ABSTRACT
6�>u�Qt:e� Purpose: To quantify the prevalence of cataract, the outcomes
#G~wE*V�R$ of cataract surgery and the factors related to
-R8/`M8GbD unoperated cataract in Australia.
4�+I 3+�a" Methods: Participants were recruited from the Visual
|�?yE�^�$a Impairment Project: a cluster, stratified sample of more than
pU@YiwP"]x 5000 Victorians aged 40 years and over. At examination
`GS� cRhbh sites interviews, clinical examinations and lens photography
B'#4;R!8P= were performed. Cataract was defined in participants who
xy�v�N��D� had: had previous cataract surgery, cortical cataract greater
,z�oB0([�� than 4/16, nuclear greater than Wilmer standard 2, or
��=-�m(\�} posterior subcapsular greater than 1 mm2.
H��oL~j(�{ Results: The participant group comprised 3271 Melbourne
>~^`5a`$uI residents, 403 Melbourne nursing home residents and 1473
6�N?��#b66 rural residents.The weighted rate of any cataract in Victoria
�%r�w}u"3T was 21.5%. The overall weighted rate of prior cataract
� ��d~sJ=) surgery was 3.79%. Two hundred and forty-nine eyes had
wePI�*."�] had prior cataract surgery. Of these 249 procedures, 49
@Jm.HST#S8 (20%) were aphakic, 6 (2.4%) had anterior chamber
G"{4'L�lA� intraocular lenses and 194 (78%) had posterior chamber
%6�N�)G!�P intraocular lenses.Two hundred and eleven of these operated
dD�o6fP�2� eyes (85%) had best-corrected visual acuity of 6/12 or
*|^,DGfQ6� better, the legal requirement for a driver’s license.Twentyseven
�.��Jptj�� (11%) had visual acuity of less than 6/18 (moderate
X�8i[fk1.R vision impairment). Complications of cataract surgery
1y� 1_6TZ+ caused reduced vision in four of the 27 eyes (15%), or 1.9%
� k~{Fn�kt of operated eyes. Three of these four eyes had undergone
VZHr-z�$6n intracapsular cataract extraction and the fourth eye had an
�B�j��; [� opaque posterior capsule. No one had bilateral vision
>B`Cch/�'U impairment as a result of cataract surgery. Surprisingly, no
)�sRN�!~�� particular demographic factors (such as age, gender, rural
�U&�`6&$]� residence, occupation, employment status, health insurance
CcB��Qo8!G status, ethnicity) were related to the presence of unoperated
W8< �@sq~I cataract.
w<Zdq}{jO Conclusions: Although the overall prevalence of cataract is
�0h^uOA; c quite high, no particular subgroup is systematically underserviced
��b�AN�10U in terms of cataract surgery. Overall, the results of
h>~jQ&\��M cataract surgery are very good, with the majority of eyes
K���*TnUQ� achieving driving vision following cataract extraction.
1X��[�7�3� Key words: cataract extraction, health planning, health
�m\_+)e�I| services accessibility, prevalence
��0K&_�D) INTRODUCTION
���j�[_t6Z Cataract is the leading cause of blindness worldwide and, in
3(aR�s?/�O Australia, cataract extractions account for the majority of all
��]U_��5\$ ophthalmic procedures.1 Over the period 1985–94, the rate
f+{�c1fb>s of cataract surgery in Australia was twice as high as would be
�GV�e�L~Q� expected from the growth in the elderly population.1
sq6�>DuBZz Although there have been a number of studies reporting
EV:_Kx8f�P the prevalence of cataract in various populations,2–6 there is
�Y,3z-Pa=@ little information about determinants of cataract surgery in
`Q:de~+AM{ the population. A previous survey of Australian ophthalmologists
�bjuY�A/w< showed that patient concern and lifestyle, rather
NKR��aQ�r� than visual acuity itself, are the primary factors for referral
,jA�x%]@,I for cataract surgery.7 This supports prior research which has
2O?Vr�"
�A shown that visual acuity is not a strong predictor of need for
=n>� ��iQS cataract surgery.8,9 Elsewhere, socioeconomic status has
&B�?@@��6� been shown to be related to cataract surgery rates.10
rd�XCWK�$E To appropriately plan health care services, information is
���`)0Rv|? needed about the prevalence of age-related cataract in the
t8�L<���x� community as well as the factors associated with cataract
x�eJ�9H~^� surgery. The purpose of this study is to quantify the prevalence
^RY��n8I� of any cataract in Australia, to describe the factors
�/p[|DJo�M related to unoperated cataract in the community and to
�AQ�E
eIFH describe the visual outcomes of cataract surgery.
