Cataract and its surgery in Papua New Guinea

Clinical and Experimental Ophthalmology
&XrF#s  
2006; %do|>7MO@  
34 |+suGqo  
: 880–885 }eEF/o  
doi:10.1111/j.1442-9071.2006.01342.x @B7;
  
© 2006 Royal Australian and New Zealand College of Ophthalmologists 0kmVP~K  

]2h~Db=  
Correspondence: w2/%e$D!9  
Dr Garry Brian, 5 Hazelmere Parade, Sherwood, Qld 4075, Australia. Email: grbrian@tpg.com.au %#/7Tl:  
Received 11 April 2006; accepted 19 June 2006. *5*d8;@>  
Original Article k}F;e_  
Cataract and its surgery in Papua New Guinea 4)v\Dc/9i  
Jambi N Garap gbXzD`WQ  
MMed(Ophthal) F'pD_d9]e  
, 2s|[!:L5  
1,2 xqbI~jV#  
Sethu Sheeladevi }I05&/o.3p  
MHM +es.V /  
, h=d&@k\g  
3 ={#r/x  
Garry Brian 9.vHnMcq  
FRANZCO sI9~TZ :  
, *(D_g!a  
2,4 z~z.J]  
BR Shamanna :t\PYDp1  
MD K<Iz5+oD  
, ``>WFLWTn  
3 `(*5
yXC  
Praveen K Nirmalan }1X,~y]  
MPH 9FJU'$FN  
3 WlWBYnphZs  
and Carmel Williams |`:Uww+3  
MA O3Ks|%1  
4 urXM}^  
1 '3%!Gi!g  
The Fred Hollows Foundation – Papua New Guinea Eye Care Program, #_|b;cf  
2 0r:8ni%cL  
Department of Ophthalmology, School of Medicine and Health h2h$ UZIv  
Sciences, University of Papua New Guinea, Port Moresby, Papua New Guinea; $n(@hT>?  
3 )1H]a'j  
International Center for Advancement of Rural Eye Care, 0D$+WX  
L.V. Prasad Eye Institute, Hyderabad, India; and U/0NN>V  
4 .\*\bvyCw  
The Fred Hollows Foundation (New Zealand), Auckland, New Zealand 7&m*: J  
Key words: NoDq4>   
blindness i"sVk8+o!  
, "6Ly?'HK  
cataract D@O'8  
, jG{xFz>x  
Papua New Guinea Y @pkfH  
, f-4<W0%  
surgery 8oN4!#:  
, R
OQk^  
vision impairment p5G O@^i  
. CF =#?+x  
I 9OXrz}8C  
NTRODUCTION OuS{ve  
Just north of Australia, tropical Papua New Guinea (PNG) Es[?yft2Q<  
has more than five million people spread across several major \!z=x#!O$  
and hundreds of other smaller islands. Almost 50% of the 9r\8  !R  
land area is mountainous, and 85% of inhabitants are rural 8>Ervi`  
dwellers. Forty per cent of the population is age 14 years or mxGvhkj  
younger, and 9% is 50 years or older. s( 2=E|  
1 QF[9Zn  
Papua New Guinea was administered by Australia until >\(Ma3S   
1975, when independence was granted. Since that time, governance, =eTI@pN`  
particularly budgetary, economic performance, law k=nfo-h  
and justice, and development and management of basic 4ol=YGCI_  
health and other services have declined. Today, 37% of the J6NQ5S\  
population is said to live below the poverty line, personal  6~$<  
and property security are problematic, and health is poor. --",}%-  
There are significant and growing economic, health and education 5g/^wKhKG  
disparities between urban and rural inhabitants. "%A[%7LY  
Papua New Guinea has one referral hospital, in Port wrGd40  
Moresby. This has an eye clinic with one part-time and two SuGlNp>#qm  
full-time consultant ophthalmologists, and several ophthalmology YVu8/D@ o  
training registrars. There are also two private ophthalmologists (IJf2  
in the city. Elsewhere, four provincial hospitals vlzjALy  
have eye clinics, each with one consultant ophthalmologist. 9OT2yCT  
One of these, supported by Christian Blind Mission and EB@!?=0x  
based at Goroka, provides an extensive outreach service. 3^1)W!n/  
Visiting Australian and New Zealand ophthalmology teams [.dNX  
and an outreach team from Port Moresby General Hospital T']*h8  
provide some 6 weeks of provincial service per year. y~ ^>my7G  
Cataract and its surgery account for a significant proportion K"-N:OV  
of ophthalmic resource allocation and services delivered GXJ3E"_.  
