Capstone Project Topic Selection and Approval - Management
Capstone Project Topic Selection and Approval
In collaboration with the approved course preceptor, students will identify a specific evidence-based topic for the capstone project change proposal. Students should consider the clinical environment in which they are currently employed or have recently worked. The capstone project topic can be a clinical practice problem, an organizational issue, a leadership or quality improvement initiative, or an unmet educational need specific to a patient population or community. The student may also choose to work with an interprofessional collaborative team.
Students should select a topic that aligns to their area of interest as well as the clinical practice setting in which practice hours are completed.
Write a 600 word description of your proposed capstone project topic. Include the following:
The problem or issue, intervention, quality initiative, educational need, or collaborative interprofessional team project that will be the focus of the change proposal.
The setting or context in which the problem or issue, intervention, quality initiative, educational need, or collaborative interprofessional team project can be observed.
A description (providing a high level of detail) regarding the problem or issue, intervention, quality initiative, educational need, or collaborative interprofessional team project.
Effect of the problem or issue, intervention, quality initiative, educational need, or collaborative interprofessional team project.
Significance of the topic and its implications for nursing practice.
A proposed solution to the identified project topic with an explanation of how it will affect nursing practice.
You are required to cite to a minimum of eight peer-reviewed sources to complete this assignment. Sources must be published within the last 5 years, appropriate for the assignment criteria, and relevant to nursing practice. Plan your time accordingly to complete this assignment.
Items to include:
*What is HIV/AID
*How is it transmited
*At risk Population
What is U=U and its goals
Barriers to care, treatment and status disclosure: Stigma, culture, education, sexual orientation and or gender.
My Capstone proposal: Using U=U 2020 initiative to Educate patients in risky sexual behaviors and or those that do not disclose HIV status prior to engaging in sexual activity. The Goal is to increase disclosure in HIV status by educating patients on U=U and finding comfortable ways to initiate/open a conversation and proper timing prior to partaking in consensual sexual activity. Data for the study will be limited due to the COVID epidemic and the number of clients willing to participate. But having a clear understanding of U=U can result in great outcomes, decreased new cases and change public perspective on HIV positive patients and safety. This is why compliance with IRT-Antiretroviral Therapy is important.
https://www.oar.nih.gov/about/directors-corner/why-is-u-equals-u-game-changer
https://www.niaid.nih.gov/diseases-conditions/treatment-prevention
HIV Viral Load and Transmissibility
of HIV Infection
Undetectable Equals Untransmittable
In 2016, the Prevention Access Campaign, a health eq-
uity initiative with the goal of ending the HIV/AIDS pan-
demic as well as HIV-related stigma, launched the Un-
detectable = Untransmittable (U = U) initiative.1 U = U
signifies that individuals with HIV who receive antiret-
roviral therapy (ART) and have achieved and main-
tained an undetectable viral load cannot sexually trans-
mit the virus to others. This concept, based on strong
scientific evidence, has broad implications for treat-
ment of HIV infection from a scientific and public health
standpoint, for the self-esteem of individuals by reduc-
ing the stigma associated with HIV,2 and for certain le-
gal aspects of HIV criminalization.3 In this Viewpoint, we
examine the underlying science-based evidence sup-
porting this important concept and the behavioral, so-
cial, and legal implications associated with the accep-
tance of the U = U concept.
A major breakthrough in HIV/AIDS therapeutics
came in 1996 with the advent of 3-drug combinations
of antiretrovirals, including the newly developed prote-
ase inhibitors. These therapeutic regimens resulted in
substantial decreases in viral load in a high percentage
of patients, usually below the level of detection in plasma
and sustained for extended periods.2 Although not ap-
preciated at the time, the accomplishment of a sus-
tained, undetectable viral load was likely the definitive
point when the U = U concept became a reality. Proof
of that concept would await further clinical trials and co-
hort studies. Based on a review of scientific data, a state-
ment from Switzerland in 2008 indicated that individu-
als with HIV who did not have any other sexually
transmitted infection, and achieved and maintained an
undetectable viral load for at least 6 months, did not
transmit HIV sexually.4 This was the first declaration of
the U = U concept, but it was not universally embraced
because it lacked the rigor of randomized clinical trials.
