Urethral (Cowper’s) and Major Vestibular (Bartholin’s) Glands in the Human Embryo
Arnold H. Eggerth
Department Of Anatomy, University Of Michigan
The ﬁrst observations on the development of Bartholin’s glands were published in 1840 by Tiedemann, who saw them in embryos of ﬁve, six and seven months. Huguier found the glands in an embryo of four and a half months. Hoffman determined that the anlage of Cowper’s glands ﬁrst appeared in the tenth to eleventh week, on both sides of the urogenital opening, near the anlage of the penis. Toldt recorded that both Cowper’s and Bartholin’s glands originated as outpouchings of the urogenital sinus. Debierre saw Cowper’s glands in a seven—months’ fetus, and declared its anlage to be an outpocketing of the epithelium of the urethra. Beigel observed Bartholin’s glands in a six-months’ fetus, and Swiecicki in one of 99 mm. Van Ackeren states that he found Bartholin’s glands in an embryo at the end of the fourth month, and records that he observed the gland duct as entering the lowest portion of the urogenital sinus. He further states that the blind end of each duct bore ﬁve epithelial twigs, separated from each other by connective tissue. Cadiat indicated the anlage of Cowper’s glands in his ﬁgure of a 3.5 cm. embryo; the validity of his interpretation, however, is questioned by v. Muller. Tourneaux found in a 4.4 cm. embryo the anlagen of Bartholin’s glands in the form of epithelial buds having a length of 120 M.
The observations of Vitalis Muller deserve fuller consideration. An embryo of 27 mm. length did not show any trace of Bartholin’s glands. The next embryo in his series was one of 6.5 cm. length, though one of 8 cm. length showed an earlier stage of the gland anlage. In the latter embryo, the two epithelial buds were respectively 133 [1 and 166 ,u in length, and without lumen. A male embryo of 6.75 cm. showed buds of 300 u and 100 u, with a lumen in the longer bud. In a female embryo of 6.5 cm. length, he observed the left bud as having a length of 400 ,u and presenting two end branches, and the right bud as having a length of 750 u with three end branches, both buds showing lumina. From these and other embryos, Muller concluded that the ﬁrst appearance of these glands is irregular as to time, and may take place in embryos of from 4 to 8 cm. in length. This author states, in substance, that the anlagen of Cowper’s and Bartholin’s glands arise as solid buds from thickenings of the epithelium of the urogenital sinus. The solid anlagen later acquire a lumen, the ends extending as solid sprouts, the beginnings of division. Between the distal buds there is found a cellular mesenchyme. He further notes that in cross-sections of the urogenital sinus, this has the form of a ﬁve-rayed star, the gland anlagen always arising from the two lower or ventral rays; in younger embryos growing laterally, in embryos of 10 to 11 cm., latero-dorsally. Muller also studied ox embryos of 6 cm. length. In these he observed that the urogenital canal presents in transverse section the form of a cross with side arms running to a point. On the crest of these side arms, as seen in cross-section, he found the anlagen of Cowper’s glands as two solid buds of 100 u to 150 p in length.
Nagel observed the anlagen of Cowper’s glands in a 4 cm. embryo, these appearing as solid tube-like epithelial buds on the sides of the urogenital sinus, somewhat above its external opening. The epithelium of the gland buds he found to be of a high cubic variety. He found end branches in the gland anlagen of embryos of 5 to 6 cm., rump length. In older embryos, the hollowed—out ducts of the gland anlagen were lined by a low cubic epithelium, as in the canalis urogenitalis; while the branches had a high, almost cylindrical epithelium, as in the early stages of the anlagen.