s�@�[�C&�v METHODS
}@3Ud�'
�Y Study population
A��M>Y��j� Details about the study methodology for the Visual
k)?,x�Y\AV Impairment Project have been published previously.11
RY���>)eGJ Briefly, cluster sampling within three strata was employed to
D�+bB��� G recruit subjects aged 40 years and over to participate.
_�<u8�%\�� Within the Melbourne Statistical Division, nine pairs of
u�Pa/,"�p� census collector districts were randomly selected. Fourteen
���!7�e
i1 nursing homes within a 5 km radius of these nine test sites
�+��AE&GU� were randomly chosen to recruit nursing home residents.
��X=rc3~}f Clinical and Experimental Ophthalmology (2000) 28, 77–82
�`,F&�y{�A Original Article
BN�AguAxWo Operated and unoperated cataract in Australia
1��x~%Yd�y Catherine A McCarty PhD, MPH, Mukesh B Nanjan PhD, Hugh R Taylor MD
)e4�WAlg8c Centre for Eye Research Australia, Royal Victorian Eye and Ear Hospital, Melbourne, Victoria, Australia
�v���7s�]� n Correspondence: Dr Cathy McCarty MPH, Centre for Eye Research Australia, Royal Victorian Eye and Ear Hospital, 32 Gisborne Street, East Melbourne,
Y|{r
vBKjf Victoria 3002, Australia. Email:
cathy@cera.unimelb.edu.au *��(?��U�� 78 McCarty et al.
�@4 zi]
v� Finally, four pairs of census collector districts in four rural
Z!�C`f�/h9 Victorian communities were randomly selected to recruit rural
^CowJ�(y(� residents. A household census was conducted to identify
�F/Rng'l�� eligible residents aged 40 years and over who had been a
{0NsDi>�(2 resident at that address for at least 6 months. At the time of
,!�o\)�,�N the household census, basic information about age, sex,
��k| �_$R? country of birth, language spoken at home, education, use of
ua]\x�BW�x corrective spectacles and use of eye care services was collected.
9f\a�o�VX Eligible residents were then invited to attend a local
)LX�oey!aZ examination site for a more detailed interview and examination.
N0y;PVAGu� The study protocol was approved by the Royal Victorian
u)q2YL�K8� Eye and Ear Hospital Human Research Ethics Committee.
#�~bU}[
{� Assessment of cataract
�9I��S1�.3 A standardized ophthalmic examination was performed after
{pc�f;1�^t pupil dilatation with one drop of 10% phenylephrine
|'��V<>v.v hydrochloride. Lens opacities were graded clinically at the
<G�L}1W"Ay time of the examination and subsequently from photos using
)0�Y #-=.< the Wilmer cataract photo-grading system.12 Cortical and
2�]of SdM posterior subcapsular (PSC) opacities were assessed on
kcq9�p2zKv retroillumination and measured as the proportion (in 1/16)
�Bo�](�n*i of pupil circumference occupied by opacity. For this analysis,
��i#�pjv'C cortical cataract was defined as 4/16 or greater opacity,
WL
IDw@f�v PSC cataract was defined as opacity equal to or greater than
EuKrYY]�
g 1 mm2 and nuclear cataract was defined as opacity equal to
X7X�CZSh#A or greater than Wilmer standard 2,12 independent of visual
�_Ep{|]:gw acuity. Examples of the minimum opacities defined as cortical,
({d,oU$>�y nuclear and PSC cataract are presented in Figure 1.
j:�rs+1�bc Bilateral congenital cataracts or cataracts secondary to
��Y0P}KP�D intraocular inflammation or trauma were excluded from the
~c�O�?S2!W analysis. Two cases of bilateral secondary cataract and eight
(�]zl�$*k� cases of bilateral congenital cataract were excluded from the
N2����7��K analyses.
dyQ<�UT�� A Topcon® SL5 photo slit-lamp (Topcon America Corp.,
h�aE�Zp�6Z Paramus, NJ, USA) with a 0.1 mm slit beam of 9.0 mm in
G:h;C]�.�
height set to an incident angle of 30° was used for examinations.
