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Darwin Correspondence Project

From C. S. Tomes   [before 16 February 1874]1

“A system of Dental Surgery by John Tomes FR.S & Charles. S. Tomes MA. 2nd. edition 18732

The maxillary bones, while their processes are increased in length, are moved bodily forward, the rate of growth keeping pace with the increase at the tuberosity. Coincident with development, the modelling of certain parts by superficial absorption is carried on. By this process, the anterior surface of the lower border of the malar process is removed, and thus thrown backward. In the seven-years’ specimen, it lies immediately above the anterior third of the first molar; at twenty-one it holds a similar position with respect to the second molar, thus showing a recedence equal to the width of one tooth.

As respects the changes of form and position which the glenoid cavity undergoes during growth, but little need be said. Here we have articular cartilage, beneath which the required amount of bone is slowly developed in the same manner as in the sub-articular cartilage of the lower jaw.

The growth of the alveolar process need not be again referred to.

After the teeth are lost, the upper jaw undergoes great change both in size and in form, not, however, from what is called interstitial absorption, but simply from progressive superficial absorption. The alveolar processes are gradually lost, and the whole bone is reduced in thickness. The pterygoid plates of the sphenoid bone become greatly diminished in size and strength, while the glenoid cavity loses its strongly-pronounced margin, and hence becomes flattened.

Certain forms of irregularity in the conformation of the jaws being closely connected with deviation from the normal arrangement of the teeth, will be considered in connexion with the latter subject.

Irregularity of the Permanent Teeth.—Hitherto the description of the permanent teeth has been confined to their evolution when those general laws which regulate the time of appearance, the position, the form of the individual members, and the implantation of the whole set, have operated without interruption.

〈    〉 proof. 22/6/72.

The deviations from the normal conditions as respects arrangement, number, form, and the period of eruption, have yet to be considered before we come to the conclusion of that division of the subject which has been placed under the general head of teething. The divisions of this subject will be treated in the order in which they have been enumerated.

But before passing to the consideration in detail of these several irregularities, it will be interesting to inquire into the conditions under which deviations from a normal type occur. In a very considerable number of cases the whole abnormality is caused by purely mechanical agencies, such as the undue retention of temporary teeth, and may be almost regarded as accidental in their origin. The crowns of the teeth in such cases deviate from their normal position far more considerably than their roots, the apices of which will very generally be found to occupy their proper places.

But it is far from uncommon for the alveolar border3 or even the whole jaw, to be malformed, so that the whole length of the implanted portions of the teeth will participate in the irregularity.

The origin of such malformation must be sought at a period long antecedent to the eruption of the permanent teeth; they are, in fact, often congenital, and traceable to hereditary tendencies.

It must not however be supposed that because an abnormality is slight, and is apparently due to some mechanical cause, it may not have been inherited.

There is no lack of evidence to prove that variations in the position or number of teeth which might at first sight seem accidental are transmitted from parents to children; of this Dr. M’Quillen4 gives some striking examples.(1) Thus, he found the upper lateral incisors biting inside the corresponding lower teeth in a gentleman, and in three out of four of his children; the fourth child had not cut these teeth at the time when the observation was made. In another family a gentleman, his son, and his grandson alike never had any lateral incisors in the upper jaw; a second son of the same gentleman had them exceedingly dwarfed, and in some of his children these dwarfed lateral incisors had been so unsightly as to lead to the teeth being extracted and artificial substitutes put in their place. In a later number(1) of the same journal a family is mentioned as well known to American dentists, in whom no permanent teeth at all are found.

An instance of the congenital absence of bicuspid teeth is given by Mr. Heath, (2) and in my own practice I have lately met with an example of the absence of the left upper lateral incisor in three sisters; on the right side these teeth are present.*5

Irregularities apparently most trivial may be, in fact, congenital: thus I have lately seen an instance in which, although there is no crowding in the jaw sufficient to account it, the right upper central incisor is to a slight extent twisted on its axis, and lies a little behind its fellow tooth: precisely the same irregularity exists in the father of the child, and will apparently be repeated in another child, in whom the tooth is as yet only partially erupted. A case is quoted by Mr. Sedgwick in which, during both dentitions, a double tooth took the place of the left lateral incisor, this peculiarity being inherited from a paternal grandfather.(3)6

Numerous other examples might be collected, but the foregoing will sufficiently serve to illustrate that strong tendency to hereditary transmission of peculiarities which is found to exist, and to serve to cause dental irregularities.

Correlations of growth are found to exist between parts of the organism, which, so far as we know at present, have little or nothing to do with one another; but in other examples of this concomitant variation some homological relation can be traced between the varying organs. Such is the case with hair and teeth, which in their origin are closely similar, and which only become strongly differentiated in their after development.