Robert Mayer, in his account of the development of the glands of the vagina and the vulva, gives consideration to the Bartholin’s glands as observed in embryos of ﬁve months and older. He notes that in the vestibule of the female embryo, longitudinal folds are formed at an early stage; in embryos up to about ﬁve months old, these folds appear, in cross—sections of the vestibule, arranged in the form of a star having ﬁve principal rays on each side. As described by him, the ﬁrst pair of rays runs in front from the urethral opening parallel to the clitoris. The second pair of rays passes on both sides of the papilla urethralis, passing diagonally backward from what has been termed the ‘sulcus paraurethralis.’ This pair of folds, which early bears relatively large glandlike recesses, remains backward in growth, and is poorly developed in the newborn, though still recognizable. The third pair of folds or rays——which as seen in cross—section of the urogenital sinus, forms the middle of the star—is characterized by the ducts of Bartholin’s glands. The fourth pair, situated just behind the third pair and running parallel to the ducts of Bartholin’s glands, have a direction which is obliquely backward, and support, in the newborn, glandular anlagen which are similar to those of Bartholin’s glands, except that shorter tubules are found. The fifth pair of folds is situated in the fossa navicularis, beside the midline, having a direction which is upward rather than backward. Mayer points out that it is along these ﬁve rays or folds that the glands of the vulva ﬁrst develop, and it is here that they form in the greatest numbers.
Keibel’s observations on Echidna embryos have inﬂuenced the more recent investigators who have considered the anlage of CoWper’s gland in Homo. Keibel found in his echidna embryo 45 a, length 7.7 mm. a thickening of the ectodermal epithelium to the right and left of the midline which, to use his own words, “may perhaps be ascribed to the anlage of Cowper’s gland.” This region is stated to be at the cranial end of the just forming ectodermal cloaca. In his Echidna embryo 46, the Cowper’s gland anlage is present as an elongated solid bud arising from the ectoderm at the base of the penis; that is, from the cranialateral wall of the ectodermal cloaca (see Keibel’s text ﬁgures 53 a and 53 b, and plate ﬁgures 17, 19 and 20). The upper end of the gland anlage is invested by a muscle complex that is continuous with the muscle of the skin.
Van der Broek established a similar origin for Cowper’s glands in the embryos of Marsupia. In a Halmaturus embryo of 17.5 mm., he observed What he took to be the anlage of Cowper’s glands, arising from the ectoderm of the ectodaum (Keibel’s ectodermal cloaca) on both sides of the urethral plate (Phallusleiste). In later stages of the embryos of Halmaturus and other Marsupia, he found Cowper’s glands as solid epithelial buds, arising from the urogenital sinus at the boundary between the ectoderm and the entoderm.
Lichtenburg, in a comprehensive investigation on the development and structure of the urogenital canal in man, in the course of which he made free use of reconstruction methods, accepts without veriﬁcation the account given by Keibel and Van der Broek of the ectodermal origin of Cowper’s glands as observed in the Monotremata and Marsupia, and makes their ﬁndings applicable to man. In a 48 mm. human embryo, the youngest stage described by him, Lichtenburg ﬁnds the anlagen of Cowper’s glands “at the typical place on the dorsal wall of the urogenital sinus.” It appeared to him, to quote further, “as if the tubules were not naked, but that a kind of compressed embryonic connective tissue formed a capsule around them.” In a 65 mm. embryo, the gland buds were found to be unbranched, though both buds possessed a lumen; small side buds indicated future branching. Lichtenburg’s ﬁgure (p. 143) shows the gland buds lying side-by—side near the mid-line and dorsal to the urogenital sinus. In an embryo of 68 mm. length, terminal branching of the gland buds was evident, while one of 70 mm. length showed an accessory Cowper’s gland.
Felix, in his account of the anlage and development of the urogenital organs as given in Keibel and Mall’s “ Human Embryology,” makes the following observations concerning Cowper’s glands: “They arise as paired solid epithelial buds from the pars pelvina of the urogenital sinus” . . . “and are therefore of entodermal origin. The solid epithelial buds grow upward almost parallel to the urogenital sinus, and lie from the beginning in the compact mesenchyme which is the anlage of the corpus cavernosum urethrae. The glands grow through this mantle, and only when they have reached the looser mesenchyme between the rectum and the sinus are they able to enlarge.” Felix observed the anlagen of Bartholin’s glands in an embryo of 36 mm.; the ﬁrst evidence of branching in the gland-buds of Bartholin’s glands were observed in an embryo of 80 mm. length.