]��HN�T(w@ Ektachrome® 200 ASA colour slide film (Eastman
}2iK�i(io* Kodak Company, Rochester, NY, USA) was used to photograph
P\*2�c*,W; the nuclear opacities. The cortical opacities were
WV,?�G��e
photographed with an Oxford® retroillumination camera
$�+!}Vt�b� (Marcher Enterprises Ltd, Hereford, UK) and T-MAX® 400
d!�}jdt5�% film (Eastman Kodak). Photographs were graded separately
&dZ.+#�8r� by two research assistants and discrepancies were adjudicated
Uij�uJ(Tle by an independent reviewer. Any discrepancies
� |(J
?#�? between the clinical grades and the photograph grades were
uus�Y,Dt/9 resolved. Except in cases where photographs were missing,
.swg�XiRvs the photograph grades were used in the analyses. Photograph
~u���?x�{[ grades were available for 4301 (84%) for cortical
�DMK"Q�#Vw cataract, 4147 (81%) for nuclear cataract and 4303 (84%)
����nL�7S3 for PSC cataract. Cataract status was classified according to
��4Rrw8�Bw the severity of the opacity in the worse eye.
*FLT
z��(T Assessment of risk factors
2�t]�! �{L A standardized questionnaire was used to obtain information
v��:�J�.d5 about education, employment and ethnic background.11
%`s9yRk9>E Specific information was elicited on the occurrence, duration
e%@[�d<Ta\ and treatment of a number of medical conditions,
O'&X aaZV� including ocular trauma, arthritis, diabetes, gout, hypertension
qs8�K jG�@ and mental illness. Information about the use, dose and
�COkLn)+0� duration of tobacco, alcohol, analgesics and steriods were
0o"<^]
�_| collected, and a food frequency questionnaire was used to
X�/�;"�CM� determine current consumption of dietary sources of antioxidants
w=P�<4�bdT and use of vitamin supplements.
:hl}Z�n~jt Data management and statistical analysis
H�Zr/0�I�? Data were collected either by direct computer entry with a
*{;�A�\s�L questionnaire programmed in Paradox© (Carel Corporation,
!3X%5=#L�4 Ottawa, Canada) with internal consistency checks, or
*>���&�N
t on self-coding forms. Open-ended responses were coded at
L/ICFa�.�G a later time. Data that were entered on the self-coded forms
?w5nKpG#RI were entered into a computer with double data entry and
�=|{�,5="
reconciliation of any inconsistencies. Data range and consistency
n
nn�A�, checks were performed on the entire data set.
�82��@;�.% SAS© version 6.1 (SAS Institute, Cary, North Carolina) was
{;z
L[AgCg employed for statistical analyses.
z_,]�fd�=o Ninety-five per cent confidence limits around the agespecific
�&_%��+r5� rates were calculated according to Cochran13 to
rb
J)RN^.� account for the effect of the cluster sampling. Ninety-five
$85o%siS'� per cent confidence limits around age-standardized rates
YT 03>�!B� were calculated according to Breslow and Day.14 The strataspecific
nu�<!2�xs, data were weighted according to the 1996
Q�]?J%��P. Australian Bureau of Statistics census data15 to reflect the
,�LPF��b6o cataract prevalence in the entire Victorian population.
� ?��Ge*~d Univariate analyses with Student’s t-tests and chi-squared
X)R]�a]1�A tests were first employed to evaluate risk factors for unoperated
�g7�Q*KA+� cataract. Any factors with P < 0.10 were then fitted
W��9:{�pQG into a backwards stepwise logistic regression model. For the
2�.&��V�� Figure 1. Minimum levels of cortical (a), nuclear (b), and posterior subcapsular (c) cataract.
#�y9�K�-}u final multivariate models, P < 0.05 was considered statistically
E�w��,wNR` significant. Design effect was assessed through the use
AU?YZEA�ei of cluster-specific models and multivariate models. The
VflPNzixb! design effect was assumed to be additive and an adjustment
N4]6LA�6x6 made in the variance by adding the variance associated with
PQ���#-.�K the design effect prior to constructing the 95% confidence
�i�b=^�tK� limits.