in PNG. Although the National Department of Health keeps mn0QVkb}lc  
some service-related statistics, and cataract has been considered "NC(^\l/  
in three PNG publications of limited value (two district =bv8W <#  
service reports mpr["C"l  
2,3 r<C^hs&]  
and a community assessment :MJBbrV ,  
4 :p8JO:g9  
), there has -6t# ?Dkc'  
been no systematic assessment of cataract or its surgery. z^B!-FcIz>  
A @&EE/j^  
BSTRACT 66Hu<3X P  
Purpose: |S>nfL{TQe  
To determine the prevalence of visually significant dF1Bo  
cataract, unoperated blinding cataract, and cataract surgery 3UrqV`x \  
for those aged 50 years and over in Papua New Guinea. /!AdX0dx  
Also, to determine the characteristics, rate, coverage and ;'J L$=  
outcome of cataract surgery, and barriers to its uptake. "OK(<x]3;>  
Methods: -*yj[?6  
Using the World Health Organization Rapid cs@5K$v  
Assessment of Cataract Surgical Services protocol, a population- W" !nf  
based cross-sectional survey was conducted in B8a!"AQ~5  
2005. By two-stage cluster random sampling, 39 clusters of |'KNR]: N  
30 people were selected. Each eye with a presenting visual !+fHdB  
acuity worse than 6/18 and/or a history of cataract surgery `L9o!OsQ  
was examined. =1+I<Ljk  
Results: D 3Int0n  
Of the 1191 people enumerated, 98.6% were -,4_ &V  
examined. The 50 years and older age-gender-adjusted bWMM[ pnL  
prevalence of cataract-induced vision impairment (presenting x!"!oJG^k  
acuity less than 6/18 in the better eye) was 7.4% (95% _BW$?:)9  
confidence interval [CI]: 6.4, 10.2, design effect [deff] a`|/*{  
= m+uh6IqN./  
1.3). u)Y#&qA  
That for cataract-caused functional blindness (presenting yUH8  
acuity less than 6/60 in the better eye) was 6.4% (95% CI: sDbALAp +  
5.1, 7.3, deff qw_qGgbl  
= j83p[qR7o  
1.1). The latter was not associated with }#yRaIp  
gender ( 1/#N{rZ  
P ~:+g+Mf~[  
= PfuYT_p4s  
0.6). For the sample, Cataract Surgical Coverage W}.4$f>  
at 6/60 was 34.5% for Eyes and 45.3% for Persons. The 1W/= =+%I  
Cataract Surgical Rate for Papua New Guinea was less than Js=|r;'  
500 per million population per year. The age-genderadjusted ?W(wtp,o  
prevalence of those having had cataract surgery w=^*)jZ8  
was 8.3% (95% CI: 6.6, 9.8, deff s;5PHweWf  
= {1SxM /  
1.3). Vision outcomes of H%%#^rb^  
surgery did not meet World Health Organization guidelines. WO}JIExy  
Lack of awareness was the most common reason for not Z;n}*^U  
seeking and undergoing surgery. pP".?|n  
Conclusion: qKSM*k~  
Increasing the quantity and quality of cataract sxsM%Gb?H  
surgery need to be priorities for Papua New Guinea eye A: @=?(lI3  
care services. @u$oqjK  
Cataract and its surgery in Papua New Guinea 881 dmF<J>[  
© 2006 Royal Australian and New Zealand College of Ophthalmologists +T4<}+n  
This paper reports the cataract-related aspects of a population- FS@SC`~(  
based cross-sectional rapid assessment survey of  Z-vzq;  
those 50 years and older in PNG. I
O6i  
M 1DLQZq  
ETHODS \T[*|"RFZ  
The National Ethical Clearance Committee of The Medical s!+?)bB  
Research Advisory Committee granted ethics approval to [I^SKvM  
survey aspects of eye health and care in Papua New Guinea a}Ov@7  
(MRAC No. 05/13). This study was performed between `9wz:s QtP  
December 2004 and March 2005, and used the validated "1[N;|xa  
World Health Organization (WHO) Rapid Assessment of +HfjnEbtBs  
Cataract Surgical Services TvQAy/Y0  
5,6 i"-#1vy=  
protocol. Characterization of }`h}h<B(  
cataract and its surgery in the 50 years and over age group :
#gz)r  
was part of that study. d-?~O~qD|!  
