Paper - Three demonstrations on congenital melformations of palate, face, and neck: Difference between revisions
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=Three demonstrations on Congenital Melformations of Palate, Face, and Neck= | =Three demonstrations on Congenital Melformations of Palate, Face, and Neck= | ||
Congenital Malformations Of _ Palate, Face, And Neck. | |||
Congenital Malformations Of | |||
_ Palate, Face, And Neck. | |||
Given At The Royal College Or Surgeons, England. | Given At The Royal College Or Surgeons, England. | ||
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Tim material which has gradually accumulated‘ in the various metropolitan medical museums during the last | Tim material which has gradually accumulated‘ in the various metropolitan medical museums during the last hundred years afiords the basis for a very complete study o_ffthe various forms of cleft found in the palate and upper hp of children at birth. While the specimens which are shown at these demonstrations are derived from the museumof this college, it has also been possible for me, thanks to the unfailing courtesy of those in charge of the medical schools of London, to have free access to the valuable material on the shelves of their museums. A classified list of the total number of specimens at my disP0381 18 given in Table I. Museum specimens are not representative of the run of cases met with in practice; the shgliter and, from a surgical point of view, the more interesting lesions are sparsely represented, whereas the m01‘9 S6Ve1’6 (forms, often associated with U other grave lesions, predominate.* | ||
hundred years afiords the basis for a very complete study | |||
o_ffthe various forms of cleft found in the palate and upper | |||
hp of children at birth. While the specimens which are | |||
shown at these demonstrations are derived from the | |||
museumof this college, it has also been possible for me, | |||
thanks to the unfailing courtesy of those in charge of the | |||
medical schools of London, to have free access to the | |||
valuable material on the shelves of their museums. A | |||
classified list of the total number of specimens at my disP0381 18 given in Table I. Museum specimens are not | |||
representative of the run of cases met with in practice; | |||
the shgliter and, from a surgical point of view, the more | |||
interesting lesions are sparsely represented, whereas the | |||
m01‘9 S6Ve1’6 (forms, often associated with U other grave | |||
lesions, predominate.* | |||
1-,. ~ . | 1-,. ~ . | ||
In 555 cases at the clinic of von Bruns at Tiibingen Dr Gustav | |||
Haug(13eitrdaefu7‘79“”-Clkimrgie, 1904, Bd. 44, p. 254) found that the | Haug(13eitrdaefu7‘79“”-Clkimrgie, 1904, Bd. 44, p. 254) found that the tripartite palate _occurred in 15 per cent. (against .38 per cent. in the §;‘::2.%"::i:::;;.*::ii:*;.*;s:%:.:°.%*.%3 e°i°.°:*~ ‘sins WI-°nr*°n 9'per cent. in the London series). 6 0 6 pa 3' e per cent (“must | ||
tripartite palate _occurred in 15 per cent. (against .38 per cent. in the | |||
§;‘::2.%"::i:::;;.*::ii:*;.*;s:%:.:°.%*.%3 e°i°.°:*~ ‘sins WI-°nr*°n | |||
9'per cent. in the London series). 6 0 6 pa 3' e per cent (“must | |||
to accept the practice of I | to accept the practice of I the latter merely on account of its antiquity or its religious I | ||
the latter merely on account of its antiquity or its religious I | |||
[AUG- 7. I969 | [AUG- 7. I969 | ||
? TABLE I.—Cla.ssified List Er Specimens showing Congenital Clefts | ? TABLE I.—Cla.ssified List Er Specimens showing Congenital Clefts | ||
Line 73: | Line 52: | ||
2-::.—j::.—:_j--on-j-n-—¢ | 2-::.—j::.—:_j--on-j-n-—¢ | ||
12 2 28‘ | 12 2 28‘ A. B. C. | ||
A. B. C. | |||
2. Palate cleft into two parts | 2. Palate cleft into two parts 3 12 2 17' | ||
Median cleft extending from the pre- 4 3 7 14maxilla to the uvula w | Median cleft extending from the pre- 4 3 7 14maxilla to the uvula w | ||
Line 82: | Line 60: | ||
E" | E" | ||
4. Cleft of soft palate 3 O O 3'5. -Cleft of uvula 4 1 O 5 | 4. Cleft of soft palate 3 O O 3'5. -Cleft of uvula 4 1 O 5 6. Cleft on both sides of premaxilla 1 0 0 1 7. Cleft limited to one side of premaxilla 1 0 1 2.‘. 8. Median cleft due to absence of pre- 1 2 4 7' maxilla . U 9. Bilateral harelip 1 o :5 4: 10. Unilateral harelip O 6 O l 6 11. Median harelip — — — O | ||
6. Cleft on both sides of premaxilla | |||
7. Cleft limited to one side of premaxilla | |||
8. Median cleft due to absence of pre- 1 2 4 7' | |||
maxilla . U | |||
9. Bilateral harelip 1 o :5 4: | |||
10. Unilateral harelip | |||
11. Median harelip | |||
32 36 19 87 | 32 36 19 87 | ||
Line 95: | Line 66: | ||
A. Specimens in the Museum of the Royal College of Surgeons of“ | A. Specimens in the Museum of the Royal College of Surgeons of“ | ||
England. _ | England. _ B. Specimens in the museums of metropolitan medical schools. | ||
B. Specimens in the museums of metropolitan medical schools. | |||
C. Specimens of cleft palate in mammals other than man, chiefly in: | C. Specimens of cleft palate in mammals other than man, chiefly in: the Museum of the Royal College of Surgeons of England. | ||
the Museum of the Royal College of Surgeons of England. | |||
TRIPABTITE PALATE. | TRIPABTITE PALATE. | ||
In this, which must be regarded as the most severe form, | In this, which must be regarded as the most severe form, the three elementary parts of the palate are widely separated. In all cases the lesion is remarkably alike, a. typical example being shown in fig. 1. In the middle element from before backwards are to be recognized (1) themiddle part of the upper lip; (2) the premaxillary part of? the palate, carrying the incisive papilla, which is joined to: the upper lip by a fraenum; (3) the lower border of the, septum of the nose, which is wider, shallower, and longer | ||
the three elementary parts of the palate are widely | |||
separated. In all cases the lesion is remarkably alike, a. | |||
typical example being shown in fig. 1. In the middle | |||
element from before backwards are to be recognized (1) themiddle part of the upper lip; (2) the premaxillary part of? | |||
the palate, carrying the incisive papilla, which is joined to: | |||
the upper lip by a fraenum; (3) the lower border of the, | |||
septum of the nose, which is wider, shallower, and longer | |||
I thannormal; (4) the varying number of dental sacs on the- premaxilla: in~16 cases only | I thannormal; (4) the varying number of dental sacs on the- premaxilla: in~16 cases only | ||
the two middle incisors are | the two middle incisors are carried; in 3 cases one lateral incisor as well as the two: middle (as in the specimen shown in fig. 1), and in 4 casesall four incisors. In no case did the premaxilla in these cases show a suture between the ectognathic and mesognathicr parts- The nerves and vessels of this element are the-: naso-palatine. On each lateral or maxillary element three; distinct areas can be recognized (fig. 1): (1) the alveolar area on which may be seen an elevation over the sacs of the two milk molars, another over the canine and» frequently a third, often on the margin of the cleft, over the lateral incisor (fig. 1); (2) a plicate or. rugose area. marked by folds; (.3) a smooth narrow marginal area (see ' When the mucous membrane is’ removed, the-. maxillary or lateral element is seen to be supported by the superior maxilla and palate bones. The nerves and vessels». of the maxillary elements are the descending palatme. | ||
carried; in 3 cases one lateral incisor as well as the two: | |||
middle (as in the specimen shown in fig. 1), and in 4 casesall four incisors. In no case did the premaxilla in these cases | |||
show a suture between the ectognathic and mesognathicr | |||
parts- The nerves and vessels of this element are the-: | |||
naso-palatine. On each lateral or maxillary element three; | |||
distinct areas can be recognized (fig. 1): (1) the alveolar | |||
area on which may be seen an elevation over the sacs of | |||
the two milk molars, another over the canine and» | |||
frequently a third, often on the margin of the cleft, over | |||
the lateral incisor (fig. 1); (2) a plicate or. rugose area. | |||
marked by folds; (.3) a smooth narrow marginal area (see | |||
' When the mucous membrane is’ removed, the-. | |||
maxillary or lateral element is seen to be supported by the | |||
superior maxilla and palate bones. The nerves and vessels». | |||
of the maxillary elements are the descending palatme. | |||
The Nature of the Lesion. | The Nature of the Lesion. | ||