Broman states that Bartholin’s glands are ﬁrst evident in female embryos of the third month, 4 to 8 cm. long, as paired outgrowths from the epithelium of the urogenital sinus, basing his statement on the observations of Vitalis Miiller. Cowper’s glands arise as buds from the entodermal urogenital sinus epithelium, in 4 to 5 cm. embryos. His ﬁgure 397 reproduces a model of the urogenital sinus and Cowper’s glands of a male embryo of 6 cm. head-breech length.
This brief review of the literature may serve to show that while the embryology of Cowper’s and Bartholin’s glands has received consideration by numerous investigators, there is as yet no unanimity as to the period when their anlagen in the human embryo may ﬁrst be recognized, nor has the region of their anlagen been deﬁnitely determined, and, with the exception of the ﬁgure of Broman, there exist no comprehensive ﬁgures showing their relation to the urogenital sinus, mesonephric ducts, and Miillerian ducts. At the suggestion of Dr. Huber, models of the epithelial portions of the genital tubercle, urogenital sinus to base of bladder, ureters, mesonephric and Miillerian ducts, and rectum of human embryos, both male and female, at the critical period of their development, were undertaken. The models thus obtained, while in part duplicating certain of the Keibel models, seem worthy of reproduction, in that the anlagen of Cowper’s and Bartholin’s glands are portrayed in their relation to other structures. The question of the ectodermal or entodermal origin of these glands is not considered, as a solution of this question is not to be obtained from embryos of the age of those used in this investigation. For this, much younger stages showing early cloacal development would be necessary. The problem conﬁnes itself to a study of the anlage of Cowper’s and Bartholin’s glands in their relation to the urogenital sinus and associated structures, as shown in a series of reconstructions of critical stages.
The human embryos from Dr. Huber’s collection (table 1) were placed at my disposal, the measurements referring to crownbreech length, as obtained in ﬁxed material (formalin ﬁxation). With the exception of Embryo 48, in which there is evidence of maceration, the embryos are all well preserved. The series are double stained in hematoxylin and congo red. Reconstructions were made from the ﬁrst four of the embryos listed; the other three were studied without being modelled. The drawings for the reconstructions were made with the aid of an Edinger projection apparatus, at a magniﬁcation of 100 diameters. In all cases, the epithelium alone was reconstructed. These models, which form the basis of the study, are ﬁgured as seen from the left side. The ﬁgures were made by photographing the models and using the negative for lantern slide projection, accurate outlines being thus obtained. By placing the drawing paper at the right distance from the lantern, it was possible to give a deﬁnite magniﬁcation to the ﬁgures. My own account consists mainly of a description of the models made.
|Embryo No.||CRL||Sex||Plane||Section thickness (micron)|
|No. 47||32 mm.||female||sagittal||5 p sections|
|No. 15||30 mm.||male||sagittal||10 p sections|
|No. 18||45 mm.||female||sagittal||10 u sections|
|No. 23||60 mm.||female||sagittal||10 p sections|
|No. 39||39 mm.||male||sagittal||10 M sections|
|No. 49||47 mm.||female||sagittal||15 p. sections|
|No. 48||48 mm.||female||sagittal||20 M. sections|
The model made from Embryo 47 is shown in ﬁgure 1. This embryo was secured from the service of Professor Peterson, from a case of hysterectomy for large ﬁbroma; it was ﬁxed while still warm, and is in an excellent state of preservation. In the model are reproduced the lower part of the much distended bladder, the mesonephric and Miillerian ducts and ureters. These structures present the typical, normal arrangement, with as yet no degeneration of the mesonephric ducts. Externally, the phallus shows, between its distal and middle thirds, a shallow coronal groove, the sulcus coronarius glandis. A small depression marks the anal pit, and a similar one the ostium urogenitalis, a shallow groove connecting the two depressions. The anal membrane is still unbroken. Each side of the wall of the urogenital sinus presents three epithelial ridges or folds. These may be designated as the upper,
bl., bladder M.d., Miillerian ducts b.ur.gl., bulbo-urethral glands (Cow- utero-vaginal canal
per’s glands) pa.u.gl., paraurethral glands (Skene) l.f.ur.s2'., lateral folds of the urogenital rct., rectum
sinus s.c07'., sulcus coronarius m.zrs.gl., major vestibular glands (Bar- s.ny.l., sulcus nympho-labialis
tholin’s glands) u., ureter 1n.71.4l., mesonephric duct ur.pZ., urethral plate
Fig. 1 Model of epithelial portion of urogenital system of human Embryo 47 (Huber collection); female, 32 mm. crown-breech length. X 20.