As reported elsewhere, Y&j6;2-Z  
7 4bJ3uIP#  
the sample size required, using a V*)6!N[5  
prevalence of bilateral cataract functional blindness (presenting @RnGK 5  
visual acuity worse than 6/60 in both eyes) of 5% in the 0CDTj,eK  
target population, precision of B@s\>QMm  
± 
CId`6W  
20%, with 95% confidence ,)QmQ^/  
intervals (CI), and a design effect (deff) of 1.3 (for a cluster / _cOg? o  
size of 30 persons), was estimated as 1169 persons. The [t6)M~&e:_  
sample frame used for the survey, based on logistics and :}GxJT4  
security considerations, included Koki wanigela settlement t4JGd)r  
in the Port Moresby area (an urban population), and Rigo $>BP}V33  
coastal district (a rural population, effectively isolated from L@2H>Lh35  
Port Moresby despite being only 2–4 h away by road). From 2.NzB7c*CM  
this sample frame, 39 clusters (with probability proportionate a v`eA`)S  
to population size) were chosen, using a systematic random bh_ALu^CSX  
sampling strategy. @.g4?c  
Within each cluster, the supervisor chose households Dnp^yqz*  
using a random process. Residency was defined as living in aI\VqOt]  
that cluster household for 6 months or more over the past {<]abO  
year, and sharing meals from a common kitchen with other KS|$_-7u  
members of the household. Eligible resident subjects aged T[7DJNdG6  
50 years and older were then enumerated by trained volunteers i$F)h<OU+  
from the Port Moresby St John Ambulance Services. 'WOWm$2  
This continued until 30 subjects were enrolled. If the V]<dh|x  
required number of subjects was not obtained from a particular w?/,LV  
cluster, the fieldworkers completed enrolment in the OC[a?#R1  
nearest adjacent cluster. Verbal informed consent was #uH1!UQb  
obtained prior to all data collection and examinations. *;}!WDr  
A standardized survey record was completed for each Z$pR_dazU  
participant. The volunteers solicited demographic and general BHU[Rz7x  
information, and any history of cataract surgery. They ,fNiZ  
also measured visual acuity. During a methodology pilot in "2; UXX-H  
the Morata settlement area of Port Moresby, the kappa statistic r&H>JCRZ<=  
for agreement between the four volunteers designated ~+d]yeDrhx  
to perform visual acuity estimations was over 0.85. I,#U _  
The widely accepted and used ‘presenting distance visual `
n_ Z  
acuity’ (with correction if the subject was using any), a measure m2V4nxw]Qp  
of ocular condition and access to and uptake of eye care xE9s=}  
services, was determined for each eye separately. This was l/1uP  
done in daylight, using Snellen illiterate E optotypes, with dXOjaS# ~  
four correct consecutive or six of eight showings of the [oYe/<3  
smallest discernible optotype giving the level. For any eye 6znm?s@
~  
with presenting visual acuity worse than 6/18, pinhole acuity [2
Rp.?  
was also measured. kTnvD|3_!P  
An ophthalmologist examined all eyes with a history of 7N""w5  
cataract surgery and/or reduced presenting vision. Assessment @ce4sSo  
of the anterior segment was made using a torch and k"n
#4o:  
loupe magnification. In a dimly lit room, through an undilated E lYHA  
pupil, the status of the visually important central lens S#""((U$  
was determined with a direct ophthalmoscope. An intact red ;DGWUK.U[H  
reflex was considered indicative of a ‘normal’ clear central R `'@$"  
lens. The presence of obvious red reflex dark shading, but W6*(Y  
transparent vitreous, was recorded as lens opacity. Where ^ZV xBQKg  
present, aphakia and pseudophakia with and without posterior 9\"
~G)  
capsule opacification were noted. The lens was determined 0m@S+$v  
to be not visible if there were dense corneal opacities WT
d}) s  
or other ocular pathologies, such as phthisis bulbi, precluding &"CS1P|  
any view of the lens. The posterior segment was examined TS%cTh'ItH  
with a direct ophthalmoscope, also through an 0zfrx-'zN  
undilated pupil. IAtZ-cM<  
A cause of vision loss was determined for each eye with qH(2 0Z!  
a presenting visual acuity worse than 6/18. In the absence of |W::\yu6  
any other findings, uncorrected refractive error was considered !YoKKG~_0  
to be that cause if the acuity then improved to better . X Y'l  
than 6/18 with pinhole. Other causes, including corneal }^iE|YKz  
opacity, cataract and diabetic retinopathy, required clinical kiECJ@ 5p  
findings of sufficient magnitude to explain the level of vision  ,cB`j7p(  
loss. Although any eye may have more than one condition >0m-S :lk  
contributing to vision reduction, for the purposes of this rXaL1` t*  
study, a single cause of vision loss was determined for each h(zi$V  
eye. The attributed cause was the condition most easily InDR\=o  
treated if each of the contributing conditions was individually LD5'4,%-  
treatable to a vision of 6/18 or better. Thus, for example, Vt&I[osC  
when uncorrected refractive error and lens opacity coexisted, 7eO8cPy
 
refractive error, with its easier and less expensive treatment, :DZiDJ@  
was nominated as the cause. Where treatment of a condition j9,X.?Xvx  
present would not result in 6/18 or better acuity, it was Tu"yoF  
determined to be the cause rather than any coincident or DQRt\!  
associated conditions amenable to treatment. Thus, for =];FojC6I  
example, coincident retinal detachment and cataract would v:+se6HY?p  
be categorized as ‘posterior segment pathology’. u|Ai<2b$  
Participants who were functionally blind (less than 6/60 Z,2
uN!6  
in the better eye) because of unoperated cataract were interrogated gi`ZFq@  
about the reasons for not having surgery. The kfHLj r.  
