Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Sexual Health Sexual Health Society
Publishing on sexual health from the widest perspective
REVIEW (Open Access)

The need for sexual health clinics, their future role, and contribution to public health

Meena S. Ramchandani https://orcid.org/0000-0002-0298-474X A B * , Christopher Bourne C D E , Lindley A. Barbee A B , Elske Hoornenborg F , Preeti Pathela G , Stephanie N. Taylor H I J and Henry de Vries F K L
+ Author Affiliations
- Author Affiliations

A Department of Medicine, University of Washington, Seattle, WA, USA.

B Public Health – Seattle & King County HIV/STD Program, Seattle, WA, USA.

C NSW STI Programs Unit, Centre for Population Health, New South Wales Health, NSW, Australia.

D Sydney Sexual Health Centre, Sydney, NSW, Australia.

E Kirby Institute, Sexual Health Program, Sydney, NSW, Australia.

F STI Outpatient Clinic, Public Health Service of Amsterdam, Amsterdam, Netherlands.

G New York City Department of Health and Mental Hygiene Bureau of Hepatitis, HIV, and Sexually Transmitted Infections, Queens, NY, USA.

H Section of Infectious Diseases at Louisiana State University Health Sciences Center, New Orleans, LA, USA.

I LSU-CrescentCare Sexual Health Center, New Orleans, LA, USA.

J Louisiana Office of Public Health STD/HIV Program, New Orleans, LA, USA.

K Amsterdam Institute for Infection and Immunity, Academic Medical Center, University of Amsterdam, Amsterdam, Netherlands.

L Department of Dermatology, Academic Medical Center, University of Amsterdam, Amsterdam, Netherlands.

* Correspondence to: meenasr@uw.edu

Handling Editor: Jason Ong

Sexual Health - https://doi.org/10.1071/SH22087
Submitted: 27 May 2022  Accepted: 28 July 2022   Published online: 23 August 2022

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Specialised sexual health clinics (SHCs) play an important role in addressing the staggering rates of STIs seen in many high-income nations. Despite increasing healthcare coverage in the US and nationalised health care in some countries, there is a continued need for SHCs to meet the needs of patients and the community, especially for high-priority populations: those at high risk of STI acquisition and/or groups historically marginalised and underserved in the traditional healthcare system. We need to mobilise resources to support a stronger clinical infrastructure in specialised SHCs. This review describes the importance of SHCs, their future role, and some of the innovative programs housed within SHCs in the US, Australia, and the Netherlands to address both STI and HIV prevention for the populations they serve.

Keywords: clinics, health services, public health, STIs, STDs, sexually transmitted diseases, sexually transmitted infections, sexual health, sexual health clinics.

Introduction

Specialised sexual health clinics (SHCs) are a key part of the public health response to rising rates of sexually transmitted infections (STIs) and ongoing needs for HIV prevention in many nations. Since the early 2000s, reported gonorrhoea and syphilis cases have reached historically high levels in some nations.13 In the US, rates of gonorrhoea increased by 45%, syphilis increased by 52%, and chlamydia decreased by 1.2% from 2016 to 2020.3 In Australia, gonorrhoea notifications increased by 97%, syphilis by 146%, and chlamydia by 21% from 2014 to 2018, with the highest number of cases seen in New South Wales (NSW), Australia.2 A 2020 NSW STI surveillance report showed that gonorrhoea has increased by 29%, syphilis has increased by 9%, and chlamydia has decreased by 5% from 2016 to 2020.4 In the Netherlands, chlamydia infections increased by roughly 14%, gonorrhoea and syphilis each by 52% from 2015 to 2019.1,5 Sexually transmitted disease (STD) surveillance data during 2020 are likely underreported due to the coronavirus disease 2019 (COVID-19) pandemic and need to be interpreted with caution.6 The resulting economic, public health and individual health ramifications of such high STI burdens are significant. STIs are estimated to have cost the US nearly $16 billion in healthcare costs in 2018 alone.7 Preliminary data for 2020 show the burden of some STIs – syphilis in particular – will be even higher, even taking into consideration decreased testing and reporting during the COVID-19 pandemic.810 STIs can result in long-term individual health consequences. For example, neuro-, ocular or otologic syphilis can lead to stroke, irreversible blindness, or hearing loss. Congenital syphilis has increased 279% since 2015 in the US, and there were nearly 2100 cases of congenital syphilis in 2020, resulting in almost 140 stillbirths or infant deaths.11,12 Many of the initial monkeypox cases in the ongoing outbreak in 2022 in non-endemic countries was first identified in SHCs, and SHCs have been an integral part of evaluating patients with symptoms and providing post-exposure prophylaxis for contacts.1315 At the population level, circulation of STI pathogens can lead to the emergence and onward transmission of drug-resistant strains.

Specialised SHCs in many high-income nations provide specialised care to diagnose and treat STIs, including potential complications from these infections. In some areas, SHCs also provide services to meet broader sexual health needs of specific populations, such as men who have sex with men (MSM) and transgender persons. Despite the critical role SHCs play in addressing increasing rates of STIs, limited staffing and funding resources have reduced the number of SHCs and the services they provide. The COVID-19 pandemic has further put a strain on STI services as public health personnel and resources have been diverted towards the COVID-19 response.16 The impact of the COVID-19 pandemic on rates of STIs in upcoming years might be severe. We strongly believe specialised SHCs should be prioritised as a critical and fundamental part of the public health system. This manuscript discusses the rationale for sustaining and expanding the network of SHCs, their future role in the community, the need for a strong infrastructure to support SHCs and describes some innovative programs developed in different countries to serve priority populations. Although we focus on SHCs in high-income nations, any country with an established public health infrastructure can benefit from specialised SHCs to meet the needs of their population.


Need for specialised sexual health clinics

SHCs provide care to people who are uninsured, and are the preferred place for STI care for many patients

Despite increasing healthcare coverage in the US, SHCs remain a critical healthcare resource that is valued by patients. A survey of 326 local health departments in 2018 reported that specialised SHCs were the primary provider of STI services in 41% of jurisdictions.17 The Affordable Care Act (ACA) led to the expansion of Medicaid (a program that provides health insurance for low-income Americans) in 39 states (including the District of Columbia), and established a system of subsidised health insurance exchanges through the country, improving access to care for many Americans. However, disparities in insurance coverage and healthcare access across racial/ethnic groups still exist. In Rhode Island, where the ACA led to >95% of the state’s population being insured, 40% of patients who presented in a publicly funded SHC for services in 2015 were uninsured.18 A study in Baltimore, Maryland, found that the proportion of all STIs diagnosed at publicly funded SHCs was largely unchanged 3 years after ACA implementation, demonstrating that the increased access to primary medical care facilitated by the ACA had little impact on demand for SHC services.19 For patients who are uninsured or underinsured, SHCs help address a gap in healthcare access by providing free or low-cost care. Although SHCs are particularly important for patients who are uninsured or underinsured, the clinics are also widely used by insured patients. A survey of >4000 patients seeking care at 26 SHCs in a large metropolitan area in the US from 2018 to 2019 indicated 53% had health insurance and 50% reported having a usual place for medical care.20 Studies involving SHCs in New York City (NYC), San Francisco and Rhode Island have also found that a substantial proportion (38–60%) of patients were insured.18,21,22

Demand for SHC services among persons who could choose to seek care elsewhere is not confined to the US, and is widespread in nations with universal, publicly funded health care. In NSW, Australia, where testing and treatment for HIV and other STIs are usually managed by general practitioners, the annual proportion of HIV and STIs diagnosed at publicly funded SHCs increased from 2010 to 2014; up to 40% of infectious syphilis and gonorrhoea cases and 30% of HIV cases were diagnosed in specialised SHCs.23 This is similar in the Netherlands, where aggregated national data show that about 30% of STI diagnoses are made in SHCs. The total number of gonorrhoea diagnoses made at all SHCs in the Netherlands increased by 11% and syphilis by 17% from 2018 to 2019, even though many patients have a primary care provider.1 This is in stark contrast to the situation in Amsterdam where 70% of STI diagnoses are made at the Amsterdam SHC. The number of gonorrhoea cases rose by 1% and syphilis cases by 27% from 2018 to 2019 at the Amsterdam SHC. Table 1 details the number and percentage of HIV/STI cases diagnosed and managed in specialised SHCs in various cities in 2019, supporting the conclusion that many people prefer to be evaluated for STIs in these specific clinic settings.24


Table 1.  Number and percentage of HIV/STI cases diagnosed and/or treated in sexual health clinics in 2019 by city.
Click to zoom

There are many reasons patients may prefer specialised SHCs for STI care. The clinics employ specialised medical, nursing, public health and allied health staff who are highly skilled across domains of sexual health- related care, trained in cultural sensitivity, and often come from the priority populations they serve.20 Patients can sometimes remain anonymous, are comfortable with the privacy provisions of SHCs, and often prefer to seek care at venues with reduced real or perceived stigma around sexual health and STI or HIV prevention.18,22 Although different models of SHCs exist, the clinics are typically organised to minimise barriers to accessing care, often through self-referral with a convenient walk-in component.20,25 Although STI screening and management might be available in other settings, staff in these locations often have limited ability to assess sexual risk, provide risk-reduction counselling, perform point-of-care tests, or provide a full menu of sexual health services (e.g. family planning, HIV pre-exposure prophylaxis [PrEP]). In some instances, primary care providers may not be familiar with some critical components of sexual health care (e.g. PrEP, extra-genital STI testing) or STI treatment guidelines.26

