In its updated recommendations on

(

) screening, the USPSTF strongly recommended that clinicians routinely screen all sexually active women aged 24 years and younger, and other asymptomatic women at increased risk for infection, for chlamydial infection (USPSTF, 2007). Other risk factors for chlamydial infection include a history of chlamydial or other sexually transmitted infection, new or multiple sexual partners, inconsistent condom use, and exchanging sex for money or drugs. The USPSTF also recommended that clinicians routinely screen all asymptomatic pregnant women aged 24 years and younger for chlamydial infection. The USPSTF made no recommendation for or against routinely screening asymptomatic low-risk women in the general population for chlamydial infection. The USPSTF found at least fair evidence that screening low-risk women could detect some additional cases of

, but concluded that the potential benefits of screening low-risk women may be small and may not justify the possible harms.

The USPSTF made no recommendation for or against routine screening of asymptomatic, low-risk pregnant women aged 25 years and older for chlamydial infection. The USPSTF found fair evidence that the benefits of screening low-risk pregnant women are small and may not justify the possible harms.

The USPSTF concluded that the evidence is insufficient to recommend for or against routinely screening asymptomatic men for chlamydial infection. The USPSTF found no direct evidence to determine whether screening asymptomatic men for chlamydial infection is effective for reducing the incidence of new infections in women.

The Americal College of Obstetricians and Gynecologists (ACOG, 2017) recommend that all pregnant women be tested for chlamydia early in pregnancy. Pregnant women who tested positive in the first trimester should be re-tested within approximately 3-6 months, preferably in the third trimester. In non-pregnant females, ACOG recommends testing in all women under 25 years and in women 25 years and older who have risk factors.

Chlamydia screening among young women under the age of 26 is a measure that has been adopted by the National Committee for Quality Assurance (NCQA) for inclusion in the Health Plan Employer Data and Information Set (HEDIS).

infection is the most common sexually transmitted disease (STD) in the United States affecting an estimated 4 million people. Prevalence is highest in sexually active females under the age of 25 years.

Most

infections cause no symptoms. Left untreated,

infection can lead to complications such as pelvic inflammatory disease in the female, which has emerged as a major cause of tubal factor infertility and ectopic pregnancy in women of childbearing age. Chlamydia infection can be passed to the newborn during delivery through the birth canal with a manifestation of neonatal eye infection or pneumonia. These sequelae are unfortunate because

infection is effectively treated with antibiotics.

Diagnosis is based on the detection of the microorganism itself, its antigens, or genetic material collected from the lower genital tract, or in some instances, a urine sample. The sensitivity of tissue culture ranges from 65 to 80 %. More available non-culture tests, such as the direct fluorescent antibody (DFA) and the enzyme immunoassay (EIA), which detect chlamydial antigens in clinical specimens have specificities from 96 to 99 %. However, these tests with high specificity yield a large number of false- positives in a population with a low disease prevalence. DNA amplified hybridization tests are both highly specific and sensitive and are proving to be the best tests in large scale screening. Additionally, the LCR and the PCR can be performed on urine specimens. New DNA amplified hybridization techniques such as transcription mediated amplification (TMA), Q-B replicase amplified hybridization, and nucleic acid sequence-based amplification (NASBA) are currently being investigated and appear to be very promising.

Rietmeijer et al (2008) assessed the recent U.S. literature on chlamydia positivity in chlamydia screening programs among asymptomatic men in non-sexually transmitted disease clinic settings. These investigators reviewed published articles between 1995 and June 2007, using PubMed as the primary search tool. Articles were abstracted and positivity rates summarized by type of venue, race/ethnicity, age group, and U.S. region. The overall median positivity rate was 5.1 %. The highest rates were observed among men tested in juvenile (7.9 %) and adult (6.8 %) detention facilities, among blacks (6.7 %), the 15 to 19 years old (6.1 %) and 20 to 24 years old (6.5 %) age groups, and among men screened in the southern United States (6.4 %). Chlamydia rates among men are high in certain venues, particularly correctional settings, but also depend on the demographical composition of the target population and location. The authors concluded that programs considering male chlamydia screening programs should conduct pilot programs to assess chlamydia positivity as well as feasibility and cost in target venues.