middle, and lower lateral folds of the urogenital sinus. These folds begin in a region which is 0.7 mm. distal or caudal to the entrance of the mesonephric ducts into the urogenital sinus, and spread out radially. Of these folds, the upper lateral folds are the most prominent. When the model is viewed from above, it may be seen that they enclose a relatively deep fossa before blending in the sagittal plane to form the uppermost portion of the urethral plate. The middle lateral folds, shorter than the upper ones, run nearly parallel to them, and are separated from the upper folds by relatively deep, narrow grooves. In their proximal portion, each middle fold presents an elevation of about 75 u; distally or caudally, each middle fold slopes downward, becoming broader and lower, and is ultimately lost in the urethral plate. The lower lateral folds taken together form a thickened ridge along the bottom of the urogenital sinus, blending distally with the surface epithelium. They are the smallest of the three folds, both in length and elevation. That portion of the urethral plate found in the angle between the middle and the lower folds is relatively thin. Of the three sets of lateral folds observed in this embryo, only in the middle ones can a lumen or extension of the cavity of the urogenital sinus be at all clearly traced, and this as a narrow slit having a depth of about 20 to 30 ;I..
On the left side of the model, as shown in ﬁgure 1, the middle lateral fold presents, near its cephalic end, a small projecting bud of epithelium, which passed through only one of the sections, having a thickness of 15 p. The relative position of this epithelial bud is shown in this ﬁgure at m.1)s.gl. Looking at the model from below, it may be observed that about 0.3 mm. from the cephalic end of the middle lateral fold, there is evident an abrupt rise or shoulder, and that the epithelial bud above referred to, caps this shoulder. From the older stages modelled, it is evident that this epithelial bud may be regarded as the anlage of Bartholin’s gland. A similar bud is as yet lacking on the other, the right side of the urogenital sinus, though three lateral folds, similar in extent and arrangement to those ﬁgured for the left side may be seen in the reconstruction. The cells of the Bartholin’s gland anlage of the left side, like those of the lateral folds and the wall of the urogenital sinus, may be characterized as of the cuboidal variety and stratiﬁed. The short epithelial bud is surrounded by a membrana propria, the surrounding mesenchymal cells having in the immediate vicinity a concentric arrangement.
The model made from Embryo 15 is shown from the left side in ﬁgure 2. This is a male embryo having a crown-breech length of 30 mm., and shows a slightly older stage of development than the female embryo, the model of which is shown in ﬁgure 1.
The anal membrane is perforated, and the anal pit is a distinct fossa. The perineum has a length of only 0.15 mm. The cephalic ends of the Miillerian ducts present evidence of beginning degeneration.
