ABSTRACT
H�w��]E�#S Purpose: To quantify the prevalence of cataract, the outcomes
CJ�\a7=*i� of cataract surgery and the factors related to
-`~�qmRpqY unoperated cataract in Australia.
&J6��`Q<U! Methods: Participants were recruited from the Visual
�D*%�am|QL Impairment Project: a cluster, stratified sample of more than
�b�Qt:��=> 5000 Victorians aged 40 years and over. At examination
4k�;FZo]S� sites interviews, clinical examinations and lens photography
#�{8�I�F�A were performed. Cataract was defined in participants who
pbzFzL�a�l had: had previous cataract surgery, cortical cataract greater
W%!(k�N&d� than 4/16, nuclear greater than Wilmer standard 2, or
$�N�=�&D_Q posterior subcapsular greater than 1 mm2.
:��(��n<�c Results: The participant group comprised 3271 Melbourne
��|h]�V�9= residents, 403 Melbourne nursing home residents and 1473
v�A/S�rX.� rural residents.The weighted rate of any cataract in Victoria
G]�'ah1�W� was 21.5%. The overall weighted rate of prior cataract
#d-(�{blo< surgery was 3.79%. Two hundred and forty-nine eyes had
�5*YoK)2J� had prior cataract surgery. Of these 249 procedures, 49
@t�9HRL?T~ (20%) were aphakic, 6 (2.4%) had anterior chamber
u�Y&�1[(Pb intraocular lenses and 194 (78%) had posterior chamber
M�~:��_^�B intraocular lenses.Two hundred and eleven of these operated
�*-��T.�xo eyes (85%) had best-corrected visual acuity of 6/12 or
<7^
|@L
6� better, the legal requirement for a driver’s license.Twentyseven
E\�[B�E<y (11%) had visual acuity of less than 6/18 (moderate
o1.~�g�'!^ vision impairment). Complications of cataract surgery
3B1\-r�y1M caused reduced vision in four of the 27 eyes (15%), or 1.9%
]01`r/�->\ of operated eyes. Three of these four eyes had undergone
\�Ow
F!�~& intracapsular cataract extraction and the fourth eye had an
F9r.DG$��} opaque posterior capsule. No one had bilateral vision
;
I>nA6A�� impairment as a result of cataract surgery. Surprisingly, no
2��*NP�K}� particular demographic factors (such as age, gender, rural
S<nF>JRJa� residence, occupation, employment status, health insurance
t+�?Bb7p,H status, ethnicity) were related to the presence of unoperated
5|H;%T�3_� cataract.
$C[z]}iO�i Conclusions: Although the overall prevalence of cataract is
k~tEU��s�v quite high, no particular subgroup is systematically underserviced
)�4g_S�?l= in terms of cataract surgery. Overall, the results of
�,�->�ihxf cataract surgery are very good, with the majority of eyes
�O��gF[�=� achieving driving vision following cataract extraction.
8+�'�}��`� Key words: cataract extraction, health planning, health
J6�Ilg@�}\ services accessibility, prevalence
P�x_8lB/;� INTRODUCTION
1�w>�[&�#7 Cataract is the leading cause of blindness worldwide and, in
�_�^���<vp Australia, cataract extractions account for the majority of all
jX7�K-���L ophthalmic procedures.1 Over the period 1985–94, the rate
fQ�o�A��dw of cataract surgery in Australia was twice as high as would be
�4E''pW]8 expected from the growth in the elderly population.1
TK5$-��6�k Although there have been a number of studies reporting
M^k��aik� the prevalence of cataract in various populations,2–6 there is
FW�W4n_74� little information about determinants of cataract surgery in
3�92�V\qtS the population. A previous survey of Australian ophthalmologists
7F�"ljkN1S showed that patient concern and lifestyle, rather
>k
@t.PeoV than visual acuity itself, are the primary factors for referral
st�w@@G�Q� for cataract surgery.7 This supports prior research which has
lU�1SN/'zx shown that visual acuity is not a strong predictor of need for
#]�Vw$X�_S cataract surgery.8,9 Elsewhere, socioeconomic status has
|gk*{�3~y been shown to be related to cataract surgery rates.10
Q�
�8�]��X To appropriately plan health care services, information is
E�c7x�wPk� needed about the prevalence of age-related cataract in the
?wtKi#k'v# community as well as the factors associated with cataract
\%r�#>8�c8 surgery. The purpose of this study is to quantify the prevalence
]D6<��6OB� of any cataract in Australia, to describe the factors
$�
��DN.� related to unoperated cataract in the community and to
,.��G�p_BI describe the visual outcomes of cataract surgery.