Gift and colleagues (2008) reviewed the literature on the cost-effectiveness of screening men for chlamydia. The reviewed studies examined both proactive and opportunistic screening and included screening of risk groups and of the general population. Some older studies included enzyme immunoassays; more recent studies featured nucleic acid amplification assays. Six studies used dynamic transmission models; 14 studies analyzed male and female chlamydia screening interventions. Several contained sufficient data to examine the cost-effectiveness of male screening compared with female screening. Male screening was preferred to expanded female screening in 1 study. In other studies, combined male and female screening programs were cost-saving. The authors concluded thay studies comparing chlamydia screening in men with chlamydia screening in women may be the most useful for guidance to programs. The studies which compared the 2 generally have found that screening men from the general population is not preferred to screening women from the general population, although 1 study found that screening of men from risk groups can be cost-effective compared with screening women from the general population.

Michel and colleagues (2009) assessed the performance of a Conformitée Européenne (CE)-marked home test for chlamydia trachomatis (CT) that is available over the Internet. A total of 231 eligible women attending the Social Hygiene Clinic (SHC) or Obstetrics-Gynecology (OB-GYN) Clinic in Iloilo City, Philippines were recruited to an evaluation of the HandiLab-C chlamydia home test (HandiLab-C). One vaginal swab was tested with HandiLab-C on-site and the second in Cambridge, United Kingdom with 2 nucleic acid amplification tests (NAAT), the Roche Amplicor and Abbott m2000. The organism load of NAAT-positive swabs was quantified. Concordance between the NAATs was high (kappa agreement: 0.984). Using the Abbott assay as the gold standard, the sensitivity and specificity of the Roche assay were 97.4 % and 100 %, respectively. The prevalence of CT by Abbott was 8.0 % (8/100) in the OB-GYN Clinic and 23.7 % (31/131) at SHC. The sensitivity of HandiLab-C was 12.5 % (1/8) and 19.4 % (6/31) in OB-GYN and SHC, respectively; with specificities of 93.5 % (86/92) and 88 % (88/100), respectively. Overall positive and negative predictive values of HandiLab-C were 28 % and 84.5 % respectively. No correlation between HandiLab-C performance and organism load (range of 1.3 x 10(2) to 1.4 x 10(7) bacteria/swab) was observed. The authors concluded that the performance of HandiLab-C is very poor, with the test yielding more false-positive (18/193) than true-positive (7/38) results. It remains accessible via the Internet under various brand names and has retained its CE mark. This situation raises serious concerns about the regulation of diagnostic products available via the Internet and the standards of certain Notified Bodies that issue the CE mark.

Hadgu and Sternberg (2009) stated that Commercial NAATs have become one of the most frequently used tests for detecting CT. However, published studies have raised important concerns regarding the NAAT evaluation process in general and their reproducibility and clinical specificity in particular. This is because for many infectious diseases including chlamydia, a true gold standard simply does not exist and, as a result, estimation of test performance parameters in the absence of a gold standard is a difficult and challenging task.

Moncada et al (2009) stated that self-collected glans and rectal swab specimens from men who have sex with men (MSM) may be appropriate, convenient specimens for testing. These researchers evaluated the use of self-collected swabs for the detection of CT and

by a transcription-mediated amplification test (AC2; Aptima Combo 2; Gen-Probe Inc.) and a strand displacement amplification test (SDA; ProbeTec; Becton Dickinson Co.) in MSM seen at the city STD clinic in San Francisco, CA. For the glans swab specimen, subjects enrolled early in the study rolled a Dacron swab across the meatus 3 times (method 1). A slightly more invasive procedure was performed later in the study: the subjects inserted the swab 1/4 inch into the urethra, rotated the swab, and then withdrew the swab (method 2). MSM self-collected a rectal swab specimen and also provided first-catch urine (FCU). Additional rectal swab samples were then obtained by the clinician. For the detection of CT and

, all swabs were evaluated by AC2 and SDA, FCU was tested by AC2, and the clinician-collected rectal swabs were cultured. A rectal true-positive (TP) result was defined as a culture-positive result for CT or

, 2 or more positive NAAT results, or a single NAAT-positive result confirmed by an alternate amplification method (the Aptima CT or

test). A glans TP result was defined as a positive result for FCU, positive results for both glans specimens (one tested by AC2 and one tested by SDA), or a positive result for a single glans specimen confirmed by an alternate amplification method. The prevalence rates of CT and

by testing of FCU were 6.8 % (60/882 specimens) and 12.2 % (108/882 specimens), respectively. Mixed results were obtained with the glans swab:

detection by AC2 and SDA (method 1) had the best performance (sensitivities, greater than 92 %) with samples from a population with a higher prevalence of infection, but their performance for the detection of CT was poor and varied by collection method (sensitivities, 56 % to 68 %). The prevalence rates of CT and N. gonorrhoeae in the rectum were 7.3 % (66/907 specimens) and 9.4 % (83/882 specimens), respectively. The sensitivities of the tests with self-collected and clinician-collected rectal swab specimens were comparable (for CT, 41 % and 44 %, respectively, by SDA and 82 % and 71 %, respectively, by AC2; for