SHCs provide specialty services to priority populations

SHCs provide clinical and prevention services to persons at high risk of STI acquisition and for those who may not have access to other healthcare services. In some settings, these clinics are the primary source of sexual health care, especially for racial and ethnic minorities, migrant populations, adolescents, bisexual and other MSM, transgender and gender-diverse people, sex workers, and people with multiple partners or history of an STI and/or HIV.1,20,27 These communities might be at higher risk of STIs and benefit seeing staff highly skilled at sexual health-related care, but may also prefer visiting specialised SHCs due to stigma and inequities in other medical settings.20,28,29

SHCs disproportionately serve men at high risk for bacterial STIs, and in many areas, are widely used by MSM and other sexual and gender minorities.1,23,3032 In the US, from 2010 to 2018, the number of MSM visiting 14 SHCs in five large urban cities increased by 44%, with the greatest increase among MSM aged ≥25 years,31 and in 40 SHCs, the majority of gonorrhoea and HIV infections were diagnosed in MSM.30 The number of visits to SHCs in the Netherlands increased by 10% among MSM from 2018 to 2019, and 96% of syphilis infections diagnosed at SHCs were among MSM. In NSW, the majority of early syphilis and gonorrhoea cases diagnosed at publicly funded SHCs from 2010 to 2014 were among gay and bisexual men.23 Publicly funded SHCs are also an important place for STI care for transgender persons, with a 10% increase in the number of visits to SHCs by transgender persons from 2015 to 2019 in the Netherlands and a more than two-fold increase in the US from 2010 to 2018.1,31,33 In many high-income nations, SHCs have specialised in the care of sexual minority men and transgender persons, with providers and staff well versed in medical issues related to these communities.

SHCs also play a critical role in addressing racial disparities. In 40 SHCs in the US, >50% of patients were African American, and in four cities, >80% were African American.30 The highest rates of new HIV diagnoses in the US occur among Black and Hispanic/Latino MSM.34,35 SHCs are uniquely poised to serve these men. In Australia, access to publicly funded SHCs among priority populations, including Aboriginal and Torres Strait Islander people, who are disproportionately affected by STIs, increased by >30% from 2004 to 2011.36 Social determinants of health influence disparities in STD rates among racial and ethnic minorities and these communities often need to rely on free or low-cost public health services found in SHCs for sexual health-related care.29,37

SHCs provide specialised care not available in other clinical settings

SHCs frequently provide specialised medical care that is not widely available in other settings, including care for complicated cases of STIs. For example, SHCs are well versed in the diagnosis and management of neurosyphilis or drug-resistant STIs, which is usually not within the scope of general practitioners. Some STI treatments, such as injectable penicillin G benzathine, are not easily obtained in community settings.38 These medications, along with common oral antibiotics used to treat STIs, are routinely provided in SHCs and are often available on-site, possibly resulting in timelier treatment.20,39 Extra-genital testing for gonorrhoea and chlamydia, point-of-care testing for STIs, and access to specialised techniques and laboratory equipment such as Gram stains, darkfield microscopy for syphilis, and Neisseria gonorrhoeae culture are standard diagnostic components of many SHCs, but typically not available elsewhere.

The importance of SHCs extends well beyond the medical care they provide. Table 2 details some of the services provided in SHCs. One such area involves education and training. Staff educate medical, nursing and allied health trainees on topics related to sexual health and provide consultation to community health providers for specific STI-related cases. Many SHCs in the US closely work with the National Network of Sexually Transmitted Disease Clinical Prevention Training Centres to support training for clinical providers and other health professionals in STI management and care.40 SHCs serve as research sites for new diagnostic tests and treatments, including therapies for increasingly recognised pathogens and multi-drug-resistant organisms.4147 SHCs have played an important role in the evaluation of point-of-care tests, extra-genital testing, self-collected specimens, resistance-guided anti-microbial therapy and therapies to advance the clinical care and management of patients with STIs.46,4850 Indeed, in the absence of such clinics, it is difficult to imagine how a study could enrol an adequate number of people with STIs to evaluate a new diagnostic test or treatment. Even with the current network of SHCs, the research capacity of many nations – including the US – is insufficient to conduct the number of studies needed to simultaneously confront the challenges of rising rates of syphilis, antimicrobial-resistant N. gonorrhoeae, Mycoplasma genitalium, and bacterial vaginosis. This would also include studies related to health services and implementation science, which greatly contribute to the application and understanding of STI and HIV prevention management in real world settings.5155


Table 2.  Examples of services provided at specialised SHCs in different jurisdictions.
Click to zoom

Sentinel surveillance for STIs and HIV is a critical public health function incorporated into many SHCs. Sentinel surveillance involves the ongoing and systematic collection of case data from a sample of providers (in this case, SHCs) to identify trends in STIs in the larger population. For example, the US Gonococcal Isolate Surveillance Project (GISP), Strengthening the US Response to Resistant Gonorrhoea (SURRG), the Australian Gonococcal Surveillance Program and the Dutch Gonokokken Resistentie tegen Antibiotica Surveillance (GRAS) all monitor antibiotic resistance trends in N. gonorrhoeae culture isolates, predominately from SHC patient specimens, to inform treatment recommendations and programmatic planning.5659 In the US, the Netherlands, and Australia, many SHCs contribute to sentinel surveillance efforts to characterise STI and HIV epidemiology at the national level.1,31,35,56,60 Apart from surveillance of the more traditional STIs, SHCs play a vital role in surveillance of less well-known sexually transmissible pathogens, such as extensively drug-resistant Shigella sonnei and monkeypox virus.1315,61 SHCs are also often connected with broader public health surveillance efforts such as case investigation and partner services, which integrate public health data collection with the provision of vital services, such as linkage to PrEP and to HIV care for patients with newly diagnosed HIV infection or those who have fallen out of care.54,62,63


The future role of specialised SHCs: growing capacity, improving efficiency, and expanding service

There is a need to build, improve, and support the clinical infrastructure of SHCs. With rising rates of STIs, it will be important to expand services in SHCs, but also embrace opportunities for greater efficiency. These services will need to reflect priority populations for that community, those most needing of STI services and judicious use of resources. It will be critical for local and federal governments to allocate resources and funding to support SHCs.

Improving clinic efficiency and decreasing barriers to care

Selective de-medicalisation of sexual health services and greater use of e-health technology can increase STI/HIV testing, treatment, and prevention services while minimising costs. For example, the use of computer-assisted self-administration interviews for sexual history taking has been shown to accurately identify patients eligible for STI/HIV testing-only visits without a clinician evaluation, streamlining clinic flow.64,65 Self-obtained specimens for testing gonorrhoea and chlamydia and ‘express visits’ for routine asymptomatic screening can be widely implemented to increase efficiency, reduce long-term costs and reduce visit lengths.6672 Twenty-one percent of visits to specialised SHCs in the US were express STI or HIV testing-only visits, suggesting a large proportion of asymptomatic screenings can be accomplished without lengthy face-to-face consultation and in some areas, the need to see a clinician.30

Lean service delivery models for high throughput and low barrier clinics for HIV/STI testing have been initiated to address increased volume and demand. Examples include Umbrella health and 56 Dean Street, part of the National Health Service in the United Kingdom, which provide walk-in, rapid STI screening service for asymptomatic individuals.73,74 Standing orders for STI/HIV testing and/or treatment as used in NSW, Seattle and other cities can be implemented to expand the role of disease intervention specialists (DIS) (public health workers who provide partner services) and registered nurses within SHCs to help relieve clinician time if allowed by state or federal law.7577 In Amsterdam and Thailand, Key Population-Led Health Services engage certified community health workers to provide tailored and accessible sexual health and HIV prevention services.7880 At-home specimen STI and HIV testing and utilising telehealth are other means to expand sexual health services by SHCs.8184 These modalities not only help offset the burden of clinical visits, but are convenient, acceptable, and increase access to sexual health care and HIV prevention for patients with limited access to healthcare services due to stigma, privacy/confidentiality concerns, or the absence of locally accessible care.85,86 Service expansion to meet the numbers of individuals needing sexual health care might be integrated within SHCs themselves, without the need for a clinician at every appointment or can be integrated within separate facilities to expand the network of services in a given area that then connect with SHCs as the central part of STI treatment, complex STI management and HIV prevention.

Focusing on priority populations and expanding services

With greater efficiency, specialised SHCs should ideally focus on high-priority populations and expand services to meet the needs of those populations. Potential areas for service expansion include mental health and substance abuse treatment, HCV testing and treatment, and expanded services for gender-diverse populations. Many examples exist of successful service expansion.

Some of the ways specialised SHCs should focus on priority populations include innovative services to address co-morbid conditions associated with STIs and HIV. In Amsterdam, a SHC implemented syndemic-based interventions such as help-seeking advice on mental health screening and peer-led counselling hours around chemsex and smartphone dating application addiction87 (Dr. Henry de Vries, pers. comm., July 2022). In NYC, SHCs incorporated behavioural health and substance use counselling, and in Baltimore, Maryland, staff successfully linked patients to substance use disorder treatment services in the community.8891 SHCs in Baltimore, Maryland, also offer free rapid hepatitis C virus (HCV) testing with linkage and outreach support to specialty HCV care.92 SHCs in NYC provide patients with same-day contraception initiation, with linkage to ongoing family planning as some patients may need or prefer SHCs for contraceptive care.93 As many countries are facing a syndemic of HIV, other STIs, viral hepatitis, substance use and untreated mental health conditions, integration of services within SHCs or referrals to appropriate care providers can improve the care of individuals with relation to STIs and/or HIV.