In 2011, the HIV Prevention Trials Network (HPTN)
study 052 compared the effect of early with delayed ini-
tiation of ART in the partner with HIV among 1763 HIV-
discordant couples, of whom 98% were heterosexual.
The finding of a 96.4% reduction in HIV transmission in
the early-ART group, vs those in the delayed group, pro-
vided the first evidence of treatment as prevention in a
randomized clinical trial.5 At that point, the study could
not address the durability of the finding or provide a pre-
cise correlation of the lack of transmissibility with an un-
detectable viral load. Importantly, after 5 additional years
of follow-up, the durable, protective effect of early ART
to maintain viral suppression and prevent HIV transmis-
sion was validated. There were no linked transmissions
when viral load was durably suppressed by ART.6
Subsequent studies confirmed and extended these
findings. The PARTNER 1 study determined the risk of
HIV transmission via condomless sexual intercourse in
1166 HIV-discordant couples in which the partner with
HIV was receiving ART and had achieved and main-
tained viral suppression (HIV-1 RNA viral load <200 cop-
ies/mL). After approximately 58 000 condomless sexual
acts, there were no linked HIV transmissions.3 Since a mi-
nority of the HIV-discordant couples in PARTNER 1 were
men who have sex with men (MSM), there was insuffi-
cient statistical power to determine the effect of an un-
detectable viral load on the transmission risk for recep-
tive anal sex. In this regard, the Opposites Attract study
evaluated transmissions involving 343 HIV-discordant
MSM couples in Australia, Brazil, and Thailand. After
16 800 acts of condomless anal intercourse there were
no linked HIV transmissions during 588.4 couple-years
of follow-up during which time the partner with HIV had
an undetectable viral load (<200 copies/mL).3
Building on these studies, the PARTNER 2 study con-
clusively demonstrated that there were no cases of HIV
transmission between HIV-discordant MSM partners de-
spite approximately 77 000 condomless sexual acts if
the partner with HIV had achieved viral suppression and
the uninfected partner was not receiving preexposure
prophylaxis or postexposure prophylaxis.7
The validity of the U = U concept depends on achiev-
ing and maintaining an undetectable viral load in an indi-
vidual with HIV. Because of the promise of U = U, achiev-
ing and maintaining an undetectable viral load becomes
an aspirational goal and offers hope for persons with HIV.
The principles involved in achieving and maintaining an
undetectable viral load are related to (1) taking ART as pre-
scribed and the importance of adherence; (2) time to vi-
ral suppression; (3) viral load testing recommendations;
and (4) the risk of stopping ART (Box).
Taking ART as prescribed is essential for achieving
and maintaining an undetectable viral load. The Cen-
ters for Disease Control and Prevention (CDC) reported
that of the individuals with HIV in the United States in
HIV clinical care in 2015, approximately 20% had not
achieved viral suppression (<200 HIV-1 RNA copies/mL)
at their last test. CDC also noted that 40% of the indi-
viduals in HIV clinical care that same year did not main-
tain viral suppression for more than 12 months.8 Lack of
adherence with ART is associated with many factors, in-
cluding the lack of accessibility of quality health care.
The stability of health care provided by programs such
as the Ryan White HIV/AIDS Program shows that high
rates of viral suppression are possible in the context of
quality care delivery.
VIEWPOINT
Robert W. Eisinger,
PhD
Office of the Director,
National Institute of
Allergy and Infectious
Diseases, National
Institutes of Health,
Bethesda, Maryland.
Carl W. Dieffenbach,
PhD
Division of AIDS,
National Institute of
Allergy and Infectious
Diseases, National
Institutes of Health,
Bethesda, Maryland.
Anthony S. Fauci, MD
Office of the Director,
National Institute of
Allergy and Infectious
Diseases, National
Institutes of Health,
Bethesda, Maryland.
Corresponding
Author: Anthony S.
Fauci, MD, National
Institute of Allergy and
Infectious Diseases,
National Institutes of
Health, 9000 Rockville
Pike, Bldg 31,
Room 7A03, Bethesda,
MD 20892 ([email protected]
niaid.nih.gov).
Opinion
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The guidance that viral suppression measured at 6 months
after starting therapy is required for U = U has several origins. First,
Partners PrEP trial, a prospective cohort study conducted among
4747 heterosexual HIV-discordant couples in Kenya and Uganda,
was designed to determine the risk of HIV transmission prior to and
following achieving viral suppression (<80 HIV-1 RNA copies/mL).