Seeing that fusion of the three elements to form the: | Seeing that fusion of the three elements to form the: palate begins in the human embryo at the fifth week, a. period at which the branchial arches are best marked, it is only natural that one should turn to fishesto find as a. normal condition onecomparable to that seen in the tripartite | ||
palate begins in the human embryo at the fifth week, a. | |||
period at which the branchial arches are best marked, it | |||
is only natural that one should turn to fishesto find as a. | |||
normal condition onecomparable to that seen in the tripartite | |||
palate of the malformed child. Embryology, too, leaves» | palate of the malformed child. Embryology, too, leaves» | ||
us in no doubt as tothe class of fishes in which the condition should occur; the more we know of the early develop-ment of the mammalian embryo, the more we becomeconvinced that it has much in common with the Selachii-. | us in no doubt as tothe class of fishes in which the condition should occur; the more we know of the early develop-ment of the mammalian embryo, the more we becomeconvinced that it has much in common with the Selachii-. or shark tribe. The tripartite palate is an arrest of» development at a Selachian stage. In fig. 2 is shown the». mouth of the dogfish; what at first sight appears to be itsupper lip is divided by two furrows~—the olfactory or naso-~ buccal—into three parts, a mesial and two lateral. The‘ | ||
or shark tribe. The tripartite palate is an arrest of» | |||
development at a Selachian stage. In fig. 2 is shown the». | |||
mouth of the dogfish; what at first sight appears to be itsupper lip is divided by two furrows~—the olfactory or naso-~ | |||
buccal—into three parts, a mesial and two lateral. The‘ | |||
part between the furrows represents the middle nasal’. | part between the furrows represents the middle nasal’. | ||
process of human embryology—+the process which givesrise to the nasal septum and premaxilla. The furrowswhich represent extensions of the nasal openingstowards, or actually into, the buccal cavity of the | process of human embryology—+the process which givesrise to the nasal septum and premaxilla. The furrowswhich represent extensions of the nasal openingstowards, or actually into, the buccal cavity of the shark, are divided by (see fig. .2) into two, functional parts—an upper, theanterior nares, by which water may | ||
shark, are divided by | |||
(see fig. .2) into two, functional parts—an upper, theanterior nares, by which water may | |||
a fold from the middle processi. | a fold from the middle processi. | ||
enter the nasal | enter the nasal -AUG; 7. 1909-] | ||
-AUG; 7. 1909-] | |||
CONGENITAL7 MALFORMATIONS or‘ rAILArE,, “E'1_*c.w | CONGENITAL7 MALFORMATIONS or‘ rAILArE,, “E'1_*c.w | ||
, . Tm: BarrIsH- .' ‘ ‘i1 | , . Tm: BarrIsH- .' ‘ ‘i1 | ||
~Mr_s.D1c‘AI- JOURNAL. 3 y | |||
gcavity,“ and a lower or posterior nares,“ by which ‘the | gcavity,“ and a lower or posterior nares,“ by which ‘the ynx as that cavity | ||
ynx as that cavity | |||
water may be drawn into the phar | water may be drawn into the phar | ||
-expands during respiration. At first sight the‘ | -expands during respiration. At first sight the‘ -comparison seems ’ im- p ‘perfect, for the nasal fur.»rows of 7 the shark appear to lie rather on what may ‘be named its face and entirely ‘in front of the ‘teeth. But these teeth behind the furrows in the | ||
-comparison seems ’ im- p | |||
‘perfect, for the nasal fur.»rows of 7 the shark appear | shark’s mouth are carried | ||
to lie rather on what may | not by the maxillae but by the palate bones-—bones represented in the human skull by the vertical processes of the palatines— situated, as is the shark’s, at T the- posterior nares. "The premaxilla and the premaxillary part of the palate are absent in the shark, but there can be no doubt that the area of tissue lying between the nasal furrows represents the part which bears the premaxilla in higher vertebrates, and that in the course of evolution the | ||
‘be named its face and entirely ‘in front of the | |||
‘teeth. But these teeth | ‘roof of the mouth has been extended onto this area. In those remarkable air-breathing fishes, the Dipnoi, | ||
behind the furrows in the | |||
not by the maxillae but | |||
by the palate bones-—bones | |||
represented in the human | |||
skull by the vertical processes of the palatines— | |||
situated, as is the shark’s, | |||
at T the- posterior nares. | |||
"The premaxilla and the | |||
premaxillary part of the | |||
palate are absent in the | |||
shark, but there can be no | |||
doubt that the area of | |||
tissue lying between the | |||
nasal furrows represents | |||
the part which bears the | |||
premaxilla in higher vertebrates, and that in the | |||
course of evolution the | |||
the margins of the nasal furrows have actually fused. The bridge. of tissue thus formed across the nasal furrows is the earliest form of union between the mesial and lateral «elements of the palate. The condition of cleft palate, normal in the shark, has disappeared in the Dipnoi, and all vertebrates higher in the scale, than fishes. | |||
The stage of development seen in the Dipnoi may be studied more conveniently in amphibians. In figs. 3 and 4 are shown side by side the palate of one of the larger frogs and of a lion cub—one of the many which have been born in the gardens of the Zoological Society of London with cleft palate. In the flrggs palate a premaxilla has appea , and it has extended across the nasal furrow and fused with the maxilla, so that a horseshoe-‘shaped alveolar arcade is now formed. The amphibian | |||
the | |||
form marks a distinct stage in the evolution of the and one at which development may be arrested, as shown | |||
in the | |||
and | |||
which | |||
by‘ the specimen represented in fig. 4. In the human embryo the Selachian stage is superseded b the am hibian during t e fifth an sixth weeks of development; the mesial or premaxilla?‘ processes unite then | |||
thelateral or maxillary element of the . late. | |||
During the sevent and eighth weeks the third or mammalian ‘sta e is entered on; from e lateral or maxillary elements. two palatal processes grow out and fuse in the middle line, fusion commencing behind the premaxillary element and ending 1: the uvula (fig. 4A). | |||
During the sevent and | |||
eighth weeks the third or | |||
mammalian ‘sta e is entered on; from e lateral | |||
or maxillary elements. two | |||
palatal processes grow out | |||
and fuse in the middle | |||
line, fusion commencing | |||
behind the premaxillary | |||
element and ending 1: | |||
the uvula (fig. 4A). | |||
fig. .'5.—Palate of frog. | fig. .'5.—Palate of frog. | ||
bones’ exposed on the right side. | bones’ exposed on the right side. process of maxilla; c. palate bone; D, posterior nares; part of maxillary palate; F, alveolar palate; G. incisive papilla with organ of Jacobson opening on each side of it; v, vomer; v”. vomcrine teeth. | ||
process of maxilla; c. palate bone; D, posterior nares; | |||
part of maxillary palate; F, alveolar palate; G. incisive papilla | |||
with organ of Jacobson opening on each side of it; v, vomer; | |||
v”. vomcrine teeth. | |||
_ 3: T | _ 3: T | ||
Within the palatal processes the | Within the palatal processes the horizontal plates iof the‘ maxillary and palate bones are developed. Arrest may occur at any point «of the third | ||
horizontal plates iof the‘ maxillary and palate bones are | |||
developed. Arrest may occur at any point «of the third | |||
fig. 1.—Tripartite palate. A, Median part of upper lip; B, c, | fig. 1.—Tripartite palate. A, Median part of upper lip; B, c, alae of nose (two tags on left); c, caninetooth buds; D, lip; E. rugose part of palate; F, marginal part; G, alveolar part; H, soft . paltte with uvular process; I , 12, incisors; P, incisive papilla; s, sep um. | ||
alae of nose (two tags on left); c, caninetooth buds; D, lip; E. | |||
rugose part of palate; F, marginal part; G, alveolar part; H, soft . | |||
paltte with uvular process; I , 12, incisors; P, incisive papilla; s, | |||
sep um. | |||
Rig. 7). | Rig. 7). | ||
I , ‘ | I , ‘ "4 \ 3 ‘ "(lg \, K 1:: p H ._A . ,“ mi,» | ||
"4 \ 3 ‘ | |||
"(lg \, K 1:: p | |||
H ._A | |||
. ,“ | |||
mi,» | |||
4 '3-‘.' | 4 '3-‘.' .'.'a‘»' | ||
.'.'a‘»' | |||
fig. 2.—Head and mouth of a young dogfish | fig. 2.—Head and mouth of a young dogfish (Scyllium camicula). A,Internasal field; B. anterior nares; c, posterior nares; D, anterlor nares and olfactory pit; E, posterior nares; F, opercular fold (turned up). which separates the anterior nares from the posterior ; G, maxillary process; H, lower jaw. | ||