, 77 % and 68 %, respectively, by SDA and 84 % and 78 %, respectively, by AC2). AC2 and SDA were far superior to culture for the detection of CT and

in the rectum, with both tests detecting at least twice as many infections. While these investigators found self-collected rectal swabs from MSM to be valid specimens for testing, the sensitivities of the tests with glans swab specimens were disappointing except for those from patients with symptomatic N. gonorrhoeae infections. The authors stated that self-collected glans swab specimens may not be appropriate for the detection of CT or for the detection of

in low-risk or asymptomatic patients by AC2 and SDA, and they would not recommend their use; further studies are needed.

Mania-Pramanik et al (2012) noted that in India, the impact of current

in reproductive health remains a neglected area of investigation. These investigators examined if current chlamydia infection is associated with any clinical complication that needs the attention of clinical investigators. In this cross-sectional study, these researchers enrolled 896 women attending the Gynecology Out Patient for the detection of

infection. Polymerase chain reaction (PCR) was used to diagnose current

infection and ELISA for past infections. Bacterial vaginosis, candida and trichomonas were screened. The results of symptomatic and asymptomatic groups were compared. The data was analyzed using Epi Info version 6 and "Z" test. A probability value of p ≤ 0.05 was considered as significant. Statistical analysis revealed significant association between current

infection with infertility when comparing infected fertile (18.6 % versus 9.4 %, odds ratio: 2.19, p< 0.0005) and uninfected infertile women (45.6 % versus 27.3%, odds ratio: 2.24, p < 0.0001). Average infection rate was 12.1 %, highest in women with infertility (18.6 %) or with ectopic pregnancy (25 %). Significant proportions of infected women with infertility (p < 0.01) or with recent pregnancy (p < 0.001) were asymptomatic. Follow-up of infected women who became negative after treatment [28 women from infertility group and 9 women with recurrent spontaneous abortion (RSA)] revealed live-birth in 8 (21.6 %) women within 1 year, 4 with infertility and 4 with RSA. The authors concluded that the findings of this study suggested association between current

infection and infertility. Absence of signs and symptoms associated with this infection highlights its diagnosis in women with a history of infertility and RSA for their better management, as revealed by live-births with 1 year of follow-up.

Naderi et al (2012) stated that damage of the fallopian tube after sexually transmitted diseases like

, is an important risk factor for ectopic pregnancy (EP). These researchers evaluated the prevalence of

infection in patients with EP in the southeastern part of Iran. Polymerase chain reaction on fallopian tube tissue was applied to detect Chlamydia DNA in 42 patients with EP (EP group) and 87 patients without EP (control group) who underwent tubal ligation. The same protocol was performed with urine samples taken from the husbands in both groups. Out of all studied females, 5 patients in the EP group were PCR-positive for

and none of the control group subjects was PCR-positive for

infection (p < 0.05). Among the husbands, the PCR result was positive in the urine of 19 males (9 in the EP group and 10 in the control group). All PCR-positive women had husbands with PCR-positive urine samples. No significant difference was found between chlamydia infection in the EP and the control groups regarding age, duration of marriage, contraceptive method and history of infertility surgery and pelvic pain. There was no significant difference between prevalence of EP in women based on the PCR outcome in the husbands. The chlamydia infection in men did not show any relation to the number of marriages. The authors concluded that based on these findings, it can be concluded that chlamydia infection is an important risk factor of the fallopian tube damage and EP. Thus, screening programs and treatment of chlamydia infection are recommended in young women and high-risk women and men.

