Cataract and its surgery in Papua New Guinea

Clinical and Experimental Ophthalmology @'go?E)f  
2006; -0Ws3  
34 T8nOb9Nrj  
: 880–885 ,,U8X [A  
doi:10.1111/j.1442-9071.2006.01342.x uc>u=kEue  
© 2006 Royal Australian and New Zealand College of Ophthalmologists 0)@7$Xhf  

P0R8 f  
Correspondence: ^T(v4'7  
Dr Garry Brian, 5 Hazelmere Parade, Sherwood, Qld 4075, Australia. Email: grbrian@tpg.com.au HF(pC7/a:  
Received 11 April 2006; accepted 19 June 2006. *{_WM}G  
Original Article F]_w~1 n5  
Cataract and its surgery in Papua New Guinea /z'fFl^6O  
Jambi N Garap 58TH|Rj+I  
MMed(Ophthal) 2P&KU%D)0s  
, %(f&).W  
1,2 @-^jbmu^ P  
Sethu Sheeladevi uT")j,tz  
MHM FLWQY,  
, w;e42.\  
3 
o@o0V  
Garry Brian E~[v.3`  
FRANZCO z8MKGM  
, d9@Pze">e  
2,4 ;+86q"&n  
BR Shamanna J83{&N2u  
MD N:4oVi@Je  
, ap 5D6y+  
3 EWU(Al T  
Praveen K Nirmalan XIS.0]~  
MPH {? a@UUvC  
3 }]fJ[KbDp  
and Carmel Williams -Hx._I$l  
MA Oo)MxY
PU  
4 tf:4}6P1  
1 w
ZAY0@pA  
The Fred Hollows Foundation – Papua New Guinea Eye Care Program, equ|v~@y  
2 (toN??r  
Department of Ophthalmology, School of Medicine and Health ?;q  
Sciences, University of Papua New Guinea, Port Moresby, Papua New Guinea; vX9B^W||x  
3 )P)Zds@F  
International Center for Advancement of Rural Eye Care, +nLsiC{&  
L.V. Prasad Eye Institute, Hyderabad, India; and Vm3e6Y,K  
4 S4'\=w#  
The Fred Hollows Foundation (New Zealand), Auckland, New Zealand  qGH s2Og  
Key words: S8zc1!  
blindness CyWaXp65  
, iJ7?6)\  
cataract eM>
f#M  
, QcXqMx  
Papua New Guinea Dej2-Y  
, rX^wNH  
surgery O<H5W|cM  
, m4 :|  
vision impairment Z*M]AvO+#  
. xUKn  
I C2Pw;iK_t  
NTRODUCTION @Yl&Jg2l'  
Just north of Australia, tropical Papua New Guinea (PNG) u4W2{  
has more than five million people spread across several major (,i&pgVZ  
and hundreds of other smaller islands. Almost 50% of the Z2%ySO  
land area is mountainous, and 85% of inhabitants are rural &idPO{G  
dwellers. Forty per cent of the population is age 14 years or ,rC$~ &  
younger, and 9% is 50 years or older. "IvFkS=*Q  
1 (B0tgg^jj,  
Papua New Guinea was administered by Australia until SDW_Y^Tb  
1975, when independence was granted. Since that time, governance, *[Q
FIDn:  
particularly budgetary, economic performance, law >=WlrmI  
and justice, and development and management of basic ;(Xig$k  
health and other services have declined. Today, 37% of the ]<zjD%Ez  
population is said to live below the poverty line, personal YyF=u~l  
and property security are problematic, and health is poor. >@mvb@4*  
There are significant and growing economic, health and education LRuB&4r8  
disparities between urban and rural inhabitants. zS6oz=  
Papua New Guinea has one referral hospital, in Port tr<iFT}C  
Moresby. This has an eye clinic with one part-time and two 9(CY"Tc3  
full-time consultant ophthalmologists, and several ophthalmology zFq8xw  
training registrars. There are also two private ophthalmologists =MsQ=:ZV  
in the city. Elsewhere, four provincial hospitals a@ub%laL Z  
have eye clinics, each with one consultant ophthalmologist. 1dl@2CVS  
One of these, supported by Christian Blind Mission and Vzs_g]V  
based at Goroka, provides an extensive outreach service. qoo+=eh!  
Visiting Australian and New Zealand ophthalmology teams T=kR!Gx  
and an outreach team from Port Moresby General Hospital RTJ\|#w  
provide some 6 weeks of provincial service per year. !qQB}sAf  
Cataract and its surgery account for a significant proportion S]O0zv^}  
of ophthalmic resource allocation and services delivered @rV|7%u  
in PNG. Although the National Department of Health keeps 65>1f  
some service-related statistics, and cataract has been considered |k:ecw  
in three PNG publications of limited value (two district (:spA5  
service reports lO>9Q]S<  
2,3 DMcH, _(  
and a community assessment p
/x]  
4 7@6B\':  
), there has g9XAUZe  
been no systematic assessment of cataract or its surgery. l0&Y", vy  
A :9O"?FE  
BSTRACT /
M3UK  
Purpose: ?}tWI7KI  
To determine the prevalence of visually significant A'
=,q  
cataract, unoperated blinding cataract, and cataract surgery )^)j=xs  
for those aged 50 years and over in Papua New Guinea. ,1!