(Scyllium camicula). A,Internasal field; B. anterior nares; c, posterior nares; D, anterlor | |||
nares and olfactory pit; E, posterior nares; | |||
F, opercular fold (turned up). which separates | |||
the anterior nares from the posterior ; G, maxillary process; H, lower jaw. | |||
palate, | palate, | ||
mu:MAxn.i.¢ | mu:MAxn.i.¢ | ||
Line 297: | Line 151: | ||
fig. 3. fig. 4. | fig. 3. fig. 4. | ||
fig. 4.-—Pa1a.te of lion cub with cleft | fig. 4.-—Pa1a.te of lion cub with cleft palate. In both figures the mucous membrane is removed and the | ||
palate. In both figures the mucous membrane is removed and the | |||
A, Anterior nares; a3, palatal | A, Anterior nares; a3, palatal E. rugose | ||
E. rugose | |||
stage. I The development of the horizontal’ palate rendered | stage. I The development of the horizontal’ palate rendered the evolution of mammals possible; ‘without such a palate | ||
the evolution of mammals possible; ‘without such a palate | |||
I suction)’ and mastication | I suction)’ and mastication are ,impossible, unless the breath be held While these acts arein ‘progress. T | ||
are ,impossible, unless the | |||
breath be held While these | |||
acts arein ‘progress. T | |||
The Degree of Sepc;/ra.tio;n | The Degree of Sepc;/ra.tio;n between the Various . Parts of the Palate. | ||
between the Various . | |||
Parts of the Palate. | |||
The late Professor His | The late Professor His was of opinion that clefts in the palate resulted from irregular and inco-ordinated growth of the three elements which go to form it. That the growth of the three parts is irregular in the later months of fetal life there can be no doubt (see figs. 1 and 5). The septal part of the mesial nasal process is abnormally long, so that the premaxilla projects some 6 or 8 mm. in front of the maxillary parts of ‘the palate. The increase in length of the septum is due not to the vomerine part of the septum, but to that part of It | ||
was of opinion that clefts | |||
in the palate resulted from | |||
irregular and inco-ordinated growth of the three | |||
elements which go to form | |||
it. That the growth of | |||
the three parts is irregular | |||
in the later months of fetal | |||
life there can be no doubt | |||
(see figs. 1 and 5). The | |||
septal part of the mesial | |||
nasal process is abnormally | |||
long, so that the premaxilla | |||
projects some 6 or 8 mm. | |||
in front of the maxillary | |||
parts of ‘the palate. The | |||
increase in length of the | |||
septum is due not to the | |||
vomerine part of the septum, but to that part of It | |||
which is formed by the premaxillary processes (see | which is formed by the premaxillary processes (see If the premaxilla becomes adherent to the maxilla | ||
If the premaxilla becomes adherent to the maxilla | |||
on one side the extra growth of | on one side the extra growth of the septum still takes place, with the result that the premaxilla is bent towards the side on which union takes place (fig. 5). Irregularity of growth is not the cause but the result of the cleft condition. From the evidence to_ be produced it is probable that the processes which form the palate were in contact during the fifth and sixth weeks of development, but for some reason—the exact cause we do not know-—union did not take place then. The union of | ||
the septum still takes place, with the | |||
result that the premaxilla is bent | |||
towards the side on which union | |||
takes place (fig. 5). Irregularity of | |||
growth is not the cause but the | |||
result of the cleft condition. From | |||
the evidence to_ be produced it | |||
is probable that the processes | |||
which form the palate were | |||
in contact during the fifth and | |||
sixth weeks of development, but | |||
for some reason—the exact cause | |||
we do not know-—union did not | |||
take place then. The union of | |||
. embryological processes is in every | . embryological processes is in every | ||
way comparable to the healing of | way comparable to the healing of wounds; the epithelial coverings on each side of the nasal roove come in contact and ‘form a ridge across which the uniting mesoblast may grow. If for some reason union is delayed -— and from Professor Mall’s observations there can be no | ||
wounds; the epithelial coverings | |||
on each side of the nasal roove | |||
come in contact and ‘form a ridge | |||
across which the uniting mesoblast | |||
may grow. If for some reason union | |||
is delayed -— and from Professor | |||
Mall’s observations there can be no | |||
doubt that uterine inflammation, sometimes from syphilis, | doubt that uterine inflammation, sometimes from syphilis, _is the most common cause-growth in the several elements | ||
_is the most common cause-growth in the several elements | |||
of the palate causes them | of the palate causes them to separate, and once a breach in their continuity has been efiected, union cannot afterwards take place. The younger the fetus the smaller the cleft, not only absolutel but relatively. The widt of the fissure between the palatal processes of the superior maxilla varies from 7 to 20 mm. in the tripartite palate; 14 mm. is the average in eight ,full-time children; in a fetus at the fourth month this cleft measured only 1 mm.’ Broph 1 has suggested that the subsequent separation is | ||
to separate, and once a | |||
breach in their continuity | |||
has been efiected, union | |||
cannot afterwards take | |||
place. The younger the | |||
fetus the smaller the | |||
cleft, not only absolutel | |||
but relatively. The widt | |||
of the fissure between the | |||
palatal processes of the | |||
superior maxilla varies | |||
from 7 to 20 mm. in the | |||
tripartite palate; 14 mm. | |||
is the average in eight | |||
,full-time children; in a | |||
fetus at the fourth month | |||
this cleft measured only | |||
1 mm.’ Broph 1 has | |||
suggested that the subsequent separation is | |||
caused by pressure of the lower jaw and tongue againstthe | caused by pressure of the lower jaw and tongue againstthe palate, and the material at my disposal is in harmon with his suggestion. ‘ He also makes the statement that t ereis ‘ each side. | ||
palate, and the material at my disposal is in harmon with | |||
his suggestion. ‘ He also makes the statement that t ereis | |||
‘ each side. | |||
‘shown in fig. 5A, | ‘shown in fig. 5A, | ||
THE BRITISH . ] | THE BRITISH . ] MEDICAL J ounxu. | ||
MEDICAL J ounxu. | |||
312 | 312 | ||
no atrophy of the parts that go to form the palate, but this | no atrophy of the parts that go to form the palate, but this is certainly not the case in the specimens I have examined. | ||
is certainly not the case in the specimens I have examined. | |||
In three palates of adults the cleft was in the average ' ‘20 mm. wide, the breadth of the | |||
palate 64 mm.; the bony parts of these palates were thus 10 or 15 mm. less than normal. In newly-born children the deficiency affects the inner or marginal area of the palate (see fig. 1), but it does not amount to more than 3 mm. on Whether the cleft continues to increase after birth I am not in a position to say, but, judging from the width of the cleft in the adult palate, I conclude that the parts do not continue to separate after birth at the rate they did before birth. | |||
Imperfect Degrees of Union. In fig. 5 there are shown very imperfect strands of union between the premaxillary and maxillary processes. A study of these throws much light on the condition of cleft palate. The slightest degree of union is where a strand of fibrous tissue covered by epithelium unites the ala of the nose to the premaxillary process; this represents the rudiment, or rather vestige, of the union of the mesial and lateral nasal process to form the boundary of the anterior nares. In B, o, D (fig. 5) increasing degrees of union are shown. In the fullest degree (fig. 5, D) the uniting band forms a bridge on which four elements end in attempting to reach the premaxillary process—(1) the ala of the nose, (2) the lateral part of the upper lip, (3) the dental groove, (4) the palatal process of the upper maxilla. These strands of union have apparently become stretched by the unequal or irregular growth of the parts which go to form the palate and upper lip; occasionally blunt conical processes occur -on each side of the cleft, evidently the remnants of a strand which has broken under the strain. | |||
The Relationship of the | The Relationship of the Incisor Teeth to the Clefts. | ||
Incisor Teeth to the | |||
Clefts. | |||
