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Amelogenesis imperfecta among Israeli Jews and the description of a new type of local hypoplastic autosomal recessive amelogenesis imperfecta
Amelogenesis imperfecta among Israeli Jews and the description of a new type of local hypoplastic autosomal recessive amelogenesis imperfecta
Amelogenests imperfecta (Al) was detected in nine of 70,359 school children surveyed. a prevalence approximating 1 :8,000. Of these cases, eight were of the hypoplastjc type and one the snow-capped hypomaturation type Family studies demonstrated that hypoplastic Al was an autosomal dominant trait in two children and an autosomal recessive In six. Of three additional families referred to our clinic, two had autosomal recessive hypoplastic Al and one the hypocalctfied type, inherlted as an autosomal dominant trait. In four families, a new type of local hypoplastic autosomal recessive Al was observed, characterized by horizontal plttlng and grooving more pronounced in the middle third of the crowns of most teeth in both dentitions
T
wo types of amelogenesis imperfecta (Al) were described b> Weinmann and associates’ as autosomal dominant disorders: hereditary enamel hypocalcification and hereditary enamel hypoplasia. A later report further subdivided AI by clinical and histologic criteria.’ and as more information appeared in the literature it became evident that rrtnelog~tw.vi.s itttpclt:fidcrtt was a term describing hereditary defects of the enamel with a number of different modes of transmission and various phenotypes.,‘1~10The recent classification of Witkop and Sauk”’ describes the following types of AI based upon histologic and clinical features and modes of inheritance: H~~poplmtic~
1 -. ’ 3. -L. 5. 6.
Al.
Autosomal dominant Autosomal dominant Autosomal dominant Autosomal dominant Autosomal recessive Y-linked (dominant)
pitted hypopiastic Al local hypoplastic Al smooth hypoplactic Al rough hypoplastic AI rough AI (enamel agenesis) smooth hypoplastic AI
I Autosomal dominant h>l”“natttr;ltic)11-h4p”plast1~~ Al with taurodontiam -. ’ X-linked (recossi\/e) h~pomattlr~itioi~ ..1I .j. Autosomal recessive pigmented hypomaturation Al 1. Snow-capped teeth tautosomal dominant 1 H\~~~~t~~Ltl~~jfic~tI -1I
I Autosomal dominant hypocalcitiecl Ai -.’ Autosomal recessive hypocalcificd Al Witkop” I’ound the precalcnce ot a11t’ornls 01 AI to bc I : 14,000 to I : I6.000 in the United State\ The purpose 01‘ this paper is IO describe the results (11 ;I \urvcy of Al among Jcus in laracl and to report :I prcciousl! unclescribed form ot autosomai reccssi 1c local hypoplaslic Al encountered in tour families. MATERIALS
AND METHODS
Examination 01‘70.159 school children. aged 6 to IX j cars. receiving ticntal care from the Tel .4\ i\ and Jerusalem Municipalities. uas carried oul in cla\\IW~I~ with the aid of a mouth mirror and probe under natural light. The dentist zxamincr\ uerc trained b! lectures.
;I
printd
~rnples
of
\uggesti\t:
recorded an> C;W slightI> ot ,\I. The dclinition used for ,AI wa\ ot
hereditar)
clet’cct\
manual.
children:
and
group
examinations
of
the)
of
cn;unel
unas\ociatcd
\\,ith
gcn--
Amelogenesis imperfectu among Israeli Jekvs 149
LEGEND:
0
q q
Normal, female
0
Affected,
male
w
Repo’ted
to be affected
0
0
Not knowv
If affected
0
Age at exomlnation
Dead Consongulneous marriage
10 Ten moles and females *
f
Examined Probond
Edentulous
Fig. 2. Family I: Snow-cappedhypomaturation AI. Dentition of proband (M. H.) with “snow-capped” appearance.
Fig. 1. Legend to pedigrees.
Table I. Data on families of probands affected by amelogenesis imperfecta Parents of proband
Made of inheritance
Furnil!
No. HM. snow-capped
Unknown
HP,eruptiondefects Autosomal recessive andresorption HP, pitted Autosomal dominant HP. pitted Autosomal recessive HP, HP, HP. HP. HP. H(’
thin enamel local local local local
Autosomal Autosomal Autosomal Autosomal Autosomal Autosomal
dominant recessive recessive recessive recessive dominant
Origin
Consanguinity
Affected
Proband *
Affected
None None
Im Im, If
2f Im, If
3m, 5f 2m, 5f
Mother None Mother None
Im lm If 2f If If Im Im
If
Im, If Im, If If 2rl1, If If 3f Sm, Sf If
Iraq
First cousins
Afghanistan
Uncle-Niece
Yemen-Morocco Iraq Rumania
None First cousins None None None
Poland Poland Iraq Poland Poland
HM, Hypomaturarion. HP. Hypoplastic. HC, Hypocalcified. * Probands of familie\ I to 7 are from the survei-population.
