"Circumcision of infants or other minors has no place among HIV control measures in the Australian and New Zealand context; proposals such as these should be rejected."
Below is a recent study, published on October 4, 2011, by the Australian and New Zealand Journal of Public Health. You can find the original paper here.Objective:
To conduct a critical review of recent proposals that widespread circumcision of male infants be introduced in Australia as a means of combating heterosexually transmitted HIV infection.Approach
: These arguments are evaluated in terms of their logic, coherence and fidelity to the principles of evidence-based medicine; the extent to which they take account of the evidence for circumcision having a protective effect against HIV and the practicality of circumcision as an HIV control strategy; the extent of its applicability to the specifics of Australia's HIV epidemic; the benefits, harms and risks of circumcision; and the associated human rights, bioethical and legal issues.Conclusion
: Our conclusion is that such proposals ignore doubts about the robustness of the evidence from the African random-controlled trials as to the protective effect of circumcision and the practical value of circumcision as a means of HIV control; misrepresent the nature of Australia's HIV epidemic and exaggerate the relevance of the African random-controlled trials findings to it; underestimate the risks and harm of circumcision; and ignore questions of medical ethics and human rights. The notion of circumcision as a ‘surgical vaccine’ is criticised as polemical and unscientific.Implications
: Circumcision of infants or other minors has no place among HIV control measures in the Australian and New Zealand context; proposals such as these should be rejected.A
ustralian medical authorities have discouraged routine circumcision of male infants since 1971, when the Australian Paediatric Association issued a short statement that the procedure should not be performed.1
Although this position was reaffirmed in subsequent years (1983, 1996, 2002)2
it was increasingly challenged in the late 1990s, when the medical literature began to feature ‘new evidence’ about the protective effect of circumcision against various diseases, particularly STIs. The debate intensified in 2006, after three randomised clinical trials in Africa that appeared to show circumcision could reduce a male's risk of acquiring HIV during unprotected sexual intercourse with an infected female partner by a significant degree, commonly reported as 60%, but estimated by the Cochrane Review as between 38% and 66%.3
Debate further intensified when the World Health Organization endorsed, and funding bodies provided the money for, large-scale circumcision programs in resource-poor African countries with high levels of heterosexually transmitted HIV.
The question Australian public health authorities then faced was whether this evidence and advice was relevant to HIV prevention in developed countries. Answering in the affirmative have been voices from Anglophone countries with past histories of routine circumcision, who have interpreted the African evidence as a vindication of past practice. Answering with a cautious negative was the Royal Australasian College of Physicians, particularly the task force it established in 2007 to review the circumcision policy statement. In Australia the pro-circumcision argument is represented by a group associated with Professor Brian Morris, a longstanding believer in circumcision as a public health measure4
and a vehement critic of the RACP's position.5
In an editorial published in the Medical Journal of Australia
he and two colleagues (Professors Cooper and Wodak, both prominent figures in the HIV policy community) presented the case for “boosting infant male circumcision in the face of rising heterosexual transmission of HIV.”6
Their intervention attracted much media attention, and so much criticism that the journal published eight letters in reply.7
The replies covered many of the grounds for dissenting from the proposition that Australia's HIV problem demanded circumcision of infant males, including relevance, effectiveness, the risk of injury, harm and complications, and whether the proposal was in line with established principles of evidence-based medicine, medical ethics and human rights. Appreciating that the target of the editorial was the RACP position, the chairman of the task force that had just finalised the new policy statement defended its conclusion that circumcision should still not be recommended. A surprising omission from the replies was that none asked why the editorial had devoted so little effort to establishing the conditions that would have to be met in order to make widespread neonatal circumcision as an HIV control strategy appropriate in the Australian context. To prove the argument, it would have had to demonstrate that:
- the incidence of heterosexually transmitted HIV in Australia is rising to a dangerous level;
- circumcision is the only effective way of countering this challenge;
- widespread circumcision of male infants is necessary to prevent Australia's HIV problem growing into an epidemic on the African scale; and
- circumcision in infancy is a safe operation with no adverse physical or psychological effects on the individual, and is acceptable within existing standards of bioethics, human rights and Australian law.
The editorial established none of these points, but confined itself to summarising the African evidence and asserting that circumcision conferred a wide range of valuable health benefits, with neither risk nor adverse effects, and that infancy was the most convenient, safe and inexpensive time to do it. The tendency to offer benefits additional to HIV protection was even more pronounced in the authors’ rejoinder to their critics.
Despite the hostile reaction to the proposal, the issue is not likely to die down in the near future, particularly as other medical authorities in Canada and the US are considering the issue and are expected to issue their own policies later this year. It is therefore appropriate to subject the circumcision prescription to a more detailed analysis. In this paper it is argued that the proposal is fatally flawed because:
- It ignores doubts about the African evidence on which it relies and passes over numerous critiques of the clinical trials and the manner in which the WHO recommendations arising from them have been implemented.
- It is irrelevant to the Australian situation and the specifics of Australia's HIV problem.
- It departs from the principles of evidence-based medicine.
- It underplays the harm and risks of circumcision.
- It violates accepted standards of medical ethics and human rights.
- It is marred by unscientific thinking and hyperbolic language, such as the description of circumcision as a ‘surgical vaccine’.
For these reasons, circumcision of infants as a response to Australia's HIV problem must be rejected.