����PH4bM� RESULTS
I�E
s��D�= Study population
�9M~�$W-�5 A total of 3271 (83%) of the Melbourne residents, 403
x 3co����? (90%) Melbourne nursing home residents, and 1473 (92%)
v5�bb|o[{K rural residents participated. In general, non-participants did
�3UtXxL&L` not differ from participants.16 The study population was
Ecl��7=-�y representative of the Victorian population and Australia as
V'h�z1r�oe a whole.
m3!M�He~t� The Melbourne residents ranged in age from 40 to
<^���c0bY1 98 years (mean = 59) and 1511 (46%) were male. The
�p���C�.P� Melbourne nursing home residents ranged in age from 46 to
CpdY�)SMSL 101 years (mean = 82) and 85 (21%) were men. The rural
q9z�!g/,d/ residents ranged in age from 40 to 103 years (mean = 60)
&M�L�hCekY and 701 (47.5%) were men.
�q'-l;�
V| Prevalence of cataract and prior cataract surgery
L�O*a>�9LI As would be expected, the rate of any cataract increases
�xfQ;5
��n dramatically with age (Table 1). The weighted rate of any
;j\$[4W�.i cataract in Victoria was 21.5% (95% CL 18.1, 24.9).
@%8�5�k�/( Although the rates varied somewhat between the three
4��~MU�c!� strata, they were not significantly different as the 95% confidence
�1ucUnNkcV limits overlapped. The per cent of cataractous eyes
n/Z� =q?�_ with best-corrected visual acuity of less than 6/12 was 12.5%
&�I_�!&�m~ (65/520) for cortical cataract, 18% for nuclear cataract
@!H�Md�{�r (97/534) and 14.4% (27/187) for PSC cataract. Cataract
I,Y^_(�JW� surgery also rose dramatically with age. The overall
�=U�|SK"oO weighted rate of prior cataract surgery in Victoria was
v"�TH[}C9D 3.79% (95% CL 2.97, 4.60) (Table 2).
-+�Ji~�;b� Risk factors for unoperated cataract
#`wf�l9�tj Cases of cataract that had not been removed were classified
i�EO�2Bil] as unoperated cataract. Risk factor analyses for unoperated
#yxYL0CcA: cataract were not performed with the nursing home residents
pl�/$@�K?L as information about risk factor exposure was not
S��vr�V5�X available for this cohort. The following factors were assessed
56a�JE
.?< in relation to unoperated cataract: age, sex, residence
�"2�j~3aWj (urban/rural), language spoken at home (a measure of ethnic
�*M5C*}dl integration), country of birth, parents’ country of birth (a
45JL�x?rN_ measure of ethnicity), years since migration, education, use
�HYa!$P3}[ of ophthalmic services, use of optometric services, private
�A�|nU�
_* health insurance status, duration of distance glasses use,
E��U~�'n-� glaucoma, age-related maculopathy and employment status.
\dbtd�hT;Z In this cross sectional study it was not possible to assess the
N=�x,�96CF level of visual acuity that would predict a patient’s having
��j�* ja
) cataract surgery, as visual acuity data prior to cataract
hZG{"O!2�s surgery were not available.
ZXkA�w sr� The significant risk factors for unoperated cataract in univariate
��^�el:)$ analyses were related to: whether a participant had
^jC0S[csw2 ever seen an optometrist, seen an ophthalmologist or been
A�Io;\��35 diagnosed with glaucoma; and participants’ employment
��k{8N@&D� status (currently employed) and age. These significant
�Etk<`GRfA factors were placed in a backwards stepwise logistic regression
�|a��3b2x, model. The factors that remained significantly related
Yq.�@7c�J� to unoperated cataract were whether participants had ever
�H[oi?� {L seen an ophthalmologist, seen an optometrist and been
O�;�tn��5 diagnosed with glaucoma. None of the demographic factors
�]t�<%�>Z$ were associated with unoperated cataract in the multivariate
I�Hf�qW��? model.