��g!0�
j�1 METHODS
IsE�&k2 SD Study population
B}�
�qRz�� Details about the study methodology for the Visual
hTB�J�\1
- Impairment Project have been published previously.11
P0U�R{tK�� Briefly, cluster sampling within three strata was employed to
n^�'�d8Y�( recruit subjects aged 40 years and over to participate.
!KV�!Tkx h Within the Melbourne Statistical Division, nine pairs of
l����"8g9z census collector districts were randomly selected. Fourteen
1�XS~b-S�t nursing homes within a 5 km radius of these nine test sites
2K~�v�`c*4 were randomly chosen to recruit nursing home residents.
$�(&�uaDYv Clinical and Experimental Ophthalmology (2000) 28, 77–82
-Ua�5anz
B Original Article
��)+�F�nwW Operated and unoperated cataract in Australia
�v0'z''KM! Catherine A McCarty PhD, MPH, Mukesh B Nanjan PhD, Hugh R Taylor MD
0Cc�3N�Ndz Centre for Eye Research Australia, Royal Victorian Eye and Ear Hospital, Melbourne, Victoria, Australia
1dr��g5��� n Correspondence: Dr Cathy McCarty MPH, Centre for Eye Research Australia, Royal Victorian Eye and Ear Hospital, 32 Gisborne Street, East Melbourne,
}r04*��P(� Victoria 3002, Australia. Email:
cathy@cera.unimelb.edu.au qRT5|\��l� 78 McCarty et al.
?r�;F'%�N= Finally, four pairs of census collector districts in four rural
65B&��>`H~ Victorian communities were randomly selected to recruit rural
�w[�2E
:Nj residents. A household census was conducted to identify
.WglLUJ:�Z eligible residents aged 40 years and over who had been a
s#~VN�;-I� resident at that address for at least 6 months. At the time of
E=.�J*7��� the household census, basic information about age, sex,
8hV4l'Pa72 country of birth, language spoken at home, education, use of
=>*}qe���n corrective spectacles and use of eye care services was collected.
�9��Eh*r@> Eligible residents were then invited to attend a local
��w_@�6!zm examination site for a more detailed interview and examination.
ml�~��)�7J The study protocol was approved by the Royal Victorian
�;&b=>kPlZ Eye and Ear Hospital Human Research Ethics Committee.
*{fZA;��<R Assessment of cataract
lz).=N}�m� A standardized ophthalmic examination was performed after
_=w=!U��&W pupil dilatation with one drop of 10% phenylephrine
<95�*z� �@ hydrochloride. Lens opacities were graded clinically at the
"t{D5{q|[k time of the examination and subsequently from photos using
FN0<��i�L� the Wilmer cataract photo-grading system.12 Cortical and
B)DtJ����f posterior subcapsular (PSC) opacities were assessed on
>�wV�2` �6 retroillumination and measured as the proportion (in 1/16)
-z�/>W+�k� of pupil circumference occupied by opacity. For this analysis,
&�I(���3/u cortical cataract was defined as 4/16 or greater opacity,
ZYl*-i&~�? PSC cataract was defined as opacity equal to or greater than
��uCF�pH5> 1 mm2 and nuclear cataract was defined as opacity equal to
(.M &nN'Ce or greater than Wilmer standard 2,12 independent of visual
E-rGOm"� m acuity. Examples of the minimum opacities defined as cortical,
(
��Q�k*B nuclear and PSC cataract are presented in Figure 1.
L{1�PCs36c Bilateral congenital cataracts or cataracts secondary to
k1^&�;}/f: intraocular inflammation or trauma were excluded from the
!�"^//2N+, analysis. Two cases of bilateral secondary cataract and eight
�|��>p�?Cm cases of bilateral congenital cataract were excluded from the
yzCam�m4~0 analyses.