The claim that circumcision prevents heterosexual HIV transmission from women to men is based on three non-double-blinded, non-placebo-controlled Random-controlled trials in Africa, in which 5,400 men were circumcised. After 20 months, 64 of the men in the circumcised experimental groups had HIV, compared to 137 in the non-circumcised control groups. Six hundred and seventy-three men were lost to follow-up, their HIV status unknown.8–10
Cooper et al
. take the claimed results of these trials at face value and ignore serious doubts about their validity and applicability. As several critiques have pointed out,11–15
they fell far short of the so-called ‘gold standard’, vitiated by several forms of bias, especially selection bias, since only men interested in a free circumcision were eligible. All participants were to be circumcised, some immediately, the remainder at the conclusion of the trial. Since participants assigned to immediate circumcision were aware that they had received the treatment rather than being placed in the control group, it was impossible to blind either the researchers or the subjects. Without sham surgery there could be no placebo. The trials also suffered from expectation bias (both researcher and participant), lead-time bias, attrition bias, and premature termination.16
All these weaknesses favoured the results the investigators expected. Perhaps the most crucial flaw in these three studies is that the researchers assumed that all the men who became HIV positive during the course of the trials were infected through sexual contact. When the study results are examined closely, there is evidence that as many as half the infections could have been acquired non-sexually. In the South African trial, for example, 23 men became infected even though they had either no sexual contact or always used a condom.17
If a significant number of the men who became infected in this experiment did so through non-sexual contact, it becomes impossible to accurately estimate the protective effect of circumcision on sexual transmission of HIV.
A further problem with the random-controlled trials is that we do not know whether their results can be replicated in other high-prevalence sites outside a research setting, with their resources, expertise and monitoring, or in general, low-prevalence sites. It will be many years before we learn whether the current African circumcision programs have succeeded in significantly reducing HIV prevalence in the general population, and African population surveys suggest that the results of the clinical trials are not likely to have external validity.18
Garenne found that in eight countries (Burkina Faso, Cote d'Ivoire, Ethiopia, Ghana, Niger, Rwanda, Tanzania and Zimbabwe) there was no significant difference in HIV seroprevalence between circumcised and uncircumcised men; in two countries (Kenya and Uganda) HIV seroprevalance was higher among uncircumcised men; and in three countries (Cameroon, Lesotho and Malawi) HIV seroprevalence was significantly higher among circumcised men. In Lesotho the difference was striking: HIV seroprevalence was 22.8% among the circumcised, but only 15.2% among the uncircumcised.19
In South Africa, where a third of the population is circumcised and HIV prevalence is among the highest on record, both Garenne and Connolly et al.
found no difference in HIV status between circumcised and uncircumcised samples.20
As Garenne comments, “large-scale demographic surveys, as well as routine seroprevalence surveys among pregnant women, do not show any consistent population impact of male circumcision on either HIV prevalence or HIV incidence.”21
Both the United States and Indonesia, with predominantly circumcised male populations, have a significantly higher incidence of HIV than Australia, Canada, Britain and New Zealand, where circumcision is in decline or extremely rare.22
In the United States, African-Americans exhibit both the highest rate of circumcision and the highest rate of heterosexually-transmitted HIV.23,24
Such is the faith in Western health advice, however, that in Swazliland, with an HIV prevalence of 22% among circumcised men but only 20% among the uncircumcised, the government has still announced a particularly ambitious circumcision program.25
Another objection to regarding circumcision as effective prophylaxis against HIV is that there is no convincing biological explanation of its protective effect.26
Circumcision advocates have speculated that the interior mucosa of the prepuce is thinner and more prone to tearing. While a thinner epithelial layer of genital tissue may be associated with increased internal transfer of HIV,27
the mucosa of the inner and outer prepuce have been shown to be of the same thickness in some studies28
but not in others.27
It is also suggested that HIV is more likely to be transmitted through the foreskin because it has a high concentration of Langerhans cells, believed to be the entry point for the virus. Actually, Langerhans cells are quite efficient in repelling HIV, which may explain the low transmission rate of HIV – only about one per 1,000 unprotected coital acts.29
The inner foreskin secretes langerin, which is effective in killing numerous pathogens.30
Langerhans cells may also provide protection against other STIs, which may explain why circumcised men are at greater risk of infection with some STIs, such as urethritis.31
Until we understand how circumcision works biologically, we cannot be certain whether the observed reduction in risk of infection in the random-controlled trials is the result of changed anatomy resulting from surgery, changed behaviour resulting from counseling and provision of condoms, or the various forms of bias built into the studies.
Circumcision advocates have portrayed the sub-preputial space as a harbour for sexually transmitted viruses.32
Against this, however, meta-analyses assessing susceptibility to genital infections with herpes simplex virus and human papilloma virus have not shown any meaningful association with circumcision status.33,34
Unfortunately, these portrayals have appeared so often in the medical literature that many physicians and public health officials consider them factual. There is, however, no scientific proof that the foreskin is a predisposing factor for infections of this kind.
The most serious objection to the circumcision proposal is that it is not applicable to our situation. Australia is not sub-Saharan Africa, where HIV is a generalised epidemic transmitted largely by heterosexual intercourse and non-sterile medical equipment.30,35
In Australia, HIV is a relatively low-prevalence disease, largely contained within the specific sub-cultures where it has always been found: mostly homosexual men (80%), plus a very small population of injecting drug users (4%).36
Although Daniel Halperin advised gay men who take the insertive role in anal intercourse to get circumcised,37
it is now firmly established that circumcision provides no protection to men who have sex with men (MSM),38–41
and there is evidence from Britain that circumcised gay men may be at greater risk.42
Whether that is generally the case, it is obvious that circumcision would have made no difference to the vast majority of Australian men who have become HIV positive over the past thirty years.
Cooper et al.
are not so misguided as to suggest that either gay men or injecting drug users would receive any protection from circumcision, but focus on the small incidence of heterosexual transmission. This is running at such a low level, however, that the circumcision proposal is grossly out of proportion to the problem. The surveillance authority of which Cooper himself is director expresses no alarm, and in its latest report points out:
“the annual number of new HIV diagnoses has remained relatively stable at around 1000 over the past four years
“HIV continues to be transmitted primarily through sexual contact between men”; and
“of 1185 cases of (heterosexually acquired) HIV infection newly diagnosed in 2005–2009, 58% were in people from high prevalence countries or their partners”.43
The total number of newly diagnosed HIV infections in 2009 was 1,050, of which males made up 86.7%, down slightly from 87.4% in 2001. Over the same decade, the proportion of newly diagnosed infections among MSM has remained steady: 66.6% in 2001, 65.1% in 2009. The increase in the proportion of infections attributable to heterosexual contact from 21.8% in 2001 to 28.7% in 2009 is neither a dramatic rise nor cause for alarm, especially as nearly 60% of such infections occur in people with a partner either HIV-positive or in a high-risk category.44
The 1,185 cases of heterosexual transmission in the five years 2005–09 represent about 200 new diagnoses annually, but since the infection could have been acquired at any time this is not evidence of new cases or a rising trend. Because more than half of these are found in people from, or with a partner from, a high-prevalence country it is possible that many of these infections were not acquired in Australia.
A more relevant measure are newly acquired infections – new infections that were definitely acquired in the previous twelve months – and here there is even less cause for alarm. In 2005–09, 82% of newly acquired infections were in MSM, 3% among injecting drug users, and 10% from heterosexual contact.45
Cooper et al
. refer to a rising proportion of female-to-male transmission, but the numbers are still very small (23 men newly infected in 2009), and the rate of increase is both erratic and slow.Click to see Table 1. Characteristics of newly-acquired HIV infection 2000–2009
- Source: National Centre in HIV Epidemiology and Clinical Research. HIV, Viral Hepatitis and Sexually Transmissible Infections in Australia. Annual Surveillance Report 2010. Table 1.2.1, p. 42
Somebody desiring to impress the media could claim that the incidence of female-to-male transmission had doubled over the last decade, but the effect would not be so dramatic if it were stated that the number of cases had increased from 12 to 23. There is, moreover, no consistent pattern in the increase, and no evidence at all that uncircumcised men are over-represented in this group. Indeed, there is no Australian data suggesting that uncircumcised men are more susceptible to any STIs,46,47
including STIs that have been associated with increased susceptibility to HIV.48
What we are dealing with, if we add newly acquired infections to the 100 or so newly diagnosed infections probably acquired in Australia, is about 125 cases of heterosexually transmitted HIV per year. These are not numbers that necessitate the sort of panic response that has occurred in sub-Saharan Africa. On these figures it would be necessary to circumcise several thousand babies now to prevent one case of HIV from 2030 onwards – a proposal that would be ruled out on cost-benefit considerations alone.
The proposal is also irrelevant because it targets infants rather than adults. Infants are not at risk of infection by sexual contact and will not be at risk until they become sexually active in 16–20 years time, by which time treatment and prevention options, and the virus itself, may have altered beyond recognition. Evidence-based medicine requires that recommendations for treatment or prophylaxis follow logically and directly from the evidence. Assuming the African evidence is reliable and applicable, the logical prescription is that sexually active adult men who have regular intercourse with numerous female partners and do not always use condoms should consider circumcision for themselves. One approach might be that sexual health advice targeted at this category could include circumcision as a prophylactic option among a range of sexual health offerings, as the WHO has recommended.
This is not what Cooper et al.
prescribe. Instead, they propose that parents be advised to circumcise their baby boys as a precaution against a risk they will not face until adulthood, and against a disease that is very rare among heterosexually active adult men anyway. Even if circumcised, they would still need to use a condom to be certain of avoiding infection, since the risk reduction indicated by the African data is only partial (38%–66%). We have no evidence on what the risk reduction in a low-prevalence country such as Australia might be, and with such a low level of heterosexual transmission it would be neither feasible nor ethical to mount random-controlled trials. If it is still necessary to wear a condom there seems little point in getting circumcised. As Perera et al
. point out,49
moreover, the African trials involved sexually active adult men, not infants, and there is no hard evidence that neonatal circumcision has any protective effect against HIV. The prescription has little connection with the evidence on which it is presumed to depend and thus violates the principles of evidence-based medicine.
As subsequent research has confirmed,50,51
the WHO recommendations arising from the African random-controlled trials cannot be applied to developed nations, but only to regions of high HIV prevalence, in generalised epidemics with predominantly heterosexual transmission. Medical authorities responsible for formulating policy statements on neonatal circumcision have reached the same conclusion. In a strongly-worded statement against prophylactic circumcision of minors, the Royal Dutch Medical Association comments:
“That the relationship between circumcision and transmission of HIV is at the very least unclear is illustrated by the fact that the US combines a high prevalence of STDs and HIV infections with a high percentage of routine circumcisions. The Dutch situation is precisely the reverse: a low prevalence of HIV/AIDS combined with a relatively low number of circumcisions. As such, behavioural factors appear to play a far more important role than whether or not one has a foreskin.”52
The RACP reached the similar conclusion that “in low prevalence populations such as Australia and New Zealand circumcision does not provide significant protection against STIs and HIV, and is less effective than safe sex practices.”53
Cooper et al
. state that “The protection conferred to heterosexual males by circumcision is similar in hyperendemic and low-prevalence settings”. This claim – crucial to their argument – is not supported by their citations, which carefully note that recommendations based on the trials pertain only to similar settings, i.e., in generalised epidemics with high HIV prevalence. That is not the kind of epidemic found in Australia.
Supporters of circumcision claim other benefits of early circumcision, but such arguments are irrelevant to the question of HIV infection itself. But even these additional claims are either contested to the point of inconclusiveness or rejected as invalid or irrelevant. Perera et al.
found the benefits of neonatal or childhood circumcision to be negligible and the possibility of reduced vulnerability to HIV irrelevant to children.49
If uncircumcised boys are more subject to “adverse medical conditions”, as Cooper et al.
claim, we would expect this to show up in child health reviews, but the Australian Institute of Health and Welfare found no decline in child health as the incidence of circumcision in Australia has fallen, and indeed that child health has improved over the same period.54
The RACP concluded that there was no medical justification for prophylactic circumcision of minors in Australia.53
Two glaring omissions from Cooper et al's
argument are discussions of the harm and risks of circumcision and the ethics of performing amputative surgery on minors. Research on the anatomy and physiology of the foreskin is primitive, but we know that it is an anatomically integral, sexually functional and psychologically significant component of the penis, loss of which may have adverse consequences on both sexual satisfaction and psychological well-being.55
The extent to which the foreskin contributes to sexual function is in dispute,56–59
but research is so inadequate that nobody can say with confidence that circumcision ‘makes no difference’. The RACP policy statement acknowledges that the foreskin is the most sensitive part of the penis and points out that since men may resent having been circumcised as infants, it may be preferable to delay the operation until a boy reaches maturity and can give informed consent.53
It might be assumed that resentment would be less if all boys were circumcised at birth, but even when they grow up among circumcised peers many men can still feel angry and mutilated, even to the point of psychological disturbance.60
Cooper et al.
cite a study claiming that neonatal circumcision is “cost effective”,61
but in fact the article was a cost analysis that did not consider cost effectiveness at all. Others have concluded that since the procedure both adds to health costs and reduces the overall health of the individual it can be justified on neither economic nor medical grounds.62
Any consideration of the costs of circumcision will be woefully inadequate if it fails to factor in the value of the foreskin to the individual and the cost of surgical complications and other adverse sequelae, both physical and psychological.
Complications from circumcision are another area where lack of both adequate data and benchmarks for acceptable risk make it impossible to be confident that the operation is ‘safe’. While all circumcisions result in the loss of the most sexually responsive portion of the penis, accurate estimates of the incidence and severity of complications are not available. In 2002 the RACP cited estimates ranging from an implausible 0.06% to an equally unlikely 55%, depending on definition, but regarded the likely incidence as falling somewhere between 2% and 10%, and warned that “serious complications, such as bleeding, septicaemia and meningitis may occasionally cause death”.63
Reported complication rates are heavily influenced by how a complication is defined and how the data is collected. One study that assessed all infants for bleeding found that circumcision resulted in excessive bleeding in 8.9% to 9.9% of cases.64
Many common complications may not be documented because they are considered par for the course, yet chart reviews have documented complication rates between 3.2%65
Delayed complications such as meatal stenosis are often missed, yet the rate of meatal stenosis following circumcision ranges from 5% to 20%,67,68
while problems such as excessive tissue removal may not become evident until after puberty.69
Although practitioners claim that the Plastibell is a safer instrument than clamps, there are many reports of complications from this device, including two recent deaths.70–72
There is no evidence at all for the assertion that neonatal circumcision presents a lower incidence of complications than circumcision in adulthood. Indeed, one study (from a circumcising culture) found the incidence of complications in the neonatal period so high that it recommended leaving the procedure until later.73
In Australia, Leitch (1970) reported a complication rate of 15.5%,74
while a doctor who performed medical examinations of schoolboys reported that he was “appalled at the phallic mutilations exhibited by many of these children, some of whom have even been subjected to a subsequent ‘tidying up’ procedure after being badly mauled in infancy.”75
The risk of harm is likely to be greater if the operation is performed before the natural separation of foreskin from glans, and lower in adulthood, when the mature size of the penis and final foreskin length can be observed and taken into account. Males differ so much in these variables that one cut does not fit all.76
Unlike a newborn infant, moreover, an adult patient can be safely given both effective anaesthesia and post-operative pain relief. Circumcision advocates must consider adult circumcision perfectly safe, or they would be criticising the African circumcision programs for posing an unacceptable risk of harm to the men who enrol in them.
Even if the circumcision proposal were relevant to the Australian situation, to be ethically acceptable a medical intervention must pass the five tests proposed by Beauchamp and Childress:
- • Beneficence – does the proposed procedure provide a net therapeutic benefit to the patient, considering the risk, pain, and loss of normal function?