In some SHCs, services focus on increasing engagement of specific priority populations who might not engage in healthcare elsewhere. Although many SHCs have not traditionally focused on the care of transgender, gender non-conforming and non-binary patients (TGNCNB), they have the capacity to do so and should ideally be able to provide services that reduce stigma and improve health.31,33,94 For example, health disparities exist for TGNCNB and some specialised SHCs have implemented services such as the provision of hormone therapy to engage these communities and integrate STI and HIV prevention.31,33,94,95 Other models include dedicated SHCs for groups with high rates of STIs, such as a specialised clinic for sex workers or transgender sex workers in Europe.96,97 Although this might be best for local community needs in some settings, in other locations, SHCs focus on incorporating appropriate language and programs that are responsive to culturally specific needs and sensitivities.98 For example, SHCs in NYC have external facilitator-led trainings on serving lesbian, gay, bisexual and queer/questioning and TGNCNB patients (Dr. Preeti Pathela, pers. comm., July 2022). Increasing access to care for populations disproportionately affected by STIs and/or HIV is a way to address disparities and improve overall health.

Although the majority of services offered in SHCs in high-income nations focus on management of STIs and prevention of HIV, some locations have been able to focus on other sexual health priorities and needs. Not only are some clinics able to expand services to address co-morbid conditions as mentioned above, different clinic structures or access to health care as changed priorities of SHCs in a jurisdiction. For example, in the US, the majority of patients visit SHCs for STI/HIV diagnosis and STI treatment.20,31 In NSW and the Netherlands, where most routine STI and HIV testing is implemented in primary care, SHCs prioritise complicated cases and populations, but still remain focused on STI and HIV prevention and control. In the most recent outbreak of monkeypox disease, SHCs in many parts of the world have been at the forefront of patient care and management.

Integrating STI care with HIV prevention and treatment

National strategies, such as the National HIV/AIDS Strategy for the US and the Ending the HIV Epidemic (EHE) can in part be achieved by utilising SHCs for PrEP, post-exposure prophylaxis (PEP), and initiation of antiretroviral treatment.99,100 Staff in SHCs see a large number of individuals who would benefit from HIV prevention methods, such as MSM with a history of early syphilis or rectal gonorrhoea and patients seeking PrEP.101,102 This would alleviate the ‘purview paradox’, or the notion that antiretroviral therapy for HIV prevention is not within the clinical domain of either HIV specialists or primary care providers.103 PrEP referrals can be incorporated into case investigation and partner services given the potential for a seamless integration of SHC and STI/HIV surveillance activities.104

SHC clinics have implemented a variety of models for providing PrEP. Some SHCs provide ongoing PrEP care, some initiate PrEP and then refer patients to other providers to continue the intervention, and others refer interested patients to another source of care, sometimes using patient navigators to help ensure linkage to care.105 Models that refer patients to other clinics for ongoing PrEP have met variable results. In NYC and Chicago, 11% and 29% of those that offered intensive navigation or a warm hand-off from the SHC to an outside PrEP provider received a PrEP prescription, respectively.53,106 In general, SHCs that provide ongoing PrEP care seem to enjoy greater success, though they also require more resources. A SHC in Seattle provided ongoing PrEP care to almost 1400 patients over 6 years using a de-medicalised model that task shifts most patient follow up to DIS.107 In both the Netherlands and NSW, patients were initiated on PrEP and attended trimonthly PrEP visits within SHCs in pilot startup and rapid access programs. At the end of 2019, >2700 individuals (98% MSM) had an initial PrEP visit at SHCs in the Netherlands.1 In NSW, >3500 MSM were initiated on PREP in 2016, 47% of which were seen at SHCs.108 SHCs should strive not only to provide expert clinical care for STI patients, they are also ideal settings for HIV prevention.109

For people with HIV (PWH), service integration of STI and HIV care may be beneficial for some patients or settings to promote multidisciplinary holistic sexual health. Over the years, STI- and HIV-related medical care has diverged. SHCs focus on STI treatment and prevention whereas HIV care is managed by infectious disease physicians or other HIV specialists and in countries like Australia, within primary care. However, SHCs may be a valuable resource to improve HIV care outcomes, especially for priority populations who might not seek care elsewhere.110 An early intervention of medical treatment and counselling was implemented for PWH attending Baltimore STD clinics, and the clinics continue to provide Ryan White HIV/AIDS Program (a source of federal funding for HIV care in the US) primary care services for PWH.111 Although re-linkage services to HIV care might be helpful for some, interventions within SHCs to provide antiretroviral therapy and primary medical care might be best in some settings.

Some jurisdictions use SHCs to lead and activate key aspects of their broader HIV prevention and care strategies. One such innovative model, the MAX clinic, is a model of HIV care that is based on walk-in, incentivised, low barrier care with intensive psychosocial support for those patients who do not engage in the traditional healthcare model, and is housed within the SHC in Seattle.112 Another program in Amsterdam, the HIV Transmission Elimination in Amsterdam initiative, combines various innovative interventions to prevent transmission of the virus by promoting prevention, earlier HIV testing and immediate treatment of infections, especially among populations with high prevalence of HIV.113 Similarly, the NSW HIV strategy guides prevention, testing, and care activity to priority populations, with a focus on SHCs to drive implementation in partnership with community organisations and academics.114 These targeted approaches place these programs within SHCs on the frontline of the global fight against HIV.

A shortfall in capacity

With the rising rates of STIs in many parts of the world, the threat of untreatable pathogens due to antibiotic resistance, and the need for clinical care to address complicated disease, we need to mobilise resources to support a stronger clinical infrastructure of specialised SHCs. However, the availability of SHCs and services offered in these clinics have been limited by lack of resources and funding in many countries. In the US, from 2008 to 2009, 69% of SHC programs experienced funding cuts and at least 10% of specialised SHCs closed.75 A study of local health departments in the US in 2018 showed one-third do not have, or are not aware of, a primary referral point for safety-net STI services.17,115 More recently, public health activities focused on the COVID-19 pandemic response diverted resources and personnel from SHCs. In April 2020, in NYC, seven of eight SHCs closed, with one clinic remaining open for limited and emergency services only;116 as of May 2022, four of the eight clinics were open. In the US, ≥60% of SHCs reported reduced capacity to screen or treat STIs, and 96% of programs reporting staff reassignment to COVID-19 work in April 2020.117,118

Funding cuts are not limited to the US. Ninety-five percent of 20 Australian public SHCs surveyed reported delays in molecular STI testing and 70% of these clinics experienced staffing reductions due to reassignment of staff to assist in the COVID-19 response.9 The number of visits to SHCs in the Netherlands was reduced by about 80% during the lockdown period, and routine HIV/STI testing was temporarily suspended at the STI clinic of the Public Health Service of Amsterdam.119,120 Despite an increase in telehealth visits to maintain STD-related care, shortage of STI treatment medications, diagnostic kits, and laboratory supplies and delays in testing have hampered testing and management.9,121124 The service disruptions in sexual health has potential detrimental effects on HIV and STI incidence in communities, the extent of which is not yet fully clear. Sexual health services need to be expanded to manage a rise in STI/HIV transmission resulting from the period of diminished testing and treatment coincident with the COVID-19 epidemic, especially given increases in reported bacterial STIs even prior to widespread COVID-19 mitigation measures and stay-at-home orders and the 2022 monkeypox outbreak.8

There is a need to increase the number of SHCs, expand services and increase funding resources. Ideally, a network of SHCs would best serve a community. In one way, this can be accomplished with larger central locations and smaller satellite clinics to reach an expanded geographic area. Services would be tailored to high-throughput, convenient STI/HIV screening and treatment with a focus on engaging those at highest risk of STI/HIV acquisition in the local community and fluctuating priorities to meet the needs of current sexually related public health goals. Flexibility will be key to implement new models of care to engage priority populations. Incorporating technology and home testing for STI screening and HIV prevention will be important as STI rates continue to increase, to meet the numbers of individuals who might need care.


Conclusion

Specialised SHCs are a key component of sexual health care in many places in the world. We need to strengthen, support, and expand SHCs if we are going to address the escalating problem of increasing STIs and their complications. The services provided in SHCs will need to evolve to meet the needs of the populations they serve in the context of limited resources. Focusing on priority populations and implementing innovative programs for STI and HIV screening, prevention and management can help deliver sexual health care to those who need it the most.


Data availability

The data that support this study are not available.


Conflicts of interest

MSR owns stock in Gilead and Merck. LAB has received research support, unrelated to this work, from Hologic, SpeeDx and Nabriva, and received consulting fees from Nabriva. For the remaining authors, no conflicts of interest are declared.


Declaration of funding

This publication was supported by NIAID, NCI, NIMH, NIDA, NICHD, NHLBI, NIA, NIGMS, NIDDK of the National Institutes of Health under award number, AI027757.


Author contributions

All authors provided substantial contributions to the conception of the work, either drafted or revised the work critically for important intellectual content and approved the final version to be published. The submitted manuscript is an original contribution not previously published.



Acknowledgements

The authors are grateful to Dr. Matthew Golden for his support and valuable feedback on this manuscript.