Siblings
First cousins None
None None None
None
Mother
If lm If lm -
Norma/
m, Male. f, Female.
eralized defects.“. I” In Al, the defects of the enamel differ from those of environmental origin. In the latter, the enamel defects are limited to those portions of the crowns of those teeth developing at the time that the environmental etiology has its effect. and the condition is not familial. All recorded cases were reexamined by two of the authors (A. C. and E. E.), who eliminated a number of misdiagnosed cases demonstrating hypoplasia of environmental etiology and tetracycline staining. First-degree relatives (parents and siblings) of probands conclusively diagnosed as having AI were examined in their homes. Following preliminary analysis of family data, a more detailed family study was indicated, and all relatives that could be reached and examined were included. Also included in the family study were three families not part of the survey population, but whose probands were diagnosed in the consultation clinic of the Department of Pedodontics (Hebrew University-Hadassah Faculty of Dental Medicine). During the family visits, a detailed medical history was taken to eliminate environmental causes of disturbances of enamel formation or changes in color. Infor-
mation was collected on diseases or disturbances during pregnancy and the first 5 years of life, including tetracycline therapy, fluorosis, and enamel defects as a symptom of a recognized syndrome. Detailed family history and pedigree information were obtained from the parents or probands and reconfirmed by further questioning of family members when possible. RESULTS
AI was diagnosed in nine of the 70,359 children examined, a prevalence of 1: 8,000. Eight cases of AI were diagnosed as hypoplastic, and one corresponded to the snow-capped hypomaturation type.’ Among the probands there were two pairs of siblings, so that only seven families were represented. The family data are presented in Table I. The first seven families were derived from probands found in the survey, while families No. 8, 9, and 10 were detected through the Pedodontic Clinic. In two of these three, AI of a hypoplastic type was diagnosed, and in one a hypocalcified type was found. Fig. I presents the legend to the pedigrees of the families described. In all the families, observation of skin. hair. ex-
150 C110.wc4T et (11.
Family
1
Family
2
18 /15/n DS A5
tremitiea. dition
and medical
which
could
history
be associated
failed with
to revcal heritable
any condcfect~
of enamel. CASE REPORTS Family 1: Snow-capped
hypomaturation
Al
The prohand M;I\ ;I Ih-year-old ho> (R/1. H.) dcntition and teeth tupcring toa ard the inciwl ;trc’;I\. The hoclic~ of’ the teeth. particul;u-I\ the prrmolars. were hroMn and pitted. \\ith the
with ~~;ILXYI d occluul c:uilnch MCI inciwl ;~nci
MS
5 YS
Volume 47 Number 1
Fig. 7. Family 2: Autosomal recessive hypoplastic AI with eruption defects and resorption. Dentition of s-year-old brother (Y, S.). showing marked attrition and smooth surfacts of deciduous teeth. Enamel can be distinguished from the dentition on the worn surfaces of the lower molars.
Fig. 8. Family
Fig. 10. Family
3 pedigree
classical description in that the bodies of the teeth were pitted. As the condition in the parents was unknown, no detinite mode of inheritance could be determined. Family 2: Autosomal recessive hypoplastic with eruption defects and resorption
Fig. 9. Family 3: Autosomal recessive pitted hypoplastic Bite-wing radiograph of proband (Y. I,.). shouing diolucent areas in the enamel.
Al
The two probands in this family were a IS-year-old boy (A. S.) and a 13.year-old girl (M. S.). Their dentitions showed marked attrition. smooth surfaces. spacing between teeth. a ycllou -brown discoloration, and delayed eruption. .4 thin layer of enamel could be distinguished from dentin on some occlusal surfaces which had undergone attrition, On radiographic examination (Figs. 3 and 5). enamel was not evident. and in the girl localized radiolucent areas, suggestive of resorption of the crowns of unerupted teeth. were observed. The dentin and supportive tissues appeared normal. There was evtdencc of calcifications of the pulp in both erupted and unerupted teeth. Both parents were Jews born in Afghanistan. related as uncle and niece (Fiy. h). Their dentition showed no evidence
AI. ra-
3 pedigree
of disturbances in enamel formation. Of nine siblings, a girl aped I8 years (D. S.) and a boy aged 5 years (Y. S.) (Fig. 7) showed tindings similar to those observed in the probands. The numerous other family members (Fig. 6) were tither found upon examination or reported to be unaffected. The clinical and radiographic findings and the pattern of inheritance in this family are compatible with an autosomal recessive hypoplastic AI with eruption defects and resorption reported by Witkop and Sauk,” a rare condition seen by them in only two families. Family 3: Autosomal
dominant
pitted hypoplastic
Al
The proband was a l3-year-old boy (A. K.). All teeth had pitting of the whole surface. The upper anterior teeth were Stained brown. and caries was present in the upper lateral incisors. At 7 years of age. the proband had had radiographs taken in which the hypoplastic changes could be clearly distinguished in both the primary and permanent dentition. The radiopacity of the enamel contrasted normally with that of the dentin,
Fig. 11. Family tapered
5: Autosomal
touard
the incisal
dominant
hqpoplaatic
or occlu~l
wr-f’ace.
Al
The
Fig. 12. Farnil) 5: .Autowmal dominant hypoplahtic ia! CI’ 01. enamel with nomal opacit?
(thin
enamel).
Teeth
of proh;tnd
enamel
wrf’acc
i\ \~noc~~h and hard
AI (thin
cnamcl
I. Radiograph
IS.
H I ;II~~ \m;til
01’ prohand
tS
MCI
H. I. \ho\\
\ng .I
thin
16 f13 y.l3.Fig. 13. Family Both
parents
can origin uas
were
not consanguineous.
remaining
in her mouth
the proband. siblings
The
primav
teeth
the maternal were as AI
I\;IS affected.
pitting
dominant
from
(Fig.
to that seen in her
ing.
the mother uncle.
~!pc.“,
Nere
indicated
that
and his tw’o wns
were
farnil)
memhe~-
The
proband
had hard rough
” transmitted
The nodular of pits with
appearance
and proove\.
degree
in the lower crowns.
deficiencies (Fig. The
in
pitted hypoplastic
was a 1%year-old and nodular has These incisors.
hog
surfaces
b!
an
ShoMed
localized
radiolucent
Al M hose
teeth
broa,n
of an irregular
patterr
pt-esent
incisor\
e~~dence areas
to a lesser
in Ii-q.
w crc
ohviou\
ihc p,rrcnt\
and \Ih-
\tatcd
that no additional
di\turhancc
v,crc
in tooth
covered
The
probuntl. between
occlusal Periapical
ap-
first
cousin\
(Fig.
dominant
girl
I+ hi&
(S
and hard.