responses were closed ended and respondents had the option VOiphw`  
of volunteering more than one barrier, all of which were ~:0h o  
recorded in a piloted proforma. The first four reasons offered q}8R>`Z{  
were considered for analysis of the barriers to cataract U-Iwda8v  
surgery. %AJdtJ@0H  
Those eyes previously operated for cataract were examined }skXh_Vu4  
to characterize that surgery and the vision outcome. A b1^MX).vH  
detailed history of the surgery was taken. This included the .FC1:y<aO  
age at surgery, place of surgery, cost and the use of spectacles fL@[B{XMM  
afterward, including reasons for not wearing them if that was ZE1#{u~[y  
the case. 3sL#_@+yz  
The Rapid Assessment of Cataract Surgical Services data ;^xku%u  
entry and analysis software package was used. The prevalences `Ffn:=Do  
of visually significant cataract, unoperated blinding 4v{gc/g  
cataract and cataract surgery were determined. Where prevalence %>s y`c  
estimates were age and gender adjusted for the population D]0#A|nF  
of PNG, the estimated population structure for the 1,/oS&?E  
882 Garap $DQMN  
et al. KUp lN1Sy  
© 2006 Royal Australian and New Zealand College of Ophthalmologists Lkb?,j5  
year 2000 )S5Q5"j&=f  
1 M^bujGD  
was used, and 95% CI were derived around these )cvC9gt  
point estimates. Additional analysis for potential associations avT>0b:  
of cataract, its surgery and surgical outcomes employed the EBn7waBS  
STATA (version 8.0; StataCorp LP, TX, USA). Fisher’s exact $}jSIn=~|t  
test and the chi-square test for bivariate analysis and a multiple m*(8I=]q  
logistic regression model for multivariate analysis were e06r5%|.%  
used. Odds ratios (OR) and 95% CI were estimated. A kmuF*0Bjk  
P *%MY. #  
- OW6i2>Or  
value of {!<zk+h$  
< 6.k2,C4dT<  
0.05 was taken as significant for this analysis. =XqmFr;h  
The Cataract Surgical Coverage (Eyes) (CSC(Eyes)) was x&kF;UC  
calculated. This is a surgical service impact indicator. It measures y0z}[hZ  
the proportion of cataract that has been operated on z S^:Ng5  
in a defined population at a particular point in time, being :V >Z|?[*H  
the eyes having had cataract surgery as a percentage of the iptzVr#b[  
combined total of all of those eyes operated with those a*o=,!  
currently blind (less than 6/60) from cataract (CSC(Eyes) at b&0q%tCK  
6/60 ] @IzJz"R  
= WJl&Vyl2FL  
100 x
C{W_a(  
a ?a(ApD\  
/( 0*+i~g,Kl@  
a sv =6?uYW  
+ +$P0&YaQ  
b rBT#Cyl  
), where meE&, {  
a 6=iz@C7r  
= s:6H^DQ"C  
pseudophakic 7RDfhKdb  
+ L%Me wU0TZ  
aphakic eyes, YGN
O]Q~A  
and jsjH.O  
b :<!a.%=  
= e'p'{]r<w  
eyes with worse than 6/60 vision caused by cataract). pm@Mlwg`1  
8 ~CQsv`
 
The Cataract Surgical Coverage (Persons) (CSC(Persons)) G D$o|l]\  
was determined. This considers people with operated 4uwI=
UUB  
cataract (either or both eyes) as a proportion of those having 8.bdN]zn  
operable cataract. (CSC(Persons) at 6/60 I^emH+!MW  
= 9-5H~<}fF  
100( wL\OAM6R  
x <Y9%oJn%  
+ 9rf6,hF  
y Y({&}\o  
)/ p D-k<8|
 
( ]r
i5mnB  
x yb\T<*  
+ ibAZ=
RD  
y "wy|gnQJ  
+ W US[hx,  
z P{-j^'y  
), in which B]iPixA6  
x H65><38X/  
= C9OEB6  
persons with unilateral pseudophakia '{*{  
or unilateral aphakia and worse than 6/60 vision xq$(=WPI  
caused by cataract in the other eye, u
Gt}Hn  
y A{NKHn>%`  
= wz`\RHL  
persons with bilateral oN({X/P2j  
previously operated cataract, and CiF(   
z *@)0TL(03  
= MD|T4PPz,}  
persons with bilateral H?oBax:  
cataract causing vision worse than 6/60 in each). ``mnk>/  
8 ] MP*5U>;  
The Cataract Surgical Rate, being the number of cataract f.)z_RyGd  
operations per year per million of population, was also aW=c.Q.  
estimated. # RoJD:9  
R ty 
ESDp%  
ESULTS (;!92ct[?  
Of the 1191 people enumerated, 5 subjects were not available  B_Ul&V  
during the survey and 12 refused participation. Data `D-P
}hDm!  
from these 17 were not considered in the analysis. Of the (1IYOlG4  
remaining 1174 (98.6%), 606 (51.6%) were female, and 914 JkShtLEr  
(77.9%) were domiciled in rural Rigo. #B2a?   
Cataract caused 35.2% of vision impairment (presenting )d~{gPr.  
vision less than 6/18) and 62.8% of functional blindness (n{x"rLy/  
(presenting vision less than 6/60) in the 2348 eyes sampled d4~;!#<  
(Table 1). It was second to refractive error (45.7%) b1TIVK3m  
7 dl]pdg<  
in the D~ogq]  
former, and the leading cause of the latter. ObPXVqG"?  
For the 1174 subjects, cataract was the most prevalent VQ"Z3L3-4  
cause of vision impairment (46.7%) and functional blindness CZ33|w  
(75.0%) (Table 1). On bivariate analysis, increasing age ]-j.\+(*  
( 9r.h^  
P f@@7?5fW  
< $PstE
L  
0.001), illiteracy ( gc\/A\F<  
P bey:Qj??  
< $l $p|  
0.001) and unemployment .C\2f+(U  
( 2YDD`:R  
P u`CHM:<<?  