�6$�+F�5T A Topcon® SL5 photo slit-lamp (Topcon America Corp.,
^^*dHW�Hn< Paramus, NJ, USA) with a 0.1 mm slit beam of 9.0 mm in
!_1R��Q5]^ height set to an incident angle of 30° was used for examinations.
p�u+�jw
<7 Ektachrome® 200 ASA colour slide film (Eastman
�~p�/1
�9/ Kodak Company, Rochester, NY, USA) was used to photograph
o7@81�QA!e the nuclear opacities. The cortical opacities were
v+2t;PJd�2 photographed with an Oxford® retroillumination camera
&1�4Er,��K (Marcher Enterprises Ltd, Hereford, UK) and T-MAX® 400
tsT�CZ�);( film (Eastman Kodak). Photographs were graded separately
&Sp�2�['a! by two research assistants and discrepancies were adjudicated
/4�-6V
d"8 by an independent reviewer. Any discrepancies
)1�!*N�)$� between the clinical grades and the photograph grades were
O��M7EmMa; resolved. Except in cases where photographs were missing,
|�Xk�>a�7X the photograph grades were used in the analyses. Photograph
h�>'Mh�;�+ grades were available for 4301 (84%) for cortical
V�>�� @+&q cataract, 4147 (81%) for nuclear cataract and 4303 (84%)
4Q(GX�.5�� for PSC cataract. Cataract status was classified according to
D~��JrO]mi the severity of the opacity in the worse eye.
CrI:TB>/�" Assessment of risk factors
T�f�?|��*P A standardized questionnaire was used to obtain information
qUtlh�,4)� about education, employment and ethnic background.11
c'~6 1�HA< Specific information was elicited on the occurrence, duration
:H�QQ8uQfb and treatment of a number of medical conditions,
5QU�L-*t including ocular trauma, arthritis, diabetes, gout, hypertension
,O��/ t6�' and mental illness. Information about the use, dose and
�N�3g\�X�� duration of tobacco, alcohol, analgesics and steriods were
KI{B<S3*Z collected, and a food frequency questionnaire was used to
E�#m|S�q�� determine current consumption of dietary sources of antioxidants
e�2l�!L*[g and use of vitamin supplements.
�{�]6Pd`�- Data management and statistical analysis
1MnT*��w�� Data were collected either by direct computer entry with a
f/NfvLi(AU questionnaire programmed in Paradox© (Carel Corporation,
%r��yYa� Ottawa, Canada) with internal consistency checks, or
�E�1-�B�B on self-coding forms. Open-ended responses were coded at
�'6zD
`Q�� a later time. Data that were entered on the self-coded forms
�L�1J~�D?q were entered into a computer with double data entry and
{�
�vOr'j@ reconciliation of any inconsistencies. Data range and consistency
y�vp�$���s checks were performed on the entire data set.
YA[\|I3�3� SAS© version 6.1 (SAS Institute, Cary, North Carolina) was
�QlCs�,bT� employed for statistical analyses.
r0�fxEYze& Ninety-five per cent confidence limits around the agespecific
6_w��j,��7 rates were calculated according to Cochran13 to
KJ;;82�5�? account for the effect of the cluster sampling. Ninety-five
�5:sk&0:@U per cent confidence limits around age-standardized rates
qzt.k^'-^
were calculated according to Breslow and Day.14 The strataspecific
`8sC>)lrwu data were weighted according to the 1996
7uW�=f�kxT Australian Bureau of Statistics census data15 to reflect the
�Ods/1 KW� cataract prevalence in the entire Victorian population.
�n��kAS]sC Univariate analyses with Student’s t-tests and chi-squared
��vQ",r�P% tests were first employed to evaluate risk factors for unoperated
ev�"f@y9Do cataract. Any factors with P < 0.10 were then fitted
bs9�X�4n5� into a backwards stepwise logistic regression model. For the
j��}fu|��- Figure 1. Minimum levels of cortical (a), nuclear (b), and posterior subcapsular (c) cataract.
��3yw`%$d5 final multivariate models, P < 0.05 was considered statistically
I->
�BDNk� significant. Design effect was assessed through the use
gq�l^In�x< of cluster-specific models and multivariate models. The
z
i�TE*rNJ design effect was assumed to be additive and an adjustment
BD�iN*.�w5 made in the variance by adding the variance associated with
/f�DXO;�tN the design effect prior to constructing the 95% confidence
.Gq]Mrim9G limits.
�=�Y`e?\#` RESULTS
G~�nQR
q�v Study population
�VSLi{��=# A total of 3271 (83%) of the Melbourne residents, 403
�,�|G~�PC8 (90%) Melbourne nursing home residents, and 1473 (92%)
6O�0CF}�B* rural residents participated. In general, non-participants did
RoYwZ��X�~ not differ from participants.16 The study population was
wx[Y2l�Uh6 representative of the Victorian population and Australia as
G�A�+�#'R
a whole.
��LzG�S��N The Melbourne residents ranged in age from 40 to
i8|0z�
I�� 98 years (mean = 59) and 1511 (46%) were male. The
ZXH{9��hxd Melbourne nursing home residents ranged in age from 46 to
dk�>qTY+j5 101 years (mean = 82) and 85 (21%) were men. The rural
�
XkR�P�D� residents ranged in age from 40 to 103 years (mean = 60)
h6��~��H5X and 701 (47.5%) were men.
'�gv��~M�_ Prevalence of cataract and prior cataract surgery
26B+q�X�Et As would be expected, the rate of any cataract increases
9gQ�
]!Oq� dramatically with age (Table 1). The weighted rate of any
q>f|��1P�f cataract in Victoria was 21.5% (95% CL 18.1, 24.9).
L�<W2�a�(� Although the rates varied somewhat between the three
2`P=e��kF] strata, they were not significantly different as the 95% confidence
v4Mn@e�_#c limits overlapped. The per cent of cataractous eyes
_�MxKfa�h' with best-corrected visual acuity of less than 6/12 was 12.5%
`/RcE.5n\@ (65/520) for cortical cataract, 18% for nuclear cataract
|��{ T�VW� (97/534) and 14.4% (27/187) for PSC cataract. Cataract
/5N`E��uw� surgery also rose dramatically with age. The overall
J7FzOw�d1h weighted rate of prior cataract surgery in Victoria was
|*�v�� �w( 3.79% (95% CL 2.97, 4.60) (Table 2).
qW
2'�?B3< Risk factors for unoperated cataract
n�7VQ�i+i' Cases of cataract that had not been removed were classified
xua
E\*�m� as unoperated cataract. Risk factor analyses for unoperated
��RH�~I/4e cataract were not performed with the nursing home residents
�A�R3v,eOs as information about risk factor exposure was not
wq:�"/2p1� available for this cohort. The following factors were assessed
=O�??�W8u� in relation to unoperated cataract: age, sex, residence
iCI�U'�yI� (urban/rural), language spoken at home (a measure of ethnic
rc�UJ��O�I integration), country of birth, parents’ country of birth (a
?.Lq�
`~T` measure of ethnicity), years since migration, education, use
&`�I�7�aP| of ophthalmic services, use of optometric services, private
):�Pz�s�z7 health insurance status, duration of distance glasses use,
ypLt6(1�j% glaucoma, age-related maculopathy and employment status.
�uWjEyxPv{ In this cross sectional study it was not possible to assess the
^SWV!rr�g level of visual acuity that would predict a patient’s having
)R6�-]TkA_ cataract surgery, as visual acuity data prior to cataract
�]S7�>=S�� surgery were not available.
FO{?�Z%& ; The significant risk factors for unoperated cataract in univariate
QC<O=<$�Q[ analyses were related to: whether a participant had
P2���f��iK ever seen an optometrist, seen an ophthalmologist or been
kz�mw1��*J diagnosed with glaucoma; and participants’ employment
E�I8KK�o * status (currently employed) and age. These significant
a�St:�G*a" factors were placed in a backwards stepwise logistic regression
O&ev�v8 6L model. The factors that remained significantly related
���X86r`�} to unoperated cataract were whether participants had ever
~�S~��4pK seen an ophthalmologist, seen an optometrist and been
qCy
SL lp0 diagnosed with glaucoma. None of the demographic factors
E_-�g��<Cw were associated with unoperated cataract in the multivariate
���_j��2�q model.
K;*B$2Z#�k The per cent of participants with unoperated cataract
�ImsyyeY]� who said that they were dissatisfied or very dissatisfied with
q$�kx/�6=k Operated and unoperated cataract in Australia 79
$f�AZ^� �� Table 1. Prevalence of any cataracta (excluding previous cataract surgery) by age, gender and cohort
�Np@
RK�1} Age group Sex Urban Rural Nursing home Weighted total
�h�H_\C.bL (years) (%) (%) (%)
09�J��,!NN 40–49 Male 2.56 4.04 0.00 3.00 (1.91, 4.08)
sI�`oz�|$� Female 2.61 1.70 0.00 2.36 (1.61, 3.10)
G;AJBs�>Y} 50–59 Male 7.69 6.94 0.00 7.47 (5.80, 9.15)
]�23�+� d/ Female 6.67 7.56 0.00 6.92 (5.60, 8.24)
#D^(�dz*�� 60–69 Male 20.7 25.0 10.0 22.0 (18.1, 26.0)
��AZ�v���a Female 27.9 35.7 37.5 30.3 (26.0, 34.7)
�y*T@_on5� 70–79 Male 43.1 58.7 39.1 48.1 (41.2, 55.1)
5`)�[FCQ�� Female 58.6 66.2 55.6 61.0 (56.0, 65.9)
n�U�/x,W[} 80–89 Male 74.0 89.3 92.0 79.3 (72.3, 86.3)
u��Q3W� �= Female 91.9 97.0 80.2 92.6 (86.4, 98.8)
�;�a�DYw [ 90 + Male 100.0 100.0 75.0 98.8 (96.2, 100.0)
z�c���OG[- Female 100.0 100.0 93.8 98.6 (97.0, 100.0)
�/��2Bf6� Age-standardized
"@�L|Z�6U( (95% CL) Combined 19.7 (16.3, 23.1) 23.2 (16.1, 30.2) 16.5 (2.06, 30.9) 21.5 (18.1, 25.0)
vu3zZ�Ml� aCortical > 4/16, nuclear > standard 2, posterior subcapsular > 1 mm2
d�G)�}H��_ their current vision was 30% (290/683), compared with 27%
+kx#�"L:�� (26/95) of participants with prior cataract surgery (chisquared,
��4�o�k��Z 1 d.f. = 0.25, P = 0.62).
/J�!~0~��F Outcomes of cataract surgery
v�,c�;dlg_ Two hundred and forty-nine eyes had undergone prior
�/��gP"X1. cataract surgery. Of these 249 operated eyes, 49 (20%) were
u(~(�+�1W� left aphakic, 6 (2.4%) had anterior chamber intraocular
p*|����Ct� lenses and 194 (78%) had posterior chamber intraocular
9�G)fJr�[c lenses. The rate of capsulotomy in the eyes with intact
�BP=<TRp�. posterior capsules was 36% (73/202). Fifteen per cent of
\N.Bx����
eyes (17/114) with a clear posterior capsule had bestcorrected
=W�"9
a\m� visual acuity of less than 6/12 compared with 43%
vY]�7oX+� of eyes (6/14) with opaque capsules, and 15% of eyes
D:XjJMW3�r (11/73) with prior capsulotomies (chi-squared, 2 d.f. = 7.21,
�8[x{]�l�[ P = 0.027).
O7y�IFqI=/ The percentage of eyes with best-corrected visual acuity
n�8o(>?K�w of 6/12 or better was 96% (302/314) for eyes without
�y�)T|1��) cataract, 88% (1417/1609) for eyes with prevalent cataract
����s$xm�� and 85% (211/249) for eyes with operated cataract (chisquared,
1�(q�L),F; 2 d.f. = 22.3), P < 0.001). Twenty-seven of the
5)�i+��x�- operated eyes (11%) had visual acuities of less than 6/18
zZ�iga q"� (moderate vision impairment) (Fig. 2). A cause of this
du&9�mO�rr moderate visual impairment (but not the only cause) in four
h�z�rS_v (15%) eyes was secondary to cataract surgery. Three of these
�Bo�o�fJ�m four eyes had undergone intracapsular cataract extraction
%
{�A�%SDh and the fourth eye had an opaque posterior capsule. No one
t^7}j4��lk had bilateral vision impairment as a result of their cataract
9%DL�dc\z; surgery.