~@dhs  
Also, to determine the characteristics, rate, coverage and dh~ cj5  
outcome of cataract surgery, and barriers to its uptake. dHUcu@,  
Methods: s;9>YV2at  
Using the World Health Organization Rapid Cr a@  
Assessment of Cataract Surgical Services protocol, a population- .GM}3(1fX`  
based cross-sectional survey was conducted in !VXs yH3r5  
2005. By two-stage cluster random sampling, 39 clusters of M#?^uu'  
30 people were selected. Each eye with a presenting visual E;>BcP
t5  
acuity worse than 6/18 and/or a history of cataract surgery v1m'p:7uGB  
was examined. 97]$*&fH  
Results: Shm$>\~=  
Of the 1191 people enumerated, 98.6% were y. A]un1  
examined. The 50 years and older age-gender-adjusted M#U#I:z%  
prevalence of cataract-induced vision impairment (presenting J :  T  
acuity less than 6/18 in the better eye) was 7.4% (95% hHoc>S6^M  
confidence interval [CI]: 6.4, 10.2, design effect [deff] "4,Zox{^  
= (X(296<;  
1.3). DJu
&l  
That for cataract-caused functional blindness (presenting >,#73
u#  
acuity less than 6/60 in the better eye) was 6.4% (95% CI: .Y^UPxf@  
5.1, 7.3, deff B\ITXmd   
= u]Eyb),Gy  
1.1). The latter was not associated with f5droys9  
gender ( 
TX%W-J_  
P uQYBq)p|  
= <j
nra4>  
0.6). For the sample, Cataract Surgical Coverage ~nSGN%  
at 6/60 was 34.5% for Eyes and 45.3% for Persons. The qOi3`6LCV  
Cataract Surgical Rate for Papua New Guinea was less than b
ktw?{h  
500 per million population per year. The age-genderadjusted DOzJ-uww1  
prevalence of those having had cataract surgery j+E[[  
was 8.3% (95% CI: 6.6, 9.8, deff RwR.*?#  
= U_/<tWl\[3  
1.3). Vision outcomes of 2Q/#.lNL  
surgery did not meet World Health Organization guidelines. b O:m^*  
Lack of awareness was the most common reason for not ti)4J2c,8  
seeking and undergoing surgery. v.aSf`K  
Conclusion: o (OC3  
Increasing the quantity and quality of cataract 7T)J{:+0!|  
surgery need to be priorities for Papua New Guinea eye .-0;:>  
care services. -c1$>+  
Cataract and its surgery in Papua New Guinea 881 ?_NhR  
© 2006 Royal Australian and New Zealand College of Ophthalmologists >;ucwLi  
This paper reports the cataract-related aspects of a population- 'aWzam>  
based cross-sectional rapid assessment survey of A^a9,T  
those 50 years and older in PNG. /^d!$v  
M hgz7dF  
ETHODS gXR1nnK  
The National Ethical Clearance Committee of The Medical ]('isq,P  
Research Advisory Committee granted ethics approval to /y\KLa  
survey aspects of eye health and care in Papua New Guinea ^<@9ph  
(MRAC No. 05/13). This study was performed between xV h-Mx+M  
December 2004 and March 2005, and used the validated U =()T}b>  
World Health Organization (WHO) Rapid Assessment of )eFq0+6*)  
Cataract Surgical Services CENA!W WQ  
5,6 /}]Irj
4m  
protocol. Characterization of tcg sXB/t  
cataract and its surgery in the 50 years and over age group ?1I0VA']  
was part of that study. Tv;|K's'  
As reported elsewhere, Ef;OrE""  
7 ypuW}H%`  
the sample size required, using a T1@]:`&  
prevalence of bilateral cataract functional blindness (presenting o <lS90J  
visual acuity worse than 6/60 in both eyes) of 5% in the (wNL,<%~  
target population, precision of ACg5"  
± Um k9  
20%, with 95% confidence ~CQYF,[Th  
intervals (CI), and a design effect (deff) of 1.3 (for a cluster Q<y&*o3YF|  
size of 30 persons), was estimated as 1169 persons. The Os?`!1-  
sample frame used for the survey, based on logistics and HNA/LJl[VU  
security considerations, included Koki wanigela settlement #^- U|~,  
in the Port Moresby area (an urban population), and Rigo O)'Bx=S4Ke  
coastal district (a rural population, effectively isolated from FuNc#n>  
Port Moresby despite being only 2–4 h away by road). From 7W[}7Y  
this sample frame, 39 clusters (with probability proportionate qbjLTE=  
to population size) were chosen, using a systematic random ,y[wS5li  
sampling strategy. '3f"#fF6  
Within each cluster, the supervisor chose households Uk u~"OGC  
using a random process. Residency was defined as living in r/E;tm[\  
that cluster household for 6 months or more over the past 2$^n@<uZ@  
year, and sharing meals from a common kitchen with other IYq)p /  
members of the household. Eligible resident subjects aged :XK.A   
50 years and older were then enumerated by trained volunteers Uhc2`r#q  
from the Port Moresby St John Ambulance Services. y!SElKj  
This continued until 30 subjects were enrolled. If the zV\\T(R)  
required number of subjects was not obtained from a particular m4{F-++dk  
cluster, the fieldworkers completed enrolment in the !M&L<0b:7e  
nearest adjacent cluster. Verbal informed consent was Kb~s'cTxIO  
obtained prior to all data collection and examinations. he0KzwBF  
A standardized survey record was completed for each CPVR  
participant. The volunteers solicited demographic and general 7hq*+e  
information, and any history of cataract surgery. They lzz rzx^  
also measured visual acuity. During a methodology pilot in 12*'rU;*  
the Morata settlement area of Port Moresby, the kappa statistic P agzp%m  
for agreement between the four volunteers designated e%w>QN`  
to perform visual acuity estimations was over 0.85. KH)(xB=  
The widely accepted and used ‘presenting distance visual W$7 db%qFx  
acuity’ (with correction if the subject was using any), a measure wSHE~Xx  
of ocular condition and access to and uptake of eye care )cnB>Qul  