The three lateral folds of the urogenital sinus present essentially the same relative positions as those described in connection with the model shown in ﬁgure 1. By reason of the thickening of the epithelial plate in the region between the middle and lower lateral folds, the lower folds are less conspicuous than in the preceding model. The middle fold is also somewhat shorter than in Embryo 47 (ﬁg. 1). The anlage of Cowper’s gland, present on both sides of the urogenital sinus, is observed in essentially the same relative position as given for the anlage of Bartholin’s glands, namely, in the middle fold, capping an abrupt shoulder seen on this fold near its cephalic end, about 1 mm. below the entrance of the mesonephric ducts into the urogenital sinus. The bud of the left side is shown in ﬁgure 2 at b.ur.gl. The gland anlagen are in the form of solid epithelial buds, composed of cells of a cuboidal form; the left bud having a length of 50 p, the right bud a length of 60 pt. Both buds project laterally into a dense mesenchyme with a direction which is perpendicular to the long axis of the middle lateral folds. The gland anlagen are surrounded by a membrana propria, the surrounding mesenchymal cells having a concentric arrangement.
Fig. 2 Model of epithelial portion of urogenital system of human Embryo 15 (Huber collection); male, 30 mm. crown-breech length. X 20.
The shape of the sinus lumen for the region of the lateral folds differs from that described for Embryo 47. In Embryo 15 (ﬁg. 2) the pars phallica sinus urogenitalis (Felix) has been extended by central desquamation of the cells of the urethral plate, the sinus lumen having invaded the upper lateral folds and that portion of the urethral plate found between the middle and the lower folds.
Embryo 39, male, crown-breech length 39 mm., was studied with reference to the urogenital sinus region, but not modelled. The lateral folds of the urogenital sinus were determined, the lower lateral folds being, however, quite inconspicuous. The anlagen of Cowper’s glands were found near the cephalic ends of the middle lateral folds, as solid epithelial buds with as yet no peripheral branching. The bud on the right side passed through ﬁve 10 u sections; that on the left, through nine 10 ;4 sections.
Embryo 18, from which the model shown in ﬁgure 3 was made, is a female embryo having a crown—breech length of 45 mm. In this embryo the mesonephric ducts present marked evidences of degeneration. When compared with Embryo 47, the general advance in the development of the urogenital structures may be noted. The phallus (clitoris) and the perineum are relatively shorter. A well marked sulcus coronarius glandis is present; a shallow groove, the urethral groove, extends to it from the ostium urogenitalis. Laterad, the sulcus nympho-labialis separates the phallus from the genital swelling. The ostium urogenitalis has increased in size, both in length and in width. The pars phallica sinus urogenitalis has developed to such an extent that it now forms the widest part of the urogenital sinus caudal to the junction of the Miillerian duct with the urogenital sinus.
The model made from this embryo is shown from the left side in ﬁgure 3. The three lateral folds of the urogenital sinus are evident, and present some points of difference when compared with the three lateral folds as modelled from male Embryo 15.
Fig. 3 Model of epithelial portion of urogenital system of human Embryo 18 (Huber collection); female, 45 mm. crown-breech length. X 15.
Only the upper lateral folds have not materially altered their form and relations. As previously stated, when viewed from above, these enclose a deep fossa at their cephalic end, blending caudally in the sagittal plane to form the ridge-like crest for the urethral plate. The middle lateral folds have developed so as to be relatively long, being now continuous caudally with the lateral expansion of the sinus wall in the region of the ostium genitalis. The most distinctive change, however, is noticed in the lower lateral folds. These, though still the least conspicuous of the three sets of folds, have increased in length and elevation. The sinus lumen of this region presents a distinct difference from that found in Embryo 15. The lumen has invaded the upper and middle lateral folds, but the plate between the middle and lower folds is still solid, while in the region of the lower folds, there is a narrow lumen, blind at its cephalic end, but opening independently into the urogenital sinus.