-Hg�,:r�e2 DISCUSSION
#./8�i�nbG To our knowledge, this is the first paper to systematically
h/7_I���uD assess the prevalence of current cataract, previous cataract
O�G�PrjL�+ surgery, predictors of unoperated cataract and the outcomes
[~k�!wipK� of cataract surgery in a population-based sample. The Visual
�\�
+)AQ!E Impairment Project is unique in that the sampling frame and
{#&j�����W high response rate have ensured that the study population is
.}3K9.hkr� representative of Australians aged 40 years and over. Therefore,
cL:���hjr" these data can be used to plan age-related cataract
yi,X�s|�%. services throughout Australia.
$#FA/+<&�$ We found the rate of any cataract in those over the age
D�"X`qF6U7 of 40 years to be 22%. Although relatively high, this rate is
x_#'6H\1ga significantly less than was reported in a number of previous
5/i]��Jn�i studies,2,4,6 with the exception of the Casteldaccia Eye
B)�
�s%B�' Study.5 However, it is difficult to compare rates of cataract
�^Kn:T`
vB between studies because of different methodologies and
W+�#Zm�v�o cataract definitions employed in the various studies, as well
�XVY�j�
X as the different age structures of the study populations.
x�c��Q
:&q Other studies have used less conservative definitions of
�>{=~''d,w cataract, thus leading to higher rates of cataract as defined.
$%"~��.�L4 In most large epidemiologic studies of cataract, visual acuity
�`,
)%<�}� has not been included in the definition of cataract.
6<9gVh�<=w Therefore, the prevalence of cataract may not reflect the
og|~:>FmJo actual need for cataract surgery in the community.
�gU@B�En} 80 McCarty et al.
I��-�>4Q&3 Table 2. Prevalence of previous cataract by age, gender and cohort
`<*
tp@� Age group Gender Urban Rural Nursing home Weighted total
-qJO�6O��M (years) (%) (%) (%)
8O�o1�6LPD 40–49 Male 1.14 0.00 0.00 0.80 (0.00, 1.81)
*w6(n�G'M{ Female 0.00 0.00 0.00 0.00 (
W.�TdhJW�9 50–59 Male 0.68 0.58 0.00 0.65 (0.13, 1.17)
<@+{EK'`�q Female 0.57 0.00 0.00 0.41 (0.00, 1.00)
jU=n\o�=?� 60–69 Male 2.12 7.59 0.00 3.80 (1.41, 6.19)
rY]QTS�">o Female 2.11 3.51 0.00 2.54 (1.81, 3.26)
E,�7b�=��t 70–79 Male 8.22 9.85 8.70 8.75 (6.38, 11.1)
��$W���G<� Female 7.21 7.86 7.02 7.41 (5.36, 9.46)
F+?g0w[
�' 80–89 Male 25.0 30.0 14.3 26.2 (17.0, 35.4)
tQc��n%C�K Female 27.9 25.6 18.3 26.7 (20.2, 33.3)
iKE��Hwm� 90 + Male 0.00 16.7 66.7 9.19 (0.00, 21.5)
fi';M�b3B3 Female 58.3 100.0 26.9 63.1 (44.4, 81.8)
��}vt>�}%% Age-standardized
�Y�Co qe,5 (95% CL) Combined 3.31 (2.70, 3.93) 4.36 (2.67, 6.06) 2.26 (0.82, 3.70) 3.79 (2.97, 4.60)
|�]j2T�8_= Figure 2. Visual acuity in eyes that had undergone cataract
^T�Hyo�
hK surgery, n = 249. h, Presenting; j, best-corrected.
��aYcc2N%C Operated and unoperated cataract in Australia 81
T#�-U\C�~o The weighted prevalence of prior cataract surgery in the
�%�q_b\K�� Visual Impairment Project (3.6%) was similar to the crude
z�
9HUI5ns rate in the Beaver Dam Eye Study4 (3.1%), but less than the
vs�(x;
zpJ crude rate in the Blue Mountains Eye Study6 (6.0%).