Kamel et al (2013) stated that

infection is a worldwide-distributed sexually transmitted infection that may lead to infertility. These researchers reported the prevalence of

infection among infertile women in Saudi Arabia. A community-based study was carried out at the obstetrics and gynecology clinic at Jazan General Hospital, Saudi Arabia. The study group included 640 Saudi infertile women aged between 18 and 40 years and who attended the gynecology clinic for infertility examination throughout 1 year of study (from July 1, 2011 to June 30, 2012). The randomized control group included 100 Saudi fertile women who attended the obstetrics clinic for routine antenatal care. All recruited women were screened for chlamydia infection by enzyme-linked immunosorbent assay (ELISA) for detection of serum-specific antibodies and then re-tested by the McCoy cell culture technique. The prevalence of

infection among infertile women was high, at 15.0 %. The rate of chlamydia infection detected by ELISA was 9.84 %, and it was 12.03 % by the culture method (p = 0.2443). The authors concluded that high prevalence of

infection among Saudi infertile women demands a national screening program for early detection among infertile couples.

The National Institute for Health and Clinical Excellence’s guideline on "Fertility: Assessment and treatment for people with fertility problems" (NICE, 2013) recommended that "Before undergoing uterine instrumentation women should be offered screening for Chlamydia trachomatis using an appropriately sensitive technique".

Home Testing

Rotblatt et al (2013) noted that in response to high chlamydia and gonorrhea morbidity, particularly among young African American and Latina women, the Los Angeles County Department of Public Health launched a free home testing program for chlamydia trachomatis (CT) and neisseria gonorrhoeae (NG). The primary objectives were to increase chlamydia and gonorrhea testing by removing key barriers and to motivate young women to screen routinely for these STDs. The program was promoted with a social marketing campaign urging women to order home collection kits online or by telephone. In the program's first year, 2,927 kits were ordered and 1,543 testable specimens returned; 131 women (8.5 %) had a positive test result. The authors concluded that the strong response, high morbidity, and program scalability indicated strong potential as a new tool for STD control.

Jamil et al (2013) systematically reviewed the strategies and outcomes of home-based CT/NG screening programs. Electronic databases were searched for home-based CT and/or NG screening studies published since January 2005. Screening information (e.g., target group, recruitment and specimen-collection method) and quantitative outcomes (e.g., number of participants, tests and positivity) were extracted. The screening programs were classified into 7 groups on the basis of strategies used. These researchers found 29 eligible papers describing 32 home-based screening programs. In 7 outreach programs, people were approached in their homes: a median of 97 % participants provided specimens and 76 % were tested overall (13,717 tests). In 7 programs, people were invited to receive postal test-kits (PTKs) at their homes: a median of 37 % accepted PTKs, 79 % returned specimens and 19 % were tested (46,225 tests). Postal test-kits were sent along with invitation letters in 5 programs: a median of 33 % returned specimens and 29 % of those invited were tested (15,126 tests). Postal test-kits were requested through the Internet or phone without invitations in 4 programs and a median of 32 % returned specimens (2,666 tests). Four programs involved study personnel directly inviting people to receive PTKs: a median of 46 % accepted PTKs, 21 % returned specimens and 9.1 % were tested (341 tests). Postal test-kits were picked-up from designated locations in 3 programs: a total of 6,765 kits were picked-up and 1,167 (17 %) specimens were returned for screening. Two programs used a combination of above strategies (2,395 tests) but the outcomes were not reported separately. The overall median CT positivity was 3.6 % (inter-quartile range of 1.7 to 7.3 %). The authors concluded that a variety of strategies have been used in home-based CT/NG screening programs. The screening strategies and their feasibility in the local context need to be carefully considered to maximize the effectiveness of home-based screening programs.

Smith et al (2014) stated that repeat infection with CT is common and increases the risk of sequelae in women and HIV sero-conversion in men who have sex with men (MSM). Despite guidelines recommending chlamydia re-testing 3 months after treatment, re-testing rates are low. These researchers are conducting the first randomized controlled trial (RCT) to evaluate the effectiveness of home collection combined with short message service (SMS) reminders on chlamydia re-testing and re-infection rates in 3 risk groups. The REACT (re-test after CT) trial involves 600 patients diagnosed with chlamydia: 200 MSM, 200 women and 200 heterosexual men recruited from 2 Australian sexual health clinics where SMS reminders for re-testing are routine practice. Participants will be randomized to the home group (3-month SMS reminder and home-collection) or the clinic group (3-month SMS reminder to return to the clinic). Participants in the home group will be given the choice of attending the clinic if they prefer. The mailed home-collection kit includes a self-collected vaginal swab (women), UriSWAB (Copan) for urine collection (heterosexual men), and UriSWAB plus rectal swab (MSM). The primary outcome is the re-test rate at 1 to 4 months after a chlamydia diagnosis, and the secondary outcomes are: the repeat positive test rate; the re-infection rate; the acceptability of home testing with SMS reminders; and the cost-effectiveness of home testing. Sexual behavior data collected via an online survey at 4 to 5 months, and genotyping of repeat infections, will be used to discriminate re-infections from treatment failures. The trial will be conducted over 2 years. An intention-to-treat analysis will be conducted. The authors concluded that this study will provide evidence about the effectiveness of home-collection combined with SMS reminders on chlamydia re-testing, repeat infection and re-infection rates in 3 risk groups. The trial will determine client acceptability and cost-effectiveness of this strategy.