< #iKPp0`K*  
0.001) were associated with cataract-induced functional }a!ny  
blindness. Gender was not significantly associated ( O3V.4tp  
P 2`^6``  
= Mkh/+f4  
0.6). %iB,hGatE  
In a multivariate model that included all variables found @HzK)%@  
significant in bivariate analysis, increasing age (reference category ;Fo7 -kK  
50–59 years; OR: 2.6, 95% CI: 1.6, 5.9 for persons  Q 'ZZQ  
aged 60–69, OR: 9.8, 95% CI: 4.6, 20.6 for persons aged RBz"1hRo`  
70–79, and OR: 18.6, 95% CI: 8.3, 41.9 for persons aged IgjPy5k  
80 years and older) and illiteracy (OR 2.2, 95% CI 1.3, 3.8) E-%$1=;  
were associated with functional cataract blindness. q*Oj5;  
The survey sample included 97 people (8.3%) who had <:!E'WT#f  
previously undergone cataract surgery, for a total of 136 eyes l{*m-u5&;  
(5.8%). On bivariate analysis, increasing age ( ScjeAC)  
P yEMM@5W)8  
= LF`]=.Q  
0.02), male 8[.&ca/[  
gender ( q:nUn?zB  
P ])G|
U A.  
= 3dz{"hV  
0.02), literacy ( fWC(L s  
P M,
W-,l ]  
< ]#[4eaCg  
0.001) and employed status $}IG+,L  
( EXF]y}n  
P :IU<AG6  
= M)ao}m>  
0.03) were associated with cataract surgery. Illiteracy GGo~39G  
was significantly associated with reduced uptake of cataract !4`:(G59  
surgery (adjusted OR 0.43, 95% CI: 0.20, 0.91) in a multivariate Q>$l
f.)  
model that adjusted for age, gender and employment }t"K(oamm  
status. C~ A
`h=A<  
The CSC(Eyes) at 6/60 for the survey sample was s?s,wdp  
34.5%, and the CSC(Persons) at the same vision level was ; wxmSX9  
45.3%.
@ ;@~=w  
Most cataract surgery occurred in a government hospital i#^YQCy  
( .#Nf0  
P =L@CZ "  
< /_HTW\7,  
0.001), more than 5 years ago ( `#w#!@s#@  
P (,t[`z  
< E%;$vj'2  
0.001). Also, most
vE8BB$D  
of the intracapsular extractions were performed more than TDbSK&w :s  
5 years ago ( Ywv\9KL  
P )A%* l9\nG  
< TQKcPVlE  
0.001). Patients are now more likely to 0>Td4qr+u  
receive intraocular lens surgery ( /\<x8BJ  
P wkPjMmW+!  
< CshME\ /  
0.001). Although most ra6\+M~}e  
surgery was provided free ( Y3~z#<  
P K AD2_@l  
= RM,aG}6M)M  
0.02), males, who were more T@{ab1KV  
likely to have surgery ( ]\ !ka/%  
P u?fM.=/N  
= hu} vYA7ZH  
0.02), were also more likely to q2J
|koT  
pay for it ( DZ\ '7%c  
P n{<}<SVY  
= K> 4w
 
0.03) (Table 2). )`{m |\b  
As measured by presenting acuity, the vision outcomes of QEbf]U=  
both intracapsular surgery and intraocular lens surgery were @VW1^{.do^  
poor (Table 3). However, 62.6% of those people with at least S>h\D
4.  
Table 1. "_LqIW1  
Vision impairment and blindness by eye and person; Koki and Rigo, Papua New Guinea (2005) spm)X-[1  
Category 2348 eyes/1174 people surveyed Z2yO /$<  
Vision impairment Blindness j;E$7QH[  
Eye (presenting a%U#PF6   
visual acuity less than 6/18) (B$>o.
(JA  
Person (presenting visual T(Q ~b  
acuity less than 6/18 in the "= %"@"<)  
better eye) e(a,nZF.  
Eye (presenting visual 41d+z>a]  
acuity less than 6/60) 8@LWg d  
Person (presenting visual
"ldd&><  
acuity less than 6/60 in the ,
aUbB8  
better eye) P2f^]z  
Total Cataract Total Cataract Total Cataract Total Cataract =v::N\&  
n Ri`6X_xU  
% ^o _J0 ]m  
n ;Wy03}K4J  
% g9JZ#BgZ  
n (!5Pl`:j"  
% l#T%N@
X  
n ]o"E4Vht  
% oz.z>+Q  
n D6?h 6`J  
% 9'sZi}rT  
n y7!&  
% O.QR1  
n L
-}Uj^yF  
% u&S0  
n |y0k}ed  
% j
#: ARb  
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
|:#Ug  
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 sUc[!S:/  
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 "\}h  
80 bfncO[Q,?  