services, was determined for each eye separately. This was TTaSg\K  
done in daylight, using Snellen illiterate E optotypes, with m!3L/UZ  
four correct consecutive or six of eight showings of the PR=:3-#R  
smallest discernible optotype giving the level. For any eye ^GG6%=g'  
with presenting visual acuity worse than 6/18, pinhole acuity jW5n^Y)  
was also measured. AAjsb<P  
An ophthalmologist examined all eyes with a history of :B?X
No  
cataract surgery and/or reduced presenting vision. Assessment ;/#E!Ja/u  
of the anterior segment was made using a torch and J&w%lYiu5  
loupe magnification. In a dimly lit room, through an undilated *jo y%F  
pupil, the status of the visually important central lens A-e#&pJ  
was determined with a direct ophthalmoscope. An intact red Ml)~%ZbF  
reflex was considered indicative of a ‘normal’ clear central %pmowo~{  
lens. The presence of obvious red reflex dark shading, but Q.Hy"~  
transparent vitreous, was recorded as lens opacity. Where l \7NR  
present, aphakia and pseudophakia with and without posterior s0"S;{_#  
capsule opacification were noted. The lens was determined D4[1CQ@}4D  
to be not visible if there were dense corneal opacities
6Clxe Lk  
or other ocular pathologies, such as phthisis bulbi, precluding ri&B%AAc  
any view of the lens. The posterior segment was examined 6%Ap/zvCZ>  
with a direct ophthalmoscope, also through an EzOO6  
undilated pupil. es@_6ol.@  
A cause of vision loss was determined for each eye with aObWd5~  
a presenting visual acuity worse than 6/18. In the absence of zRPX mu{t  
any other findings, uncorrected refractive error was considered Yz;Hu$ /  
to be that cause if the acuity then improved to better vR<Y1<j  
than 6/18 with pinhole. Other causes, including corneal 8qL*Nf  
opacity, cataract and diabetic retinopathy, required clinical J<Di2b+  
findings of sufficient magnitude to explain the level of vision Q':xi;?Kt  
loss. Although any eye may have more than one condition mh;<lW\K/Z  
contributing to vision reduction, for the purposes of this [_6_A O(Z  
study, a single cause of vision loss was determined for each UR6.zE4=_  
eye. The attributed cause was the condition most easily S'qEBz  
treated if each of the contributing conditions was individually T{v(B["!$  
treatable to a vision of 6/18 or better. Thus, for example, o %s
BU  
when uncorrected refractive error and lens opacity coexisted, I*_@WoI*  
refractive error, with its easier and less expensive treatment, "']I.  
was nominated as the cause. Where treatment of a condition MIvAugUOl  
present would not result in 6/18 or better acuity, it was r4/G&m[V  
determined to be the cause rather than any coincident or VAf"B5R  
associated conditions amenable to treatment. Thus, for YL
\d2  
example, coincident retinal detachment and cataract would q15t7-Z6  
be categorized as ‘posterior segment pathology’.
a5jc8S>  
Participants who were functionally blind (less than 6/60 3jQy"9f  
in the better eye) because of unoperated cataract were interrogated $j*%}x~[  
about the reasons for not having surgery. The P F#+G;q;  
responses were closed ended and respondents had the option x? 3U3\W  
of volunteering more than one barrier, all of which were j\& `  
recorded in a piloted proforma. The first four reasons offered f tW-  
were considered for analysis of the barriers to cataract eS(\E0%QI  
surgery. zu}oeAQc$  
Those eyes previously operated for cataract were examined `s93P^%  
to characterize that surgery and the vision outcome. A |kJ'FZZd  
detailed history of the surgery was taken. This included the %PozxF:  
age at surgery, place of surgery, cost and the use of spectacles Ik2yIf5d  
afterward, including reasons for not wearing them if that was 9TRS#iVL+*  
the case. &}:'YK*X  
The Rapid Assessment of Cataract Surgical Services data ZHT_o\  
entry and analysis software package was used. The prevalences -t~l!! N(  
of visually significant cataract, unoperated blinding [4L[.N@  
cataract and cataract surgery were determined. Where prevalence S}6Ty2.\  
estimates were age and gender adjusted for the population vYQ0e:P  
of PNG, the estimated population structure for the ;8\w$SPP  
882 Garap A;ip V :)  
et al. =@(&xfTC  
© 2006 Royal Australian and New Zealand College of Ophthalmologists ?O3E.!Q|  
year 2000 <QbD ;(%  
1 x=>B 6o-f  
was used, and 95% CI were derived around these R-8>,  
point estimates. Additional analysis for potential associations 6;s.%W  
of cataract, its surgery and surgical outcomes employed the Xg+ E eg#  
STATA (version 8.0; StataCorp LP, TX, USA). Fisher’s exact kT6h}d^/^  
test and the chi-square test for bivariate analysis and a multiple |a 9d]^  
logistic regression model for multivariate analysis were q?} /q  
used. Odds ratios (OR) and 95% CI were estimated. A x(oL\I_Z  
P 9e|-sn  
- |@'/F#T  
value of 8@;|x2=y  
< B(tLV9B3Q  
0.05 was taken as significant for this analysis. 7A:k  
The Cataract Surgical Coverage (Eyes) (CSC(Eyes)) was zT$-%  
calculated. This is a surgical service impact indicator. It measures (gW#T\Eln  
the proportion of cataract that has been operated on "&h{+DHS  
in a defined population at a particular point in time, being )~W 35  
the eyes having had cataract surgery as a percentage of the 2J?ON|2M  
combined total of all of those eyes operated with those Y9V%eFY5E  
currently blind (less than 6/60) from cataract (CSC(Eyes) at TCShS}q;%  
6/60 2gP^+.