�{Zr�f�>ST However, the age-standardized rate in the Blue Mountains
ZA'Qw2�fF0 Eye Study (standardized to the age distribution of the urban
n_Bi HMIU' Visual Impairment Project cohort) was found to be less than
)P
#�M��UC the Visual Impairment Project (standardized rate = 1.36%,
���C
vW�t 95% CL 1.25, 1.47). The incidence of cataract surgery in
T/�TMi&:?. Australia has exceeded population growth.1 This is due,
><�"0GPxrx perhaps, to advances in surgical techniques and lens
HiT��j-O�� implants that have changed the risk–benefit ratio.
e���sK0H<] The Global Initiative for the Elimination of Avoidable
_q3|Ddm2LN Blindness, sponsored by the World Health Organization,
=�JfSg�'7� states that cataract surgical services should be provided that
(v�1~��p3H ‘have a high success rate in terms of visual outcome and
_���
�e�94 improved quality of life’,17 although the ‘high success rate’ is
d^Zr�I\AJ� not defined. Population- and clinic-based studies conducted
<F�<jx"/)� in the United States have demonstrated marked improvement
)m.U"giG++ in visual acuity following cataract surgery.18–20 We
pDM95�.6 � found that 85% of eyes that had undergone cataract extraction
<K
��GYwLk had visual acuity of 6/12 or better. Previously, we have
�^=7XA89�4 shown that participants with prevalent cataract in this
�a4��74[�? cohort are more likely to express dissatisfaction with their
J~k'�b2(p3 current vision than participants without cataract or participants
.l�y�K
�,p with prior cataract surgery.21 In a national study in the
T7~Vk2o%(� United States, researchers found that the change in patients’
t$-!�1jq�� ratings of their vision difficulties and satisfaction with their
eG
j[%�
pk vision after cataract surgery were more highly related to
;cp,d~m�rf their change in visual functioning score than to their change
^Rc*X'Iz(! in visual acuity.19 Furthermore, improvement in visual function
<zt12�4y-6 has been shown to be associated with improvement in
f�&NXWo�/ overall quality of life.22
%2�^wyVkq: A recent review found that the incidence of visually
�Qkb=�KS%z significant posterior capsule opacification following
�eq�,`T��; cataract surgery to be greater than 25%.23 We found 36%
%hCd*[Z}j� capsulotomy in our population and that this was associated
JU�d�Q ��Q with visual acuity similar to that of eyes with a clear
5`p>BJ+��n capsule, but significantly better than that of eyes with an
3V%ts7:�a� opaque capsule.
})� Z�cw1g A number of studies have shown that the demand and
Er@�O�mN�T timing of cataract surgery vary according to visual acuity,
#dDM
�"�s degree of handicap and socioeconomic factors.8–10,24,25 We
6o<(,\ad�[ have also shown previously that ophthalmologists are more
�}�va>j�fy likely to refer a patient for cataract surgery if the patient is
��5&TH\2u employed and less likely to refer a nursing home resident.7
JasA
w7�� In the Visual Impairment Project, we did not find that any
+�0�g L!�r particular subgroup of the population was at greater risk of
Fx� �)�BMP having unoperated cataract. Universal access to health care
KvXF�zx|�A in Australia may explain the fact that people without
R�*�DQLBWc Medicare are more likely to delay cataract operations in the
%
�O��u'+A USA,8 but not having private health insurance is not associated
M<� ��/
� with unoperated cataract in Australia.
CaR-Y�k
� In summary, cataract is a significant public health problem
O�J r~iUr in that one in four people in their 80s will have had cataract
Uj)Wbe[)p0 surgery. The importance of age-related cataract surgery will
�c3.�;
��o increase further with the ageing of the population: the
J?�C�:�@Q� number of people over age 60 years is expected to double in
_$i�)�b�J� the next 20 years. Cataract surgery services are well
�E
Y�A=f
U accessed by the Victorian population and the visual outcomes
8p]9A,U�q& of cataract surgery have been shown to be very good.
�oI-�,6G}� These data can be used to plan for age-related cataract
8QM�i�b�3p surgical services in Australia in the future as the need for
��&%��m%b5 cataract extractions increases.
b8E7/~�<z3 ACKNOWLEDGEMENTS
J��";4+wA7 The Visual Impairment Project was funded in part by grants
�/�x�j`'8� from the Victorian Health Promotion Foundation, the
" =��6kH,� National Health and Medical Research Council, the Ansell
�d,�toU��I Ophthalmology Foundation, the Dorothy Edols Estate and
�/3�6��g�f the Jack Brockhoff Foundation. Dr McCarty is the recipient
F^�81?F�i. of a Wagstaff Fellowship in Ophthalmology from the Royal
OY��8P���� Victorian Eye and Ear Hospital.
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