In a Cochrane review, Fajardo-Bernal et al (2015) evaluated the safety and effectiveness of home-based specimen collection as part of the management strategy for CT and NG infections compared with clinic-based specimen collection in sexually-active people. These investigators searched the Cochrane Sexually Transmitted Infections Group Specialized Register, the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE and LILACS on May 27, 2015, together with the World Health Organization International Clinical Trials Registry (ICTRP) and ClinicalTrials.gov. They also hand-searched conference proceedings, contacted trial authors and reviewed the reference lists of retrieved studies. Randomized controlled trials of home-based compared with clinic-based specimen collection in the management of CT and NG infections were selected for analysis. Three review authors independently assessed trials for inclusion, extracted data and assessed risk of bias. They contacted study authors for additional information, and resolved any disagreements through consensus. These researchers used standard methodological procedures recommended by Cochrane. The primary outcome was index case management, defined as the number of subjects tested, diagnosed and treated, if test positive. A total of 10 trials involving 10,479 participants were included. There was inconclusive evidence of an effect on the proportion of participants with index case management (defined as individuals tested, diagnosed and treated for CT or NG, or both) in the group with home-based (45/778, 5.8 %) compared with clinic-based (51/788, 6.5 %) specimen collection (risk ratio (RR) 0.88, 95 % CI: 0.60 to 1.29; 3 trials, I² = 0 %, 1,566 participants, moderate quality). Harms of home-based specimen collection were not evaluated in any trial. All 10 trials compared the proportions of individuals tested. The results for the proportion of participants completing testing had high heterogeneity (I² = 100 %) and were not pooled. These investigators could not combine data from individual studies looking at the number of participants tested because the proportions varied widely across the studies, ranging from 30 % to 96 % in home group and 6 % to 97 % in clinic group (low-quality evidence). The number of participants with positive test was lower in the home-based specimen collection group (240/2074, 11.6 %) compared with the clinic-based group (179/967, 18.5 %) (RR 0.72, 95 % CI: 0.61 to 0.86; 9 trials, I² = 0 %, 3,041 participants, moderate quality). The authors concluded that home-based specimen collection could result in similar levels of index case management for CT or NG infection when compared with clinic-based specimen collection. Increases in the proportion of individuals tested as a result of home-based, compared with clinic-based, specimen collection were offset by a lower proportion of positive results. The harms of home-based specimen collection compared with clinic-based specimen collection have not been evaluated. They stated that future RCTs to examine the effectiveness of home-based specimen collection should be designed to measure biological outcomes of sexually transmitted infections (STI) case management (e.g., proportion of subjects with negative tests for the relevant STI at follow-up).

Furthermore, an UpToDate review on "Clinical manifestations and diagnosis of Chlamydia trachomatis infections" (Marrazzo, 2016) does not mention home testing as a diagnostic tool.

Salow and associates (2017) evaluated the concordance between clinic-collected extra-genital specimens and self-collected mailed-in extra-genital specimens among participants seeking sexually transmitted infection testing at a free clinic in Hollywood, CA. A convenience sample of 210 men who have sex with men were enrolled between February 29, 2016 and December 21, 2016 and received mail-in testing kits for CT and NG. All testing was performed using the GeneXpert CT/NG (Cepheid, Sunnyvale, CA). From the 210 mail-in kits distributed, 149 mail-in kits (71.0 %) were returned to the laboratory, resulting in 145 pairs (clinic-collected and mail-in) of rectal test results and 148 pairs of pharyngeal test results for both CT and NG detection. The concordance was 95.0 % for all CT rectal tests, 99.3 % for all CT pharyngeal tests, 95.7 % for all NG rectal tests, and 97.2 % for all NG pharyngeal tests. The authors concluded that roughly 2/3 of mail-in test kits were returned and concordance was generally high, however more than 1/3 of positive results were missed in mail-in samples. They stated that the prevalence of potential false-negative results among mail-in samples warrants caution when implementing mail-in sexually transmitted infections (STI) testing strategies. Moreover, these investigators stated that while the present study indicated that mail-in STI testing may not be a viable alternative to clinic-based STI testing, focus groups suggested people prefer having the option to test in the comfort of their own homes. Their research suggested that mail-in collection strategies may reach a greater number of individuals for screening that otherwise would not access testing services. They noted that future research should analyze the cost-effectiveness of mail-in samples versus clinic-collected samples due to the low cost of mailing specimens. In addition, providing easy-to-use in-home self-collected test kits may address access, confidentiality, and stigma-related barriers to STI clinic-based services.