M ithout
yho\vctl
( IT1~. I7 1
one
;I\ .I
or \c\-
marriqc
01
Al (thin enamel)
f3 J. 111an1f’csted \\I& toward
polntcd: ;I thin
ho)
c mhcrltanct‘
tapcrcd
were
and
by an ‘ILI-
.Iuto\omal
hypoplastic
Ihc cusps
radiograph\ opaclt!
rrce\\i\
;I I i-\?a~--old
smooth
\\ lth onI\ mutatic~n.
the conwnylncou\
autowmal
type,
.Al of Il’ithop
to hc dct~‘m~~nt‘d
hIthough.
the teeth.
wrfac~~~
v,ere
farnil)
be cxcludcd.
\ugFcxt\
spacing
h! popla\tic
01’ ;I nw
Family 5: Autosomal
teeth
enamel
in thi\
rece~~i~ c gent. cannot
as ;I1 01 (I h! poplast~c
the pitted
the posvhilit>
in
the
N ;I\ diagnosed
tosomal
normal JCU \ born
an!
\uhject.
of the enamel
9). pal-ents.
lormatlon sihl ing\
and the p;nent\
resenihling
the parent\
stained
\\crc
The upper
Radiographs
I..).
and were
the rc\ult findings
(1’.
01 cxwpcration.
had
The condition somewhat
linked,
recessive
of lack e\camincd.
Rae.!’ hut appca~-\
Eva\ diapnowd
gene.
Family 4: Autosomal
III cn;m~cl
The TV 11 cider
unaffected
Because lings
no di\rurbanw
‘r\ as one of three children.
pearance
8). The condition
hypoplastic
other
aged i. wa+ affected.
teeth 4io~~ed
The prohand
the teeth
Of’ the three
and groo\
IO). Their
of Moroc-
The marriage
similar
a maternal
affected
of’ the pitted,
pitting
sister.
obtained
grandmother,
similarI>
autosomal
The mother
a younger
histoE
the father descent.
was not affected.
showing
The family
in Israel.
of Yemenite showing
father
examined.
5 ped~~rcc
Jews born
and the mother
S.B.
the inci4
the wlt‘ace\
dwoloratw
OI01. Ihc
(Fig.
I 1 1.
1x1 cl- cl< I’II~~IICI
v ~th
Amelogenesis impe@cta among Isrcleli Jeu’s
Fig. 15. Farnil)
153
7 pedigree
(Fig. 1.7). Both had full dentures. The mother stated that she had had teeth \imilat to those of her daughter. Of two sisters, one (Y. B.) \\as Gmilarl! affected. Radiographs taken of Y. B. at age I I \hoM that teeth of her primary dentition were similarly affcctccl. Because of lack of cooperation, no further information about thi\ t’un~ly could be obtained. Six months later. it C;IIIIO to the investigators’ attention that another famil! origmating from Rumania had presented with similar dental tinding in the mother and her daughter. Further questions revealed that the mothers of both families were relatives, but the exact nature of the relationship could not be obtained. The condition differed from auto\omal dominant smooth hypoplastic .4l described in the literature,!‘. I” in that there was no delay or failure of eruption and resorption of teeth in the alveoli, or Ggna of pulpal calcifications. Without radiographs. thr clinical appearance of a smooth, white, hard SUP face might easil) lead to a misdiagnosis of disturbance in the morpholog) of the teeth. The condition \\ as diagnosed as hypoplastic type of AI with thin enamel. tranjmttted as an autosomal dominant condition.
were mainly in the middle third of the buccal surfaces of the crowns. The lower incisors were least affected. and the canines and premolars were most affected. The surface changes did not follow age patterns observed in hypoplasia 01 environmental origin. No attrition was observed. and the color was normal. The parents were not relatives; their teeth were normal. Of the two other siblings, a brother, aged 13. was similarly affected. All the other family members were found OI- reported to be unaffected (Fig. IS). The condition was diagnosed as Al resembling the local hypoplastic Al’, i. !‘. I” but differing in that in this family it seemed to be transmitted by an autosomal recessive gene.
Family 6: Autosomal
Family 8: Autosomal
recessive,
local hypoplastic
Al
The two probandc in this family were girls aged 14 and 8. The teeth of the prcjbands showed pitting, horizontal grooving. and light-brou n discoloration of varying degrees. These deticiencie> \\ere more obvious in the middle of the buccal \urfacrs of the cro\+ns. In both probands, the lower permanent incisor\ were least affected. In the X-year-old proband, the primat? cuspid\ and molars present also had pitting and irregularities of the enamel. The surface changes did not follow age patterns observed in hypoplasia of environmental origin. Na excessi\ e attrition was observed. The father mas born in Israel. and the mother in England. Roth were of Polish-Jewish ancestry and unrelated. Their teeth appeared noI-mal. Two male siblings were unaffected. A paternal aunt and ;I maternal uncle with his three children iserr txmilnecl and found to be unaffected (Fig. 14). The clinical cc)ndition resembled the local hypoplastic Al described pre\ iousl! . ~‘.‘. “. I” but the genetic transmission seems to he autobonxtl recessive. Family 7: Autosomal
recessive
local hypoplastic
Al
The proband LL;IY a l&gear-old girl whose teeth showed ~rface pitting and qoving of varying degrees. The defects
Fig. 16. Family 8: Autosomal recessive local hypoplastic Al. Mixed dentition of proband (L. A.). showing horizontall) pitted and rough surfaces. Caries is advanced in upper incisors and molars.
recessive
local hypoplastic
Al
The proband (L. A.), a girl aged IO. had mixed dentition. All teeth were dark yellow. with the surface horizontally pitted and rough. The pattern of the defects did not correspond to a specific time of tooth formation. Caries had resulted in severe loss of tooth material in some teeth (Fig. 16). The parents, Jews born in Iraq. were first cousin5 (Fig. 17). Their dentitions showed no evidence of enamel defects. Of the four other sisters, one, a Z-year-old girl. had Al with yellow-brown discoloration of all deciduous teeth present. the surfaces of which were uneven. Fort)-nine farnil! members were examined; only the above-mentioned sisters were affected. The condition was diagnosed as Al resembling the local hypoplastic type,“ i. !’ seeminglv _ transmitted 3s an itutosomal recessive trait. Family 9: Autosomal
recessive
local hypoplastic
Al
The proband (M. I.). a II-year-old boy, had a mixed dentition colored light yellow. The surfaces of all teeth were rough, with horizontal grooving, pitting, and ridges. more pronounced in the middle third of the crowns of all teeth. The lower incisors were less affected but showed pitting and xtaining in the ginpival half of the crown? (Fig. IX). The pattern of
Family
8
LA
Fig. 18. Farnil) 9: Autosomal reccsji\,e local h>popiastic .AI. Mixed tientltlon of’prohand (M I. 1, \\ith horizontal pitting and grooving affecting all teeth. Fig. 19. Farnil! 0: Autrrsomnl reccs\i\ e local h!poplasrlc AI, Bite-\\ in,~7rxlwyq3~~ III prohand (;bl. I.) tahen at age 9. showing thinning of the enamel 111the middle 01‘ the proximal wtl’xex of holh primal-! and perm;ment 11101;11~ Family
Other tarnil! incmbers c4ammcd (Fig. 3)) uerc‘ tound to he unat’fwted The condition in the prohand and the afl’cc~d Ghling ~a\ diagnosed as Al rewmbling the Ioc;~l hypopla4c t,\,,c,‘. T !I prohahl! tranwiittcd as an auto\omal recessi\ c trait: ho\+oet-. Vlinhed inheritance c‘annot bc ruled out.
9
Family
10: Autosomal
dominant
hypocalcified
Al
Fig. 20. Farnil? 9 pcdig~we
the su~fxx del’ec(\ ~3s not related to qc. ;I\ I\ wcn ni CII\ ironmental disturbances. 7 I c) showed ;I normal Bitt-wing radiograph\ taken at a>t contrast between enamel and dentm. hut v,ith thlnnlng of the enamel. mainly c‘\ ident in the middle of the crw II\ of both primal and permanent molar\ (Fig. IO). The parents. JCM s horn in Poland, ur‘rc not I-c~;I~I~L’\. ‘1he11 &ntition\ wre normal, All I I \ihling\ wre examinctl: one brother. aged 1.3. w;i\ similarly aft’ccted. FOLII- other sihlinF\ \howed mild disturbances of the enamel of indib idual teeth. hut LIdefinite diagnosi\ of Al could not he mado in their C;IW\
The radiograph\ \howcci cv~icnce 01 thin ~‘namcl. prewnt mainI\ in thtz intcrproxinial and cervical ;uxx\. The parent\. Jc‘\v\ both horn in I\I-xl from Polish ance\tr!. MCI-C noi lKiati\ c\. The tnothcr had lull crown covzrasc 01 all her twth and \+a ;IMNC that \hc’ wtfered t’rom AI. a had her’ l’ather. Kadiographs of the mother’\ tt. X. J dcntitlon at a;c 17 hhov,cd ,I moth-eaten qpearancc 01’ the en:~mcl. Roth Iov.t’r cuspid\. the lover Icft 1;1ta11 incisor. and the upper left cuspid wc‘rc
Volume 47 Number?
Amelogenesis imperfecta among lsraeliJews 155
Fig. 21. Family 10: Autosomal dominant hypocalcified Al. All the primary teeth of -I-year-old proband (S. N.) show abnormal texture and areas denuded of enamel toward incisal and occlusal surfaces. Advanced decay is evident in the upper incisors. Fig. 22. Family IO: Autosomal dominant hypocalcified AI. Radiograph of the mother’s dentition (E. N.) taken at age 17, showing moth-eaten appearance of the enamel of the erupted teeth. Fig. 23. Family IO: Autosomal dominant hypocalcified AI. A maternal uncle (A. L.) with severe staining and irregular surfaces of all teeth. unempted. A distinct enamel layer could be distinguished on the unerupted cuspids (Fig. 22). The father and the 9-year-old sister were not affected. The mother’s brother (A. L.) (Fig. 23) and his daughter- were also affected. Information given by the mother indicated that members of a branch of the family living abroad were similarly affected (Fig. 34). The condition in this family was AI of the hypocalcified type.‘, ‘. !’ transmitted as an autosomal dominant trait.
In the 10 families studied, 26 individuals (12 probands and 14 relatives) were diagnosed as having AI of either the hypoplastic, hypocalcified. or snow-capped hypomaturation type. In six of the families, the findings differ from those described in the classification of Witkop and Sauk.“’ In family 4, the pitted hypoplastic AI was most probably inherited as an autosomal recessive trait. In family 5 (autosomal dominant hypoplastic AI with smooth thin enamel), the clinical findings differed from those described in autosomal dominant smooth hypoplastic AI and in X-linked dominant smooth
Family
10
Fig. 24. Family IO pedigree.
hypoplastic AI.“’ In families 6 to 9, the condition resembled the local hypoplastic type,“, “’ but was inherited in these families as an autosomal recessive trait. Two methods were used to test these four families for compatibility with autosomal recessive inheritance.
DISCUSSION
Amelogenests imperfecta (Al) was detected in nine of 70,359 school children surveyed. a prevalence approximating 1 :8,000. Of these cases, eight were of the hypoplastjc type and one the snow-capped hypomaturation type Family studies demonstrated that hypoplastic Al was an autosomal dominant trait in two children and an autosomal recessive In six. Of three additional families referred to our clinic, two had autosomal recessive hypoplastic Al and one the hypocalctfied type, inherlted as an autosomal dominant trait. In four families, a new type of local hypoplastic autosomal recessive Al was observed, characterized by horizontal plttlng and grooving more pronounced in the middle third of the crowns of most teeth in both dentitions
T
wo types of amelogenesis imperfecta (Al) were described b> Weinmann and associates’ as autosomal dominant disorders: hereditary enamel hypocalcification and hereditary enamel hypoplasia. A later report further subdivided AI by clinical and histologic criteria.’ and as more information appeared in the literature it became evident that rrtnelog~tw.vi.s itttpclt:fidcrtt was a term describing hereditary defects of the enamel with a number of different modes of transmission and various phenotypes.,‘1~10The recent classification of Witkop and Sauk”’ describes the following types of AI based upon histologic and clinical features and modes of inheritance: H~~poplmtic~
1 -. ’ 3. -L. 5. 6.
Al.
Autosomal dominant Autosomal dominant Autosomal dominant Autosomal dominant Autosomal recessive Y-linked (dominant)
pitted hypopiastic Al local hypoplastic Al smooth hypoplactic Al rough hypoplastic AI rough AI (enamel agenesis) smooth hypoplastic AI
I Autosomal dominant h>l”“natttr;ltic)11-h4p”plast1~~ Al with taurodontiam -. ’ X-linked (recossi\/e) h~pomattlr~itioi~ ..1I .j. Autosomal recessive pigmented hypomaturation Al 1. Snow-capped teeth tautosomal dominant 1 H\~~~~t~~Ltl~~jfic~tI -1I
I Autosomal dominant hypocalcitiecl Ai -.’ Autosomal recessive hypocalcificd Al Witkop” I’ound the precalcnce ot a11t’ornls 01 AI to bc I : 14,000 to I : I6.000 in the United State\ The purpose 01‘ this paper is IO describe the results (11 ;I \urvcy of Al among Jcus in laracl and to report :I prcciousl! unclescribed form ot autosomai reccssi 1c local hypoplaslic Al encountered in tour families. MATERIALS
AND METHODS
Examination 01‘70.159 school children. aged 6 to IX j cars. receiving ticntal care from the Tel .4\ i\ and Jerusalem Municipalities. uas carried oul in cla\\IW~I~ with the aid of a mouth mirror and probe under natural light. The dentist zxamincr\ uerc trained b! lectures.
;I
printd
~rnples
of
\uggesti\t:
recorded an> C;W slightI> ot ,\I. The dclinition used for ,AI wa\ ot
hereditar)
clet’cct\
manual.
children:
and
group
examinations
of
the)
of
cn;unel
unas\ociatcd
\\,ith
gcn--
Amelogenesis imperfectu among Israeli Jekvs 149
LEGEND:
0
q q
Normal, female
0
Affected,
male
w
Repo’ted
to be affected
0
0
Not knowv
If affected
0
Age at exomlnation
Dead Consongulneous marriage
10 Ten moles and females *
f
Examined Probond
Edentulous
Fig. 2. Family I: Snow-cappedhypomaturation AI. Dentition of proband (M. H.) with “snow-capped” appearance.
Fig. 1. Legend to pedigrees.
Table I. Data on families of probands affected by amelogenesis imperfecta Parents of proband
Made of inheritance
Furnil!
No. HM. snow-capped
Unknown
HP,eruptiondefects Autosomal recessive andresorption HP, pitted Autosomal dominant HP. pitted Autosomal recessive HP, HP, HP. HP. HP. H(’
thin enamel local local local local
Autosomal Autosomal Autosomal Autosomal Autosomal Autosomal
dominant recessive recessive recessive recessive dominant
Origin
Consanguinity
Affected
Proband *
Affected
None None
Im Im, If
2f Im, If
3m, 5f 2m, 5f
Mother None Mother None
Im lm If 2f If If Im Im
If
Im, If Im, If If 2rl1, If If 3f Sm, Sf If
Iraq
First cousins
Afghanistan
Uncle-Niece
Yemen-Morocco Iraq Rumania
None First cousins None None None
Poland Poland Iraq Poland Poland
HM, Hypomaturarion. HP. Hypoplastic. HC, Hypocalcified. * Probands of familie\ I to 7 are from the survei-population.
Siblings
First cousins None
None None None
None
Mother
If lm If lm -
Norma/
m, Male. f, Female.
eralized defects.“. I” In Al, the defects of the enamel differ from those of environmental origin. In the latter, the enamel defects are limited to those portions of the crowns of those teeth developing at the time that the environmental etiology has its effect. and the condition is not familial. All recorded cases were reexamined by two of the authors (A. C. and E. E.), who eliminated a number of misdiagnosed cases demonstrating hypoplasia of environmental etiology and tetracycline staining. First-degree relatives (parents and siblings) of probands conclusively diagnosed as having AI were examined in their homes. Following preliminary analysis of family data, a more detailed family study was indicated, and all relatives that could be reached and examined were included. Also included in the family study were three families not part of the survey population, but whose probands were diagnosed in the consultation clinic of the Department of Pedodontics (Hebrew University-Hadassah Faculty of Dental Medicine). During the family visits, a detailed medical history was taken to eliminate environmental causes of disturbances of enamel formation or changes in color. Infor-
mation was collected on diseases or disturbances during pregnancy and the first 5 years of life, including tetracycline therapy, fluorosis, and enamel defects as a symptom of a recognized syndrome. Detailed family history and pedigree information were obtained from the parents or probands and reconfirmed by further questioning of family members when possible. RESULTS
AI was diagnosed in nine of the 70,359 children examined, a prevalence of 1: 8,000. Eight cases of AI were diagnosed as hypoplastic, and one corresponded to the snow-capped hypomaturation type.’ Among the probands there were two pairs of siblings, so that only seven families were represented. The family data are presented in Table I. The first seven families were derived from probands found in the survey, while families No. 8, 9, and 10 were detected through the Pedodontic Clinic. In two of these three, AI of a hypoplastic type was diagnosed, and in one a hypocalcified type was found. Fig. I presents the legend to the pedigrees of the families described. In all the families, observation of skin. hair. ex-
150 C110.wc4T et (11.
Family
1
Family
2
18 /15/n DS A5
tremitiea. dition
and medical
which
could
history
be associated
failed with
to revcal heritable
any condcfect~
of enamel. CASE REPORTS Family 1: Snow-capped
hypomaturation
Al
The prohand M;I\ ;I Ih-year-old ho> (R/1. H.) dcntition and teeth tupcring toa ard the inciwl ;trc’;I\. The hoclic~ of’ the teeth. particul;u-I\ the prrmolars. were hroMn and pitted. \\ith the
with ~~;ILXYI d occluul c:uilnch MCI inciwl ;~nci
MS
5 YS
Volume 47 Number 1
Fig. 7. Family 2: Autosomal recessive hypoplastic AI with eruption defects and resorption. Dentition of s-year-old brother (Y, S.). showing marked attrition and smooth surfacts of deciduous teeth. Enamel can be distinguished from the dentition on the worn surfaces of the lower molars.
Fig. 8. Family
Fig. 10. Family
3 pedigree
classical description in that the bodies of the teeth were pitted. As the condition in the parents was unknown, no detinite mode of inheritance could be determined. Family 2: Autosomal recessive hypoplastic with eruption defects and resorption
Fig. 9. Family 3: Autosomal recessive pitted hypoplastic Bite-wing radiograph of proband (Y. I,.). shouing diolucent areas in the enamel.
Al
The two probands in this family were a IS-year-old boy (A. S.) and a 13.year-old girl (M. S.). Their dentitions showed marked attrition. smooth surfaces. spacing between teeth. a ycllou -brown discoloration, and delayed eruption. .4 thin layer of enamel could be distinguished from dentin on some occlusal surfaces which had undergone attrition, On radiographic examination (Figs. 3 and 5). enamel was not evident. and in the girl localized radiolucent areas, suggestive of resorption of the crowns of unerupted teeth. were observed. The dentin and supportive tissues appeared normal. There was evtdencc of calcifications of the pulp in both erupted and unerupted teeth. Both parents were Jews born in Afghanistan. related as uncle and niece (Fiy. h). Their dentition showed no evidence
AI. ra-
3 pedigree
of disturbances in enamel formation. Of nine siblings, a girl aped I8 years (D. S.) and a boy aged 5 years (Y. S.) (Fig. 7) showed tindings similar to those observed in the probands. The numerous other family members (Fig. 6) were tither found upon examination or reported to be unaffected. The clinical and radiographic findings and the pattern of inheritance in this family are compatible with an autosomal recessive hypoplastic AI with eruption defects and resorption reported by Witkop and Sauk,” a rare condition seen by them in only two families. Family 3: Autosomal
dominant
pitted hypoplastic
Al
The proband was a l3-year-old boy (A. K.). All teeth had pitting of the whole surface. The upper anterior teeth were Stained brown. and caries was present in the upper lateral incisors. At 7 years of age. the proband had had radiographs taken in which the hypoplastic changes could be clearly distinguished in both the primary and permanent dentition. The radiopacity of the enamel contrasted normally with that of the dentin,
Fig. 11. Family tapered
5: Autosomal
touard
the incisal
dominant
hqpoplaatic
or occlu~l
wr-f’ace.
Al
The
Fig. 12. Farnil) 5: .Autowmal dominant hypoplahtic ia! CI’ 01. enamel with nomal opacit?
(thin
enamel).
Teeth
of proh;tnd
enamel
wrf’acc
i\ \~noc~~h and hard
AI (thin
cnamcl
I. Radiograph
IS.
H I ;II~~ \m;til
01’ prohand
tS
MCI
H. I. \ho\\
\ng .I
thin
16 f13 y.l3.Fig. 13. Family Both
parents
can origin uas
were
not consanguineous.
remaining
in her mouth
the proband. siblings
The
primav
teeth
the maternal were as AI
I\;IS affected.
pitting
dominant
from
(Fig.
to that seen in her
ing.
the mother uncle.
~!pc.“,
Nere
indicated
that
and his tw’o wns
were
farnil)
memhe~-
The
proband
had hard rough
” transmitted
The nodular of pits with
appearance
and proove\.
degree
in the lower crowns.
deficiencies (Fig. The
in
pitted hypoplastic
was a 1%year-old and nodular has These incisors.
hog
surfaces
b!
an
ShoMed
localized
radiolucent
Al M hose
teeth
broa,n
of an irregular
patterr
pt-esent
incisor\
e~~dence areas
to a lesser
in Ii-q.
w crc
ohviou\
ihc p,rrcnt\
and \Ih-
\tatcd
that no additional
di\turhancc
v,crc
in tooth
covered
The
probuntl. between
occlusal Periapical
ap-
first
cousin\
(Fig.
dominant
girl
I+ hi&
(S
and hard.
M ithout
yho\vctl
( IT1~. I7 1
one
;I\ .I
or \c\-
marriqc
01
Al (thin enamel)
f3 J. 111an1f’csted \\I& toward
polntcd: ;I thin
ho)
c mhcrltanct‘
tapcrcd
were
and
by an ‘ILI-
.Iuto\omal
hypoplastic
Ihc cusps
radiograph\ opaclt!
rrce\\i\
;I I i-\?a~--old
smooth
\\ lth onI\ mutatic~n.
the conwnylncou\
autowmal
type,
.Al of Il’ithop
to hc dct~‘m~~nt‘d
hIthough.
the teeth.
wrfac~~~
v,ere
farnil)
be cxcludcd.
\ugFcxt\
spacing
h! popla\tic
01’ ;I nw
Family 5: Autosomal
teeth
enamel
in thi\
rece~~i~ c gent. cannot
as ;I1 01 (I h! poplast~c
the pitted
the posvhilit>
in
the
N ;I\ diagnosed
tosomal
normal JCU \ born
an!
\uhject.
of the enamel
9). pal-ents.
lormatlon sihl ing\
and the p;nent\
resenihling
the parent\
stained
\\crc
The upper
Radiographs
I..).
and were
the rc\ult findings
(1’.
01 cxwpcration.
had
The condition somewhat
linked,
recessive
of lack e\camincd.
Rae.!’ hut appca~-\
Eva\ diapnowd
gene.
Family 4: Autosomal
III cn;m~cl
The TV 11 cider
unaffected
Because lings
no di\rurbanw
‘r\ as one of three children.
pearance
8). The condition
hypoplastic
other
aged i. wa+ affected.
teeth 4io~~ed
The prohand
the teeth
Of’ the three
and groo\
IO). Their
of Moroc-
The marriage
similar
a maternal
affected
of’ the pitted,
pitting
sister.
obtained
grandmother,
similarI>
autosomal
The mother
a younger
histoE
the father descent.
was not affected.
showing
The family
in Israel.
of Yemenite showing
father
examined.
5 ped~~rcc
Jews born
and the mother
S.B.
the inci4
the wlt‘ace\
dwoloratw
OI01. Ihc
(Fig.
I 1 1.
1x1 cl- cl< I’II~~IICI
v ~th
Amelogenesis impe@cta among Isrcleli Jeu’s
Fig. 15. Farnil)
153
7 pedigree
(Fig. 1.7). Both had full dentures. The mother stated that she had had teeth \imilat to those of her daughter. Of two sisters, one (Y. B.) \\as Gmilarl! affected. Radiographs taken of Y. B. at age I I \hoM that teeth of her primary dentition were similarly affcctccl. Because of lack of cooperation, no further information about thi\ t’un~ly could be obtained. Six months later. it C;IIIIO to the investigators’ attention that another famil! origmating from Rumania had presented with similar dental tinding in the mother and her daughter. Further questions revealed that the mothers of both families were relatives, but the exact nature of the relationship could not be obtained. The condition differed from auto\omal dominant smooth hypoplastic .4l described in the literature,!‘. I” in that there was no delay or failure of eruption and resorption of teeth in the alveoli, or Ggna of pulpal calcifications. Without radiographs. thr clinical appearance of a smooth, white, hard SUP face might easil) lead to a misdiagnosis of disturbance in the morpholog) of the teeth. The condition \\ as diagnosed as hypoplastic type of AI with thin enamel. tranjmttted as an autosomal dominant condition.
were mainly in the middle third of the buccal surfaces of the crowns. The lower incisors were least affected. and the canines and premolars were most affected. The surface changes did not follow age patterns observed in hypoplasia 01 environmental origin. No attrition was observed. and the color was normal. The parents were not relatives; their teeth were normal. Of the two other siblings, a brother, aged 13. was similarly affected. All the other family members were found OI- reported to be unaffected (Fig. IS). The condition was diagnosed as Al resembling the local hypoplastic Al’, i. !‘. I” but differing in that in this family it seemed to be transmitted by an autosomal recessive gene.
Family 6: Autosomal
Family 8: Autosomal
recessive,
local hypoplastic
Al
The two probandc in this family were girls aged 14 and 8. The teeth of the prcjbands showed pitting, horizontal grooving. and light-brou n discoloration of varying degrees. These deticiencie> \\ere more obvious in the middle of the buccal \urfacrs of the cro\+ns. In both probands, the lower permanent incisor\ were least affected. In the X-year-old proband, the primat? cuspid\ and molars present also had pitting and irregularities of the enamel. The surface changes did not follow age patterns observed in hypoplasia of environmental origin. Na excessi\ e attrition was observed. The father mas born in Israel. and the mother in England. Roth were of Polish-Jewish ancestry and unrelated. Their teeth appeared noI-mal. Two male siblings were unaffected. A paternal aunt and ;I maternal uncle with his three children iserr txmilnecl and found to be unaffected (Fig. 14). The clinical cc)ndition resembled the local hypoplastic Al described pre\ iousl! . ~‘.‘. “. I” but the genetic transmission seems to he autobonxtl recessive. Family 7: Autosomal
recessive
local hypoplastic
Al
The proband LL;IY a l&gear-old girl whose teeth showed ~rface pitting and qoving of varying degrees. The defects
Fig. 16. Family 8: Autosomal recessive local hypoplastic Al. Mixed dentition of proband (L. A.). showing horizontall) pitted and rough surfaces. Caries is advanced in upper incisors and molars.