The epithelial buds which form the anlagen of Bartholin’s glands have the sa.me relative positions as in younger stages (m.vs.gl.). Measured on the model, these buds are situated 1.2 mm. caudal to the point of junction of the Miillerian duct with the urogenital sinus, and spring from the cephalic portion of the middle lateral fold. The bud on the left side has a length of 120 u, and presents a short, solid side bud at its distal end. In the middle third of its length, a loosening of the central cells suggests the beginning of a lumen. The bud on the right side has a length of 150 ,u., presenting an expanded knob—like end, probably the anlage of side branches. A narrow lumen is present, just proximal to this expanded end; this lumen is surrounded by a layer of quite regular cells of a compressed cuboidal shape. In this embryo, both gland buds extend obliquely laterad and dorsally in the general direction of the middle lateral fold.
Embryo 48 is a female embryo of 48 mm. crown-breech length, and was not modelled. It presents the same general arrangement of lateral folds as described for Embryo 18. The lower lateral folds are distinct, and possess a narrow lumen which no longer ends blindly at its cephalic end, but here communicates with the lumen of the urogenital sinus. On the right side, the gland anlage passes through seven sections of 20 [1, thickness; on the left side, through three such sections. However, the real difference in length of the two gland anlagen is not so great as this would seem to indicate, as the sections are not cut parallel to the mid-plane, and the left gland anlage is consequently out very obliquely. The gland buds are still solid, with no evidence of branching.
Embryo 49 is a female embryo of 47 mm., crown-breech length, and was not modelled. The lateral urogenital sinus folds, as also the gland anlagen for Bartholin’s glands, present the same general relations as in Embryos 48 and 18. The gland bud on the right side passes through eight sections having a thickness of 15 ,u. The bud on the left side was very obliquely cut and loosened from the surrounding mesenchyme, so that its length was not determined.
Embryo 23, a female embryo having a crown—breech length of 60 mm., represents the oldest stage modelled. This model, as seen from the left side, is shown in ﬁgure 4. The model shows the downward (caudal) projection of the clitoris anlage, characteristic of this stage. When compared with the three preceding embryos, it is seen that the clitoris has become relatively, though not absolutely, smaller. A well-deﬁned sulcus coronarius glandis is present, as also a deep sulcus nympho-labialis, bounding_ the base of the clitoris laterad. The urogenital sinus opens externally by two ostia; the larger one near the sulcus coronarius, the smaller one at the base of the clitoris. Externally, the two ostia are united by a deep groove. A continuation of this groove leads toward the anus, disappearing at about the middle of the perineum. The mesonephric ducts have degenerated to such an extent that they are incomplete on both sides.
The utero-vaginal canal (Miillerian tubes) is well developed, though its lumen does not appear to have joined that of the urogenital sinus. At the place of its fusion with the urogenital sinus, there may be observed, in the model, projections of the sinus epithelium, regarded as the anlagen of the paraurethral glands of Skene; three are to be observed on the right side, two on the left.
On each side, all of the three lateral folds have extended cephalad so as to reach the region of the utero-vaginal canal. In this embryo, the folds are complicated by the appearance of secondary folds. The upper lateral folds present each a secondary fold extending caudad to meet the middle lateral fold. The middle folds also present secondary folds, beginning just below the anlagen of Bartholin’s glands, and extending caudad. It seems possible to relate this model with the account given by R. Mayer, quoted in preceding pages of this communication. This observer has described ﬁve lateral folds or rays. Of the three primary lateral folds here described, the upper, with a secondary fold imperfectly developed, seems to correspond with Mayer’s ﬁrst and second rays; the middle lateral fold as here designated, with its secondary fold, forms the third and fourth rays of Mayer's account; the lower fold corresponds with his ﬁfth ray.
Fig. 4 Model of epithelial portion of urogenital system of human Embryo 23 (Huber collection); female, 60 mm. crown-breech length. X 15.