Chlamydia Trachomatis Infection-Associated Risk of Cervical Cancer

Zhu and colleagues (2016) stated that as whether chlamydia trachomatis infection increases the risk of cervical cancer is controversial in the literature, these investigators performed a meta-analysis. Based on a comprehensive search of publications in the Medline, Cochrane, and Embase databases, these researchers identified and extracted data from all relevant articles examining

infection and the risk of cervical cancer. The quality of each included study was assessed according to the 9-star Newcastle-Ottawa scale. The strength of association between the

and risk of cervical cancer was estimated by odds ratio (OR) and 95 % CIs. A total of 22 studies with 4,291 cervical cancer cases and 7,628 controls were identified. Overall,

was significantly linked to increased cervical cancer risk in prospective studies (OR = 2.21, 95 % CI: 1.88 to 2.61, p < 0.001), as well as in retrospective studies (OR = 2.19, 95 % CI: 1.74 to 2.74, p < 0.001). Additionally, with a multi-variate logistic regression analysis adjusted for HPV and age, C. trachomatis infection was identified as an independent predictor of cervical cancer in 11 studies (OR = 1.76, 95 % CI: 1.03 to 3.01, p = 0.04). Co-infection of human papilloma virus (HPV) and C. trachomatis has a higher risk of cervical cancer (OR = 4.03, 95 % CI: 3.15 to 5.16, p < 0.001). A subgroup analysis based on histological type indicated an elevated risk for both squamous cell carcinoma (OR = 2.21, 95 % CI: 2.00 to 2.45, p < 0.001), and adenocarcinoma (OR = 1.61, 95 % CI: 1.21 to 2.15, p = 0.001), in associated with

. Subgroup analysis by where

infection was detected showed a significantly higher risk of cervical cancer associated with C. trachomatis infection detected in serum (OR = 2.20, 95 % CI: 2.01 to 2.42, p < 0.001), cervical tissue blocks (OR = 2.88, 95 % CI: 1.21 to 6.83, p = 0.02), and cervical secretion (OR = 2.71, 95 % CI: 1.41 to 5.20, p = 0.003), especially in serum with no obvious heterogeneity. The authors concluded that these novel data demonstrated that individuals infected with

have a higher risk of cervical cancer. Thus, it is necessary to expand

infection screening and treat women with

promptly, particularly those with HPV infections. They stated that this approach will not only protect against pelvic inflammatory disease (PID) and infertility, but may also prevent cervical cancer. Moreover, these researchers stated that the underlying interaction between

and cervical cancer risk needs to be confirmed in longitudinal studies. Thus, the findings of this study called for further investigation in more prospective studies to provide more definitive evidence concerning the role of this pathogen as a promoter of HPV-mediated cervical carcinogenesis.

Point-of-Care Tests for Screening of C. Trachomatis

Kelly and colleagues (2017) summarized systematic reviews of the performance characteristics of commercially available point-of-care tests (POCT) for screening and diagnosis of urogenital CT infection. Two separate systematic reviews covering the periods 2004 to 2013 and 2010 to 2015 were conducted on rapid CT POCTs. Studies were included if tests were evaluated against a valid reference standard. In the first review, a total of 635 articles were identified, of which 11 were included; 9 studies evaluated the performance of 8 antigen detection rapid POCTs on 10,280 patients and 2 studies evaluated a near-patient nucleic acid amplification test (NAAT) on 3,518 patients. Pooled sensitivity of antigen detection tests was 53 %, 37 % and 63 % for cervical swabs, vaginal swabs and male urine, and specificity was 99 %, 97 % and 98 %, respectively. The pooled sensitivity and specificity of the near-patient NAAT for all specimen types were greater than 98 % and 99.4 %, respectively. The 2nd review identified 2 additional studies on 4 antigen detection POCTs with sensitivities and specificities of 22.7 % to 37.7 % and 99.4 % to 100 %, respectively. A new 2-step, 15-min rapid POCT using fluorescent nanoparticles showed performance comparable to that of near-patient NAATs. The authors concluded that the findings of these 2 systematic reviews showed that antigen detection POCTs for CT, although easy to use, lacked sufficient sensitivity to be recommended as a screening test. They noted that near-patient NAAT showed acceptable performance as a screening or diagnostic test but requires electricity, takes 90 mins and is costly; more affordable POCTs are in development.