v]sGdZ(6�- The per cent of participants with unoperated cataract
dD!SgK�[Jv who said that they were dissatisfied or very dissatisfied with
c Ix��(;[U Operated and unoperated cataract in Australia 79
�Su~`jRN�$ Table 1. Prevalence of any cataracta (excluding previous cataract surgery) by age, gender and cohort
!Zx>)V6.�� Age group Sex Urban Rural Nursing home Weighted total
�\:S8mDI^s (years) (%) (%) (%)
6�<R
U~G�h 40–49 Male 2.56 4.04 0.00 3.00 (1.91, 4.08)
2Ev,�d�W�V Female 2.61 1.70 0.00 2.36 (1.61, 3.10)
co|0s+%PBq 50–59 Male 7.69 6.94 0.00 7.47 (5.80, 9.15)
#{a�<�{�HX Female 6.67 7.56 0.00 6.92 (5.60, 8.24)
�s,=��^V/c 60–69 Male 20.7 25.0 10.0 22.0 (18.1, 26.0)
�)c�_l�l;% Female 27.9 35.7 37.5 30.3 (26.0, 34.7)
sy?W\(x��� 70–79 Male 43.1 58.7 39.1 48.1 (41.2, 55.1)
#t*c��*o�� Female 58.6 66.2 55.6 61.0 (56.0, 65.9)
~f:fO�rLE# 80–89 Male 74.0 89.3 92.0 79.3 (72.3, 86.3)
"k/x+%!Spc Female 91.9 97.0 80.2 92.6 (86.4, 98.8)
r}w 9?s^rB 90 + Male 100.0 100.0 75.0 98.8 (96.2, 100.0)
Z�BWe,X�vq Female 100.0 100.0 93.8 98.6 (97.0, 100.0)
bBf�+z7iyc Age-standardized
Gy�5W�;,$q (95% CL) Combined 19.7 (16.3, 23.1) 23.2 (16.1, 30.2) 16.5 (2.06, 30.9) 21.5 (18.1, 25.0)
g$q�h(Z_s aCortical > 4/16, nuclear > standard 2, posterior subcapsular > 1 mm2
���/WMLr5� their current vision was 30% (290/683), compared with 27%
0ni5�:t
Yy (26/95) of participants with prior cataract surgery (chisquared,
����[�S�%� 1 d.f. = 0.25, P = 0.62).
~a}pYLxl� Outcomes of cataract surgery
}\�F>z���� Two hundred and forty-nine eyes had undergone prior
d��>�}%A
] cataract surgery. Of these 249 operated eyes, 49 (20%) were
:�>;#�/<3{ left aphakic, 6 (2.4%) had anterior chamber intraocular
���>_"��.� lenses and 194 (78%) had posterior chamber intraocular
b< rM3P;�� lenses. The rate of capsulotomy in the eyes with intact
W~�q�o
`�r posterior capsules was 36% (73/202). Fifteen per cent of
:zC��m$��@ eyes (17/114) with a clear posterior capsule had bestcorrected
�a�]*^�uEs visual acuity of less than 6/12 compared with 43%
S70E�R�Rk� of eyes (6/14) with opaque capsules, and 15% of eyes
@UA��>�6F� (11/73) with prior capsulotomies (chi-squared, 2 d.f. = 7.21,
�9o6y7hEQy P = 0.027).
8�CL0�5:& The percentage of eyes with best-corrected visual acuity
9f
"*O���j of 6/12 or better was 96% (302/314) for eyes without
6\b�bP>�ql cataract, 88% (1417/1609) for eyes with prevalent cataract
�AxeWj%�w@ and 85% (211/249) for eyes with operated cataract (chisquared,
>wn�&+�%i& 2 d.f. = 22.3), P < 0.001). Twenty-seven of the
�$]v�R��,E operated eyes (11%) had visual acuities of less than 6/18
a7Jr��} "B (moderate vision impairment) (Fig. 2). A cause of this
&sW/�r::,� moderate visual impairment (but not the only cause) in four
Vo\d&�}��Q (15%) eyes was secondary to cataract surgery. Three of these
q�
&+G�pR� four eyes had undergone intracapsular cataract extraction
yP�@=��x!$ and the fourth eye had an opaque posterior capsule. No one
�lIf Our�� had bilateral vision impairment as a result of their cataract
qIk�6S�6�� surgery.