- • Non-maleficence – does the procedure avoid permanently diminishing the patient in any way that could be avoided?
- • Proportionality – will the final result provide a significant net benefit to the patient in proportion to the risk undertaken and the losses sustained?
- • Justice – will the patient be treated as fairly as we would all wish to be treated?
- • Autonomy – lacking life-threatening urgency, will the procedure honour the patient's right to his or her own likely choice? Could it wait for the patient's assent?77
Cooper et al
. ignore ethical and human rights issues, but their proposal would not be acceptable unless it was established that non-therapeutic circumcision of non-consenting minors was permissible within the above guidelines. It has been argued that in the absence of a life-threatening disorder, surrogate consent for non-therapeutic surgery of this type is ethically problematic and may not be legally valid.78–80
When there is no urgency to intervene, it is best to wait until the child can provide his own informed consent.
While we all hope that a vaccine for HIV will eventually be developed, the tendency to describe circumcision hyperbolically as a ‘surgical vaccine’ is regrettable and misleading. The comparison may appeal to scientifically naive journalists, but it has no basis in science and is irresponsible from a public health perspective, in that it may encourage high-risk behaviour.81
Circumcision provides nothing like the kind or level of protection provided by a vaccine, merely a risk reduction in one specific situation (unprotected heterosexual intercourse in a high seroprevalence setting). Circumcision advocates seem unwilling to acknowledge the difference between amputating body parts to provide limited protection against a rare disease to which the individual is unlikely to be exposed, and giving a person a needle that confers a high level of immunity to common or highly contagious diseases.
The justification for vaccinating non-consenting children is first, that it does not involve the removal of a functional body part, and secondly that the diseases to which it confers immunity are common and/or highly contagious.82
Airborne diseases, such as smallpox, diphtheria, and measles were all major killers before vaccines. Because such diseases are spread by breathing, a single child can infect a whole school. Vaccination thus protects both the individual who receives the treatment and the people with whom he comes into contact. Unlike these diseases, HIV is a low-virulence, and in Australia, a rare disease that can be avoided by appropriate risk-reducing behaviour. The colourful image of circumcision as ‘surgical vaccine’ is a contradiction in terms, on a par with ‘conjectural fact’; such rhetoric has no place in scientific debate.
Although this explanation has been questioned,83
it is generally accepted that the rapid spread of HIV in Africa was associated with a high level of sexual activity, involving numerous concurrent, but often transient sexual partnerships, widespread prostitution, both formal and informal, various forms of polygamy, and reluctance to practise safe sex or use condoms. It is also probable that a significant proportion of HIV infections are the result of non-sexual transmission, such as non-sterile medical procedures.84
These conditions were aggravated by poorly developed health services, the co-presence of numerous other epidemic diseases, such as malaria, tuberculosis and other STIs, and the refusal of local authorities to take action until the disease had spread through the population, provoked by the misconception that AIDS was a ‘gay disease’, confined to the decadent developed world.85
This crisis situation stands in dramatic contrast to that of a wealthy, developed nation such as Australia, where effective action was taken early on, based on respect for the autonomy and agency of those at greatest risk, and an emphasis on safe sex education, needle and syringe programs, and provision of condoms. This strategy has been strikingly successful: AIDS in Australia remains a relatively minor public health problem, largely confined to the sub-cultures where it has traditionally been found. There is no heterosexual epidemic that would justify a costly, authoritarian program of the type and scale that Cooper et al
. propose. There is every reason to think that the strategy that Australia has pursued so successfully since the 1980s will continue to protect the vast majority of the population from this disease.86
- 1 Belmaine SP. Circumcision. Med J Aust. 1971;1:1148.
- 2 Circumcision Information and Resource Pages. Circumcision: Medical Organization Official Policy Statements [Internet]. CIRP [place and date unknown]. [cited 2011 Jan 16]. Available from: http://www.cirp.org/library/statements/.
- 3 Siegfried N, Muller M, Deeks JJ, Volmink J. Male circumcision for prevention of heterosexual acquisition of HIV in men (Cochrane Review). In: The Cochrane Database of Systematic Reviews; Issue 2; 2009 Apr 15. Chichester ( UK ): John Wiley; 2009.
- 4 Morris BJ. In Favour of Circumcision. Sydney ( AUST ): University of New South Wales Press; 1999;.
- 5 Morris BJ, Bailis SA, Castellsague X, Wiswell TE, Halperin DT. RACP's policy statement on infant male circumcision is ill-conceived. Aust N Z J Public Health. 2006;30(1):16–22. Direct Link:
- 6 Cooper DA, Wodak AD, Morris BJ. The case for boosting infant male circumcision in the face of rising heterosexual transmission of HIV [editorial]. Med J Aust. 2010;193:318–19.
- 7 Forbes DA. “The case for boosting infant male circumcision in the face of rising heterosexual transmission of HIV”… and now the case against. Med J Aust. 2011;194(1)97–101.
- 8 Auvert B, Taljaard D, Lagarde E, Sobngwi-Tambekou J, Sitta R, et al. Randomized, controlled intervention trial of male Circumcision for reduction of HIV infection risk: The ANRS 1265 Trial. PLoS Med. 2005;2(11):298.
- 9 Bailey RC, Moses S, Parker CB, Agot K, Maclean I, et al. Male circumcision for HIV prevention in young men in Kisumu, Kenya: a randomised controlled trial. Lancet. 2007;369:643–56.
- 10 Gray RH, Kigozi G, Serwadda D, Makumbi F, Watya S, et al. Male circumcision for HIV prevention in men in Rakai, Uganda: a randomised trial. Lancet. 2007;369:657–66.
- 11 Green LW, McAlister RG, Peterson KW, Travis JW. Male circumcision is not the surgical vaccine we have been waiting for! Future HIV Therapy. 2008;2(3):193–9.
- 12 Myers A, Myers JE. Editorial: Rolling out male circumcision as a mass HIV/AIDS intervention seems neither justified nor practicable. S Afr Med J. 2008;98(10):781–2.
- 13 Van Howe RS, Svoboda JS. Neonatal circumcision is neither medically necessary nor ethically permissible: A response to Clark et al. Med Sci Monit. 2008;14(8):LE7–13.
- 14 Dowsett GW, Couch M. Male circumcision and HIV prevention: is there really enough of the right kind of evidence? Reprod Health Matters. 2007;15(29):33–44.
- 15 Van Howe RS, Storms MR. How the circumcision solution in Africa will increase HIV infections. Journal of Public Health in Africa. 2011;2(1):4.
- 16 Bassler D, Briel M, Montori VM, Lane M, et al.. Stopping Randomized Trials Early for Benefit and Estimation of Treatment Effects Systematic Review and Meta-regression Analysis. JAMA. 2010;303(12):1180–7.
- 17 Auvert B, Taljaard D, Lagarde E, Sobngwi-Tambekou J, Sitta R, Puren A. Randomized, controlled intervention trial of male circumcision for reduction of HIV infection risk: The ANRS 1265 Trial. PLoS Med. 2005;2(11):298.
- 18 Green LW, Travis JW, McAllister RG, Peterson KW, et al. Male Circumcision and HIV Prevention: Insufficient Evidence and Neglected External Validity. Am J Prev Med. 2010;39(5)479–82.
- 19 Garenne M. Long-term population effect of male circumcision in generalised HIV epidemics in sub-Saharan Africa. African Journal of AIDS Research. 2008;7(1):1–8.
- 20 Connolly C, Simbayi LC, Shanmugam R, Nqeketo A. Male circumcision and its relationship to HIV infection in South Africa: Results of a national survey in 2002. S Afr Med J. 2008;98(10):789–94.
- 21 Garenne M. Mass campaigns of male circumcision for HIV control in Africa: Clinical efficacy, population effectiveness, political issues. In: Denniston GC, Hodges FM, Milos MF, editors. Genital Autonomy: Protecting Personal Choice. Dordrecht ( NLD ): Springer; 2010. p. 50.
- 22 National Centre in HIV Epidemiology and Clinical Research. HIV/AIDS, Viral Hepatitis and Sexually Transmissible Infections in Australia, Annual Surveillance Report. Sydney ( AUST ): National Centre in HIV Epidemiology and Clinical Research, University of New South Wales; 2010. Figure. 7, p. 12.
- 23 Xu F, Markowitz LE, Sternberg MR, Aral SO. Prevalence of circumcision and herpes simplex type 2 infection in men in the United States: the National Health and Nutrition Examination Survey (NHANES), 1999–2004. Sex Transm Dis. 2007;34:479–84.
- 24 US Centers for Disease Control and Prevention. Racial/ethnic disparities in diagnoses of HIV/AIDS – 33 states, 2001–2005. MMWR Morb Mort Wkly Rep. 2007;56:189–93.
- 25 Musa Simelane, More circumcised men are HIV positive. Times of Swaziland. 2010 September 19 [cited 2010 Dec 1]. Available from: http://www.times.co.sz/index.php?news=2090.
- 26 Dinh MH, Fahrbach KM, Hope TJ. The role of the foreskin in male circumcision: an evidence-based review. Am J Reprod Immunol. 2010 Nov 28. PubMed PMID: 21114567.
- 27 Ganor Y, Bomsel M. HIV-1 transmission in the male genital tract. Am J Reprod Immunol. 2011;65:284–291. Direct Link:
- 28 Dinh MH, McRaven MD, Kelley Z, Penugonda S, Hope TJ. Keratinization of the adult male foreskin and implications for male circumcision. AIDS. 2010;24:899–906.
- 29 Chin J. The AIDS Pandemic: The Collision of Epidemiology with Political Correctness. Oxford ( UK ): Radcliffe Publishing 2007.
- 30 de Witte L, Nabatov A, Pion M, Fluitsma D, de Jong MAWP, de Gruijl T, et al. Langerin as a natural barrier to HIV-1 transmission by Langerhans cells. Nat Med. 2007;13:367–71.
- 31 Ferris JA, Richters J, Pitts MK, Shelley JM, et al. Circumcision in Australia: Further evidence on its effects on sexual health and wellbeing. Aust N Z J Public Health. 2010;34(2):160–4. Direct Link:
- 32 Weiss GN. Prophylactic neonatal surgery and infectious diseases. Pediatr Infect Dis J. 1997;16:727–34.
- 33 Weiss HA, Thomas SL, Munabi SK, Hayes RJ. Male circumcision and risk of syphilis, chancroid, and genital herpes: a systematic review and meta-analysis. Sex Transm Infect. 2006;82:101–10.
- 34 Van Howe RS. Human papillomavirus and circumcision: A meta-analysis. J Infect. 2007;54:490–6.
- 35 Gisselquist D. Points to Consider: Responses to HIV/AIDS in Africa, Asia, and the Caribbean. London ( UK ): Adonis and Abbey; 2008.
- 36 National Centre in HIV Epidemiology and Clinical Research. HIV/AIDS, Viral Hepatitis and Sexually Transmissible Infections in Australia, Annual Surveillance Report. Sydney ( AUST ): National Centre in HIV Epidemiology and Clinical Research, University of New South Wales; 2010.
- 37 As reported in Bay Area Reporter (San Francisco), 24 November 1999; cited in Pittas-Giroux JA. Male circumcision and HIV infection. Lancet. 2000;355:926.
- 38 Xiao Xu, Patel AD, Vanessa KD, Pearlman MD, Johnson TRB. Can Routine Neonatal Circumcision Help Prevent Human Immunodeficiency Virus Transmission in the United States? Am J Men Health. 2009;3;79–84.
- 39 Jozkowski K, Rosenberger JG, Schick V, Herbenick D, et al. Relations Between Circumcision Status, Sexually Transmitted Infection History, and HIV Serostatus Among a National Sample of Men Who Have Sex with Men in the United States. AIDS Patient Care STDs. 2010;24(8):465–70.
- 40 Gust DA, Wiegand RE, Kretsinger K, Sansom S, et al. Circumcision status and HIV infection among MSM: reanalysis of a Phase III HIV vaccine clinical trial. AIDS. 2010;24(8):1135–43.
- 41 Millett GA, Flores SA, Marks G, Reed JB, Herbst JH. Circumcision status and risk of HIV and sexually transmitted infections among men who have sex with men. JAMA. 2008;300:1674–84. Errata JAMA. 2009;301:1126–9.
- 42 Reid D, Weatherburn P, Hickson F, Stephens M. Know the Score: Findings from the National Gay Men's Sex Survey 2001. London ( UK ): Sigma Research, Faculty of Humanities & Social Sciences, University of Portsmouth; 2002.
- 43 National Centre in HIV Epidemiology and Clinical Research. HIV/AIDS, Viral Hepatitis and Sexually Transmissible Infections in Australia, Annual Surveillance Report 2010. Sydney ( AUST ): National Centre in HIV Epidemiology and Clinical Research, University of New South Wales; 2010. p. 7.
- 44 National Centre in HIV Epidemiology and Clinical Research. National HIV Registry: Table 1.1.1. In: HIV, Viral Hepatitis and Sexually Transmissible Infections in Australia Annual Surveillance Report 2010. Sydney ( AUST ): National Centre in HIV Epidemiology and Clinical Research, University of New South Wales; 2010. p. 35.
- 45 National Centre in HIV Epidemiology and Clinical Research. Main Findings: Figure 5 – HIV diagnoses, 2005 – 2009, by HIV exposure category. In: HIV, Viral Hepatitis and Sexually Transmissible Infections in Australia Annual Surveillance Report 2010. Sydney ( AUST ): National Centre in HIV Epidemiology and Clinical Research, University of New South Wales; 2010. p. 11.
- 46 Richters J, Smith AMA, de Visser RO, et al. Circumcision in Australia: prevalence and effects on sexual health. Int J STD AIDS. 2006;17:547–54.
- 47 Ferris JA, Richters J, Pitts MK, Shelley JM, et al. Circumcision in Australia: Further evidence on its effects on sexual health and wellbeing. Aust N Z J Public Health. 2010;34(2):160–4. Direct Link:
- 48 Simonsen JN, Cameron DW, Gakinya MN, Ndinya Achola JO, D'Costa LJ, Karasira P, et al. Human immunodeficiency virus infection among men with sexually transmitted diseases. Experience from a center in Africa. N Engl J Med. 1988;319:274–8.
- 49 Perera CL, Bridgewater FHG, Thavaneswaran P, Maddern GJ. Safety and efficacy of nontherapeutic male circumcision: A systematic review. Ann Fam Med. 2010;8(1):64–72.
- 50 McDaid LM, Weiss HA, Hart GJ. Circumcision among men who have sex with men in Scotland: limited potential for HIV prevention. Sex Transm Infect. 2010;86:404–6.
- 51 Wei C, Raymond H, McFarland W, Buchbinder S, Fuchs J. What is the potential impact of adult male circumcision on the HIV epidemic among men who have sex with men (MSM) in San Francisco? Sex Transm Dis. 2010;37:1–3.
- 52 Royal Dutch Medical Association. Non-therapeutic Circumcision of Male Minors [Internet]. Utrecht ( NLD ): KNMG; 2010 [cited 2010 Oct 26]. p. 6. Available from: http://knmg.artsennet.nl/Diensten/knmgpublicaties/KNMGpublicatie/Nontherapeutic-circumcision-of-male-minors-2010.htm.
- 53 Royal Australasian College of Physicians. Circumcision – RACP Position Statement. Sydney ( AUST ): RACP; 2010 September. p. 13.
- 54 Australian Institute of Health and Welfare. A Picture of Australia's Children 2005. Canberra ( AUST ): AGPS; 2005.
- 55 Cold CJ, Taylor JR. The prepuce. BJU Int. 1999;83 Suppl 1: 34–44.
- 56 Fink KS, Carson CC, DeVellis RF. Adult circumcision outcomes study: effect on erectile function, penile sensitivity, sexual activity and satisfaction. J Urol. 2002;167:2113–16.