Screening for Chlamydia and Gonorrhea in Men Who Have Sex With Men

Tsoumanis and colleagues (2018) stated that

(gonorrhea) could become untreatable in the near future. Indeed, while the treatment of symptomatic gonorrhea in core groups, such as MSM, is crucial for gonorrhea control programs, screening for and treating asymptomatic gonorrhea/Chlamydia trachomatis (chlamydia) in MSM may contribute to antibiotic resistance in gonorrhea. In a systematic review, these researchers examined if there is evidence that screening MSM for gonorrhea/chlamydia is associated with a decline in the prevalence of these infections. They conducted a systematic review in PubMed and Web of Science for relevant studies including uncontrolled observational studies and reported the results following the PRISMA guidelines. The change in estimated prevalence for chlamydia and gonorrhea across the different time-points for 3 anatomical sites (oral, urethral and anal) were collected and examined. A total of 12 studies met the entry criteria. These investigators were able to statistically evaluate the change in prevalence in 10 of 12 studies. In 3 studies, there was a significant increase in chlamydia prevalence, whereas for gonorrhea, 2 studies reported a significant increase and 2 others a decrease. This review provided little evidence that screening for gonorrhea and chlamydia in MSM had an effect on the prevalence of these infections. No evidence was found that more frequent screening reduced prevalence more effectively than annual screening. The authors concluded that this study was not able to provide evidence that screening for chlamydia and gonorrhea lowered the prevalence of these infections in MSM. They stated that RCTs are needed to evaluate the risks and benefits of gonorrhea/chlamydia screening in high- and low-risk MSM.

Rapid Diagnostic for Chlamydia Trachomatis and Neisseria Gonorrhoeae for Women in the Emergency Department

Gaydos and colleagues (2019) noted that in emergency departments (EDs), diagnosis and treatment of Chlamydia trachomatis and Neisseria gonorrhoeae are challenging. These investigators conducted a randomized clinical trial to assess rapid C. trachomatis and N. gonorrhoeae testing on over-treatment and under-treatment of women evaluated for C. trachomatis and N. gonorrhoeae. Women undergoing pelvic examinations and C. trachomatis and N. gonorrhoeae testing (n = 254) were randomized to control or rapid test groups. The control group received standard-of-care C. trachomatis and N. gonorrhoeae nucleic acid amplification tests of endocervical specimens, with 2- to 3-day turn-around times. For the rapid test group, clinicians collected an extra endocervical swab for GeneXpert C. trachomatis and N. gonorrhoeae rapid testing, in addition to the standard-of-care nucleic acid amplification test swab. Rapid results were immediately provided, and all patients were treated according to providers' clinical judgment. In the rapid test group, 7.9 % of patients had positive test results for C. trachomatis ; 3.9 % had positive test results for N. gonorrhoeae. In the control standard-of-care group, 10.2 % of patients had positive nucleic acid amplification test results for C. trachomatis ; 5.5 % had positive results for N. gonorrhoeae. Under-treatment for both C. trachomatis and N. gonorrhoeae in the ED was 0 % for the rapid test group and 43.8 % for the control standard-of-care group. Clinicians over-treated 46.5 % of uninfected standard-of-care control patients for C. trachomatis compared with 23.1 % of uninfected rapid test patients. For patients uninfected with N. gonorrhoeae, clinicians over-treated 46.7 % of standard-of-care control patients compared with 25.4 % of rapid test patients. The length of stay (LOS) did not differ significantly between groups. The authors concluded that rapid C. trachomatis and N. gonorrhoeae testing in the ED led to a significant reduction in over-treatment for women without infections compared with the standard-of-care control group. Furthermore, in the rapid test group there was significant improvement in appropriate treatment for patients with infections.