recessive
local hypoplastic
Al
The proband (L. A.), a girl aged IO. had mixed dentition. All teeth were dark yellow. with the surface horizontally pitted and rough. The pattern of the defects did not correspond to a specific time of tooth formation. Caries had resulted in severe loss of tooth material in some teeth (Fig. 16). The parents, Jews born in Iraq. were first cousin5 (Fig. 17). Their dentitions showed no evidence of enamel defects. Of the four other sisters, one, a Z-year-old girl. had Al with yellow-brown discoloration of all deciduous teeth present. the surfaces of which were uneven. Fort)-nine farnil! members were examined; only the above-mentioned sisters were affected. The condition was diagnosed as Al resembling the local hypoplastic type,“ i. !’ seeminglv _ transmitted 3s an itutosomal recessive trait. Family 9: Autosomal
recessive
local hypoplastic
Al
The proband (M. I.). a II-year-old boy, had a mixed dentition colored light yellow. The surfaces of all teeth were rough, with horizontal grooving, pitting, and ridges. more pronounced in the middle third of the crowns of all teeth. The lower incisors were less affected but showed pitting and xtaining in the ginpival half of the crown? (Fig. IX). The pattern of
Family
8
LA
Fig. 18. Farnil) 9: Autosomal reccsji\,e local h>popiastic .AI. Mixed tientltlon of’prohand (M I. 1, \\ith horizontal pitting and grooving affecting all teeth. Fig. 19. Farnil! 0: Autrrsomnl reccs\i\ e local h!poplasrlc AI, Bite-\\ in,~7rxlwyq3~~ III prohand (;bl. I.) tahen at age 9. showing thinning of the enamel 111the middle 01‘ the proximal wtl’xex of holh primal-! and perm;ment 11101;11~ Family
Other tarnil! incmbers c4ammcd (Fig. 3)) uerc‘ tound to he unat’fwted The condition in the prohand and the afl’cc~d Ghling ~a\ diagnosed as Al rewmbling the Ioc;~l hypopla4c t,\,,c,‘. T !I prohahl! tranwiittcd as an auto\omal recessi\ c trait: ho\+oet-. Vlinhed inheritance c‘annot bc ruled out.
9
Family
10: Autosomal
dominant
hypocalcified
Al
Fig. 20. Farnil? 9 pcdig~we
the su~fxx del’ec(\ ~3s not related to qc. ;I\ I\ wcn ni CII\ ironmental disturbances. 7 I c) showed ;I normal Bitt-wing radiograph\ taken at a>t contrast between enamel and dentm. hut v,ith thlnnlng of the enamel. mainly c‘\ ident in the middle of the crw II\ of both primal and permanent molar\ (Fig. IO). The parents. JCM s horn in Poland, ur‘rc not I-c~;I~I~L’\. ‘1he11 &ntition\ wre normal, All I I \ihling\ wre examinctl: one brother. aged 1.3. w;i\ similarly aft’ccted. FOLII- other sihlinF\ \howed mild disturbances of the enamel of indib idual teeth. hut LIdefinite diagnosi\ of Al could not he mado in their C;IW\
The radiograph\ \howcci cv~icnce 01 thin ~‘namcl. prewnt mainI\ in thtz intcrproxinial and cervical ;uxx\. The parent\. Jc‘\v\ both horn in I\I-xl from Polish ance\tr!. MCI-C noi lKiati\ c\. The tnothcr had lull crown covzrasc 01 all her twth and \+a ;IMNC that \hc’ wtfered t’rom AI. a had her’ l’ather. Kadiographs of the mother’\ tt. X. J dcntitlon at a;c 17 hhov,cd ,I moth-eaten qpearancc 01’ the en:~mcl. Roth Iov.t’r cuspid\. the lover Icft 1;1ta11 incisor. and the upper left cuspid wc‘rc
Volume 47 Number?
Amelogenesis imperfecta among lsraeliJews 155
Fig. 21. Family 10: Autosomal dominant hypocalcified Al. All the primary teeth of -I-year-old proband (S. N.) show abnormal texture and areas denuded of enamel toward incisal and occlusal surfaces. Advanced decay is evident in the upper incisors. Fig. 22. Family IO: Autosomal dominant hypocalcified AI. Radiograph of the mother’s dentition (E. N.) taken at age 17, showing moth-eaten appearance of the enamel of the erupted teeth. Fig. 23. Family IO: Autosomal dominant hypocalcified AI. A maternal uncle (A. L.) with severe staining and irregular surfaces of all teeth. unempted. A distinct enamel layer could be distinguished on the unerupted cuspids (Fig. 22). The father and the 9-year-old sister were not affected. The mother’s brother (A. L.) (Fig. 23) and his daughter- were also affected. Information given by the mother indicated that members of a branch of the family living abroad were similarly affected (Fig. 34). The condition in this family was AI of the hypocalcified type.‘, ‘. !’ transmitted as an autosomal dominant trait.
In the 10 families studied, 26 individuals (12 probands and 14 relatives) were diagnosed as having AI of either the hypoplastic, hypocalcified. or snow-capped hypomaturation type. In six of the families, the findings differ from those described in the classification of Witkop and Sauk.“’ In family 4, the pitted hypoplastic AI was most probably inherited as an autosomal recessive trait. In family 5 (autosomal dominant hypoplastic AI with smooth thin enamel), the clinical findings differed from those described in autosomal dominant smooth hypoplastic AI and in X-linked dominant smooth
Family
10
Fig. 24. Family IO pedigree.
hypoplastic AI.“’ In families 6 to 9, the condition resembled the local hypoplastic type,“, “’ but was inherited in these families as an autosomal recessive trait. Two methods were used to test these four families for compatibility with autosomal recessive inheritance.
DISCUSSION