:K�Fh��ryN DISCUSSION
�3K'3Xp@A� To our knowledge, this is the first paper to systematically
c/s'&gG33z assess the prevalence of current cataract, previous cataract
a�u8)��G_A surgery, predictors of unoperated cataract and the outcomes
H;^6%�H�V1 of cataract surgery in a population-based sample. The Visual
A4�#�m&o�� Impairment Project is unique in that the sampling frame and
l6�O2B/2�j high response rate have ensured that the study population is
R�_^��:<F0 representative of Australians aged 40 years and over. Therefore,
/A>�/
]2(� these data can be used to plan age-related cataract
p�%?R;W`u2 services throughout Australia.
r1[0#5kJ;J We found the rate of any cataract in those over the age
KT8F���
n+ of 40 years to be 22%. Although relatively high, this rate is
{{�O1
C�~� significantly less than was reported in a number of previous
q��3;HfZ�� studies,2,4,6 with the exception of the Casteldaccia Eye
qv���T9d7x Study.5 However, it is difficult to compare rates of cataract
Gf"�/fpeQx between studies because of different methodologies and
9;@6��i�v� cataract definitions employed in the various studies, as well
K�p"o0fh<9 as the different age structures of the study populations.
��D3_,���2 Other studies have used less conservative definitions of
m\Dbb.vBvW cataract, thus leading to higher rates of cataract as defined.
�WB= g�N:? In most large epidemiologic studies of cataract, visual acuity
UE(%R1P�y� has not been included in the definition of cataract.
)37|rB �E Therefore, the prevalence of cataract may not reflect the
`�=�F��fzL actual need for cataract surgery in the community.
�kef�QH\<X 80 McCarty et al.
�wp}� PQw: Table 2. Prevalence of previous cataract by age, gender and cohort
N5��g�!,�3 Age group Gender Urban Rural Nursing home Weighted total
��ba
,2�.| (years) (%) (%) (%)
:�sJV�
klK 40–49 Male 1.14 0.00 0.00 0.80 (0.00, 1.81)
/���Wt<[g# Female 0.00 0.00 0.00 0.00 (
rR/P�nVu�p 50–59 Male 0.68 0.58 0.00 0.65 (0.13, 1.17)
@c5TSHS�L. Female 0.57 0.00 0.00 0.41 (0.00, 1.00)
n�&&X�{�Rl 60–69 Male 2.12 7.59 0.00 3.80 (1.41, 6.19)
�oKz
�Lt�� Female 2.11 3.51 0.00 2.54 (1.81, 3.26)
mI}1si�=�$ 70–79 Male 8.22 9.85 8.70 8.75 (6.38, 11.1)
uP<�t��P�: Female 7.21 7.86 7.02 7.41 (5.36, 9.46)
Td?�a=yu:J 80–89 Male 25.0 30.0 14.3 26.2 (17.0, 35.4)
lLl^2�[4k5 Female 27.9 25.6 18.3 26.7 (20.2, 33.3)
85�
-00m ~ 90 + Male 0.00 16.7 66.7 9.19 (0.00, 21.5)
}ufH![|[r� Female 58.3 100.0 26.9 63.1 (44.4, 81.8)
>/�
GVlXA' Age-standardized
'`��^`�NI` (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)
R0
�AVA�UG Figure 2. Visual acuity in eyes that had undergone cataract
�u�m�,Zt�� surgery, n = 249. h, Presenting; j, best-corrected.
D&$%JT��'3 Operated and unoperated cataract in Australia 81
!�Yd7&��#s The weighted prevalence of prior cataract surgery in the
xV}-[W5sr' Visual Impairment Project (3.6%) was similar to the crude
qE!.C}L��+ rate in the Beaver Dam Eye Study4 (3.1%), but less than the
!�3�E33��� crude rate in the Blue Mountains Eye Study6 (6.0%).
��x�msw'\ However, the age-standardized rate in the Blue Mountains
�U���T�C|8 Eye Study (standardized to the age distribution of the urban
�Davpj�wSn Visual Impairment Project cohort) was found to be less than
w�gp{P>oBX the Visual Impairment Project (standardized rate = 1.36%,
�3%p^�>D�\ 95% CL 1.25, 1.47). The incidence of cataract surgery in
\��%g#
__\ Australia has exceeded population growth.1 This is due,
$GB�/}$fd& perhaps, to advances in surgical techniques and lens
<�#k(g�\/R implants that have changed the risk–benefit ratio.