References

[1]  National Institute for Public Health and the Environment Ministry of Health Welfare and Sport. Sexually transmitted infections in the Netherlands in 2019. 2020. Available at https://www.rivm.nl/bibliotheek/rapporten/2020-0052.pdf [accessed January 2022]

[2]  The Kirby Institute for infection and immunity in society. National update on HIV, viral hepatitis and sexually transmissible infections in Australia: 2009–2018. Sydney: Kirby Institute, UNSW Sydney; 2020.

[3]  Centers for Disease Control and Prevention. Sexually transmitted disease surveillance 2020. Atlanta: U.S. Department of Health and Human Services; 2021. Available at https://www.cdc.gov/std/statistics/2020/default.htm [accessed July 2022]

[4]  Centre for Population Health. NSW sexually transmissible infections strategy 2016–2020. 2016. Available at https://www.health.nsw.gov.au/sexualhealth/Publications/nsw-sti-strategy-2016-2020.pdf [accessed July 2022]

[5]  National Institute of Public Health and the Environment Ministry of Health Welfare and Sport. Sexually transmitted infections in the Netherlands in 2015. 2016. Available at https://www.rivm.nl/bibliotheek/rapporten/2016-0027.pdf [accessed February 2022]

[6]  Centers for Disease Control and Prevention. Impact of COVID-19 on STDs. 2022. Available at https://www.cdc.gov/std/statistics/2020/impact.htm [accessed July 2022]

[7]  Chesson HW, Spicknall IH, Bingham A, Brisson M, Eppink ST, Farnham PG, et al. The estimated direct lifetime medical costs of sexually transmitted infections acquired in the United States in 2018. Sex Transm Dis 2021; 48 215–221.
The estimated direct lifetime medical costs of sexually transmitted infections acquired in the United States in 2018.Crossref | GoogleScholarGoogle Scholar |

[8]  Pagaoa M, Grey J, Torrone E, Kreisel K, Stenger M, Weinstock H. Trends in nationally notifiable sexually transmitted disease case reports during the US COVID-19 pandemic, January to December 2020. Sex Transm Dis 2021; 48 798–804.
Trends in nationally notifiable sexually transmitted disease case reports during the US COVID-19 pandemic, January to December 2020.Crossref | GoogleScholarGoogle Scholar |

[9]  Phillips TR, Fairley CK, Donovan B, Ong JJ, McNulty A, Marshall L, et al. Sexual health service adaptations to the coronavirus disease 2019 (COVID-19) pandemic in Australia: a nationwide online survey. Aust N Z J Public Health 2021; 45 622–627.
Sexual health service adaptations to the coronavirus disease 2019 (COVID-19) pandemic in Australia: a nationwide online survey.Crossref | GoogleScholarGoogle Scholar |

[10]  Berzkalns A, Thibault CS, Barbee LA, Golden MR, Khosropour C, Kerani RP. Decreases in reported sexually transmitted infections during the time of COVID-19 in King County, WA: decreased transmission or screening? Sex Transm Dis 2021; 48 S44–S49.
Decreases in reported sexually transmitted infections during the time of COVID-19 in King County, WA: decreased transmission or screening?Crossref | GoogleScholarGoogle Scholar |

[11]  Centers for Disease and Prevention. Congenital syphilis: preliminary 2020 data. 2022. Available at https://www.cdc.gov/std/statistics/2020/Congenital-Syphilis-preliminaryData.htm [accessed January 2022]

[12]  Bowen VB, McDonald R, Grey JA, Kimball A, Torrone EA. High congenital syphilis case counts among U.S. infants born in 2020. N Engl J Med 2021; 385 1144–1145.
High congenital syphilis case counts among U.S. infants born in 2020.Crossref | GoogleScholarGoogle Scholar |

[13]  Girometti N, Byrne R, Bracchi M, Heskin J, McOwan A, Tittle V, et al. Demographic and clinical characteristics of confirmed human monkeypox virus cases in individuals attending a sexual health centre in London, UK: an observational analysis. Lancet Infect Dis 2022; S1473-3099(22)00411-X
Demographic and clinical characteristics of confirmed human monkeypox virus cases in individuals attending a sexual health centre in London, UK: an observational analysis.Crossref | GoogleScholarGoogle Scholar |

[14]  Perez Duque M, Ribeiro S, Martins JV, Casaca P, Leite PP, Tavares M, et al. Ongoing monkeypox virus outbreak, Portugal, 29 April to 23 May 2022. Euro Surveill 2022; 27 2200424
Ongoing monkeypox virus outbreak, Portugal, 29 April to 23 May 2022.Crossref | GoogleScholarGoogle Scholar |

[15]  Heskin J, Belfield A, Milne C, Brown N, Walters Y, Scott C, et al. Transmission of monkeypox virus through sexual contact – a novel route of infection. J Infect 2022; 85 334–363.
Transmission of monkeypox virus through sexual contact – a novel route of infection.Crossref | GoogleScholarGoogle Scholar |

[16]  Ogunbodede OT, Zablotska-Manos I, Lewis DA. Potential and demonstrated impacts of the COVID-19 pandemic on sexually transmissible infections. Curr Opin Infect Dis 2021; 34 56–61.
Potential and demonstrated impacts of the COVID-19 pandemic on sexually transmissible infections.Crossref | GoogleScholarGoogle Scholar |

[17]  Leichliter JS, O’Donnell K, Kelley K, Cuffe KM, Weiss G, Gift TL. Availability of safety-net sexually transmitted disease clinical services in the U.S., 2018. Am J Prev Med 2020; 58 555–561.
Availability of safety-net sexually transmitted disease clinical services in the U.S., 2018.Crossref | GoogleScholarGoogle Scholar |

[18]  Montgomery MC, Raifman J, Nunn AS, Bertrand T, Uvin AZ, Marak T, et al. Insurance coverage and utilization at a sexually transmitted disease clinic in a medicaid expansion state. Sex Transm Dis 2017; 44 313–317.
Insurance coverage and utilization at a sexually transmitted disease clinic in a medicaid expansion state.Crossref | GoogleScholarGoogle Scholar |

[19]  Mehtani NJ, Schumacher CM, Johnsen LE, Greenbaum A, Chaulk CP, Ghanem KG, et al. Three years post-affordable care act sexually transmitted disease clinics remain critical among vulnerable populations. Am J Prev Med 2018; 55 111–114.
Three years post-affordable care act sexually transmitted disease clinics remain critical among vulnerable populations.Crossref | GoogleScholarGoogle Scholar |

[20]  Pearson WS, Kumar S, Habel MA, Walsh S, Meit M, Barrow RY, et al. Sexually transmitted disease clinics in the United States: understanding the needs of patients and the capabilities of providers. Prev Med 2021; 145 106411
Sexually transmitted disease clinics in the United States: understanding the needs of patients and the capabilities of providers.Crossref | GoogleScholarGoogle Scholar |

[21]  Stephens SC, Cohen SE, Philip SS, Bernstein KT. Insurance among patients seeking care at a municipal sexually transmitted disease clinic: implications for health care reform in the United States. Sex Transm Dis 2014; 41 227–232.
Insurance among patients seeking care at a municipal sexually transmitted disease clinic: implications for health care reform in the United States.Crossref | GoogleScholarGoogle Scholar |

[22]  Washburn K, Goodwin C, Pathela P, Blank S. Insurance and billing concerns among patients seeking free and confidential sexually transmitted disease care: New York city sexually transmitted disease clinics 2012. Sex Transm Dis 2014; 41 463–466.
Insurance and billing concerns among patients seeking free and confidential sexually transmitted disease care: New York city sexually transmitted disease clinics 2012.Crossref | GoogleScholarGoogle Scholar |

[23]  Bourne C, Lam M, Selvey C, Guy R, Callander D. Changing pattern of sexually transmissible infections and HIV diagnosed in public sexual health services compared with other locations in New South Wales, 2010–14. Sex Health 2018; 15 366–369.
Changing pattern of sexually transmissible infections and HIV diagnosed in public sexual health services compared with other locations in New South Wales, 2010–14.Crossref | GoogleScholarGoogle Scholar |

[24]  Callander D, Moreira C, El-Hayek C, Asselin J, van Gemert C, Watchirs Smith L, et al. Monitoring the control of sexually transmissible infections and blood-borne viruses: protocol for the Australian Collaboration for Coordinated Enhanced Sentinel Surveillance (ACCESS). JMIR Res Protoc 2018; 7 e11028
Monitoring the control of sexually transmissible infections and blood-borne viruses: protocol for the Australian Collaboration for Coordinated Enhanced Sentinel Surveillance (ACCESS).Crossref | GoogleScholarGoogle Scholar |

[25]  Tideman RL, Pitts MK, Fairley CK. Effects of a change from an appointment service to a walk-in triage service at a sexual health centre. Int J STD AIDS 2003; 14 793–795.
Effects of a change from an appointment service to a walk-in triage service at a sexual health centre.Crossref | GoogleScholarGoogle Scholar |

[26]  Nurutdinova D, Rao S, Shacham E, Reno H, Overton ET. STD/HIV risk among adults in the primary care setting: are we adequately addressing our patients’ needs? Sex Transm Dis 2011; 38 30–32.
STD/HIV risk among adults in the primary care setting: are we adequately addressing our patients’ needs?Crossref | GoogleScholarGoogle Scholar |