HIV incidence prior to initiation of ART was 2.08 per 100 person-
years, 1.79 for 0 to 6 months after initiation of ART, and 0.00 with
more than 6 months of ART, indicating that residual HIV transmis-
sion risk persists during the first 6 months of ART, during which
time there is incomplete suppression of HIV in blood and genital
compartments.9 Second, a case of a linked transmission in Partners
PrEP occurred when the treated partner had been taking ART for
fewer than 4 months and prior to complete viral suppression.3
These findings support the requirement for 6 months of ART to
achieve virologic suppression.
The recommended schedule for viral load testing for individu-
als with HIV in the United States, according to the Panel on Antiret-
roviral Guidelines for Adults and Adolescents,2 includes testing
(1) at entry into care; (2) on initiation of ART or at the time of treat-
ment regimen modification; (3) 2 to 8 weeks after ART initiation or
modification and repeated every 4 to 8 weeks until the HIV-1 RNA
viral load is suppressed to less than 200 HIV-1 RNA copies/mL; and
(4) repeated every 3 to 4 months. For individuals who are adherent
to treatment with consistently suppressed viral load and stable im-
munologic status for more than 2 years, the guidelines panel2 rec-
ommends that monitoring can be extended to 6-month intervals.
Stopping ART represents a significant challenge to successful
implementation of U = U. When ART is stopped, viral rebound usu-
ally occurs within 2 to 3 weeks. The SPARTAC and SMART clinical
trials used stopping ART to determine if the same degree of protec-
tion from progression to AIDS could be achieved by ART dosed for
defined intervals or continuously delivered. In both studies, stop-
ping ART resulted in viral rebound to levels that would have been
associated with increased risk of HIV transmission.10 A systematic
review of 12 recent clinical studies concluded that there is negligible
risk (0.00 transmissions/100 person-years, 95% CI, 0.00-0.28)
of HIV sexual transmission among HIV-discordant partners when
the partner with HIV adheres to ART and maintains a suppressed
viral load (<200 HIV-1 RNA copies/mL) measured routinely every 4
to 6 months.3 To enhance the overall success of the U = U concept,
it is important to implement programs that help patients remain in
care and address the challenges in their lives that result in their
stopping therapy.
In summary, even though the clinical data underpinning the
concept of U = U have been accumulating for well over a decade,
it is only recently that an overwhelming body of evidence has
emerged to provide the firm basis to now accept this concept as
scientifically sound. This has important implications in several
areas. The U = U concept provides incentives for individuals with
HIV to seek, initiate, and adhere to ART. In addition, it adds incen-
tives to efforts to control and ultimately end the HIV/AIDS pan-
demic because treatment as prevention is a critical tool in prevent-
ing the spread of HIV infection.2 The U = U concept also bridges the
best of biomedical science with current concepts in behavioral and
social science by removing the sense of fear and guilt that a person
may be harming someone else, as well as the feeling of self-
imposed and external stigma that many people with HIV experi-
ence. Finally, this concept has legal implications related to the
criminalization of certain persons with HIV whereby criminal law is
used to penalize alleged, perceived, or potential HIV exposure of
one person to another.
ARTICLE INFORMATION
Published Online: January 10, 2019.
doi:10.1001/jama.2018.21167
Conflict of Interest Disclosures: None reported.
REFERENCES
1. Prevention Access Campaign.
Undetectable=Untransmittable. https://www.
preventionaccess.org/undetectable. Published July
2016. Updated August 23, 2018. Accessed
October 18, 2018.
2. DHHS Panel on Antiretroviral Guidelines for
Adults and Adolescents. Guidelines for the use of
antiretroviral agents in adults and adolescents living
with HIV. https://aidsinfo.nih.gov/guidelines/html/1/
adult-and-adolescent-arv/37/whats-new-in-the-
guidelines-. October 25, 2018. Accessed
January 4, 2019.
3. LeMessurier J, Traversy G, Varsaneux O, et al.
Risk of sexual transmission of human
immunodeficiency virus with antiretroviral therapy,
suppressed viral load and condom use: a systematic
review. CMAJ. 2018;190(46):E1350-E1360. doi:10.
1503/cmaj.180311
4. Vernazza P, Hirschel B, Bernasconi E, Flepp M.
Les personnes seropositives ne souffrant d'aucune
autre MST et suivant un traitement antiretroviral
efficace ne transmettent pas le VIH voie sexuelle.
Bulletin des medecins suisses. 2008;89(5):165-169.
doi:10.4414/bms.2008.13252
5. Cohen MS, Chen YQ, McCauley M, et al; HPTN
052 Study Team. Prevention of HIV-1 infection with
early antiretroviral therapy. N Engl J Med. 2011;365
(6):493-505. doi:10.1056/NEJMoa1105243
6. Cohen MS, Chen YQ, McCauley M, et al; HPTN
052 Study Team. Antiretroviral therapy for the
prevention of HIV-1 transmission. N Engl J Med.
2016;375(9):830-839. doi:10.1056/NEJMoa1600693
7. Rodger A, Cambiano V, Brunn T, et al. Risk of HIV
transmission through condomless sex in MSM
couples with suppressive ART: the Partners2 Study
extended results in gay men. Presented at: 22nd
International AIDS Conference; July 25, 2018;
Amsterdam, the Netherlands.
8. Centers for Disease Control and Prevention.
Evidence of HIV treatment and viral suppression in
preventing the sexual transmission of HIV.
https://www.cdc.gov/hiv/pdf/risk/art/cdc-hiv-art-
viral-suppression.pdf. December 2018.
9. Mujugira A, Celum C, Coombs RW, et al; Partners
PrEP Study Team. HIV transmission risk persists
during the first 6 months of antiretroviral therapy.
J Acquir Immune Defic Syndr. 2016;72(5):579-584.
10. Hamlyn E, Ewings FM, Porter K, et al; INSIGHT
SMART and SPARTAC Investigators. Plasma HIV
viral rebound following protocol-indicated
cessation of ART commenced in primary and
chronic HIV infection. PLoS One. 2012;7(8):e43754.
doi:10.1371/journal.pone.0043754
Box. Principles to Achieve and Maintain
an Undetectable Viral Load
• In order for antiretroviral therapy (ART) to provide maximum
benefit, taking medication as prescribed is essential.
• Achieving an undetectable viral load can take up to 6 months of
ART. Once achieved, continued adherence is required.
• According to guidelines from the Department of Health and
Human Services, viral load testing should be performed every
3-4 months after the plasma HIV-1 RNA level reaches
undetectable (<200 copies/mL). If viral suppression and stable
immunologic status are maintained for >2 years, the viral load
testing can be extended to every 6 months thereafter.
• Stopping therapy negates the validity of assuming that U = U.
Opinion Viewpoint
452 JAMA February 5, 2019 Volume 321, Number 5 (Reprinted) jama.com
© 2019 American Medical Association. All rights reserved.
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https://www.preventionaccess.org/undetectable
https://www.preventionaccess.org/undetectable
https://aidsinfo.nih.gov/guidelines/html/1/adult-and-adolescent-arv/37/whats-new-in-the-guidelines-
https://aidsinfo.nih.gov/guidelines/html/1/adult-and-adolescent-arv/37/whats-new-in-the-guidelines-
https://aidsinfo.nih.gov/guidelines/html/1/adult-and-adolescent-arv/37/whats-new-in-the-guidelines-
https://dx.doi.org/10.1503/cmaj.180311
https://dx.doi.org/10.1503/cmaj.180311
https://dx.doi.org/10.4414/bms.2008.13252
https://dx.doi.org/10.1056/NEJMoa1105243
https://dx.doi.org/10.1056/NEJMoa1600693
https://www.cdc.gov/hiv/pdf/risk/art/cdc-hiv-art-viral-suppression.pdf
https://www.cdc.gov/hiv/pdf/risk/art/cdc-hiv-art-viral-suppression.pdf
https://www.ncbi.nlm.nih.gov/pubmed/27070123
https://dx.doi.org/10.1371/journal.pone.0043754
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CAPSTONE FINAL REPORT
UNDERSTANDING PERCEPTIONS OF HIV RISK AND PREVENTION PRACTICES
ABSTRACT
This report summarizes the results of my Capstone Project conducted at Miami-Dade County
Health Department’s STD Department. My Capstone project was a continuation of my MPH
field experience in which I assisted in collecting data for a study being conducted by the STD
Department. This field project uses a subset of that data from the participants I personally
interviewed to identify relationships between specific client characteristics and their preferences
for HIV prevention strategies. The objective of this project was to better understand client needs
in order to better design culturally acceptable interventions. The project considered four key
independent variables: client gender, client ethnicity, and client sexual orientation. Client sexual
orientation was defined as men who have sex with men (MSM), men who have sex with women
only (MSW), women who have sex with men and/or women (WSM), and women who have sex
with women only (WSW). The key dependent variable was the client’s preferred HIV prevention
strategies, one of circumcision, female condom, male condom, Microbicides, or pre-exposure
prophylaxis. The data collected was analyzed to determine whether client gender, partner gender,
or race/ethnicity were related to HIV prevention strategy preferences. Of the four, only client
gender showed a notable difference, with males strongly preferring male condoms, while females
were approximately equally split among nearly all prevention strategies. The key limitation of
the project was the very small sample size which precluded statistical hypothesis testing.