- 57 Kim DS, Pang M-G. The effect of male circumcision on sexuality. BJU Int. 2007;99:619–22. Direct Link:
- 58 Payne K, Thaler L, Kukkonen T, Carrier S, Binik Y. Sensation and sexual arousal in circumcised and uncircumcised men. J Sex Med. 2007;4:667–74. Direct Link:
- 59 Sorrells ML, Snyder JL, Reiss MD, Eden C, Milos MF, Wilcox N, et al. Fine-touch pressure thresholds in the adult penis. BJU Int. 2007;99:864–9. Direct Link:
- 60 Darby R, Cox L. Objections of a sentimental character: The subjective dimension of foreskin loss. In: Zabus C, editor. Fearful Symmetries: Essays and Testimonies around Excision and Circumcision. Amsterdam ( NLD ): Rodopi; 2009. p. 251–98.
- 61 Schoen EJ, Colby CJ, To TT. Cost analysis of neonatal circumcision in a large health maintenance organization. J Urol. 2006;175:1111–15.
- 62 Van Howe R. A cost-utility analysis of neonatal circumcision. Med Decis Making. 2004; 24: 584–601.
- 63 Royal Australasian College of Physicians. Circumcision – RACP Position Statement. Sydney ( AUST ): RACP; 2002.
- 64 Sutherland JM, Glueck HI, Gleser G. Hemorrhagic disease of the newborn: breast feeding as a necessary factor in the pathogenesis. American Journal of Diseases of Children. 1967;113:524–33.
- 65 O'Brien TR, Calle EE, Poole WK. Incidence of neonatal circumcision in Atlanta, 1985–1986. South Med J. 1995;88:411–15.
- 66 Moreno CA, Realini JP. Infant circumcision in an outpatient setting. Tex Med. 1989;85:37–40.
- 67 Van Howe RS. Incidence of meatal stenosis following neonatal circumcision in a primary care setting. Clin Pediatr (Phila). 2006;45;49–54.
- 68 Joudi M, Fathi M, Hiradfar M. Incidence of asymptomatic meatal stenosis in children following neonatal circumcision. J Pediatr Urol [Internet]. 2010. PubMed PMID: 20851685.
- 69 Peterson S. Assaulted and mutilated: A personal account of circumcision trauma. In: Denniston GC, Hodges FM, Milos MF, editors. Understanding Circumcision: A Multi-disciplinary Approach to a Multi-dimensional Problem. New York (NY) : Kluwer Academic; 2001. p. 271–90.
- 70 Ly L, Sankaran K. Acute venous stasis and swelling of the abdomen after circumcision. Canadian Medical Association Journal. 2003;169(3):216–17.
- 71 Paediatric Death Review Committee: Office of the Chief Coroner of Ontario. Circumcision: a minor procedure? Paediatrics & Child Health. 2007;12(4):311–2.
- 72 Doctor barred but still at work. Herald-Sun. 2010; November 11. [Internet] Circumcision Information Australia. [cited 2010 Dec 2]. Available from: http://www.circinfo.org/news_upto2010.html#jabbar.
- 73 Machmouchi M, Alkhotani A. Is Neonatal Circumcision Judicious? Eur J Pediatr Surg. 2007;17:266–9.
- 74 Leitch IOW. Circumcision: A continuing enigma. Australian Paediatric Journal. 1970;6:60.
- 75 Clements A. Letter. Med J Aust. 1972;April 29:946.
- 76 Darby R. Svoboda JS. A Rose by any other Name: Rethinking the similarities and differences between male and female genital cutting. Med Anthropol Q. 2007;21:301–23. Direct Link:
- 77 Beauchamp TL, Childress JF. Principles of Biomedical Ethics – Part II. 6th ed. New York (NY) : Oxford University Press; 2009.
- 78 Fox M, Thomson M. Short Changed? The Law and Ethics of Male Circumcision. International Journal of Children's Rights 2005;13:161–81.
- 79 Svoboda JS, Van Howe RS, Dwyer JG. Informed consent for neonatal circumcision: An ethical and legal conundrum. J Contemp Health Law Policy. 2000;17:61–133.
- 80 Tasmania Law Reform Institute. Non-therapeutic Male Circumcision: Issues Paper No. 14. Hobart ( AUST ): University of Tasmania; 2009 June 2.
- 81 Lenganji Sikapizye. Boys see circumcision as a licence for unprotected sex. Saturday Post Online (Zambia) [Internet]. 2010; November 13 [cited 2010 Nov 19]. Available from: http://www.postzambia.com/post-read_article.php?articleId=15572.
- 82 Hodges FM, Svoboda JS, Van Howe RS. Prophylactic interventions on children: balancing human rights with public health. J Med Ethics. 2002;28(1):10–16.
- 83 Sawers L, Stillwaggon E. Concurrent sexual partnerships do not explain the HIV epidemics in Africa: a systematic review of the evidence. J Int AIDS Soc. 2010;13:34.
- 84 Gisselquist D. Points to Consider: Responses to HIV/ AIDS in Africa, Asia, and the Caribbean. London ( UK ): Adonis and Abbey; 2008.
- 85 Setel P. A Plague of Paradoxes: AIDS, Culture and Demography in Northern Tanzania. Chicago ( IL ): Chicago University Press; 1999.
- 86 Bowtell WD. World AIDS day. Med J Aust. 2010;193(11/12):653–4.