[27]  Walia AM, Fairley CK, Bradshaw CS, Chen MY, Chow EPF. Disparities in characteristics in accessing public Australian sexual health services between Medicare-eligible and Medicare-ineligible men who have sex with men. Aust N Z J Public Health 2020; 44 363–368.
Disparities in characteristics in accessing public Australian sexual health services between Medicare-eligible and Medicare-ineligible men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[28]  Rhodes SD, Daniel-Ulloa J, Wright SS, Mann-Jackson L, Johnson DB, Hayes NA, et al. Critical elements of community engagement to address disparities and related social determinants of health: the centers of disease control and prevention community approaches to reducing sexually transmitted disease initiative. Sex Transm Dis 2021; 48 49–55.
Critical elements of community engagement to address disparities and related social determinants of health: the centers of disease control and prevention community approaches to reducing sexually transmitted disease initiative.Crossref | GoogleScholarGoogle Scholar |

[29]  Hogben M, Leichliter JS. Social determinants and sexually transmitted disease disparities. Sex Transm Dis 2008; 35 S13–S18.
Social determinants and sexually transmitted disease disparities.Crossref | GoogleScholarGoogle Scholar |

[30]  Pathela P, Klingler EJ, Guerry SL, Bernstein KT, Kerani RP, Llata L, et al. Sexually transmitted infection clinics as safety net providers: exploring the role of categorical sexually transmitted infection clinics in an era of health care reform. Sex Transm Dis 2015; 42 286–293.
Sexually transmitted infection clinics as safety net providers: exploring the role of categorical sexually transmitted infection clinics in an era of health care reform.Crossref | GoogleScholarGoogle Scholar |

[31]  Llata E, Cuffe KM, Picchetti V, Braxton JR, Torrone EA. Demographic, behavioral, and clinical characteristics of persons seeking care at sexually transmitted disease clinics – 14 sites, STD surveillance network, United States, 2010–2018. MMWR Surveill Summ 2021; 70 1–20.
Demographic, behavioral, and clinical characteristics of persons seeking care at sexually transmitted disease clinics – 14 sites, STD surveillance network, United States, 2010–2018.Crossref | GoogleScholarGoogle Scholar |

[32]  Ali H, Donovan B, Fairley CK, Ryder N, McNulty A, Chen MY, et al. Are Australian sexual health clinics attracting priority populations? Sex Health 2013; 10 456–459.
Are Australian sexual health clinics attracting priority populations?Crossref | GoogleScholarGoogle Scholar |

[33]  Pitasi MA, Kerani RP, Kohn R, Murphy RD, Pathela P, Schumacher CM, et al. Chlamydia, gonorrhea, and human immunodeficiency virus infection among transgender women and transgender men attending clinics that provide sexually transmitted disease services in six US cities: results from the sexually transmitted disease surveillance network. Sex Transm Dis 2019; 46 112–117.
Chlamydia, gonorrhea, and human immunodeficiency virus infection among transgender women and transgender men attending clinics that provide sexually transmitted disease services in six US cities: results from the sexually transmitted disease surveillance network.Crossref | GoogleScholarGoogle Scholar |

[34]  Sullivan PS, Satcher Johnson A, Pembleton ES, Stephenson R, Justice AC, Althoff KN, et al. Epidemiology of HIV in the USA: epidemic burden, inequities, contexts, and responses. Lancet 2021; 397 1095–1106.
Epidemiology of HIV in the USA: epidemic burden, inequities, contexts, and responses.Crossref | GoogleScholarGoogle Scholar |

[35]  Llata E, Braxton J, Asbel L, Kerani RP, Murphy R, Pugsley R, et al. New human immunodeficiency virus diagnoses among men who have sex with men attending STD clinics, STD surveillance network, January 2010 to June 2013. Sex Transm Dis 2018; 45 577–582.
New human immunodeficiency virus diagnoses among men who have sex with men attending STD clinics, STD surveillance network, January 2010 to June 2013.Crossref | GoogleScholarGoogle Scholar |

[36]  Ali H, Donovan B, Fairley CK, Chen MY, O’Connor CC, Grulich AE, et al. Increasing access by priority populations to Australian sexual health clinics. Sex Transm Dis 2013; 40 819–821.
Increasing access by priority populations to Australian sexual health clinics.Crossref | GoogleScholarGoogle Scholar |

[37]  Chesson HW, Kent CK, Owusu-Edusei K, Leichliter JS, Aral SO. Disparities in sexually transmitted disease rates across the “Eight Americas”. Sex Transm Dis 2012; 39 458–464.
Disparities in sexually transmitted disease rates across the “Eight Americas”.Crossref | GoogleScholarGoogle Scholar |

[38]  Pearson WS, Cherry DK, Leichliter JS, Bachmann LH, Cummings NA, Hogben M. Availability of injectable antimicrobial drugs for gonorrhea and syphilis, United States, 2016. Emerg Infect Dis 2019; 25 2154–2156.
Availability of injectable antimicrobial drugs for gonorrhea and syphilis, United States, 2016.Crossref | GoogleScholarGoogle Scholar |

[39]  Robinson CL, Young L, Bisgard K, Mickey T, Taylor MM. Syphilis time to treatment at publicly funded sexually transmitted disease clinics versus non-sexually transmitted disease clinics–Maricopa and Pima Counties, Arizona, 2009–2012. Sex Transm Dis 2016; 43 30–33.
Syphilis time to treatment at publicly funded sexually transmitted disease clinics versus non-sexually transmitted disease clinics–Maricopa and Pima Counties, Arizona, 2009–2012.Crossref | GoogleScholarGoogle Scholar |

[40]  Stoner BP, Fraze J, Rietmeijer CA, Dyer J, Gandelman A, Hook EW, et al. The national network of sexually transmitted disease clinical prevention training centers turns 40–A look back, a look ahead. Sex Transm Dis 2019; 46 487–492.
The national network of sexually transmitted disease clinical prevention training centers turns 40–A look back, a look ahead.Crossref | GoogleScholarGoogle Scholar |

[41]  Manhart LE, Jensen JS, Bradshaw CS, Golden MR, Martin DH. Efficacy of antimicrobial therapy for Mycoplasma genitalium infections. Clin Infect Dis 2015; 61 S802–S817.
Efficacy of antimicrobial therapy for Mycoplasma genitalium infections.Crossref | GoogleScholarGoogle Scholar |

[42]  Bachmann LH, Kirkcaldy RD, Geisler WM, Wiesenfeld HC, Manhart LE, Taylor SN, et al. Prevalence of Mycoplasma genitalium infection, antimicrobial resistance mutations, and symptom resolution following treatment of urethritis. Clin Infect Dis 2020; 71 e624–e632.
Prevalence of Mycoplasma genitalium infection, antimicrobial resistance mutations, and symptom resolution following treatment of urethritis.Crossref | GoogleScholarGoogle Scholar |

[43]  Kerani RP, Stenger MR, Weinstock H, Bernstein KT, Reed M, Schumacher C, et al. Gonorrhea treatment practices in the STD surveillance network, 2010–2012. Sex Transm Dis 2015; 42 6–12.
Gonorrhea treatment practices in the STD surveillance network, 2010–2012.Crossref | GoogleScholarGoogle Scholar |

[44]  Barbee LA, Golden MR, Thibault CS, McNeil CJ, Soge OO. Performance of patient-collected specimens for Neisseria gonorrhoeae culture. Clin Infect Dis 2021; 73 e3196–e3200.
Performance of patient-collected specimens for Neisseria gonorrhoeae culture.Crossref | GoogleScholarGoogle Scholar |

[45]  Durukan D, Read TRH, Murray G, Doyle M, Chow EPF, Vodstrcil LA, et al. Resistance-guided antimicrobial therapy using doxycycline–moxifloxacin and doxycycline-2.5 g azithromycin for the treatment of Mycoplasma genitalium infection: efficacy and tolerability. Clin Infect Dis 2020; 71 1461–1468.
Resistance-guided antimicrobial therapy using doxycycline–moxifloxacin and doxycycline-2.5 g azithromycin for the treatment of Mycoplasma genitalium infection: efficacy and tolerability.Crossref | GoogleScholarGoogle Scholar |

[46]  Chow EPF, Bradshaw CS, Williamson DA, Hall S, Chen MY, Phillips TR, et al. Changing from clinician-collected to self-collected throat swabs for oropharyngeal gonorrhea and chlamydia screening among men who have sex with men. J Clin Microbiol 2020; 58 e01215-20
Changing from clinician-collected to self-collected throat swabs for oropharyngeal gonorrhea and chlamydia screening among men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[47]  Braam JF, van Dam AP, Bruisten SM, van Rooijen MS, de Vries HJC, Schim van der Loeff MF, et al. Macrolide–resistant Mycoplasma genitalium impairs clinical improvement of male urethritis after empirical treatment. Sex Transm Dis 2022; 49 360–367.
Macrolide–resistant Mycoplasma genitalium impairs clinical improvement of male urethritis after empirical treatment.Crossref | GoogleScholarGoogle Scholar |

[48]  Barbee LA, Dombrowski JC, Kerani R, Golden MR. Effect of nucleic acid amplification testing on detection of extragenital gonorrhea and chlamydial infections in men who have sex with men sexually transmitted disease clinic patients. Sex Transm Dis 2014; 41 168–172.
Effect of nucleic acid amplification testing on detection of extragenital gonorrhea and chlamydial infections in men who have sex with men sexually transmitted disease clinic patients.Crossref | GoogleScholarGoogle Scholar |