It is well known that the | It is well known that the cleft usually lies between the middle and lateral incisors. In 41 cases I was able to’ verify the position of the fissure; in 23 it passed between the lateral and middle ‘ incisors; in 9 it passed between the lateral ‘incisor and canine. In 7 cases the lateral incisor had not developed on the side of the fissure; in 2 cases a third incisor was developed. To explain the varying relationship of the fissure to the incisor teeth Albrecht supposed that the premaxilla was developed in two parts, that carrying the mesial incisor being developed in the A mesial nasal process, and that carrying the lateral, in the lateral nasal process. Koelliker, and afterwards His, showed conclusively that Albrecht was wrong—that the lateral nasal process did not enter into the formation of either the palate or lip, but because Albrecht offered an explanation of appearances with which surgeons are familiar while the great anatomists offered none, his theory has been widely accepted in England. The true explanation of the varying relationship of the teeth to the fissure is extremely simple. The germ of the lateral | ||
cleft usually lies between the | |||
middle and lateral incisors. | |||
In 41 cases I was able to’ | |||
verify the position of the | |||
fissure; in 23 it passed between the lateral and middle ‘ | |||
incisors; in 9 it passed | |||
between the lateral ‘incisor | |||
and canine. In 7 cases the | |||
lateral incisor had not developed on the side of the | |||
fissure; in 2 cases a third | |||
incisor was developed. To | |||
explain the varying relationship of the fissure to the | |||
incisor teeth Albrecht supposed that the premaxilla | |||
was developed in two parts, | |||
that carrying the mesial | |||
incisor being developed in the A | |||
mesial nasal process, and that carrying the lateral, in the | |||
lateral nasal process. Koelliker, and afterwards His, | |||
showed conclusively that Albrecht was wrong—that the | |||
lateral nasal process did not enter into the formation of | |||
either the palate or lip, but because Albrecht offered an | |||
explanation of appearances with which surgeons are | |||
familiar while the great anatomists offered none, his | |||
theory has been widely accepted in England. The true | |||
explanation of the varying relationship of the teeth to the | |||
fissure is extremely simple. The germ of the lateral | |||
incisor, although carried by the mesial nasal process, is . | incisor, although carried by the mesial nasal process, is . | ||
Line 492: | Line 202: | ||
‘CONGENITAL MALFORMATIONS OF‘ PALATE, ‘ETC. | ‘CONGENITAL MALFORMATIONS OF‘ PALATE, ‘ETC. | ||
fig. 4A.—Model of the developing palate of a human fetus about | fig. 4A.—Model of the developing palate of a human fetus about 6 weeks old (28 mm. long) (Anna. P6121). palate; b, septum of nose; c, naso-pharynx; dd, maxillary plates about to meet; ee, soft palate and uvula. | ||
6 weeks old (28 mm. long) (Anna. P6121). | |||
palate; b, septum of nose; c, naso-pharynx; dd, maxillary plates | |||
about to meet; ee, soft palate and uvula. | |||
fig. 5.—Four specimens of cleft palate showing various degrees | fig. 5.—Four specimens of cleft palate showing various degrees in the development of the bond between the premaxillary, maxillary, and lateral nasal elements. A, The bond or bridge of tissue crossing the cleft; I1, central incisor sac; I2, lateral incisor sac; c, canine sac; L, median part of upper lip; s, septum of nose. | ||
in the development of the bond between the premaxillary, maxillary, and lateral nasal elements. A, The bond or bridge of tissue | |||
crossing the cleft; I1, central incisor sac; I2, lateral incisor sac; | |||
c, canine sac; L, median part of upper lip; s, septum of nose. | |||
[AUG- 7. . I909 | [AUG- 7. . I909 laid down in the cleft between the maxillary and premaxillary (mesial nasal) processes. In cases of cleft palate the processes move apart, under the strain of growth during the middle and later months of fetal life. Three fates may then overtake the bad of the lateral incisor: it may be destroyed, it may remain attached to the premaxillary process, but more frequently it moves outwards attached to the maxillary process. I have seen it stranded on the bridge of tissue between the processes or loosely attached at one side of the fissure or the other (see fig. 5, c). Mr. Clement Lucas has pointed out that families in which harelip and cleft palate are hereditary have usually the lateral incisor of very small size; Professor Warnekros regards an irregularity in the development of the lateral incisor as theactual cause of cleft palate, and points out not only the frequent absence but the occasional duplication of this tooth in families in which cleft palate is apt to occur. Yet the bud of the lateral incisor belongs to and is developed in connexion with the mesial nasal process. In the condition of cyclops, where this process fails to take part in the forma tion of the palate, all the incisor teeth are absent a, Premaxillary part of | ||
laid down in the cleft between the maxillary and premaxillary (mesial nasal) processes. In cases of cleft | |||
palate the processes move apart, under the strain of growth | |||
during the middle and later months of fetal life. Three | |||
fates may then overtake the bad of the lateral incisor: it | |||
may be destroyed, it may remain attached to the premaxillary process, but more frequently it moves outwards | |||
attached to the maxillary process. I have seen it stranded | |||
on the bridge of tissue between the processes or loosely | |||
attached at one side of the fissure or the other (see fig. 5, c). | |||
Mr. Clement Lucas has | |||
pointed out that families in | |||
which harelip and cleft palate | |||
are hereditary have usually | |||
the lateral incisor of very | |||
small size; Professor | |||
Warnekros regards an irregularity in the development of | |||
the lateral incisor as theactual cause of cleft palate, | |||
and points out not only the | |||
frequent absence but the | |||
occasional duplication of this | |||
tooth in families in which | |||
cleft palate is apt to occur. | |||
Yet the bud of the lateral | |||
incisor belongs to and is | |||
developed in connexion with | |||
the mesial nasal process. In | |||
the condition of cyclops, | |||
where this process fails | |||
to take part in the forma | |||
tion of the palate, all the incisor teeth are absent | |||
a, Premaxillary part of | |||
Abnormalities in the Ossification of the Premaazilla. | Abnormalities in the Ossification of the Premaazilla. Albrecht called attention to the fact that there is often 32double centre of ossification in each premaxilla. (See fig 6.) It will be observed that the amphibian premaxillae are subdivided (fig. 3). The position of the suture between the premaxilla and maxilla and its relationship to the teeth are extremely variable. As a rule it ends between the lateral incisor and canine, but it may vary in position, as Schumacher has pointed out, to the degree illustrated in fig. 7, ending in extreme cases either between the lateral and middle incisor or between the canine and first milk molar. The lateral part of the premaxilla is formed within the maxillary _ process; the process of ossification is not influenced by the position of embryonic , fissure; the premaxilla is laid down in adjacent parts of all three processes that go to form the face. | ||
Albrecht called attention to the fact that there is often 32double centre of ossification in each premaxilla. (See | |||
fig 6.) It will be observed that the amphibian premaxillae | |||
are subdivided (fig. 3). The position of the suture between | |||
the premaxilla and maxilla and its relationship to the | |||
teeth are extremely variable. As a rule it ends between | |||
the lateral incisor and canine, but it may vary in position, | |||
as Schumacher has pointed | |||
out, to the degree illustrated | |||
in fig. 7, ending in extreme | |||
cases either between the | |||
lateral and middle incisor or | |||
between the canine and first | |||
milk molar. The lateral | |||
part of the premaxilla is | |||
formed within the maxillary | |||
_ process; the process of ossification is not influenced by | |||
the position of embryonic | |||
, fissure; the premaxilla is laid | |||
down in adjacent parts of | |||
all three processes that go | |||
to form the face. | |||
THE BIPARTITE PALATE. | THE BIPARTITE PALATE. | ||