+ nIlTzrf6  
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 <a=O iY  
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 #W8?E_iu  
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 2SlL`hN>Z  
All cases 952 100 335 35.2 368 100 172 46.7 411 100 258 62.8 120 100 90 75 )7+z/y+[n  
Cataract and its surgery in Papua New Guinea 883 $)KODI>|  
© 2006 Royal Australian and New Zealand College of Ophthalmologists mejNa(D ^  
one eye operated on for cataract felt that their uncorrected
^W@8KB  
vision, using either or both eyes, was sufficiently good that {j`8XWLZZN  
spectacles were not required (Table 3). s1::\&`za  
‘Lack of awareness of cataract and the possibility of surgery’ U*yOe*>  
was the most common (50.1%) reason offered by 90 ]v>[r?X#V  
cataract-induced functionally blind individuals for not seeking 7R79[:uwJ  
and undergoing cataract surgery. Males were more likely v%2Dz  
to believe that they could not afford the surgery (P = 0.02), Vi^vG`L9  
and females were more frequently afraid of undergoing a @uV]7d"z(  
cataract extraction (P = 0.03) (Table 4). ?<N} Xh  
DISCUSSION l8+)Xk>  
The limitations of the standardized rapid assessment methodology JtMl/h  
used for this study are discussed elsewhere.7 Caution ,66(*\xT  
should be exercised when extrapolating this survey’s C_q2bI  
Table 2. Circumstances of cataract surgery; Koki and Rigo, Papua New Guinea (2005) FMF mn|  
Category 136 cataract surgeries "bRjY?D  
Male Female Aphakia >iK L C  
(n = 74) n=~!x  
Pseudophakia eE .wnn  
(n = 60) YG=:lf  
Couched NCzabl  
(n = 2) u0k'Jh]K  
Male, n (%) 83 (61.0) 45 (60.8) 38 (63.3) 0 (0.0) ;3& wO~lW  
Female, n (%) 53 (39.0) 29 (39.2) 22 (36.7) 2 (100) "'Gq4<&y  
Undergone surgery in the last 5 years, n (%) 19 (22.9) 20 (37.7) 10 (13.5) 29 (48.3) 0 (0.0) `~lG5|  
Range of age at the time of surgery, years 39–84 40–87 39–87 45–85 52 [X]hb7-&  
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 [hH>BEtm  
Surgery in a government hospital, n (%) 72 (86.7) 44 (83.0) 63 (85.1) 53 (88.3) 0 (0.0) SQU@JKi;g  
Surgery in a private hospital, n (%) 10 (12.1) 7 (13.2) 10 (13.5) 7 (11.7) 0 (0.0) _D{FQRU<YD  
Surgery in an eye camp, n (%) 1 (1.2) 0 (0.0) 1 (1.4) 0 (0.0) 0 (0.0) CXz9bhn<4  
Surgery by traditionalist, n (%) 0 (0.0) 2 (3.8) 0 (0.0) 0 (0.0) 2 (100) @m%B>X28F  
Totally free surgery, n (%) 32 (38.6) 26 (49.1) NW;_4g4qE  
Paid full price asked for surgery, n (%) 25 (30.1) 14 (26.4) e&ZH 1^O  
Paid partial price asked for surgery, n (%) 26 (31.3) 13 (24.5) =Xid"$  
Totally free surgery in a government hospital, n (%) 55 (47.4) M3!;u%~}s  
Full price surgery in a government hospital, n (%) 23 (19.8)
!h
}Vz  
Partially paid surgery in a government hospital, n (%) 38 (32.8) jJvd!,=)  
Table 3. Characterization of cataract surgery outcomes; Koki and Rigo, Papua New Guinea (2005) &Y9%Y/Y  
(a) 136 cataract surgeries r+#g  
(b) 97 people with at least one eye operated on for cataract KdZ=g ZSH  
(c) 67 (69.1%) cataract operated people not currently using distance correction: 38 (56.7%) male; 29 (43.3%) female x@O)QaBN!  
Aphakia Pseudophakia Couched *'M+oi  
n % n % n % W:wSM*  
Total 74 54.4 60 44.1 2 1.5 L:@COy  
Presenting vision 6/18 or better 27 36.5 24 40 0 0.0 ~@<o-|#  
Presenting vision worse than 6/60 40 54.1 11 18.3 2 100 ?=_w5D.3J  
Aphakia Pseudophakia‡ Couched qyy.&+  
Unilateral† Bilateral n % n % C~.\2D`zy  
n % n % ih75C"  
Total 28 28.9 17 17.5 51 52.6 1 1.0 ?/@XJcm+  
Presenting vision 6/18 or better in better eye 15 53.6 11 64.7 35 68.6 0 0.0 tOk=m'aUK  
Presenting vision worse than 6/60 in better eye 13 46.4 3 17.6 9 17.6 1 100 )`W|J%w+  
Reason n % +Qzl-eN/+  
Never provided 20 29.9 EUgKJ=jw  
Damaged 2 3.0 u~'_Uqp  
Lost 3 4.5 w_QW TD0  
Do not need 42 62.6 sUxE m}z  
†Unilateral aphakes with an unoperated contralateral eye. ‡Bilateral pseudophakes (n = 9) + those with one eye aphakic and the other wJgGw5  
pseudophakic (n = 12) + unilateral pseudophakes with an unoperated contralateral eye (n = 30). 0f3>s>`M  
884 Garap et al. 5yV>-XT+-  
© 2006 Royal Australian and New Zealand College of Ophthalmologists @l_rB~  
results to the entire population of PNG. However, this w'xPKO$bzR  
study’s results are the most systematically collected and g86^Z%c(k  
objective currently available for eye care service planning. rT4qx2u  
Based on this survey sample, the age-gender-adjusted y<v-,b*  
prevalence of vision impairment from all causes for those *'{9(Oj  
50 years and older in PNG is 29.2% (95% CI: 27.6, 35.1, 3_i29ghv  
deff = 2.3), with 13.1% (95% CI: 11.3, 15.1, deff = 1.2) due D7B g!*  
to uncorrected refractive error.7 Cataract (7.4% [95% CI: 4VsttT  
6.4, 10.2, deff = 1.3]) is the second most frequent cause. The &t6SI'  
adjusted prevalence for functional blindness from all causes {irl}EeyC  
in people aged 50 years and older is 8.9% (95% CI: 8.4, 12.0, 2G:KaQ)  
deff = 1.2),7 with cataract the leading cause at 6.4% (95% K\lu;   
CI: 5.1, 7.3, deff = 1.1). This is typical of developing countries. {p(6bsn_#]  
However, atypically, it would seem that cataract blindness [8WG  
in PNG is not associated with female gender.9 1dy"  
Assuming that ‘negligible’6 cataract blindness (less than "%rU1/@#  
5% at visual acuity less than 3/60,8 although it may be as 69odE+-X.  