 
= k;EG28   
100 _:dt8+T#  
a Qm9r>m6p@N  
/( >O0z +tj  
a LPuc&8lGWf  
+ jnF-kia  
b ^YVd^<cE  
), where ad <z+a  
a 9gWR djK:  
= =;tDYuFc!  
pseudophakic |76G#K~<X  
+ k@}?!V*l  
aphakic eyes, R0yPmh,{  
and pTzwyj!SD  
b o`tOnwt
  
= |4 E5x9J  
eyes with worse than 6/60 vision caused by cataract). UQX.  
8 LUPh!)8  
The Cataract Surgical Coverage (Persons) (CSC(Persons)) QmHj=s:x\  
was determined. This considers people with operated $*k(h|XfwW  
cataract (either or both eyes) as a proportion of those having .8.4!6~@  
operable cataract. (CSC(Persons) at 6/60 a,$v;s/  
= , ZisJksk  
100( ]TE(:]o7V  
x a9f!f %9  
+ ,Wbr; zb  
y DfPC@` k  
)/ /Jcf
AY  
( 8D H~~by  
x K3Sa6"U  
+ ^X?D4a|;#g  
y _VjfjA<c8  
+ %pJRu-D  
z +VSq[P  
), in which tyI!y~-z  
x W{El^')F  
= nO\c4#ce  
persons with unilateral pseudophakia D4G*Wz8  
or unilateral aphakia and worse than 6/60 vision ,P>xpfdK  
caused by cataract in the other eye, dvc=<!"'S  
y @$*LU:[  
= _8z ga A  
persons with bilateral Au\j6mB  
previously operated cataract, and QjIn0MJ)Xm  
z ! ^ DQX=1  
= h>a/3a$g  
persons with bilateral Iq?#kV9)  
cataract causing vision worse than 6/60 in each). 0K<|> I  
8 f(*ygI  
The Cataract Surgical Rate, being the number of cataract RxB9c(s^@  
operations per year per million of population, was also $[6]Ly(F)  
estimated. US'rhSV  
R ~lQ<#*wl  
ESULTS -Pt']07E  
Of the 1191 people enumerated, 5 subjects were not available 3 q^^ Os  
during the survey and 12 refused participation. Data s[n*fV']A  
from these 17 were not considered in the analysis. Of the 05ZF>`g*  
remaining 1174 (98.6%), 606 (51.6%) were female, and 914 xgQ&'&7l  
(77.9%) were domiciled in rural Rigo. (/[wM>q:r  
Cataract caused 35.2% of vision impairment (presenting 0Q{^BgW  
vision less than 6/18) and 62.8% of functional blindness .kqH}{hf  
(presenting vision less than 6/60) in the 2348 eyes sampled AM:
lU  
(Table 1). It was second to refractive error (45.7%) >g+e`!;6  
7 Ls2g#+  
in the zqlg Jn  
former, and the leading cause of the latter. JBMJR  
For the 1174 subjects, cataract was the most prevalent [9H986=  
cause of vision impairment (46.7%) and functional blindness y3Q2d7G  
(75.0%) (Table 1). On bivariate analysis, increasing age M@a=|N~  
( ><DXT nt'x  
P !g2~|G  
< qgkC
)
  
0.001), illiteracy ( 5tUN'KEbN  
P 2od9Q=v~  
< ~\o hH  
0.001) and unemployment /DE`>eJY  
( 1<E:`,
Mn?  