Recommendations included both repeating the project with substantially larger sample in which
statistically significant results for reasonable effect sizes would be more likely., . In the
meantime, however, awareness than male and female clients may have significantly different
HIV prevention strategy preferences is an important conclusion.
TABLE OF CONTENTS
SUMMARY STATEMENT ......................................................................................................... 5
PROJECT OBJECTIVES ........................................................................................................... 6
BACKGROUND LITERATURE ................................................................................................ 7
NEW STRATEGIES IN HIV PREVENTION .................................................................................... 7
ETHNIC ISSUES IN HIV PREVENTION STRATEGIES .................................................................... 9
GENDER ISSUES IN HIV PREVENTION STRATEGIES ................................................................. 10
SEXUAL ORIENTATION ISSUES IN HIV PREVENTION STRATEGIES .......................................... 10
SUMMARY OF LITERATURE REVIEW ....................................................................................... 12
METHODOLOGY AND PROJECT DESIGN ........................................................................ 12
MATERIALS AND METHODS .................................................................................................... 13
EVALUATION AND DATA ANALYSIS ....................................................................................... 14
RESULTS .................................................................................................................................... 15
PERSONAL PARTICIPATION ..................................................................................................... 15
FINDINGS FROM THE PROJECT ................................................................................................. 16
Gender and HIV Prevention Preferences .................................................................... 21
Ethnicity and HIV Prevention Preferences .................................................................. 21
Sexual Orientation and HIV Prevention Preferences .................................................. 21
Sexual Preference and HIV Prevention Preferences ................................................... 22
RECOMMENDATIONS AND CONCLUSIONS .................................................................... 22
DISCUSSION OF RESULTS ........................................................................................................ 22
LIMITATIONS AND RECOMMENDATIONS ................................................................................. 24
REFERENCES ............................................................................................................................ 25
APPENDIX A: RAW DATA FROM PROJECT ..................................................................... 28
UNDERSTANDING PERCEPTIONS OF HIV RISK AND PREVENTION PRACTICES
Summary Statement
The CDC estimates that as many as 50,000 new cases of HIV are diagnosed each year;
16,000 HIV cases died in 2008 alone (CDC, 2011). There are nearly 1.2 million individuals
living with HIV in the U.S. at this time, and that number is continually growing each year (CDC
2011). HIV is also often found coincident with other sexually transmitted diseases (STDs).
Statistics from 2010 compiled by the State of Florida (2011) found that there were nearly 400
cases of infectious syphilis in Miami Dade County, with nearly half of those also infected with
HIV. Another 850 cases of syphilis in the county were identified as being in either early-latent or
late-latent stages, again with between 25% and 50% of them co-infected with HIV (State of
Florida, 2011).
Several major population groups are at greater risk of HIV including MSM and bisexual
men, as well African Americans and Hispanics or Latinos—the major ethnic groups in the
Miami-Dade area (CDC, 2011). The Centers for Disease Control and Prevention (CDC) noted in
2011 that while gay and bisexual men (MSM, or Men who have Sex with Men) account for
about 2% of the population in the U.S., they account for 61% of all new HIV infections (CDC
2011). Similarly, African Americans are about 14% of the U.S. population, but account for 44%
of new HIV infections, with African American women being particularly at risk, with an
infection rate 15 times higher than that of white women (CDC 2011). Hispanics are also at
greater risk of HIV infections, accounting for 16% of the population, but having 20% of the total
new HIV infections—a rate 3 times higher than in the white population (CDC 2011). Other at-
risk groups include users of injected drugs, and transgender individuals, with males transitioning
to females having approximately a 21% infection rate.