Having discussed in some | Having discussed in some detail the tripartite palate it will be sufficient to deal with the less severe, if commoner, forms more briefly. In the bipartite palate the premaxillary element has undergone normal union on one side, usually the right. with the maxillary process (fig. 7). Of the 15 cases in man, the cleft passed to the left side of the premaxilla in 11; Haug found it on the left side in 149 cases out of 216. Why the left side is the more frequently cleft I cannot say. The nasal septum in such cases is always markedly deformed, presenting its convexity to the side on which the cleft is situated. In 4 of these cases‘. union had occurred not only between the premaxilla and maxilla, but also between the nasal septum and edge of the palatal processes of the maxilla and palate bone (see fig. 7). In the usual form the lower border of the nasal septum is free, there being no union between the maxillary and mesial nasal elements. M60. 7, 1909.] | ||
detail the tripartite palate it | |||
will be sufficient to deal with | |||
the less severe, if commoner, | |||
forms more briefly. In the | |||
bipartite palate the premaxillary element has undergone normal union on one | |||
side, usually the right. with | |||
the maxillary process (fig. 7). | |||
Of the 15 cases in man, the | |||
cleft passed to the left side of | |||
the premaxilla in 11; Haug found it on the left side in | |||
149 cases out of 216. Why the left side is the more | |||
frequently cleft I cannot say. The nasal septum in such | |||
cases is always markedly deformed, presenting its convexity to the side on which the cleft is situated. In 4 of | |||
these cases‘. union had occurred not only between the | |||
premaxilla and maxilla, but also between the nasal septum | |||
and edge of the palatal processes of the maxilla and palate | |||
bone (see fig. 7). In the usual form the lower border of | |||
the nasal septum is free, there being no union between | |||
the maxillary and mesial nasal elements. | |||
M60. 7, 1909.] | |||
CONGENITAL" MALFORMATIONS '. OF IPALATE, ETC. | CONGENITAL" MALFORMATIONS '. OF IPALATE, ETC. | ||
[ THE Bnrrrsn | [ THE Bnrrrsn Mnmcu. J oummr. | ||
Mnmcu. J oummr. | |||
313 ‘ | 313 ‘ | ||
I ' ' Intermamillary Olefts. | I ' ' Intermamillary Olefts. | ||
. As we have seen, the union of the premaxillary element | . As we have seen, the union of the premaxillary element with the alveolar parts of the maxilla marks a distinct stage in the evolution of the palate—a stage well seen in | ||
with the alveolar parts of the maxilla marks a distinct | |||
stage in the evolution of the palate—a stage well seen in | |||
amphibians. The next stage—the mammalian—lies in | amphibians. The next stage—the mammalian—lies in the development and union of the maxillary palatal to be seen in the amphibian palate to occur in | ||
the development and union of the maxillary palatal | |||
to be seen in the amphibian palate | |||
to occur in | |||
processes already | processes already (fig. 3). One would expe the passage from the am phibian to the mammalian | ||
(fig. 3). One would expe | |||
the passage from the am | |||
phibian to the mammalian | |||
stage (see fig. 3), although | stage (see fig. 3), although | ||
such specimens are com | such specimens are com paratively rare in museums | ||
paratively rare in museums | |||
(of the 14 cases on my | (of the 14 cases on my | ||
Line 629: | Line 250: | ||
records a list of 67 cases, of | records a list of 67 cases, of | ||
which 36 were due to non | which 36 were due to non fusion of the maxillary pro cesses in the roof of the | ||
fusion of the maxillary pro | |||
cesses in the roof of the | |||
mouth. In these cases there | mouth. In these cases there | ||
Line 645: | Line 264: | ||
or of the uvula alone, as may | or of the uvula alone, as may | ||
be seen from Table I, are com | be seen from Table I, are com paratively rare; I have seen | ||
paratively rare; I have seen | |||
3 of the former and 5 of | 3 of the former and 5 of | ||
Line 660: | Line 278: | ||
50 mm. long and entering the | 50 mm. long and entering the | ||
third month of intrauterine life. Even when the palate is | third month of intrauterine life. Even when the palate is completely cleft the two halves of the uvula are clearly indicated as tags projected from the border of the palatal folds. The dissections in the Colle e Museum show the tensor and levator palati well develope ; the upper part of the superior constrictor and palato-pharyngeus are stronger than in normal palates. | ||
completely cleft the two halves of the uvula are clearly indicated as tags projected from the border of the palatal folds. | |||
The dissections in the Colle e Museum show the tensor and | |||
levator palati well develope ; the upper part of the superior | |||
constrictor and palato-pharyngeus are stronger than in | |||
normal palates. | |||
ct arrests | ct arrests | ||
Line 675: | Line 288: | ||
A. Septal process of premaxilla; | A. Septal process of premaxilla; | ||
fig. 7.—-Bipartite palate. | fig. 7.—-Bipartite palate. 13, vomer; c, canine; 1), premaxilla; E, marginal part_of palate; ’F, ala of 1 nose; G. maxillary part of lip; 11, 12, 11101801‘ teeth; M1, M2, milk molars. | ||
13, vomer; c, canine; 1), premaxilla; E, marginal part_of palate; | |||
’F, ala of 1 nose; G. maxillary part of lip; 11, 12, 11101801‘ teeth; | |||
M1, M2, milk molars. | |||
part of the palate. In the three cases included in Table I | part of the palate. In the three cases included in Table I the fissure was unilateral in two cases and bilateral in the third. In these cases arrest had occurred during the period of formation of the primary palate, whereas the process of formation of the secondary palate had been successfully carried out.‘ Besides lateral premaxillary clefts, there are two others, mesial in position, which are rare but worthy of notice. In one of these forms the embryological elements (the globular processes) which go to form the middle third of the upper lip and premaxillarv palate have been arrested at an early stage, and | ||
the fissure was unilateral in two cases and bilateral in the | |||
third. In these cases arrest had occurred during the | |||
period of formation of the primary palate, whereas the | |||
process of formation of the secondary palate had been | |||
successfully carried out.‘ Besides lateral premaxillary | |||
clefts, there are two others, mesial in position, which are | |||
rare but worthy of notice. In one of these forms the | |||
embryological elements (the globular processes) which go | |||
to form the middle third of the upper lip and premaxillarv palate have been arrested at an early stage, and | |||
fig. 6.—Palate of newly-born child (natural size) to | fig. 6.—Palate of newly-born child (natural size) to show the elements entering into its formation. between premaxilla and maxilla ending behind canine tooth; B, the same ending behind central incisor; c,canine; D, vomer appearing in naso-palatine fossa; E. marginal part of maxillary palate; F, horizontal process of palate | ||
show the elements entering into its formation. | |||
between premaxilla and maxilla ending behind canine | |||
tooth; B, the same ending behind central incisor; c,canine; | |||
D, vomer appearing in naso-palatine fossa; E. marginal | |||
part of maxillary palate; F, horizontal process of palate | |||
a mesial cleft is thus left in the lip andpalate. Of the | a mesial cleft is thus left in the lip andpalate. Of the 7 cases on my list 3 are from human subjects (see fig. 8) and 4 from pigs. ' In such cases a lateral incisor may be present. The other form is very rare—namely, where a mesial cleft occurs in the upper lip similar to that which occurs in the hare. Cases of this cleft are described by Mr. Clutton and Mr. Edmund Owen in man. The two globular processes have not completely united - together. This anomaly is much commoner in the domestic mammals than in man, as shown by the specimens in the College Museum. | ||
7 cases on my list 3 are from human subjects (see fig. 8) | |||
and 4 from pigs. ' In such cases a lateral incisor may be | |||
present. The other form is very rare—namely, where a | |||
mesial cleft occurs in the upper lip similar to that which | |||
occurs in the hare. Cases of this cleft are described by | |||
Mr. Clutton and Mr. Edmund Owen in man. The two | |||
globular processes have not completely united - together. | |||
This anomaly is much commoner in the domestic mammals than in man, as shown | |||
by the specimens in the | |||
College Museum. | |||
THE CAUSATION or HARELIP. | THE CAUSATION or HARELIP. | ||