P eZvG  
< E,gpi  
0.001) were associated with cataract-induced functional U6Xi-@XP  
blindness. Gender was not significantly associated ( H+?@LPV*N  
P `Qxdb1>mjY  
= W_FN*Er  
0.6). )ad
6>Y  
In a multivariate model that included all variables found .]y"04@]  
significant in bivariate analysis, increasing age (reference category *$*V#,V-  
50–59 years; OR: 2.6, 95% CI: 1.6, 5.9 for persons JL:\\JT.  
aged 60–69, OR: 9.8, 95% CI: 4.6, 20.6 for persons aged ,cwjieM  
70–79, and OR: 18.6, 95% CI: 8.3, 41.9 for persons aged -esq]c%3  
80 years and older) and illiteracy (OR 2.2, 95% CI 1.3, 3.8) hNUka
P  
were associated with functional cataract blindness. bVW2Tjc:  
The survey sample included 97 people (8.3%) who had dA[S@ysvG  
previously undergone cataract surgery, for a total of 136 eyes ?D9>N'yH8  
(5.8%). On bivariate analysis, increasing age ( -XMWN$Ah  
P / PTk296@  
= XFJz\'{  
0.02), male 7Ug^aA  
gender ( mb#&yK(h  
P ]v|n'D-?  
= y2
5L`b  
0.02), literacy ( {/Qg4pc!  
P BaXf=RsZ  
< lL6W:Fq@(  
0.001) and employed status bO6LBSZx]  
( MwO`D rV  
P  mm9xO%  
= zOsk'ZE&  
0.03) were associated with cataract surgery. Illiteracy ?A2j j`N1x  
was significantly associated with reduced uptake of cataract #@8JYzMq%  
surgery (adjusted OR 0.43, 95% CI: 0.20, 0.91) in a multivariate {"n=t`E)3  
model that adjusted for age, gender and employment aZB$%#'vR  
status. T.GB*  
The CSC(Eyes) at 6/60 for the survey sample was 2Wp)CI<\D  
34.5%, and the CSC(Persons) at the same vision level was CCp&+LRvR  
45.3%. *Fu;sR2y%:  
Most cataract surgery occurred in a government hospital Kp?j\67S  
( tL}_kK_!  
P Io\tZXB  
< u7}C):@H  
0.001), more than 5 years ago ( 6 TSC7jO  
P
C)R#Om  
< EU4j'1!&g<  
0.001). Also, most (MnK \^Y  
of the intracapsular extractions were performed more than o7 1f<&1  
5 years ago ( &09g0K66  
P <= Aqi91  
< (bD'SWE   
0.001). Patients are now more likely to SnFAv7_  
receive intraocular lens surgery ( a n,$Z,G#K  
P IW5N^J  
< 5~\GAjf  
0.001). Although most r"W,G/;h  
surgery was provided free ( dO|n[/qL0  
P t# <(Q  
= %w#8t#[,6  
0.02), males, who were more .qD=u1{p9  
likely to have surgery ( TT3\c,cs  
P 3iBUIv  
= KxUO=v<u  
0.02), were also more likely to GRj#1OqL  
pay for it ( @lTd,V5f  
P bm#/ KT_8  
= TDZ p1zpXb  
0.03) (Table 2). /{FS
G!  
As measured by presenting acuity, the vision outcomes of m`6=6(_p  
both intracapsular surgery and intraocular lens surgery were ]=?.LMjnH  
poor (Table 3). However, 62.6% of those people with at least qz&?zzz;  
Table 1. t2RL|$>F1  
Vision impairment and blindness by eye and person; Koki and Rigo, Papua New Guinea (2005) bguTWI8bk  
Category 2348 eyes/1174 people surveyed 6![}Jvu>  
Vision impairment Blindness Bf8[(oc~  
Eye (presenting I,@ 6w  
visual acuity less than 6/18) bo40s9"-*W  
Person (presenting visual ;kR+jC(  
acuity less than 6/18 in the ?C*}NM  
better eye) 0^mCj<g  
Eye (presenting visual ,FWsgqL{l  
acuity less than 6/60) cxc-|Xori  
Person (presenting visual fO,m_ OR:)  
acuity less than 6/60 in the ]qO*(m:}o  
better eye) xyy EaB  
Total Cataract Total Cataract Total Cataract Total Cataract R7 ^f|/l  
n wrAcVR  
% *IIuGtS  
n Hd ?#^X  
% ^|ul3_'?  
n rL|9Xru  
% g ![?P"i^t  
n lc\%7
-%:5  
% uy8mhB+]  
n r
H9[x8e  
% ~$]Puv1V>  
n tLzKM+Ct#  
% b{a\j
%  
n |G(I,EPag  
% O]80";Uv  
n y4Lh
:;  
% .wf$]oQQ  
50–59 years 266 27.9 49 14.6 84 22.8 23 13.4 74 18.0 37 14.3 17 14.2 10 11.1 5q _n6
9b  
60–69 years 298 31.3 93 27.8 121 32.9 50 29.1 119 29.0 67 26.0 31 25.8 18 20.0 A?"/ >LM  
70–79 years 252 26.5 119 35.5 106 28.8 57 33.1 133 32.4 94 36.4 42 35.0 34 37.8 `@^s}rt+  
80 yQE9S+%M  
+ Y3bZ&G)  
years 136 14.3 74 22.1 57 15.5 42 24.4 85 20.6 60 23.3 30 25.0 28 31.1  |F e*t  
Male 467 49.1 157 46.9 180 48.9 77 44.8 203 49.4 123 47.7 59 49.2 41 45.6 ^c?$$Tq  
Female 485 50.9 178 53.1 188 51.1 95 55.2 208 50.6 135 52.3 61 50.8 49 54.4 Vu;z|L  
All cases 952 100 335 35.2 368 100 172 46.7 411 100 258 62.8 120 100 90 75 X{8g2](z.  