much as 10–15% at less than 6/6010) occurs in the under y;.5AvfD  
50 years age group, then, based on a 2005 population estimate Je K0><  
of 5.545 million, PNG would be expected to currently f LkC

|  
have 32 000 (25 000–36 000) cataract-blind people. An $JK,9G[Vu  
additional 5000 people in the 50 years and older age group +ul.P)1J6  
will have cataract-reduced vision (6/60 and better, but less g- INhzMu  
than 6/18), along with an unknown number under the age of 1n>AN.nI  
50 years. Qgo|\=  
The age-gender-adjusted prevalence of those 50 years H]{`q  
and older in PNG having had cataract surgery is 8.3% (95% k/Ao?R=@gI  
CI: 6.6, 9.8, deff = 1.3). Prevalences for males and females, Y)AHM0;g  
respectively, are 10.2% (95% CI: 7.7, 12.7) and 6.4% (95% "Z-YZ>2  
CI: 4.5, 8.4), with the expected9 association with male gender --7@rxv  
(age adjusted OR 1.6, 95% CI: 1.2, 2.1). Assuming negligible 3#`Sk`z<  
cataract surgery is performed on those under age
~>3#c#[  
50 years (noting mean age and age range of surgery in `TDS4Y  
Table 2), there would be about 41 400 people in PNG today '@5"p.  
who have had this surgery. In the survey sample, 28.7% of 0(A&m ,  
surgery occurred in the last 5 years (Table 2). Assuming that !F$o$iq  
there have been no deaths, annual surgical numbers have Yjx4H  
been steady during this time, and a population mean of the gI+dyoh  
2000 and 2005 estimates, this would equate to about 2400 z) "(&__  
people per year, being a Cataract Surgical Rate (CSR) of /jn0Xh  
approximately 440 per million per year. 9_%??@^>  
Unfortunately, no operation numbers are available from A] f^9F@  
the private Port Moresby facility, which contributed 12.5% ,#(k|Zztc  
(Table 2) of the surgeries in this study. However, from 05YsLNh  
records and estimates, outreach, government and mission lMjeq.5nP  
hospital surgical services perform approximately 1600 cataract G=KXA'R)1.  
surgeries per year. Excluding the private hospital, this U~8, N[  
equates to a CSR of about 300 per million population per {jEEAH)  
year. U1=\ `)u;  
Whatever the exact CSR, certainly less than the WHO xGw| @d  
estimate of 716,11 the order of magnitude is typical of a $1|65j[e  
country with PNG’s medical infrastructure, resourcing and di~ [Ivw  
bureacratic capability.11 With the exception of the Christian *V@t]d$=#  
Blind Mission surgeon, who performs in excess of 1000 cases ]l=iKl  
per year, PNG’s ophthalmologists operate, on average, on <*HsJwr)u  
fewer than 100 cataracts each per year. This is also typical.6 Y]"lcr}  
It will be evident that the current surgical capability in /}3I:aJwb  
PNG is insufficient to address the cataract backlog. The G~zP&9N|  
CSC(Persons) of 45.3%, relating directly to the prevalence _qSVYVJ u  
of bilateral cataract blindness, and CSC(Eyes) of 34.5%, a)r
T3gl  
relating to the total surgical workload, are in keeping with L&Pj0K-HT3  
other developing countries.6,8,10 If an annual cataract blindness ?s9f}>  
incidence of 20% of prevalence12 is accepted, and surgery u 236a\:  
is only performed on one eye of each person, then 6400 R"O,2+@<.  