Although comparatively few | Although comparatively few family histories are at present available, there is a general agreement among those who have inquired into the matter that harelip and cleft palate are very apt to occur in certain families. Mr. Edmund Owen, Mr. -Clement Lucas, and Professor Warnekros have recorded family trees showing the degree to which the condition may be inherited.* More suggestive of the true cause of the condition are (1) the malformation with which cleft palate is so often-/associated (spina bifida, anencephaly, morbus cordis, atresia ani, and clubfoot); (2) the observations of experimental embryologists. Such malformations may be produced by disturbing the development of the embryo by various means, but one may conclude from Professor Mall’s observations on malformed human embryos that morbid uterine or placental conditions are the commonest cause of malformation of the lipand palate in man. In a group of sixteen malformed human fetuses, the prevailing lesion being anen A. Suture | ||
family histories are at present available, there is a general | |||
agreement among those who | |||
have inquired into the matter | |||
that harelip and cleft palate | |||
are very apt to occur in certain families. Mr. Edmund | |||
Owen, Mr. -Clement Lucas, | |||
and Professor Warnekros have | |||
recorded family trees showing | |||
the degree to which the condition may be inherited.* More | |||
suggestive of the true cause | |||
of the condition are (1) the | |||
malformation with which cleft | |||
palate is so often-/associated | |||
(spina bifida, anencephaly, morbus cordis, atresia ani, and clubfoot); (2) the observations of | |||
experimental embryologists. | |||
Such malformations may be | |||
produced by disturbing the | |||
development of the embryo by various means, but one | |||
may conclude from Professor Mall’s observations on malformed human embryos that morbid uterine or placental | |||
conditions are the commonest cause of malformation of | |||
the lipand palate in man. In a group of sixteen malformed human fetuses, the prevailing lesion being anen | |||
A. Suture | |||
‘ cephaly, the following defects of the palate were found: | ‘ cephaly, the following defects of the palate were found: | ||
Divided uvula 4, divided soft palate 1, division of hard and | Divided uvula 4, divided soft palate 1, division of hard and soft palates 1, anterior bilateral fissure 1, unilateral pre fig. 8.—Absence of Dremaxillary part of palate (preparation No. 203). ‘A, Vestige of septum and premaxillary process; B, B, anterior nares; 0. lateral part of upper _lip; D. marginal part of maxillary palate; E, F, rugose and alveolar parts; G, soft palate and uvula. | ||
soft palates 1, anterior bilateral fissure 1, unilateral pre | |||
fig. 8.—Absence of Dremaxillary part of palate (preparation | |||
No. 203). ‘A, Vestige of septum and premaxillary process; B, B, anterior nares; 0. lateral part of upper _lip; D. marginal part of | |||
maxillary palate; E, F, rugose and alveolar parts; G, soft palate | |||
and uvula. | |||
maxillary fissure 1, bipartite palate 1, failure of ossifica | maxillary fissure 1, bipartite palate 1, failure of ossifica | ||
tion of hard palate 1. Eleven out of the sixteen showed | tion of hard palate 1. Eleven out of the sixteen showed malformation of the palate. These malformations are rarely met with amongst natives of Africa and of the South Sea Islands.’r3 | ||
malformation of the palate. These malformations are | |||
rarely met with amongst natives of Africa and of the | |||
South Sea Islands.’r3 | |||
==References== | |||
1Brophy, T. W., Jowr. Amer. Med. Assoc., 1907, vol.'xlix. D. 662. | 1Brophy, T. W., Jowr. Amer. Med. Assoc., 1907, vol.'xlix. D. 662. 9BRn'1sH MEDICAL JOURNAL, October 7th. 1895. 3Murray, B. W., Lancet, 1904, vol. i, p. 1423. | ||
9BRn'1sH MEDICAL JOURNAL, October 7th. 1895. 3Murray, B. W., | |||
Lancet, 1904, vol. i, p. 1423. | |||
For details as regards heredity see Le Dentu. Comptes rendus de | |||
l’Académie des Sciences, 1908, t. 146. p. _1138. p _ | l’Académie des Sciences, 1908, t. 146. p. _1138. p _ +A skull of a South Sea Islander in the college collection shows a cleft of the palate. | ||
+A skull of a South Sea Islander in the college collection shows a | |||
{{Footer}} | |||
[[Category:Historic Embryology]][[Category:1900's]][[Category:Abnormal Development]][[Category:Pharyngeal Arch]][[Category:Head]] |
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Keith A. Three demonstrations on congenital melformations of palate, face, and neck. (1909) Br. Med. J. .
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Woods-Jones F. The nature of the malformations of the rectum and urogenital passages. (1904) Br. Med. J. 1630-1634.
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Three demonstrations on Congenital Melformations of Palate, Face, and Neck
Congenital Malformations Of _ Palate, Face, And Neck.
Given At The Royal College Or Surgeons, England.
By
Professor Arthur Keith, M.D., F.R.C.S.Eng.,
Conservator Of The Museum.
Tim material which has gradually accumulated‘ in the various metropolitan medical museums during the last hundred years afiords the basis for a very complete study o_ffthe various forms of cleft found in the palate and upper hp of children at birth. While the specimens which are shown at these demonstrations are derived from the museumof this college, it has also been possible for me, thanks to the unfailing courtesy of those in charge of the medical schools of London, to have free access to the valuable material on the shelves of their museums. A classified list of the total number of specimens at my disP0381 18 given in Table I. Museum specimens are not representative of the run of cases met with in practice; the shgliter and, from a surgical point of view, the more interesting lesions are sparsely represented, whereas the m01‘9 S6Ve1’6 (forms, often associated with U other grave lesions, predominate.*
1-,. ~ .
In 555 cases at the clinic of von Bruns at Tiibingen Dr Gustav Haug(13eitrdaefu7‘79“”-Clkimrgie, 1904, Bd. 44, p. 254) found that the tripartite palate _occurred in 15 per cent. (against .38 per cent. in the §;‘::2.%"::i:::;;.*::ii:*;.*;s:%:.:°.%*.%3 e°i°.°:*~ ‘sins WI-°nr*°n 9'per cent. in the London series). 6 0 6 pa 3' e per cent (“must
to accept the practice of I the latter merely on account of its antiquity or its religious I
[AUG- 7. I969
? TABLE I.—Cla.ssified List Er Specimens showing Congenital Clefts
, of the Palate and Upper ip in Metropolitan Medical Museums.
Total.
2-::.—j::.—:_j--on-j-n-—¢
12 2 28‘ A. B. C.
2. Palate cleft into two parts 3 12 2 17'
Median cleft extending from the pre- 4 3 7 14maxilla to the uvula w
E"
4. Cleft of soft palate 3 O O 3'5. -Cleft of uvula 4 1 O 5 6. Cleft on both sides of premaxilla 1 0 0 1 7. Cleft limited to one side of premaxilla 1 0 1 2.‘. 8. Median cleft due to absence of pre- 1 2 4 7' maxilla . U 9. Bilateral harelip 1 o :5 4: 10. Unilateral harelip O 6 O l 6 11. Median harelip — — — O
32 36 19 87
A. Specimens in the Museum of the Royal College of Surgeons of“
England. _ B. Specimens in the museums of metropolitan medical schools.
C. Specimens of cleft palate in mammals other than man, chiefly in: the Museum of the Royal College of Surgeons of England.
TRIPABTITE PALATE.
In this, which must be regarded as the most severe form, the three elementary parts of the palate are widely separated. In all cases the lesion is remarkably alike, a. typical example being shown in fig. 1. In the middle element from before backwards are to be recognized (1) themiddle part of the upper lip; (2) the premaxillary part of? the palate, carrying the incisive papilla, which is joined to: the upper lip by a fraenum; (3) the lower border of the, septum of the nose, which is wider, shallower, and longer
I thannormal; (4) the varying number of dental sacs on the- premaxilla: in~16 cases only
the two middle incisors are carried; in 3 cases one lateral incisor as well as the two: middle (as in the specimen shown in fig. 1), and in 4 casesall four incisors. In no case did the premaxilla in these cases show a suture between the ectognathic and mesognathicr parts- The nerves and vessels of this element are the-: naso-palatine. On each lateral or maxillary element three; distinct areas can be recognized (fig. 1): (1) the alveolar area on which may be seen an elevation over the sacs of the two milk molars, another over the canine and» frequently a third, often on the margin of the cleft, over the lateral incisor (fig. 1); (2) a plicate or. rugose area. marked by folds; (.3) a smooth narrow marginal area (see ' When the mucous membrane is’ removed, the-. maxillary or lateral element is seen to be supported by the superior maxilla and palate bones. The nerves and vessels». of the maxillary elements are the descending palatme.
The Nature of the Lesion.