Pooled Testing for Chlamydia Trachomatis

Almeria and colleagues (2021) stated that pooled testing for CT and NG may be a cost-saving solution to increase screening by simplifying testing procedures and reducing resource burdens. In a systematic review and meta-analysis, these researchers examined the performance of pooled 3-anatomic-site testing (pharyngeal, rectal, and urogenital sites) for CT and NG in comparison with single-anatomic-site testing. They carried out a systematic literature search in PubMed, Embase, and Web of Science to identify original evaluation studies of the performance of pooled testing for CT and NG infections and identified 14 studies for inclusion. Each study was systematically evaluated for bias. These investigators performed bi-variate fixed-effects and random-effects meta-analyses using a full Bayesian method of the positive percent agreement and negative percent agreement. The combined positive percent agreement for CT was 93.11 % (95 % CI: 91.51 % to 94.55 %), and the negative percent agreement was 99.44 % (95 % CI: 99.18 % to 99.65 %). For NG, the combined positive percent agreement was 93.80 % (95 % CI: 90.26 % to 96.61 %), and the negative percent agreement was 99.73 % (95 % CI: 99.30 % to 99.97 %). The authors found that pooled 3-anatomic-site tests performed similarly to single-anatomic-site tests for the detection of CT and NG. The pooled 3-anatomic-site tests have the added potential benefit of reduced cost and resource requirement, which could lead to improved testing access and screening uptake.

Inequities in Chlamydia Trachomatis Screening Between Black and White Adolescents

Wood et al (2022) identified associations between patient race and annual chlamydia screening among adolescent females. These investigators carried out a retrospective cohort study of females aged 15 to 19 years in a 31-clinic pediatric primary care network in Pennsylvania and New Jersey from 2015 through 2019. Using mixed-effect logistic regressions, these researchers estimated associations between annual chlamydia screening and patient (race/ethnicity, age, previous chlamydia screening and infection, insurance type) and clinic (size, setting) characteristics. They decomposed potential effects of clinician's implicit racial bias and screening, using co-variates measuring the proportion of Black patients in each clinician's practice. There were 68,935 well visits among 37,817 females, who were 28.8 % Black and 25.8 % Medicaid insured. The mean annual chlamydia screening rate was 11.1 %. Black females had higher odds of screening (adjusted OR [AOR] = 1.67; 95 % CI: 1.51 to 1.84) than did White females. In the clinician characteristics model, individual clinicians were more likely to screen their Black versus non-Black patients (AOR = 1.88; 95 % CI: 1.65 to 2.15). The authors concluded that racial bias may affect screening practices and should be addressed in future interventions, given the critical need to increase population-level chlamydia screening. These investigators stated that future research should focus on the combined impact of quality improvement initiatives focusing on standardization of care as well as clinician training to eliminate implicit racial bias.

The authors stated that this analysis had several drawbacks. The network’s electronic health record system did not have a metric for sexual activity -- a common problem in pediatric health systems. Although researchers have proposed algorithms and decision rules for identifying sexually active individuals in health system data, many of these methods performed poorly when used to adolescent data. In this analysis, these researchers instead used proxy markers for sexual activity, including age, previous screening, and previous infection. More importantly, although these investigators were unable to measure sexual activity in their cohort, the mean annual 11 % chlamydia screening rate fell far below the 38 % of high school females estimated to be sexually active in the most recent Youth Risk Behavioral Surveillance Survey (YRBSS) data. Furthermore, given the minimal differences in sexual activity rates for White versus Black high school students in the YRBSS data, the authors would not expect differences in sexual activity rates by race to explain their findings. In the available data, these researchers were unable to reliably distinguish asymptomatic screening from symptomatic testing. Without knowledge of symptoms, their analysis categorized any test as screening, which could have inflated their estimates of screening. These data come from a single health system, which may have limited generalizability. However, this system spanned 2 states, including urban as well as suburban regions, and included clinics with clinicians who have varying degrees of experience in sexual health care delivery. These investigators had only 2 Title X-funded clinics in their analysis, both of which also provided routine primary care; therefore, they were unable to examine the effects of stand-alone Title X clinics on receipt of chlamydia screenings, which is an important area for future research given recent federal limitations on Title X funding. The small number of Title X-funded clinics also resulted in wide CIs in their estimates. Lastly, these investigators were unable to account for chlamydia screening that may have occurred at community-based sites outside the network.

Appendix

The following tests are considered medically necessary for screening or diagnosis of

infection:

Scope of Policy

This Clinical Policy Bulletin addresses chlamydia trachomatis - screening and diagnosis.

Medical Necessity

Aetna considers the following indications as medically necessary for the screening and diagnosis of

:

Experimental and Investigational

The following tests are considered experimental and investigational because the effectiveness of these approaches has not been established: