Resistance in gonococci isolated in the WHO Western Pacific Region to various antimicrobials used in the treatment of gonorrhoea, 1997

This report published in Communicable Diseases Intelligence Volume 22, No 13, 24 December 1998 contains information on the the World Health Organization Western Pacific Region Gonococcal Antimicrobial Surveillance Programme. This is a multicentric long term programme of continuous surveillance of the antibiotic susceptibility of Neisseria gonorrhoeae.

Page last updated: 24 December 1998

A print friendly PDF version is available from this Communicable Diseases Intelligence issue's table of contents.


(Prepared by the WHO Western Pacific Gonococcal Antimicrobial Surveillance Programme - WHO WPR GASP)

Summary | Introduction | Methods | Results | Discussion | Acknowledgements | References


Summary

The World Health Organization Western Pacific Region Gonococcal Antimicrobial Surveillance Programme (WHO WPR GASP) is a multicentric long term programme of continuous surveillance of the antibiotic susceptibility of Neisseria gonorrhoeae. In 1997 the programme examined the susceptibility of 8,594 isolates of gonococci to various antimicrobials in 15 focal points.

The trend toward increased antimicrobial resistance noted in earlier years continued. The proportion of quinolone resistant gonococci reported from most centres was either maintained or else increased. More than half of the isolates tested in China - Hong Kong, China, Japan, Korea, and the Philippines had altered quinolone susceptibility and increases in the number and percentage of quinolone resistant strains were noted in most, but not all, of the other centres.

Resistance to the penicillins was again widespread, and chromosomally mediated resistance was a significant factor. Penicillinase-producing Neisseria gonorrhoeae (PPNG) were present in all centres.

All isolates were sensitive to the third generation cephalosporins and only a very few isolates in China were spectinomycin resistant.

High level tetracycline resistance was concentrated in a number of centres including Singapore, Malaysia, the Philippines and Vietnam. The proportion of tetracycline resistant Neiserria gonorrhoeae (TRNG) in most of the remaining centres was less than 10 per cent.

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Introduction

Effective treatment of gonorrhoea remains a priority for well founded reasons including prevention of morbidity in individual patients and reduction in the total disease burden associated with the disease. It is now also established that the rate of HIV transmission increases by three to five times in the presence of gonorrhoea.1 With proper treatment HIV transmission rates can be reduced by up to 40 per cent.2

Appropriate antibiotic regimens for treatment of gonococcal disease may be established, modified and made more relevant by data on gonococcal susceptibility patterns. The WHO has sought to establish a global surveillance network to monitor antibiotic resistance in the gonococcus - the Gonococcal Antimicrobial Surveillance Programme (GASP). Such a GASP network is useful not only for the individual contributing countries and the Regions, but also has wider application as an indicator of emerging global resistance in Neisseria gonorrhoeae.3

The WHO WPR GASP commenced in 1992. Annual reports of WPR GASP findings have been published in a variety of sources designed to disseminate the data as widely as possible.4-10 This report deals with data generated in the calendar year 1997.

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Methods

Data were generated by participants in focal points in various countries throughout the WHO WPR and collated in the regional reference laboratory. A list of participating members of the programme is contained in the acknowledgements. These include countries with a small geographic area e.g. Singapore and China - Hong Kong where isolates were examined in a single centre. Data from other centres represents an analysis of strains referred throughout a country to a central setting as in Malaysia. Other countries (e.g. Australia, China) have a network of contributors supplying data from a national surveillance scheme. A full description of the methods used in the WPR GASP is available.9 Briefly, participants were encouraged to examine susceptibility of gonococci to a recommended 'core' list of antibiotics using one of the standard methods nominated by the programme. A programme-specific quality assurance programme is conducted annually and a series of reference strains pertinent to the regional patterns of resistance were made available. Because of resource limitations, not all isolates are examined for sensitivity to all agents by all participants. Most strains examined are from non-selected sexually transmissible disease (STD) clinic patients, but some are obtained as a result of case finding.

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Results

Approximately 8,600 isolates were examined in 15 focal groupings in 1997. Other centres were unable to supply data but maintained contact with the programme through participation in the quality assurance (QA) programme. Mongolia joined the programme in 1997, but data were not available from Brunei, Cambodia, Papua New Guinea or the Solomon Islands in this period. About 44,000 strains have been examined in this programme since 1992. The sensitivity of isolates to selected antimicrobials is shown in Tables 1 - 4.

Penicillins

The proportion of isolates resistant to the penicillin group by one or mechanisms ranged between 3.5 per cent (Japan) and 95 per cent of isolates (Philippines) in the 15 contributing centres. Particularly high levels of penicillin resistance were also recorded in Korea (91.3%), China - Hong Kong (66.4%), Vietnam (76.9%) and Singapore (62.3%) (Table 1).

The programme seeks to identify separately the extent of penicillin resistance manifested through plasmid-mediated penicillinase production (PPNG) or through chromosomally controlled intrinsic resistance [chromosomaly-mediated resistant Neiserria gonorrhoeae (CMRNG)]. Both forms of resistance may exist simultaneously in the one isolate, but the latter type may be masked in PPNG.

PPNG were widely distributed throughout the WPR in 1997 but the proportion of PPNG was below 10% in a number of centres. PPNG were especially prominent in the Philippines (81.8% of isolates), Korea (79%) Singapore (61.3%) Vietnam (64.1%) and Malaysia 41%). An increasing proportion of CMRNG has also been detected over the life of the programme. In Hong Kong isolates of this type now represent 61.2 per cent of all isolates while the proportion of PPNG has declined to 5.2 per cent.

Table 1. Penicillin sensitivity of strains of Neisseria gonorrhoeae isolated in countries in the WHO WPR in 1997

Country
Number tested PPNG CMRNG All Pen R
No % No % No %
Australia
2,817
180
6.4
36
12.8
541
19.2
China
908
101
11.0
406
44.0
507
55.0
Fiji
522
29
5.5
13
2.5
42
8.0
Hong Kong (China)
2,435
125
5.2
1,492
61.2
1,617
66.4
Japan
85
2
2.3
1
1.2
3
3.5
Korea
382
303
79.0
47
12.3
350
91.3
Malaysia
51
21
41.0
NT
 
 
 
Mongolia
20
4
20.0
NT
 
 
 
New Caledonia
16
0
 
1
6.0
1
6.0
New Zealand
309
23
7.4
22
7.1
45
14.5
Philippines
22
18
81.8
3
13.6
21
95.4
Singapore
691
424
61.3
5
1.0
429
62.3
Tonga
9
2
22.0
2
22.0
4
44.0
Vanuatu
171
 
 
 
 
28
16.4
Vietnam
156
100
64.1
20
12.8
120
76.9


Quinolone antibiotics

About 8,400 isolates were examined for susceptibility to second generation quinolones in 12 centres in 1997 and quinolone resistant gonococci (QRNG) were detected in 10. Separate categories of 'less sensitive' and 'resistant' (to the second generation agents) are included in Table 2 because of their epidemiological relevance in long term studies of the evolution of quinolone resistance. The pattern of increasing quinolone resistance in gonococci first described in the WPR in 1993 and reinforced from 1994 to 1996 was present again in 1997.

The proportion of 'less sensitive' isolates has increased significantly in many centres since 1992, but there was little further change in 1997. The proportion of 'less sensitive' strains remained particularly high in China (51.5%), Hong Kong (42.1%) and Korea (46.8%) in 1997. In a large sample in Fiji and in a small one in Malaysia, no QRNG were detected.

Many centres reported an increase in the proportion of resistant isolates in 1997 or else maintained the high numbers seen in 1996. The highest proportions of fully quinolone resistant isolates were seen in the Philippines (50%), Japan (41.2%), China - Hong Kong (38.6%), China (28.5%) and Korea (20.4%). In other centres the increase in fully developed QRNG was slower. In Australia resistant strains account for 5.6 per cent of all isolates but most of these were concentrated in one city. The proportion of QRNG more than doubled in New Zealand in 1997.

Table 2. Quinolone resistance in strains of Neisseria gonorrhoeae isolated in countries in the WHO WPR in 1997

Country
Number tested Less susceptible Resistant
No. % No. %
Australia
2,817
46
1.6
158
5.6
China
903
468
51.5
257
28.5
Fiji
522
0
0
0
0
Hong Kong (China)
2,435
1,026
42.1
939
38.6
Japan
85
17
20.0
35
41.2
Korea
382
179
46.8
78
20.4
Malaysia
9
0
 
 
0
New Caledonia
16
3
18.0
0
0
New Zealand
309
18
5.8
6
1.9
Philippines
22
0
0
11
50.0
Singapore
691
33
4.8
26
3.8
Vietnam
152
5
3.3
5
3.3


Ceftriaxone

This third generation cephalosporin was used as the representative agent for this group of antibiotics in this programme. No resistance to this agent was evident in 1997. As in previous years, some evidence of increasing MIC levels was present in some centres.

Spectinomycin

Just over 5,000 isolates were examined in 10 centres in 1997. Only in China was there a small number of resistant isolates. In particular, all 382 isolates tested in Korea were sensitive to this agent (Table 3).

Table 3. Spectinomycin resistance in isolates of Neisseria gonorrhoeae in countries in the WHO WPR in 1997

Country
Number tested Number resistant
Australia
2,817
0
China
905
4 (0.045%)
Japan
85
0
Korea
382
0
Malaysia
9
0
New Caledonia
9
0
Philippines
22
0
Singapore
691
0
Vietnam
156
0


High level tetracycline resistance (TRNG)

About 5,400 isolates were examined in 1997 in 10 countries and TRNG were present in all of these centres. Particularly high proportions of TRNG were again seen in Singapore (82%), Malaysia (55%) and Vietnam (35.9%) continuing a pattern observed in earlier years. In all other centres except the Philippines (45.4%) and New Caledonia (12.5%), the proportion of TRNG was below 10 per cent of isolates tested (Table 4).

Table 4. High level tetracycline resistance - TRNG - in strains of Neisseria gonorrhoeae isolated in 10 countries in the WHO WPR in 1997

Country
Number Tested Number TRNG % TRNG
Australia
2,817
162
5.8
China
901
21
2.3
Japan
85
1
1.2
Korea
382
4
1.0
Malaysia
9
5
55.0
New Caledonia
16
2
12.5
New Zealand
309
17
5.5
Philippines
22
10
45.4
Singapore
691
567
82.0
Vietnam
156
56
35.9


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Discussion

There was a slight change in the composition of the focal points of the WHO WPR in 1997 with Mongolia joining the group. The Solomon Islands and Papua New Guinea were unable to supply data in 1997 but will do so in 1998. Data from Brunei and Cambodia were not available. However the majority of the focal points have contributed data continuously for a number of years. This continuous surveillance has facilitated analysis of the trends in gonococcal susceptibility in the region. The number of isolates examined in 1997 was the highest number tested since the programme began.

Particular interest is once more centred on emerging gonococcal resistance to the quinolone group of antibiotics. In 1995 the position with regard to QRNG in the WPR was summarised as a steady increase in the proportion of resistant isolates since 1992 when very few resistant isolates were observed.7 The change was manifested as an increasing number of centres reporting the presence of these strains, an increasing number of strains showing quinolone resistance in those centres and increasing MICs in resistant isolates. This was again the pattern in 1997 and QRNG are now widely dispersed throughout the region.

It should be remembered that resistance to the quinolones in gonococci is chromosomally mediated and levels of resistance increase incrementally due to a number of complementary alterations in the organism. The first clinically manifested resistance observed was at a low MIC level and was accommodated by increasing the recommended dose of antibiotic administered. These strains, where identified, were those classified as less sensitive in Table 2. Subsequently strains with higher MICs were detected and these were not amenable to therapy with then available quinolones, even with higher dose regimens. These isolates are shown in Table 2 as the 'resistant' group. In 1997, one particular feature has been the increase or maintenance of high numbers of strains with fully developed quinolone resistance.

The data shown apply to resistance to the group of quinolones now called 'second generation' agents.11 Newly released quinolones with activity against some of strains resistant to second generation agents are now available. Their activity and potential for use in the WHO WPR will need to be assessed.

Some interest remains within and without the region in the extent and type of resistance to the penicillins. Because of the very high levels of resistance, the clinical usefulness of this group of antibiotics has decreased significantly in the WPR. Consequently the testing for susceptibility to the penicillins is a decreasing priority. However this group of agents is still used effectively in a number of specific settings, and the data generated in the WPR continues to be of interest to other regions.

There was no resistance detected to the later generation cephalosporins and very little to the injectable agent spectinomycin. Significant levels of spectinomycin resistance were recorded in parts of the region some years ago. The inappropriate use of antibiotics, and availability of agents in the informal health sector have both contributed to the development of antibiotic resistance in the past. The increasing availability of oral third generation cephalosporins and the consequent risk of inappropriate use suggests that continuing surveillance of these agents is prudent. Such surveillance is of greater importance now that the usefulness of the quinolones is rapidly declining in the WPR.

Tetracyclines are a multiple dose treatment for gonorrhoea and are not a recommended therapy for gonorrhoea. However the presence of a particular form of high level plasmid mediated tetracycline resistance - TRNG - has been recognised. The programme has therefore monitored the spread of TRNG in the region. Considerable regional variation in the distribution of TRNG was again noted. Singapore, Malaysia, the Philippines and Vietnam in particular have high numbers of TRNG.

The trend towards a decrease in susceptibility of gonococci to various antimicrobials in the WPR has continued over a number of years poses additional problems for successful treatment of gonococcal disease in the region.

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Acknowledgements

  • Dr G Poumerol Regional Adviser STD, WHO Regional Office for the Western Pacific, Manila, Philippines.
  • JW Tapsall, Area co-ordinator, Sydney, Australia.

The following supplied data in 1997 for the WPR GASP:

Members of the Australian gonococcal surveillance programme throughout Australia;
  • Ye Shunzhang and Su Xiaohong, Nanjing, China;
  • M Shah, Suva, Fiji;
  • KM Kam, Hong Kong;
  • Toshiro Kuroki, Yokohama Japan;
  • K Lee and Y Chong, Seoul, Korea;
  • Rohani MD Yasin, Kuala Lumpur, Malaysia;
  • Chimgee Erdenechimeg, Ulaanbaatar, Mongolia
  • P Duval, and B Gentile, Noumea, New Caledonia;
  • M Brett, Wellington and M Brokenshire, Auckland, New Zealand;
  • CC Carlos, Manila, Philippines;
  • AE Ling, Singapore;
  • Ane Tone Ika, Nuku'alofa, Tonga;
  • H Wamle and D Kalorib, Vanuatu;
  • Le Thi Phuong, Hanoi, Vietnam.
The regional reference laboratory is supported by a technical services grant from the WHO.

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References

1. Cohen MS. Sexually transmitted diseases enhance HIV transmission: no longer a hypothesis. Lancet 1998;351(suppl III):5-7.

2. Grosskurth H, Mosha F, Todd J et al. Impact of improved treatment of sexually transmitted diseases on HIV infection in rural Tanzania: randomised controlled trial. Lancet 1995;346:530-6.

3. Ison CA, Dillon J-A, Tapsall JW. The epidemiology of global antibiotic resistance among Neisseria gonorrhoeae and Haemophilus ducreyi. Lancet 1998;351(suppl III):8-11.

4. The World Health Organization Western Pacific Region Gonococcal Surveillance Programme. 1992 Annual Report. Commun Dis Intell 1994,18:61-63.

5. The World Health Organization Western Pacific Region Gonococcal Surveillance Programme. 1993 annual report. Commun Dis Intell 1994;18:307-310.

6. The World Health Organization Western Pacific Region Gonococcal Surveillance Programme. 1994 annual report. Commun Dis Intell 1995;19:495-499.

7. The World Health Organization Western Pacific Gonococcal Antimicrobial Surveillance Programme. Antimicrobial resistance in gonococci, Western Pacific region, 1995. Commun Dis Intell 1996;20:425-428.

8. Report on the gonococcal antimicrobial surveillance programme (GASP). Antibiotic susceptibility of Neisseria gonorrhoeae, 1992 to 1994. World Health Organization Western Pacific Region STD HIV AIDS surveillance report. No 7 July 1996 pp 6-8.

9. WHO Western Pacific Region Gonococcal Antimicrobial Surveillance Programme. Surveillance of antibiotic susceptibility of Neisseria gonorhoeae in the WHO Western Pacific Region 1992 - 1994. Genitourin Med 1997;73:353-361.

10. The gonococcal antimicrobial surveillance programme (GASP). WHO Western Pacific Region. WER 1996;41:309-311.

11. Andriole VT. Current quinolone status and classification. In: The quinolones. Andriole VT editor. 2nd edition 1998 Academic Press, San Diego p425.


This article was published in Communicable Diseases Intelligence Volume 22, No 13, 24 December 1998.

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