[49]  Fallon SA, Pathela P, Mikati T. Prevalence and correlates of Trichomonas vaginalis infection using the OSOM rapid point-of-care test among women attending New York city sexual health clinics, May–July 2016. Sex Transm Dis 2019; 46 748–750.
Prevalence and correlates of Trichomonas vaginalis infection using the OSOM rapid point-of-care test among women attending New York city sexual health clinics, May–July 2016.Crossref | GoogleScholarGoogle Scholar |

[50]  Taylor SN, Liesenfeld O, Lillis RA, Body BA, Nye M, Williams J, et al. Evaluation of the Roche cobas® CT/NG test for detection of Chlamydia trachomatis and Neisseria gonorrhoeae in male urine. Sex Transm Dis 2012; 39 543–549.
Evaluation of the Roche cobas® CT/NG test for detection of Chlamydia trachomatis and Neisseria gonorrhoeae in male urine.Crossref | GoogleScholarGoogle Scholar |

[51]  Bourne C, Knight V, Guy R, Wand H, Lu H, McNulty A. Short message service reminder intervention doubles sexually transmitted infection/HIV re-testing rates among men who have sex with men. Sex Transm Infect 2011; 87 229–231.
Short message service reminder intervention doubles sexually transmitted infection/HIV re-testing rates among men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[52]  Lillis R, Beckford J, Fegley J, Siren J, Hinton B, Gomez S, et al. Evaluation of an HIV Pre–Exposure Prophylaxis (PrEP) referral system: from sexual health center to federally qualified health center PrEP clinic. AIDS Patient Care STDS 2021; 35 354–359.
Evaluation of an HIV Pre–Exposure Prophylaxis (PrEP) referral system: from sexual health center to federally qualified health center PrEP clinic.Crossref | GoogleScholarGoogle Scholar |

[53]  Pathela P, Jamison K, Blank S, Daskalakis D, Hedberg T, Borges C. The HIV Pre-exposure Prophylaxis (PrEP) cascade at NYC sexual health clinics: navigation is the key to uptake. J Acquir Immune Defic Syndr 2020; 83 357–364.
The HIV Pre-exposure Prophylaxis (PrEP) cascade at NYC sexual health clinics: navigation is the key to uptake.Crossref | GoogleScholarGoogle Scholar |

[54]  Katz DA, Dombrowski JC, Barry M, Spellman D, Bell TR, Golden MR. STD partner services to monitor and promote HIV pre-exposure prophylaxis use among men who have sex with men. J Acquir Immune Defic Syndr 2019; 80 533–541.
STD partner services to monitor and promote HIV pre-exposure prophylaxis use among men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[55]  Coyer L, van den Elshout MAM, Achterbergh RCA, Matser A, Schim van der Loeff MF, Davidovich U, et al. Understanding pre-exposure prophylaxis (PrEP) regimen use: switching and discontinuing daily and event-driven PrEP among men who have sex with men. EClinicalMedicine 2020; 29-30 100650
Understanding pre-exposure prophylaxis (PrEP) regimen use: switching and discontinuing daily and event-driven PrEP among men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[56]  Rietmeijer CA, Donnelly J, Bernstein KT, Bissette JM, Martins S, Pathela P, et al. Here comes the SSuN: early experiences with the STD surveillance network. Public Health Rep 2009; 124 72–77.
Here comes the SSuN: early experiences with the STD surveillance network.Crossref | GoogleScholarGoogle Scholar |

[57]  Centers for Disease and Prevention. Gonococcal Isolate Surveillance Project (GISP) and Enhanced GISP (eGISP). Atlanta: U.S. Department of Health and Human Services; 2021. Available at https://www.cdc.gov/std/gisp/gisp-egisp-protocol-august-2021.pdf [accessed February 2022]

[58]  Australian Government Department of Health. Australian gonococcal surveillance programme annual report, 2020. 2021. Available at https://www1.health.gov.au/internet/main/publishing.nsf/Content/5C71FABF639650F6CA2586520081286B/$File/australian_gonococcal_surveillance_programme_annual_report_2020.pdf [accessed February 2022]

[59]  National Institute for Public Health and the Environment Ministry of Health Welfare and Sport. Voortgangsrapportage GRAS, De meest recente gegevens van de nationale Gonokokken Resistentie tegen Antibiotica Surveillance [in Dutch]. 2021. Available at https://www.rivm.nl/documenten/gras-voortgangsrapportage-2021 [accessed February 2022]

[60]  Callander D, Watchirs-Smith L, Moriera C, Asselin J, Dononvan B, Guy R. The Australian collaboration for coordinated enhanced sentinel surveillance of sexually transmissible infections and blood borne viruses: NSW HIV report 2007–2014. Sydney: UNSW Australia; 2015.

[61]  World Health Organization. Extensively drug-resistant Shigella sonnei infections – Europe. 2022. Available at https://www.who.int/emergencies/disease-outbreak-news/item/extensively-drug-resistant-shigella-sonnei-infections---europe [accessed February 2022]

[62]  Public Health-Seattle & King County. 2019 King County Sexually Transmitted Infection Epidemiology Report. 2019. Available at https://kingcounty.gov/depts/health/communicable-diseases/hiv-std/patients/epidemiology/∼/media/depts/health/communicable-diseases/documents/hivstd/2019-STI-Epidemiology-Report.ashx [accessed January 2022]

[63]  Washington State Department of Health. HIV/AIDS Epidemiology Report, Washington State & King County. 2021. Available at https://kingcounty.gov/depts/health/communicable-diseases/hiv-std/patients/∼/media/depts/health/communicable-diseases/documents/hivstd/2021-hiv-aids-epidemiology-annual-report.ashx [accessed February 2022]

[64]  Chambers LC, Manhart LE, Katz DA, Golden MR, Barbee LA, Dombrowski JC. Evaluation of an automated express care triage model to identify clinically relevant cases in a sexually transmitted disease clinic. Sex Transm Dis 2017; 44 571–576.
Evaluation of an automated express care triage model to identify clinically relevant cases in a sexually transmitted disease clinic.Crossref | GoogleScholarGoogle Scholar |

[65]  Vodstrcil LA, Hocking JS, Cummings R, Chen MY, Bradshaw CS, Read TR, et al. Computer assisted self interviewing in a sexual health clinic as part of routine clinical care; impact on service and patient and clinician views. PLoS ONE 2011; 6 e18456
Computer assisted self interviewing in a sexual health clinic as part of routine clinical care; impact on service and patient and clinician views.Crossref | GoogleScholarGoogle Scholar |

[66]  Knight V, Ryder N, Guy R, Lu H, Wand H, McNulty A. New Xpress sexually transmissible infection screening clinic improves patient journey and clinic capacity at a large sexual health clinic. Sex Transm Dis 2013; 40 75–80.
New Xpress sexually transmissible infection screening clinic improves patient journey and clinic capacity at a large sexual health clinic.Crossref | GoogleScholarGoogle Scholar |

[67]  Barbee LA, Tat S, Dhanireddy S, Marrazzo JM. Implementation and operational research: effectiveness and patient acceptability of a sexually transmitted infection self-testing program in an HIV care setting. J Acquir Immune Defic Syndr 2016; 72 e26–e31.
Implementation and operational research: effectiveness and patient acceptability of a sexually transmitted infection self-testing program in an HIV care setting.Crossref | GoogleScholarGoogle Scholar |

[68]  Rukh S, Khurana R, Mickey T, Anderson L, Velasquez C, Taylor M. Chlamydia and gonorrhea diagnosis, treatment, personnel cost savings, and service delivery improvements after the implementation of express sexually transmitted disease testing in Maricopa County, Arizona. Sex Transm Dis 2014; 41 74–78.
Chlamydia and gonorrhea diagnosis, treatment, personnel cost savings, and service delivery improvements after the implementation of express sexually transmitted disease testing in Maricopa County, Arizona.Crossref | GoogleScholarGoogle Scholar |

[69]  Shamos SJ, Mettenbrink CJ, Subiadur JA, Mitchell BL, Rietmeijer CA. Evaluation of a testing-only “Express” visit option to enhance efficiency in a busy STI clinic. Sex Transm Dis 2008; 35 336–340.
Evaluation of a testing-only “Express” visit option to enhance efficiency in a busy STI clinic.Crossref | GoogleScholarGoogle Scholar |

[70]  Whitlock GG, Gibbons DC, Longford N, Harvey MJ, McOwan A, Adams EJ. Rapid testing and treatment for sexually transmitted infections improve patient care and yield public health benefits. Int J STD AIDS 2018; 29 474–482.
Rapid testing and treatment for sexually transmitted infections improve patient care and yield public health benefits.Crossref | GoogleScholarGoogle Scholar |

[71]  Gratrix J, Bergman J, Brandley J, Parker P, Smyczek P, Singh AE. Impact of introducing triage criteria for express testing at a canadian sexually transmitted infection clinic. Sex Transm Dis 2015; 42 660–663.
Impact of introducing triage criteria for express testing at a canadian sexually transmitted infection clinic.Crossref | GoogleScholarGoogle Scholar |

[72]  Knight V, Guy R, McNulty A, Wand H. Effect of an express testing service for gay and bisexual men on HIV testing frequency in Sydney, Australia: a cohort study. Sex Health 2019; 16 124–132.
Effect of an express testing service for gay and bisexual men on HIV testing frequency in Sydney, Australia: a cohort study.Crossref | GoogleScholarGoogle Scholar |