For example, the hairless, naked Turkish dog is extremely deficient in its teeth, often having none except one molar on each side, and perhaps one or two imperfect incisors; (1) and the same fact has been observed in a hairless terrier. Inherited baldness has been found associated with inherited deficiency of the teeth, and it is stated by Mr. Sedgwick (2) that in rare cases where the hair has been renewed in old age this has usually been accompanied by a renewal of the teeth.7

Mr. Craufurd, as quoted by Mr. Darwin, states that at the Burmese Court there was a man covered with straight silky hair, which on the spine and shoulders was as much as five inches in length. He had no molar teeth, and the incisors were very small; his daughter inherited the peculiarity of a hairy skin, her face, even including the nose, being covered with silky hair, and, like her father, she had neither molar nor bicuspid teeth.8

These hairy persons did not present any marked peculiarity at birth, save that there was a little hair about the ears, whence it spread all over the body; and it is a significant fact that there was nothing abnormal in their milk dentition. In the case of Julia Pastrana, rendered famous by the exhibition of her stuffed skin after her death, the forehead and the chin were densely covered with hair, and there were so many supernumerary teeth in the mouth that the appearance of a double row of teeth in each jaw was presented.

It is remarked by Mr. Darwin (3) that those orders of the9

(1) Dental Cosmos, vol. xii, p. 75, et seq.

(1) Dental Cosmos, vol. xiii., p. 123.

(2) Injuries and Diseases of the Jaws, p. 185.

(3) British and Foreign Medico-Chirurg. Review, April, 1863.

(1) Darwin, Animals and Plants under Domestication, vol. i., p. 34.

(2) British and Foreign Medico-Chirurg. Review, April, 1863.

(3) Animals and Plants under Domestication, p. 328.10

37 Cavendish square. W.


On farther enquiry I find that this peculiarity is inherited from the father who has no upper lateral incisors— of two paternal uncles one has the left (?) lateral incisor wanting, of the other I can learn nothing.

I have another girl under my care in whom the lateral incisors are wanting, and one canine (the right) a mere peg. There is no peculiarity about father, or mother, or two sisters in respect to their dentition.

I cannot at all see why, but the lateral incisor is far more variable than any other tooth, save only the wisdom tooth. In many persons with otherwise large & well formed teeth the lateral incisors are stunted and disproportionately small   This applies only to the upper incisors, & is not at all true of the lower, so far as I have had opportunities of observing.11

CD annotations

2.1 The … interruption. 7.4] ‘Inheritance of curious irregularities & deficiencies of Teeth—’ pencil
14.1 There … dwarfed, 14.7] scored pencil
15.1 An … congenital: 16.1] scored pencil
16.2 the right … erupted. 16.5] scored pencil
16.5 A case … grandfather.(3) 16.7] scored pencil
19.1 For … teeth. 19.5] ‘Correlation all else used’ ink; scored ink; scored pencil


The date is established by the relationship between this letter and the letter to C. S. Tomes, 16 February [1874].
J. Tomes and Tomes 1873. The memorandum consists of two proof-sheets (pp. 113–16), with one handwritten correction by Tomes (see n. 3, below). The printed footnotes and a handwritten note by Tomes have been moved to the end. The handwritten note ending ‘proof. 22/6/72.’ is not in Tomes’s hand.
Tomes corrected ‘borde’ to ‘border’ by hand.
John Hugh McQuillen.
Tomes refers to Christopher Heath and Heath 1868. The asterisk is handwritten.
Tomes refers to William Sedgwick and Sedgwick 1863, p. 454.
Sedgwick 1863, p. 453.
Tomes refers to Variation 2: 327 and to John Crawfurd and J. Crawfurd 1834, 1: 320–3. The spelling ‘Crauford’ was not corrected in the published version of J. Tomes and Tomes 1873.
In J. Tomes and Tomes 1873, p. 117, the sentence continues: ‘Mammalia which are most aberrant in their dermal coverings, namely, the Cetacea and Edentata, are also remarkable for deficiency or redundancy in the number of their teeth.’
The reference is to Variation vol. 2.
CD discussed the apparent decrease in size in the wisdom and canine teeth of humans in Descent 1: 26, 126–7, 144, 2: 324–5. CD did not make any additions to these discussions in Descent 2d ed.


Crawfurd, John. 1834. Journal of an embassy from the governor general of India to the court of Ava. With an appendix, containing a description of fossil remains, by Professor Buckland and Mr. Clift. 2d edition. 2 vols. London: Henry Colburn.

Descent 2d ed.: The descent of man, and selection in relation to sex. By Charles Darwin. 2d edition. London: John Murray. 1874.

Descent: The descent of man, and selection in relation to sex. By Charles Darwin. 2 vols. London: John Murray. 1871.

Heath, Christopher. 1868. Injuries and diseases of the jaws: the Jacksonian prize essay of the Royal College of Surgeons of England, 1867. London: John Churchill & Sons.

Sedgwick, William. 1863. On the influence of sex in hereditary disease. British and Foreign Medico-Chirurgical Review n.s. 31: 445–78; 32: 159–97.

Tomes, John and Tomes, Charles Sissmore. 1873. A system of dental surgery. 2d edition. London: J. & A. Churchill.

Variation: The variation of animals and plants under domestication. By Charles Darwin. 2 vols. London: John Murray. 1868.


Inherited dental abnormalities in man. [Enclosed are proofs of pp. 113–16 from J. Tomes, A system of dental surgery, 2d ed. (1873).]

Letter details

Letter no.
Charles Sissmore Tomes
Charles Robert Darwin
Sent from
London, Cavendish Square, 37
Source of text
DAR 178: 129
Physical description
†, encl 4pp †

Please cite as

Darwin Correspondence Project, “Letter no. 9195,” accessed on 12 November 2019,

Also published in The Correspondence of Charles Darwin, vol. 22