In Embryo 23, the gland buds forming the anlage of Bartholin’s glands are shown in ﬁgure 4 at m.'vs.gl. They arise from the middle lateral fold, 1.2 mm. from the caudal end of the uterovaginal canal, extending from this fold obliquely laterad and dorsad. The gland bud on the left side has a length of 200 u; on the right side, of 240 p. Both gland buds show a knob-like end, with a slight constriction proximal to the terminal enlargement. The end of the left gland bud shows partial division into four branches, so that the cross section of this portion resembles a shamrock leaf; there is as yet, no mesenchyme separating the anlagen of the branches. The neck or stalk of this gland bud presents an interrupted lumen. Each of the branch anlagen shows a compact arrangement of the cells at the periphery, with loosely arranged central cells, preluding a lumen. The gland bud on the right side is similar to that on the left, except that only three ‘branches are indicated, and one of these is completely surrounded by mesenchyme. Both gland anlagen are surrounded by dense mesenchyme, the beginning of a capsule. In the region of the gland anlagen, the sinus lumen has invaded the secondary fold found between the middle and lower lateral folds. The independent lumen of the lower fold was not to be observed in this embryo.
The ﬁgures of the models seem to portray the relations and extent of the lateral folds of the urogenital sinus so clearly, as also the anlagen of Bartho1in’s and Cowper’s glands, that extended description was deemed unnecessary. The following summary and conclusions seem warranted.
Summary and Conclusions
- Human embryos, both male and female, of the ages studied in this investigation, 3 to 6 cm. crown-breech length, present three pairs of lateral folds on the wall of the urogenital sinus. In the younger stages, these folds extend from the ostium urogenitalis' to a point about halfway to the place of entrance of the mesonephric ducts into the urogenital sinus. In the older stages, they extend more cephalad; in the 6 cm. female embryo reconstructed, to the caudal end of the utero-vaginal canal.
- These three folds ﬁrst appear as solid epithelial ridges, symmetrically arranged on the two sides of the urethral plate. Keibel’s models would indicate that they do not appear until the embryo has reached a length of more than 28 mm.
- The upper lateral folds are at ﬁrst the more prominent; later the middle lateral folds are relatively larger. The lower lateral folds remain inconspicuous.
- A male embryo of 5 to 6 cm. length was not available, but the ﬁgures of Lichtenburg, Van der Broek, and other investigators would indicate that in the male, these folds become obliterated. The model ﬁgured by Broman (ﬁg. 397) of a 6 cm. male embryo, does not show clearly whether lateral folds are present or not.
- The anlagen of Bartho]in’s and Cowper’s glands may be ﬁrst recognized in embryos having a crown-breech length of 3 cm., as solid epithelial buds arising from the middle lateral fold near its cephalic end; in the younger stages extending laterad, in slightly older stages extending obliquely laterad and dorsad.
- When the embryo has reached a crown-breech length of about 4.5 cm., the distal end of the gland bud presents a knoblike end with a narrower proximal portion in which a. lumen is preluded. After attaining a crown-breech length of 5 to 6 cm., evidence of distal branching of the gland anlage may be observed.
- The development of the glands on the two sides is not symmetrical, neither as to time of anlage, nor as to extent of development. This table 2 may serve to show.
LENGTH OF LENGTH OF c3owN.3mgEc3 GLAND AND GLAND AND
°-WAN‘-°°‘m LENGTH 11; ANLAGEN, ANLAGEN, 0- MM, mm sum, mam sum, IN p. m p 47 32 15 15 30 60 50 17 39 50 90 18 45 n 150 i 120 I 13 ; 2? 1 133 23° 23 ! 60 ; 206 ARNOLD I-I. EGGERTI-I
In conclusion, I desire to express my sincere thanks and appreciation to Professor Huber, who, in addition to suggesting the problem, has given me material aid at every step in the making of the reconstructions and in their interpretation.
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Eggerth AH. On the anlage of the bulbo-urethral (Cowper’s) and major vestibular (Bartholin’s) glands in the human embryo. (1915) Anat. Rec. 9(2): 191-206.
Cite this page: Hill, M.A. (2021, November 30) Embryology Paper - On the anlage of the bulbo-urethral and major vestibular glands in the human embryo. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Paper_-_On_the_anlage_of_the_bulbo-urethral_and_major_vestibular_glands_in_the_human_embryo
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