[73]  University Hospitals Birmingham NHS Foundation Trust. Umbrella Health. 2022. Available at https://umbrellahealth.co.uk/ [accessed April 2022]

[74]  Chelsea and Westminster Hospital NHS Foundation Trust. 56 Dean Street. 2021. Available at https://www.dean.st/ [accessed April 2022]

[75]  Barrow RY, Ahmed F, Bolan GA, Workowski KA. Recommendations for providing quality sexually transmitted diseases clinical services, 2020. MMWR Recomm Rep 2020; 68 1–20.
Recommendations for providing quality sexually transmitted diseases clinical services, 2020.Crossref | GoogleScholarGoogle Scholar |

[76]  Schmidt H-MA, McIver R, Houghton R, Selvey C, McNulty A, Varma R, et al. Nurse-led pre-exposure prophylaxis: a non-traditional model to provide HIV prevention in a resource-constrained, pragmatic clinical trial. Sex Health 2018; 15 595–597.
Nurse-led pre-exposure prophylaxis: a non-traditional model to provide HIV prevention in a resource-constrained, pragmatic clinical trial.Crossref | GoogleScholarGoogle Scholar |

[77]  Centre for Population Health. RN Supply and Administration of STI Therapies in Publicly Funded Sexual Health Services. Available at https://www1.health.nsw.gov.au/pds/ActivePDSDocuments/PD2020_024.pdf [accessed July 2022]

[78]  Vannakit R, Janyam S, Linjongrat D, Chanlearn P, Sittikarn S, Pengnonyang S, et al. Give the community the tools and they will help finish the job: key population-led health services for ending AIDS in Thailand. J Int AIDS Soc 2020; 23 e25535
Give the community the tools and they will help finish the job: key population-led health services for ending AIDS in Thailand.Crossref | GoogleScholarGoogle Scholar |

[79]  Public Health Service Amsterdam (GGD Amsterdam). Start of the Transkliniek at the prostitution and health center 292. 2021. Available at https://www.ggd.amsterdam.nl/infectieziekten/soa-hiv-sense/start-transkliniek-prostitutie/ [accessed April 2022]

[80]  Institute of HIV Research and Innovation. Tangerine community health clinic. 2020. Available at https://ihri.org/tangerine/. [accessed April 2022]

[81]  Kersh EN, Shukla M, Raphael BH, Habel M, Park I. At-home specimen self-collection and self-testing for sexually transmitted infection screening demand accelerated by the COVID-19 pandemic: a review of laboratory implementation issues. J Clin Microbiol 2021; 59 e02646-20
At-home specimen self-collection and self-testing for sexually transmitted infection screening demand accelerated by the COVID-19 pandemic: a review of laboratory implementation issues.Crossref | GoogleScholarGoogle Scholar |

[82]  Leenen J, Hoebe CJPA, Ackens RP, Posthouwer D, van Loo IHM, Wolffs PFG, et al. Pilot implementation of a home-care programme with chlamydia, gonorrhoea, hepatitis B, and syphilis self-sampling in HIV-positive men who have sex with men. BMC Infect Dis 2020; 20 925
Pilot implementation of a home-care programme with chlamydia, gonorrhoea, hepatitis B, and syphilis self-sampling in HIV-positive men who have sex with men.Crossref | GoogleScholarGoogle Scholar |

[83]  Fistonich GM, Troutman KM, Visconti AJ. A pilot of mail-out HIV and sexually transmitted infection testing in Washington, District of Columbia during the COVID-19 pandemic. Am J Prev Med 2021; 61 S16–S25.
A pilot of mail-out HIV and sexually transmitted infection testing in Washington, District of Columbia during the COVID-19 pandemic.Crossref | GoogleScholarGoogle Scholar |

[84]  Hill BJ, Anderson B, Lock L. COVID-19 pandemic, Pre-exposure Prophylaxis (PrEP) care, and HIV/STI testing among patients receiving care in three HIV epidemic priority states. AIDS Behav 2021; 25 1361–1365.
COVID-19 pandemic, Pre-exposure Prophylaxis (PrEP) care, and HIV/STI testing among patients receiving care in three HIV epidemic priority states.Crossref | GoogleScholarGoogle Scholar |

[85]  Refugio ON, Kimble MM, Silva CL, Lykens JE, Bannister C, Klausner JD. Brief report: PrEPTECH: a telehealth-based initiation program for HIV pre-exposure prophylaxis in young men of color who have sex with men. A pilot study of feasibility. J Acquir Immune Defic Syndr 2019; 80 40–45.
Brief report: PrEPTECH: a telehealth-based initiation program for HIV pre-exposure prophylaxis in young men of color who have sex with men. A pilot study of feasibility.Crossref | GoogleScholarGoogle Scholar |

[86]  Hoth AB, Shafer C, Dillon DB, Mayer R, Walton G, Ohl ME. Iowa TelePrEP: a public-health-partnered telehealth model for human immunodeficiency virus preexposure prophylaxis delivery in a rural state. Sex Transm Dis 2019; 46 507–512.
Iowa TelePrEP: a public-health-partnered telehealth model for human immunodeficiency virus preexposure prophylaxis delivery in a rural state.Crossref | GoogleScholarGoogle Scholar |

[87]  Achterbergh RCA, van Rooijen MS, van den Brink W, Boyd A, de Vries HJC. Enhancing help-seeking behaviour among men who have sex with men at risk for sexually transmitted infections: the syn.bas.in randomised controlled trial. Sex Transm Infect 2021; 97 11–17.
Enhancing help-seeking behaviour among men who have sex with men at risk for sexually transmitted infections: the syn.bas.in randomised controlled trial.Crossref | GoogleScholarGoogle Scholar |

[88]  Gryczynski J, Nordeck CD, Mitchell SG, Page KR, Johnsen LL, O’Grady KE, et al. Pilot studies examining feasibility of substance use disorder screening and treatment linkage at urban sexually transmitted disease clinics. J Addict Med 2017; 11 350–356.
Pilot studies examining feasibility of substance use disorder screening and treatment linkage at urban sexually transmitted disease clinics.Crossref | GoogleScholarGoogle Scholar |

[89]  Yu J, Appel P, Rogers M, Blank S, Davis C, Warren B, et al. Integrating intervention for substance use disorder in a healthcare setting: practice and outcomes in New York City STD clinics. Am J Drug Alcohol Abuse 2016; 42 32–38.
Integrating intervention for substance use disorder in a healthcare setting: practice and outcomes in New York City STD clinics.Crossref | GoogleScholarGoogle Scholar |

[90]  Harris BR, Yu J, Wolff M, Rogers M, Blank S. Optimizing the impact of alcohol and drug screening and early intervention in a high-risk population receiving services in New York City sexual health clinics: a process and outcome evaluation of Project Renew. Prev Med 2018; 112 160–167.
Optimizing the impact of alcohol and drug screening and early intervention in a high-risk population receiving services in New York City sexual health clinics: a process and outcome evaluation of Project Renew.Crossref | GoogleScholarGoogle Scholar |

[91]  Crawley A, Breaux H, Murphy C, Pathela P. Patient uptake of social work interventions in New York City sexual health clinics, 2012–2015. Oral presentation at the National STD Prevention Conference, August 2018, Washington, D.C.

[92]  Falade-Nwulia O, Mehta SH, Lasola J, Latkin C, Niculescu A, O’Connor C, et al. Public health clinic-based hepatitis C testing and linkage to care in Baltimore. J Viral Hepat 2016; 23 366–374.
Public health clinic-based hepatitis C testing and linkage to care in Baltimore.Crossref | GoogleScholarGoogle Scholar |

[93]  Crawley A, Pathela P, Blancett J, Ashmore M. Quickstart-ing contraception at New York City sexual health clinics, 2019. National STD Prevention Conference. Virtual; 2020.

[94]  Callander D, Cook T, Read P, Hellard ME, Fairley CK, Kaldor JM, et al. Sexually transmissible infections among transgender men and women attending Australian sexual health clinics. Med J Aust 2019; 211 406–411.
Sexually transmissible infections among transgender men and women attending Australian sexual health clinics.Crossref | GoogleScholarGoogle Scholar |

[95]  van Dijk A, Bons D, Hoornenborg E, Welling C. Integrating care for trans people: the Transclinic, a collaboration between Trans United Europe and the public health service of Amsterdam. Sexually Transmitted Infections 2021; 97 A61–A62.
Integrating care for trans people: the Transclinic, a collaboration between Trans United Europe and the public health service of Amsterdam.Crossref | GoogleScholarGoogle Scholar |

[96]  Trans United Europe. Trans BPOC Europe Network. Available at https://transunitedeurope.eu/ [accessed February 2022]

[97]  P&G292. About P&G292. Available at https://www.pg292.nl/en/about-pg292/ [accessed February 2022]

[98]  Tordoff DM, Morgan J, Dombrowski JC, Golden MR, Barbee LA. Increased ascertainment of transgender and non-binary patients using a 2-Step versus 1-step gender identity intake question in an STD clinic setting. Sex Transm Dis 2019; 46 254–259.
Increased ascertainment of transgender and non-binary patients using a 2-Step versus 1-step gender identity intake question in an STD clinic setting.Crossref | GoogleScholarGoogle Scholar |

[99]  The White House. National HIV/AIDS strategy for the United States 2022–2025. Washington, DC: The White House; 2021.