Seeing that fusion of the three elements to form the: palate begins in the human embryo at the fifth week, a. period at which the branchial arches are best marked, it is only natural that one should turn to fishesto find as a. normal condition onecomparable to that seen in the tripartite
palate of the malformed child. Embryology, too, leaves»
us in no doubt as tothe class of fishes in which the condition should occur; the more we know of the early develop-ment of the mammalian embryo, the more we becomeconvinced that it has much in common with the Selachii-. or shark tribe. The tripartite palate is an arrest of» development at a Selachian stage. In fig. 2 is shown the». mouth of the dogfish; what at first sight appears to be itsupper lip is divided by two furrows~—the olfactory or naso-~ buccal—into three parts, a mesial and two lateral. The‘
part between the furrows represents the middle nasal’.
process of human embryology—+the process which givesrise to the nasal septum and premaxilla. The furrowswhich represent extensions of the nasal openingstowards, or actually into, the buccal cavity of the shark, are divided by (see fig. .2) into two, functional parts—an upper, theanterior nares, by which water may
a fold from the middle processi.
enter the nasal -AUG; 7. 1909-]
CONGENITAL7 MALFORMATIONS or‘ rAILArE,, “E'1_*c.w
, . Tm: BarrIsH- .' ‘ ‘i1
~Mr_s.D1c‘AI- JOURNAL. 3 y
gcavity,“ and a lower or posterior nares,“ by which ‘the ynx as that cavity
water may be drawn into the phar
-expands during respiration. At first sight the‘ -comparison seems ’ im- p ‘perfect, for the nasal fur.»rows of 7 the shark appear to lie rather on what may ‘be named its face and entirely ‘in front of the ‘teeth. But these teeth behind the furrows in the
shark’s mouth are carried not by the maxillae but by the palate bones-—bones represented in the human skull by the vertical processes of the palatines— situated, as is the shark’s, at T the- posterior nares. "The premaxilla and the premaxillary part of the palate are absent in the shark, but there can be no doubt that the area of tissue lying between the nasal furrows represents the part which bears the premaxilla in higher vertebrates, and that in the course of evolution the
‘roof of the mouth has been extended onto this area. In those remarkable air-breathing fishes, the Dipnoi,
the margins of the nasal furrows have actually fused. The bridge. of tissue thus formed across the nasal furrows is the earliest form of union between the mesial and lateral «elements of the palate. The condition of cleft palate, normal in the shark, has disappeared in the Dipnoi, and all vertebrates higher in the scale, than fishes.
The stage of development seen in the Dipnoi may be studied more conveniently in amphibians. In figs. 3 and 4 are shown side by side the palate of one of the larger frogs and of a lion cub—one of the many which have been born in the gardens of the Zoological Society of London with cleft palate. In the flrggs palate a premaxilla has appea , and it has extended across the nasal furrow and fused with the maxilla, so that a horseshoe-‘shaped alveolar arcade is now formed. The amphibian
form marks a distinct stage in the evolution of the and one at which development may be arrested, as shown
by‘ the specimen represented in fig. 4. In the human embryo the Selachian stage is superseded b the am hibian during t e fifth an sixth weeks of development; the mesial or premaxilla?‘ processes unite then
thelateral or maxillary element of the . late. During the sevent and eighth weeks the third or mammalian ‘sta e is entered on; from e lateral or maxillary elements. two palatal processes grow out and fuse in the middle line, fusion commencing behind the premaxillary element and ending 1: the uvula (fig. 4A).
fig. .'5.—Palate of frog.
bones’ exposed on the right side. process of maxilla; c. palate bone; D, posterior nares; part of maxillary palate; F, alveolar palate; G. incisive papilla with organ of Jacobson opening on each side of it; v, vomer; v”. vomcrine teeth.
_ 3: T
Within the palatal processes the horizontal plates iof the‘ maxillary and palate bones are developed. Arrest may occur at any point «of the third
fig. 1.—Tripartite palate. A, Median part of upper lip; B, c, alae of nose (two tags on left); c, caninetooth buds; D, lip; E. rugose part of palate; F, marginal part; G, alveolar part; H, soft . paltte with uvular process; I , 12, incisors; P, incisive papilla; s, sep um.
Rig. 7).
I , ‘ "4 \ 3 ‘ "(lg \, K 1:: p H ._A . ,“ mi,»
4 '3-‘.' .'.'a‘»'
fig. 2.—Head and mouth of a young dogfish (Scyllium camicula). A,Internasal field; B. anterior nares; c, posterior nares; D, anterlor nares and olfactory pit; E, posterior nares; F, opercular fold (turned up). which separates the anterior nares from the posterior ; G, maxillary process; H, lower jaw.
palate,
mu:MAxn.i.¢
fig. 3. fig. 4.
fig. 4.-—Pa1a.te of lion cub with cleft palate. In both figures the mucous membrane is removed and the
A, Anterior nares; a3, palatal E. rugose
stage. I The development of the horizontal’ palate rendered the evolution of mammals possible; ‘without such a palate
I suction)’ and mastication are ,impossible, unless the breath be held While these acts arein ‘progress. T
The Degree of Sepc;/ra.tio;n between the Various . Parts of the Palate.
The late Professor His was of opinion that clefts in the palate resulted from irregular and inco-ordinated growth of the three elements which go to form it. That the growth of the three parts is irregular in the later months of fetal life there can be no doubt (see figs. 1 and 5). The septal part of the mesial nasal process is abnormally long, so that the premaxilla projects some 6 or 8 mm. in front of the maxillary parts of ‘the palate. The increase in length of the septum is due not to the vomerine part of the septum, but to that part of It
which is formed by the premaxillary processes (see If the premaxilla becomes adherent to the maxilla
on one side the extra growth of the septum still takes place, with the result that the premaxilla is bent towards the side on which union takes place (fig. 5). Irregularity of growth is not the cause but the result of the cleft condition. From the evidence to_ be produced it is probable that the processes which form the palate were in contact during the fifth and sixth weeks of development, but for some reason—the exact cause we do not know-—union did not take place then. The union of
. embryological processes is in every
way comparable to the healing of wounds; the epithelial coverings on each side of the nasal roove come in contact and ‘form a ridge across which the uniting mesoblast may grow. If for some reason union is delayed -— and from Professor Mall’s observations there can be no
doubt that uterine inflammation, sometimes from syphilis, _is the most common cause-growth in the several elements
of the palate causes them to separate, and once a breach in their continuity has been efiected, union cannot afterwards take place. The younger the fetus the smaller the cleft, not only absolutel but relatively. The widt of the fissure between the palatal processes of the superior maxilla varies from 7 to 20 mm. in the tripartite palate; 14 mm. is the average in eight ,full-time children; in a fetus at the fourth month this cleft measured only 1 mm.’ Broph 1 has suggested that the subsequent separation is
caused by pressure of the lower jaw and tongue againstthe palate, and the material at my disposal is in harmon with his suggestion. ‘ He also makes the statement that t ereis ‘ each side.
‘shown in fig. 5A,
THE BRITISH . ] MEDICAL J ounxu.
312
no atrophy of the parts that go to form the palate, but this is certainly not the case in the specimens I have examined.
In three palates of adults the cleft was in the average ' ‘20 mm. wide, the breadth of the
palate 64 mm.; the bony parts of these palates were thus 10 or 15 mm. less than normal. In newly-born children the deficiency affects the inner or marginal area of the palate (see fig. 1), but it does not amount to more than 3 mm. on Whether the cleft continues to increase after birth I am not in a position to say, but, judging from the width of the cleft in the adult palate, I conclude that the parts do not continue to separate after birth at the rate they did before birth.
Imperfect Degrees of Union. In fig. 5 there are shown very imperfect strands of union between the premaxillary and maxillary processes. A study of these throws much light on the condition of cleft palate. The slightest degree of union is where a strand of fibrous tissue covered by epithelium unites the ala of the nose to the premaxillary process; this represents the rudiment, or rather vestige, of the union of the mesial and lateral nasal process to form the boundary of the anterior nares. In B, o, D (fig. 5) increasing degrees of union are shown. In the fullest degree (fig. 5, D) the uniting band forms a bridge on which four elements end in attempting to reach the premaxillary process—(1) the ala of the nose, (2) the lateral part of the upper lip, (3) the dental groove, (4) the palatal process of the upper maxilla. These strands of union have apparently become stretched by the unequal or irregular growth of the parts which go to form the palate and upper lip; occasionally blunt conical processes occur -on each side of the cleft, evidently the remnants of a strand which has broken under the strain.
The Relationship of the Incisor Teeth to the Clefts.
It is well known that the cleft usually lies between the middle and lateral incisors. In 41 cases I was able to’ verify the position of the fissure; in 23 it passed between the lateral and middle ‘ incisors; in 9 it passed between the lateral ‘incisor and canine. In 7 cases the lateral incisor had not developed on the side of the fissure; in 2 cases a third incisor was developed. To explain the varying relationship of the fissure to the incisor teeth Albrecht supposed that the premaxilla was developed in two parts, that carrying the mesial incisor being developed in the A mesial nasal process, and that carrying the lateral, in the lateral nasal process. Koelliker, and afterwards His, showed conclusively that Albrecht was wrong—that the lateral nasal process did not enter into the formation of either the palate or lip, but because Albrecht offered an explanation of appearances with which surgeons are familiar while the great anatomists offered none, his theory has been widely accepted in England. The true explanation of the varying relationship of the teeth to the fissure is extremely simple. The germ of the lateral
incisor, although carried by the mesial nasal process, is .