Cataract and its surgery in Papua New Guinea 883 ] D+'Ao^'  
© 2006 Royal Australian and New Zealand College of Ophthalmologists a\tv,Lx  
one eye operated on for cataract felt that their uncorrected t (Gg 1  
vision, using either or both eyes, was sufficiently good that >j)y7DSE  
spectacles were not required (Table 3). x,UP7=6  
‘Lack of awareness of cataract and the possibility of surgery’ Xk}\-&C7  
was the most common (50.1%) reason offered by 90 #]z_pp:  
cataract-induced functionally blind individuals for not seeking =`.OKUAn  
and undergoing cataract surgery. Males were more likely >r.W \  
to believe that they could not afford the surgery (P = 0.02), K(rWM>Jv  
and females were more frequently afraid of undergoing a u1ahAk7  
cataract extraction (P = 0.03) (Table 4). W~Q;R:y  
DISCUSSION y=LN|vkQ  
The limitations of the standardized rapid assessment methodology f7I!o,/  
used for this study are discussed elsewhere.7 Caution ]K|td)1X  
should be exercised when extrapolating this survey’s B}^l'p_u  
Table 2. Circumstances of cataract surgery; Koki and Rigo, Papua New Guinea (2005) 2X6L'!=  
Category 136 cataract surgeries Y'76!Y  
Male Female Aphakia `NCH^)  
(n = 74) U3BhoD#f\  
Pseudophakia }-~LXL%!3  
(n = 60) Zw_'u=r >  
Couched HM
&"2c  
(n = 2) c+501's  
Male, n (%) 83 (61.0) 45 (60.8) 38 (63.3) 0 (0.0) x+EEMv3u:  
Female, n (%) 53 (39.0) 29 (39.2) 22 (36.7) 2 (100) [wn! <#~v  
Undergone surgery in the last 5 years, n (%) 19 (22.9) 20 (37.7) 10 (13.5) 29 (48.3) 0 (0.0) mb*|$ysPx  
Range of age at the time of surgery, years 39–84 40–87 39–87 45–85 52 dgT(]H  
Age at the time of surgery, years, mean ± SD 61.3 ± 9.7 60.5 ± 11.6 60.8 ± 10.6 63.4 ± 10.9 52 ± 0.0 <aQ5chf7  
Surgery in a government hospital, n (%) 72 (86.7) 44 (83.0) 63 (85.1) 53 (88.3) 0 (0.0) _2w8S\  
Surgery in a private hospital, n (%) 10 (12.1) 7 (13.2) 10 (13.5) 7 (11.7) 0 (0.0) /i(R~7;?  
Surgery in an eye camp, n (%) 1 (1.2) 0 (0.0) 1 (1.4) 0 (0.0) 0 (0.0) -l?\hmDl  
Surgery by traditionalist, n (%) 0 (0.0) 2 (3.8) 0 (0.0) 0 (0.0) 2 (100) 75;g|+  
Totally free surgery, n (%) 32 (38.6) 26 (49.1) H Nd? '  
Paid full price asked for surgery, n (%) 25 (30.1) 14 (26.4) >DR$}{IV  
Paid partial price asked for surgery, n (%) 26 (31.3) 13 (24.5) ;Q0H7)t:  
Totally free surgery in a government hospital, n (%) 55 (47.4) a?@lX>Z  
Full price surgery in a government hospital, n (%) 23 (19.8) QypUB f  
Partially paid surgery in a government hospital, n (%) 38 (32.8) / xCX. C  
Table 3. Characterization of cataract surgery outcomes; Koki and Rigo, Papua New Guinea (2005) mI5!rrRD|  
(a) 136 cataract surgeries 'cA(-ghY/E  
(b) 97 people with at least one eye operated on for cataract f([d/  
(c) 67 (69.1%) cataract operated people not currently using distance correction: 38 (56.7%) male; 29 (43.3%) female v {)8QF]  
Aphakia Pseudophakia Couched Q^):tO]!Ma  
n % n % n % >Q:h0b_$U  
Total 74 54.4 60 44.1 2 1.5 @a,}k<@E  
Presenting vision 6/18 or better 27 36.5 24 40 0 0.0 >fzFNcO*  
Presenting vision worse than 6/60 40 54.1 11 18.3 2 100 DB(!*6#?  