My�vp �PW The Global Initiative for the Elimination of Avoidable
t�Y'fFz^Ho Blindness, sponsored by the World Health Organization,
BUvE~l.,| states that cataract surgical services should be provided that
__O�@�w�.� ‘have a high success rate in terms of visual outcome and
m:_�'�r"o� improved quality of life’,17 although the ‘high success rate’ is
!�,W�O]O�v not defined. Population- and clinic-based studies conducted
`o4a�l�K\� in the United States have demonstrated marked improvement
VB�=$D|�Ll in visual acuity following cataract surgery.18–20 We
C+tB$ya�hO found that 85% of eyes that had undergone cataract extraction
H!PM�b{�e� had visual acuity of 6/12 or better. Previously, we have
�
�<m7�m�� shown that participants with prevalent cataract in this
)i|0�Ubn[| cohort are more likely to express dissatisfaction with their
h0ml#A
`�h current vision than participants without cataract or participants
\�k&2nYVHf with prior cataract surgery.21 In a national study in the
q��D�!qS�M United States, researchers found that the change in patients’
kMd1)6%6A ratings of their vision difficulties and satisfaction with their
�awu1�8(;J vision after cataract surgery were more highly related to
&pC�a��{�p their change in visual functioning score than to their change
9+�S�$,|9� in visual acuity.19 Furthermore, improvement in visual function
!��W2d�MD/ has been shown to be associated with improvement in
Z8 �eB5!
$ overall quality of life.22
Qze�.��1h� A recent review found that the incidence of visually
����~[
a6� significant posterior capsule opacification following
1xBgb/��+� cataract surgery to be greater than 25%.23 We found 36%
FqwH�:Fcr: capsulotomy in our population and that this was associated
J> Z����.2 with visual acuity similar to that of eyes with a clear
[8%R�*�}� capsule, but significantly better than that of eyes with an
q#��C;i�K4 opaque capsule.
tleWJR8�oc A number of studies have shown that the demand and
r�&rip^40� timing of cataract surgery vary according to visual acuity,
1R�HFWK5Si degree of handicap and socioeconomic factors.8–10,24,25 We
�0)��N��u� have also shown previously that ophthalmologists are more
/�Pv
dP#
! likely to refer a patient for cataract surgery if the patient is
Lqa�|9|��! employed and less likely to refer a nursing home resident.7
%r
=9,��IJ In the Visual Impairment Project, we did not find that any
|&u4�Q
/0 particular subgroup of the population was at greater risk of
�n�F1�}?�� having unoperated cataract. Universal access to health care
�?Z�(xu~^/ in Australia may explain the fact that people without
�Gg �TrIF� Medicare are more likely to delay cataract operations in the
5do49H�_� USA,8 but not having private health insurance is not associated
Fswr �@d�u with unoperated cataract in Australia.
hEhvA�6f,� In summary, cataract is a significant public health problem
��i K,^|Q8 in that one in four people in their 80s will have had cataract
�\�p.eY)�> surgery. The importance of age-related cataract surgery will
i�+
@t_pxc increase further with the ageing of the population: the
s:z�z��8oN number of people over age 60 years is expected to double in
6<SX�%B�c~ the next 20 years. Cataract surgery services are well
]5a�,%*f�+ accessed by the Victorian population and the visual outcomes
AFdBf6/"�i of cataract surgery have been shown to be very good.
p�>h&�SD?b These data can be used to plan for age-related cataract
M$Or|HT��G surgical services in Australia in the future as the need for
Ie��T�1Jwe cataract extractions increases.
I�hy76_�OZ ACKNOWLEDGEMENTS
k#"}oI{<
6 The Visual Impairment Project was funded in part by grants
�HDQ�H7B�s from the Victorian Health Promotion Foundation, the
WH�� �l�vd National Health and Medical Research Council, the Ansell
.azA1@V��| Ophthalmology Foundation, the Dorothy Edols Estate and
?#gYu�%7DN the Jack Brockhoff Foundation. Dr McCarty is the recipient
d)1�P��l3+ of a Wagstaff Fellowship in Ophthalmology from the Royal
�B��&Iy�_; Victorian Eye and Ear Hospital.
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