(5000–7200) surgeries need to be performed annually to meet mS &^xWPV  
this. While just addressing the incidence, in time the backlog cwI3 ANV  
will reduce to near zero. This would require a three- or )3)f
q:[  
fourfold increase in CSR, to about 1200. Despite planning S+-V16{i  
for this and the best of intentions, given current circumstances SM[VHNr,-  
in PNG, this seems unlikely to occur in the near future. 0 TOw4pC  
Increasing the output of surgical services of itself will be 6G>loNM^  
insufficient to reduce cataract-related blindness. As measured wI#R\v8(`n  
by presenting acuity, the outcome of cataract surgery is poor m~8 =?R+m  
(Table 3). Neither the historical intracapsular or current
ST[E$XL6  
intraocular lens surgical techniques approach WHO outcome 'OsRQ)E  
guidelines of more than 80% with 6/18 and better ryt`yO  
presenting vision, and less than 5% presenting functionally @BI;H V%k  
blind.13 Better outcomes are required to ensure scarce E[>A# l53  
Table 4. Reasons that cataract-blind (worse than 6/60) people do not seek or undergo cataract surgery; Koki and Rigo, Papua New Guinea UkM#uKr:  
(2005) He  LW*  
90 people functionally blind due to cataract wo\O0?d3{  
Responses by 41 o:lMRP~  
males (45.6%) [&:dPd1_  
Responses by 49 VN]"[  
females (54.4%) MQlGEJ  
Responses by all *:Y9&s^6j  
n % n % n % O5A]{W  
Lack of awareness of cataract and the possibility of surgery 18 43.9 28 57.1 46 50.1 6'jgjWEe3&  
Too old to do anything about vision 7 17.1 6 12.2 13 14.4 hF9y^Hx4  
Believes unable to afford surgery 10 24.4 7 14.3 17 18.9 ;H"OZRQ  
No time available to attend surgery 4 9.8 6 12.2 10 11.1 >,c'Z<TM  
Waiting for cataract to mature 4 9.8 5 10.2 9 10.0 -hZw.eChQa  
None available to accompany person to surgery 4 9.8 2 4.1 6 6.7 vW5 >{
  
Fear of the surgery 2 4.9 6 12.2 8 8.9 @4P_Yfn  
Believes no services available 2 4.9 2 4.1 4 4.4 %=i/MFGX  
Cataract and its surgery in Papua New Guinea 885 ])vqXjN6"  
© 2006 Royal Australian and New Zealand College of Ophthalmologists 1A N)%  
resources are well used.14 Routine monitoring of surgical 
dXDuO  
activity and outcome, perhaps more likely to occur if done d@{#F"o  
manually, may contribute to an improvement.15,16 So too #QiNSS  
would better patient selection, as many currently choose not WWv.kglz  
to wear postoperation correction because they see well )?k~E=&o  
enough with the fellow eye (Table 3). Improving access to xhncQhf\  
refraction and spectacles will also likely improve presenting J&;' gT  
acuities (Table 3). 68nPz".X  
Of those cataract blind in the survey, 50.1% claimed to +l>X Z  
be unaware of cataract and the possibility of surgery fP{IW`t}]  
(Table 4). However, even when arrangements, including ]v0=jm5A  
transportation, were made for study participants with visually 1b8}TG2  
significant cataract to have surgery in Port Moresby, not &[$t%:`  
all availed themselves of this opportunity. The reasons for {N@tJ,Fh{  
this need further investigation. Gvquv\  
Despite the apparent ignorance of cataract among the (_eM:H=e>  
population, there would seem little point in raising demand \Z625jt  
and expectations through health promotion techniques until Gvc/o$_  
such time as the capacity of services and outcomes of surgery m<|fdS'@  
have been improved. Increasing the quantity and quality of -nnAe F  
cataract surgery need to be priorities for PNG eye care x24&mWgU  
services. The independent Christian Blind Mission Goroka C.+:FY.H  
and outreach services, using one surgeon and a wellresourced *NQsD C.J^  
support team, are examples of what is possible, FyRr/0 C>  
both in output and in outcome. However, the real challenge (+
;%zh-  
is to be able to provide cataract surgery as an integrated part >!#or- C  
of a functioning service offering equitable access to good eye ]wV_xZ)l^A  
health and vision outcomes, from within a public health 9HD5A$  
system that needs major attention. To that end, registrar M/jdMfU  
training and referral hospital facilities and practice are being u7bji>j  
improved. '#CYw=S+  
It may be that the required cataract service improvements Tyw
rh9[  
are beyond PNG’s under-resourced and managed public 49dN~k=  
health system. The survey reported here provides a baseline zc!q a"4yM  
against which progress may be measured. >;k~B  
ACKNOWLEDGEMENTS N-}|!pqb  
The authors thankfully acknowledge the technical support i&JI"Dd7  
provided by Renee du Toit and Jacqui Ramke (The International M.KXDD#O  
Centre for Eyecare Education), Doe Kwarara (FHFPNG q8R
ep  
Eye Care Program) and David Pahau (Eye Clinic, Port qQCds}<w  
Moresby General Hospital). Thanks also to the St Johns \$2zF8  
Ambulance Services (Port Moresby) volunteers and staff for OZE.T-{  
their invaluable contribution to the fieldwork. This survey dlc'=M  
was funded in part by a program grant from New Zealand u1/q8'RW  
Agency for International Development (NZAID) to The 4 zipgw  
Fred Hollows Foundation (New Zealand). .KF(_ 92  
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