Aphakia Pseudophakia‡ Couched p3V?n[/}  
Unilateral† Bilateral n % n % a#a n+JY3  
n % n % M2I*_pI  
Total 28 28.9 17 17.5 51 52.6 1 1.0 Z=oGyA  
Presenting vision 6/18 or better in better eye 15 53.6 11 64.7 35 68.6 0 0.0 Z1{>"o:@  
Presenting vision worse than 6/60 in better eye 13 46.4 3 17.6 9 17.6 1 100 ._q<~_~R  
Reason n % z fu)X!t^  
Never provided 20 29.9 )FN$Jlo  
Damaged 2 3.0  F |aLF{  
Lost 3 4.5 V3ExS1fNf  
Do not need 42 62.6 g([M hf#  
†Unilateral aphakes with an unoperated contralateral eye. ‡Bilateral pseudophakes (n = 9) + those with one eye aphakic and the other KW/LyiP#  
pseudophakic (n = 12) + unilateral pseudophakes with an unoperated contralateral eye (n = 30). AWi+xo|  
884 Garap et al. qB3E  
© 2006 Royal Australian and New Zealand College of Ophthalmologists `1uGU[{x  
results to the entire population of PNG. However, this i&{%}==7  
study’s results are the most systematically collected and Mbn;~tY>  
objective currently available for eye care service planning. V>D }z8w7  
Based on this survey sample, the age-gender-adjusted qfjUJ/  
prevalence of vision impairment from all causes for those W}#n.c4+  
50 years and older in PNG is 29.2% (95% CI: 27.6, 35.1, +.Xi7x+#O  
deff = 2.3), with 13.1% (95% CI: 11.3, 15.1, deff = 1.2) due v-wZHkdd1  
to uncorrected refractive error.7 Cataract (7.4% [95% CI: *%*Bo9a/  
6.4, 10.2, deff = 1.3]) is the second most frequent cause. The =.w~qL  
adjusted prevalence for functional blindness from all causes P3nBxw"  
in people aged 50 years and older is 8.9% (95% CI: 8.4, 12.0, @8$z2  
deff = 1.2),7 with cataract the leading cause at 6.4% (95% i.\ e/9]f  
CI: 5.1, 7.3, deff = 1.1). This is typical of developing countries. Mmg~Fn  
However, atypically, it would seem that cataract blindness  tq?a3  
in PNG is not associated with female gender.9 `YqXF=-  
Assuming that ‘negligible’6 cataract blindness (less than (4#iLs  
5% at visual acuity less than 3/60,8 although it may be as _07$TC1  
much as 10–15% at less than 6/6010) occurs in the under EWQLLH"h
 
50 years age group, then, based on a 2005 population estimate @_W13@|  
of 5.545 million, PNG would be expected to currently x P/q[7>#Q  
have 32 000 (25 000–36 000) cataract-blind people. An U`5/tNx  
additional 5000 people in the 50 years and older age group CD%Cb53  
will have cataract-reduced vision (6/60 and better, but less H \'1.8g/  
than 6/18), along with an unknown number under the age of 64]8ykRD-  
50 years. jOzi89  
The age-gender-adjusted prevalence of those 50 years y#th&YC_b  
and older in PNG having had cataract surgery is 8.3% (95% "eqzn KT%u  
CI: 6.6, 9.8, deff = 1.3). Prevalences for males and females, !0vLSF=  
respectively, are 10.2% (95% CI: 7.7, 12.7) and 6.4% (95% &FuL{YL  
CI: 4.5, 8.4), with the expected9 association with male gender )(_NFp
M  
(age adjusted OR 1.6, 95% CI: 1.2, 2.1). Assuming negligible oOC&w0  
cataract surgery is performed on those under age v$w}UC%uf  
50 years (noting mean age and age range of surgery in P+=m.  
Table 2), there would be about 41 400 people in PNG today ;8dffsyq  
who have had this surgery. In the survey sample, 28.7% of *8po0s  
surgery occurred in the last 5 years (Table 2). Assuming that s]|tKQGl,  
there have been no deaths, annual surgical numbers have 841y"@*BY  
been steady during this time, and a population mean of the ?$T^L"~  
2000 and 2005 estimates, this would equate to about 2400 nO!&;E&  
people per year, being a Cataract Surgical Rate (CSR) of &pjj
 
approximately 440 per million per year. n:2._s T  
Unfortunately, no operation numbers are available from M=lU`Sm  
the private Port Moresby facility, which contributed 12.5%
C=]<R<Xy  
(Table 2) of the surgeries in this study. However, from _U-` /r o  
records and estimates, outreach, government and mission E}v8Q~A(  
hospital surgical services perform approximately 1600 cataract *YL86R+U  
surgeries per year. Excluding the private hospital, this go A=U  
equates to a CSR of about 300 per million population per =y_KL
  
year. V7r_Ubg@K  
Whatever the exact CSR, certainly less than the WHO (RV#piM  
estimate of 716,11 the order of magnitude is typical of a
AvB=/p@]  
country with PNG’s medical infrastructure, resourcing and ()bQmNqmO=  
bureacratic capability.11 With the exception of the Christian [rWBVfm  
Blind Mission surgeon, who performs in excess of 1000 cases K) fKL   
per year, PNG’s ophthalmologists operate, on average, on h7^&:  
fewer than 100 cataracts each per year. This is also typical.6 v/9ZTd  
It will be evident that the current surgical capability in e15yDwvB  
PNG is insufficient to address the cataract backlog. The ?]$<Ufr  
CSC(Persons) of 45.3%, relating directly to the prevalence rKUtTj  
of bilateral cataract blindness, and CSC(Eyes) of 34.5%, hTzj{}w  
relating to the total surgical workload, are in keeping with j1%8r*Jj  
other developing countries.6,8,10 If an annual cataract blindness $rmxwxz&W:  
incidence of 20% of prevalence12 is accepted, and surgery 6XF Ufi+  
is only performed on one eye of each person, then 6400 ;!A8A4~nu  