‘CONGENITAL MALFORMATIONS OF‘ PALATE, ‘ETC.
fig. 4A.—Model of the developing palate of a human fetus about 6 weeks old (28 mm. long) (Anna. P6121). palate; b, septum of nose; c, naso-pharynx; dd, maxillary plates about to meet; ee, soft palate and uvula.
fig. 5.—Four specimens of cleft palate showing various degrees in the development of the bond between the premaxillary, maxillary, and lateral nasal elements. A, The bond or bridge of tissue crossing the cleft; I1, central incisor sac; I2, lateral incisor sac; c, canine sac; L, median part of upper lip; s, septum of nose.
[AUG- 7. . I909 laid down in the cleft between the maxillary and premaxillary (mesial nasal) processes. In cases of cleft palate the processes move apart, under the strain of growth during the middle and later months of fetal life. Three fates may then overtake the bad of the lateral incisor: it may be destroyed, it may remain attached to the premaxillary process, but more frequently it moves outwards attached to the maxillary process. I have seen it stranded on the bridge of tissue between the processes or loosely attached at one side of the fissure or the other (see fig. 5, c). Mr. Clement Lucas has pointed out that families in which harelip and cleft palate are hereditary have usually the lateral incisor of very small size; Professor Warnekros regards an irregularity in the development of the lateral incisor as theactual cause of cleft palate, and points out not only the frequent absence but the occasional duplication of this tooth in families in which cleft palate is apt to occur. Yet the bud of the lateral incisor belongs to and is developed in connexion with the mesial nasal process. In the condition of cyclops, where this process fails to take part in the forma tion of the palate, all the incisor teeth are absent a, Premaxillary part of
Abnormalities in the Ossification of the Premaazilla. Albrecht called attention to the fact that there is often 32double centre of ossification in each premaxilla. (See fig 6.) It will be observed that the amphibian premaxillae are subdivided (fig. 3). The position of the suture between the premaxilla and maxilla and its relationship to the teeth are extremely variable. As a rule it ends between the lateral incisor and canine, but it may vary in position, as Schumacher has pointed out, to the degree illustrated in fig. 7, ending in extreme cases either between the lateral and middle incisor or between the canine and first milk molar. The lateral part of the premaxilla is formed within the maxillary _ process; the process of ossification is not influenced by the position of embryonic , fissure; the premaxilla is laid down in adjacent parts of all three processes that go to form the face.
THE BIPARTITE PALATE.
Having discussed in some detail the tripartite palate it will be sufficient to deal with the less severe, if commoner, forms more briefly. In the bipartite palate the premaxillary element has undergone normal union on one side, usually the right. with the maxillary process (fig. 7). Of the 15 cases in man, the cleft passed to the left side of the premaxilla in 11; Haug found it on the left side in 149 cases out of 216. Why the left side is the more frequently cleft I cannot say. The nasal septum in such cases is always markedly deformed, presenting its convexity to the side on which the cleft is situated. In 4 of these cases‘. union had occurred not only between the premaxilla and maxilla, but also between the nasal septum and edge of the palatal processes of the maxilla and palate bone (see fig. 7). In the usual form the lower border of the nasal septum is free, there being no union between the maxillary and mesial nasal elements. M60. 7, 1909.]
CONGENITAL" MALFORMATIONS '. OF IPALATE, ETC.
[ THE Bnrrrsn Mnmcu. J oummr.
313 ‘
I ' ' Intermamillary Olefts.
. As we have seen, the union of the premaxillary element with the alveolar parts of the maxilla marks a distinct stage in the evolution of the palate—a stage well seen in
amphibians. The next stage—the mammalian—lies in the development and union of the maxillary palatal to be seen in the amphibian palate to occur in
processes already (fig. 3). One would expe the passage from the am phibian to the mammalian
stage (see fig. 3), although
such specimens are com paratively rare in museums
(of the 14 cases on my
list, 7 are from the human
subject, the others are from
the dog, lion, sheep, and calf);
they are the more common
form of cleft palate met with
in practice. Mr. J. Berry“
records a list of 67 cases, of
which 36 were due to non fusion of the maxillary pro cesses in the roof of the
mouth. In these cases there
is a real arrest, not only of
the fusion of the processes,
but of their actual growth.
Clefts of the soft palate alone
or of the uvula alone, as may
be seen from Table I, are com paratively rare; I have seen
3 of the former and 5 of
the latter. They indicate an
arrest towards the end of
the development of the palate
when the fetus is about
50 mm. long and entering the
third month of intrauterine life. Even when the palate is completely cleft the two halves of the uvula are clearly indicated as tags projected from the border of the palatal folds. The dissections in the Colle e Museum show the tensor and levator palati well develope ; the upper part of the superior constrictor and palato-pharyngeus are stronger than in normal palates.
ct arrests
bone.
Premawillwry Clefts. The cleft or clefts may be limited to the premaxilla.
A. Septal process of premaxilla;
fig. 7.—-Bipartite palate. 13, vomer; c, canine; 1), premaxilla; E, marginal part_of palate; ’F, ala of 1 nose; G. maxillary part of lip; 11, 12, 11101801‘ teeth; M1, M2, milk molars.
part of the palate. In the three cases included in Table I the fissure was unilateral in two cases and bilateral in the third. In these cases arrest had occurred during the period of formation of the primary palate, whereas the process of formation of the secondary palate had been successfully carried out.‘ Besides lateral premaxillary clefts, there are two others, mesial in position, which are rare but worthy of notice. In one of these forms the embryological elements (the globular processes) which go to form the middle third of the upper lip and premaxillarv palate have been arrested at an early stage, and
fig. 6.—Palate of newly-born child (natural size) to show the elements entering into its formation. between premaxilla and maxilla ending behind canine tooth; B, the same ending behind central incisor; c,canine; D, vomer appearing in naso-palatine fossa; E. marginal part of maxillary palate; F, horizontal process of palate
a mesial cleft is thus left in the lip andpalate. Of the 7 cases on my list 3 are from human subjects (see fig. 8) and 4 from pigs. ' In such cases a lateral incisor may be present. The other form is very rare—namely, where a mesial cleft occurs in the upper lip similar to that which occurs in the hare. Cases of this cleft are described by Mr. Clutton and Mr. Edmund Owen in man. The two globular processes have not completely united - together. This anomaly is much commoner in the domestic mammals than in man, as shown by the specimens in the College Museum.
THE CAUSATION or HARELIP.
Although comparatively few family histories are at present available, there is a general agreement among those who have inquired into the matter that harelip and cleft palate are very apt to occur in certain families. Mr. Edmund Owen, Mr. -Clement Lucas, and Professor Warnekros have recorded family trees showing the degree to which the condition may be inherited.* More suggestive of the true cause of the condition are (1) the malformation with which cleft palate is so often-/associated (spina bifida, anencephaly, morbus cordis, atresia ani, and clubfoot); (2) the observations of experimental embryologists. Such malformations may be produced by disturbing the development of the embryo by various means, but one may conclude from Professor Mall’s observations on malformed human embryos that morbid uterine or placental conditions are the commonest cause of malformation of the lipand palate in man. In a group of sixteen malformed human fetuses, the prevailing lesion being anen A. Suture
‘ cephaly, the following defects of the palate were found:
Divided uvula 4, divided soft palate 1, division of hard and soft palates 1, anterior bilateral fissure 1, unilateral pre fig. 8.—Absence of Dremaxillary part of palate (preparation No. 203). ‘A, Vestige of septum and premaxillary process; B, B, anterior nares; 0. lateral part of upper _lip; D. marginal part of maxillary palate; E, F, rugose and alveolar parts; G, soft palate and uvula.
maxillary fissure 1, bipartite palate 1, failure of ossifica
tion of hard palate 1. Eleven out of the sixteen showed malformation of the palate. These malformations are rarely met with amongst natives of Africa and of the South Sea Islands.’r3
References
1Brophy, T. W., Jowr. Amer. Med. Assoc., 1907, vol.'xlix. D. 662. 9BRn'1sH MEDICAL JOURNAL, October 7th. 1895. 3Murray, B. W., Lancet, 1904, vol. i, p. 1423.
For details as regards heredity see Le Dentu. Comptes rendus de l’Académie des Sciences, 1908, t. 146. p. _1138. p _ +A skull of a South Sea Islander in the college collection shows a cleft of the palate.
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