[100]  Fauci AS, Redfield RR, Sigounas G, Weahkee MD, Giroir BP. Ending the HIV epidemic: a plan for the United States. JAMA 2019; 321 844–845.
Ending the HIV epidemic: a plan for the United States.Crossref | GoogleScholarGoogle Scholar |

[101]  Hulstein SH, Matser A, van der Loeff MFS, Hoornenborg E, Prins M, de Vries HJC. Eligibility for HIV preexposure prophylaxis, intention to use preexposure prophylaxis, and informal use of preexposure prophylaxis among men who have sex with men in Amsterdam, the Netherlands. Sex Transm Dis 2021; 48 86–93.
Eligibility for HIV preexposure prophylaxis, intention to use preexposure prophylaxis, and informal use of preexposure prophylaxis among men who have sex with men in Amsterdam, the Netherlands.Crossref | GoogleScholarGoogle Scholar |

[102]  Katz DA, Dombrowski JC, Bell TR, Kerani RP, Golden MR. HIV incidence among men who have sex with men after diagnosis with sexually transmitted infections. Sex Transm Dis 2016; 43 249–254.
HIV incidence among men who have sex with men after diagnosis with sexually transmitted infections.Crossref | GoogleScholarGoogle Scholar |

[103]  Krakower D, Ware N, Mitty JA, Maloney K, Mayer KH. HIV providers’ perceived barriers and facilitators to implementing pre-exposure prophylaxis in care settings: a qualitative study. AIDS Behav 2014; 18 1712–1721.
HIV providers’ perceived barriers and facilitators to implementing pre-exposure prophylaxis in care settings: a qualitative study.Crossref | GoogleScholarGoogle Scholar |

[104]  Katz DA, Barry M, Dombroski J, Bell T, Golden MR. Integrating PrEP referrals into STD partner services increases PrEP use among MSM. Conference on retroviruses and opportunistic infections. Boston, MA; 4–7 March, 2018.

[105]  Hoover KW, Ham DC, Peters PJ, Smith DK, Bernstein KT. Human immunodeficiency virus prevention with preexposure prophylaxis in sexually transmitted disease clinics. Sex Transm Dis 2016; 43 277–282.
Human immunodeficiency virus prevention with preexposure prophylaxis in sexually transmitted disease clinics.Crossref | GoogleScholarGoogle Scholar |

[106]  Bhatia R, Modali L, Lowther M, Glick N, Bell M, Rowan S, et al. Outcomes of Preexposure Prophylaxis referrals from public STI clinics and implications for the preexposure prophylaxis continuum. Sex Transm Dis 2018; 45 50–55.
Outcomes of Preexposure Prophylaxis referrals from public STI clinics and implications for the preexposure prophylaxis continuum.Crossref | GoogleScholarGoogle Scholar |

[107]  Ramchandani MS, Berzkalns A, Cannon CA, Dombrowski JC, Ocbamichael N, Khosropour CM, et al. A demedicalized model to provide PrEP in a sexual health clinic. J Acquir Immune Defic Syndr 2022; 90 530–537.
A demedicalized model to provide PrEP in a sexual health clinic.Crossref | GoogleScholarGoogle Scholar |

[108]  Grulich AE, Guy R, Amin J, Jin F, Selvey C, Holden J, et al. Population-level effectiveness of rapid, targeted, high-coverage roll-out of HIV pre-exposure prophylaxis in men who have sex with men: the EPIC-NSW prospective cohort study. Lancet HIV 2018; 5 e629–e637.
Population-level effectiveness of rapid, targeted, high-coverage roll-out of HIV pre-exposure prophylaxis in men who have sex with men: the EPIC-NSW prospective cohort study.Crossref | GoogleScholarGoogle Scholar |

[109]  Hoornenborg E, Coyer L, Achterbergh RCA, Matser A, Schim van der Loeff MF, Boyd A, et al. Sexual behaviour and incidence of HIV and sexually transmitted infections among men who have sex with men using daily and event-driven pre-exposure prophylaxis in AMPrEP: 2 year results from a demonstration study. Lancet HIV 2019; 6 e447–e455.
Sexual behaviour and incidence of HIV and sexually transmitted infections among men who have sex with men using daily and event-driven pre-exposure prophylaxis in AMPrEP: 2 year results from a demonstration study.Crossref | GoogleScholarGoogle Scholar |

[110]  Tymejczyk O, Jamison K, Pathela P, Braunstein S, Schillinger JA, Nash D. HIV Care and viral load suppression after sexual health clinic visits by out-of-care HIV-positive persons. AIDS Patient Care STDS 2018; 32 390–398.
HIV Care and viral load suppression after sexual health clinic visits by out-of-care HIV-positive persons.Crossref | GoogleScholarGoogle Scholar |

[111]  Golden MR, Rompalo AM, Fantry L, Bein M, Perkins T, Hoover DR, et al. Early intervention for human immunodeficiency virus in Baltimore Sexually Transmitted Diseases Clinics. Impact on gonorrhea incidence in patients infected with HIV. Sex Transm Dis 1996; 23 370–377.
Early intervention for human immunodeficiency virus in Baltimore Sexually Transmitted Diseases Clinics. Impact on gonorrhea incidence in patients infected with HIV.Crossref | GoogleScholarGoogle Scholar |

[112]  Dombrowski JC, Ramchandani M, Dhanireddy S, Harrington RD, Moore A, Golden MR. The max clinic: medical care designed to engage the hardest-to-reach persons living with HIV in Seattle and King County, Washington. AIDS Patient Care STDS 2018; 32 149–156.
The max clinic: medical care designed to engage the hardest-to-reach persons living with HIV in Seattle and King County, Washington.Crossref | GoogleScholarGoogle Scholar |

[113]  H-TEAM. HIV transmission elimination Amsterdam. 2022. Available at https://hteam.nl/?lang=en. [accessed February 2022]

[114]  New South Wales Ministry of Health. New South Wales HIV strategy 2021–2025. 2020. Available at https://www.health.nsw.gov.au/endinghiv/Publications/nsw-hiv-strategy-2021-2025.pdf [accessed February 2022]

[115]  National Coalition of STD Directors. Fact sheet: STD program capacity and preparedness in the United States: results of a National Survey, 2009. 2009. Available at https://www.ncsddc.org/wp-content/uploads/2019/10/Fact-Sheet-STD-Program-Capacity-and-Preparedness-in-the-United-States-Re..pdf [accessed January 2022]

[116]  Nagendra G, Carnevale C, Neu N, Cohall A, Zucker J. The potential impact and availability of sexual health services during the COVID-19 pandemic. Sex Transm Dis 2020; 47 434–436.
The potential impact and availability of sexual health services during the COVID-19 pandemic.Crossref | GoogleScholarGoogle Scholar |

[117]  Wright SS, Kreisel KM, Hitt JC, Pagaoa MA, Weinstock HS, Thorpe PG. Impact of the COVID-19 pandemic on centers for disease control and prevention-funded STD programs. Sex Transm Dis 2021; 49 e61–e63.
Impact of the COVID-19 pandemic on centers for disease control and prevention-funded STD programs.Crossref | GoogleScholarGoogle Scholar |

[118]  National Coalition of STD Directors. One year later: COVID-19’s Impact on PrEP/PEP and sexual health services. 2021. Available at https://nastad.org/sites/default/files/2021-11/PDF-COVID-19-PrEP-PEP-Sexual-Health-Services.pdf [accessed February 2022]

[119]  National Institute for Public Health and the Environment Ministry of Health Welfare and Sport. Sexual health thermometer November 2020. 2020. Available at https://www.rivm.nl/documenten/thermometer-seksuele-gezondheid-november-2020 [accessed April 2022]

[120]  van Bilsen WPH, Zimmermann HML, Boyd A, Coyer L, van der Hoek L, Kootstra NA, et al. Sexual behavior and its determinants during COVID-19 restrictions among men who have sex with men in Amsterdam. J Acquir Immune Defic Syndr 2021; 86 288–296.
Sexual behavior and its determinants during COVID-19 restrictions among men who have sex with men in Amsterdam.Crossref | GoogleScholarGoogle Scholar |

[121]  Barbee LA, Dombrowski JC, Hermann S, Werth BJ, Ramchandani M, Ocbamichael N, et al. “Sex in the time of COVID”: clinical guidelines for sexually transmitted disease management in an era of social distancing. Sex Transm Dis 2020; 47 427–430.
“Sex in the time of COVID”: clinical guidelines for sexually transmitted disease management in an era of social distancing.Crossref | GoogleScholarGoogle Scholar |

[122]  Napoleon SC, Maynard MA, Almonte A, Cormier K, Bertrand T, Ard KL, et al. Considerations for STI clinics during the COVID-19 pandemic. Sex Transm Dis 2020; 47 431–433.
Considerations for STI clinics during the COVID-19 pandemic.Crossref | GoogleScholarGoogle Scholar |

[123]  Centers for Disease and Prevention. Public Health Service. 2020. Available at https://www.cdc.gov/std/dstdp/DCL-STDTreatment-COVID19-04062020.pdf [accessed January 2022]

[124]  Centers for Disease and Prevention. Public Health Service. 2020. Available at https://www.cdc.gov/std/general/DCL-Diagnostic-Test-Shortage.pdf [accessed January 2022]