(5000–7200) surgeries need to be performed annually to meet BVNJas   
this. While just addressing the incidence, in time the backlog rzIWQ Fv  
will reduce to near zero. This would require a three- or R/Bjc}J'  
fourfold increase in CSR, to about 1200. Despite planning z$R&u=J  
for this and the best of intentions, given current circumstances 5\C(2naf  
in PNG, this seems unlikely to occur in the near future. [0y,K{8t  
Increasing the output of surgical services of itself will be Ye&/O<G'V  
insufficient to reduce cataract-related blindness. As measured i/+^C($'f  
by presenting acuity, the outcome of cataract surgery is poor //BJaWq  
(Table 3). Neither the historical intracapsular or current RU7+$Z0K  
intraocular lens surgical techniques approach WHO outcome Ja:4EU$Lu  
guidelines of more than 80% with 6/18 and better 6E-eD\?I&  
presenting vision, and less than 5% presenting functionally O}zHkcL  
blind.13 Better outcomes are required to ensure scarce jH9PD 8D\  
Table 4. Reasons that cataract-blind (worse than 6/60) people do not seek or undergo cataract surgery; Koki and Rigo, Papua New Guinea syW[uXNLZ  
(2005) X^N6s"2  
90 people functionally blind due to cataract ^3$U[u%q/{  
Responses by 41 f&4+-w.:V|  
males (45.6%) !~9ASpqvPy  
Responses by 49 hRX9Du`$  
females (54.4%) 1[O cZCS  
Responses by all [-VH%OM  
n % n % n % 8xAIn>,_  
Lack of awareness of cataract and the possibility of surgery 18 43.9 28 57.1 46 50.1 V'=;M[&  
Too old to do anything about vision 7 17.1 6 12.2 13 14.4 !AE;s}v)0{  
Believes unable to afford surgery 10 24.4 7 14.3 17 18.9 g4=1['wW  
No time available to attend surgery 4 9.8 6 12.2 10 11.1 c=\_[G(  
Waiting for cataract to mature 4 9.8 5 10.2 9 10.0 iXo;e  
None available to accompany person to surgery 4 9.8 2 4.1 6 6.7 [k\VUg:P  
Fear of the surgery 2 4.9 6 12.2 8 8.9 X5/j8=G H`  
Believes no services available 2 4.9 2 4.1 4 4.4 yg'CL/P  
Cataract and its surgery in Papua New Guinea 885 #oTVfY#  
© 2006 Royal Australian and New Zealand College of Ophthalmologists e8 ]C
 B  
resources are well used.14 Routine monitoring of surgical #M!$CGi (  
activity and outcome, perhaps more likely to occur if done "r@#3T$  
manually, may contribute to an improvement.15,16 So too 4N$Wpx  
would better patient selection, as many currently choose not zqdkt `  
to wear postoperation correction because they see well 
^2Cqy%x-  
enough with the fellow eye (Table 3). Improving access to cQ-#]  
refraction and spectacles will also likely improve presenting Tdh.U
{Nz  
acuities (Table 3). 33lh~+C  
Of those cataract blind in the survey, 50.1% claimed to vzI>:Bf  
be unaware of cataract and the possibility of surgery liPrxuP`  
(Table 4). However, even when arrangements, including |+Rx)  
transportation, were made for study participants with visually h/
\Zq  
significant cataract to have surgery in Port Moresby, not k8stXW-w  
all availed themselves of this opportunity. The reasons for >ph=?MKD  
this need further investigation. > Vq07R  
Despite the apparent ignorance of cataract among the +sn0bi/rG  
population, there would seem little point in raising demand /1/'zF&R-  
and expectations through health promotion techniques until 0N !rIz  
such time as the capacity of services and outcomes of surgery h& 4#5{=  
have been improved. Increasing the quantity and quality of B]yO  
cataract surgery need to be priorities for PNG eye care uaP5(hUI  
services. The independent Christian Blind Mission Goroka /!Ag/SmS!9  
and outreach services, using one surgeon and a wellresourced J3aom,$o  
support team, are examples of what is possible, /V+7:WDj  
both in output and in outcome. However, the real challenge z[[qrR  
is to be able to provide cataract surgery as an integrated part #s\yO~F-  
of a functioning service offering equitable access to good eye cy6YajOk7  
health and vision outcomes, from within a public health Xbx=h^S  
system that needs major attention. To that end, registrar Fg p|gw4  
training and referral hospital facilities and practice are being ZGh6- /  
improved. Q$p3cepsK  
It may be that the required cataract service improvements )Dhx6xM[a  
are beyond PNG’s under-resourced and managed public g51UIN]o-  
health system. The survey reported here provides a baseline x76;wQ  
against which progress may be measured. X^&--@l}T!  
ACKNOWLEDGEMENTS _Ad63.Uq))  
The authors thankfully acknowledge the technical support -8"
K|ev  
provided by Renee du Toit and Jacqui Ramke (The International "usPzp5  
Centre for Eyecare Education), Doe Kwarara (FHFPNG } @3q;u)  
Eye Care Program) and David Pahau (Eye Clinic, Port p {.6  
Moresby General Hospital). Thanks also to the St Johns 8]
#J_|A6Z  
Ambulance Services (Port Moresby) volunteers and staff for #$U/*~m $  
their invaluable contribution to the fieldwork. This survey EUrIh2.Z  
was funded in part by a program grant from New Zealand }3WP:E
t  
Agency for International Development (NZAID) to The %'. x vC
  
Fred Hollows Foundation (New Zealand). b O}&i3.L;  
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7. &t!f dti  
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