A number of new prevention strategies have been developed to prevent HIV infections,
including male circumcision, pre-exposure prophylaxis with antiretroviral (ARV) drugs for high-
risk individuals, and Microbicides specifically aimed at HIV prevention. These strategies,
discussed in more detail in the Literature Review that follows, are not always well known or
understood in the community
This project aimed to assess the level of understanding of the risk of HIV/AIDS and
methods of prevention of HIV/AIDS, as well as to identify ways that public health information
about HIV/AIDS can best be disseminated among people of different genders, sexual
orientations, and ethnicities. This project should aid in better understanding how attitudes toward
HIV prevention practices differ among various groups in the community based on gender,
ethnicity, and sexual orientation.
Project Objectives
Two key objectives were associated with this project. First, the project had the objective
of better understanding the attitudes toward HIV prevention strategies as a function of
race/ethnicity gender, and partners’ gender. Second, the project was intended to provide a better
understanding of how an inner city STD clinic operated, in terms of the its day-to-day operations
and its relationship to its clients. These two objectives were intended to better understand how to
educate clinic clients on effective means of HIV protection and to identify cultural, racial,
gender, or sexual preference differences in how these clients may prefer to receive such
education. These objectives are in line with the overall program objectives of understanding the
social and behavioral factors that affect individual health choices and to apply that understanding
to specific implementations of behavioral interventions. The intention behind the project is to be
able to better serve the clients in a good cultural context.
Background Literature
This brief literature review addresses key themes in the research that address issues of
HIV prevention strategies, with particular attention to the acceptability of those strategies to
various groups differing by gender, sexual orientation, and ethnicity.
New Strategies in HIV Prevention
Several new strategies have been developed recently to address HIV prevention. Key
among these are topical ARV-based microbicides, oral pre-exposure prophylaxis using ARV
drugs, ARV drugs used in HIV-positive individuals to reduce transmission to non-infected
persons.
ARV therapy is demonstrated useful in treating individuals with HIV infections. It is now
being used as a prophylactic therapy to prevent HIV in individuals exposed to others who carry
the infection (El-Sadr et al., 2010). While mathematical models indicate that this therapy should
be successful, evidentiary support is still thin (El-Sadr et al., 2010). Also, in the U.S. there are
significant issues with using ARV therapies as prophylaxis. These barriers include the high
number of those who most need the therapy who are also uninsured or underinsured; the
demonstrated typical delays between HIV diagnosis and the beginning of HIV treatment, and
problems with compliance with a long-term ARV therapy; and the potential for ARV therapy to
grant “permission” for higher-risk behaviors more likely to spread the infection (El-Sadr et al.
2010). For this type of therapy to be effective, it will require social, policy, and insurance
changes (El-Sadr et al. 2010).
One example of the use of ARV drug therapies in HIV prevention campaigns is a pre-
exposure prophylaxis method. This is when the ARV drug is used prior to sexual contact with a
non-infected person to prevent transmission of the infection. Depending on how strictly the pre-
exposure protocol is followed, studies have shown that the risk of infection is cut between 44%
and 73% with this strategy (Hayden 2011). However, there is some concern that such a
prevention approach may ultimately encourage riskier behavior, such as reduced use of condoms.
Furthermore, pre-exposure prophylaxis requires ongoing and regular testing and intensive
counseling, neither of which is easy to provide at the level of a population (Hayden 2011). Thus,
the cost-effectiveness is uncertain for this particular approach to HIV prevention, an important
factor for any strategic plan.
Other biomedical approaches to HIV prevention are either in place, or are currently under
study. These include a potential HIV vaccine, topical microbicides, male circumcision, and
condom usage (Mayer, Skeer & Mimiaga 2010). Of these, topical microbicides are generally
gels, sponges or rings applied to vaginal or rectal mucusal areas to prevent HIV infection
transmission (Mayer et al. 2010). A large number of such products—at least 80—are either
available or under development. Some work by reducing the pH of the mucusal tissues, some are
detergents that break microbial membranes, some target the cell or virus receptors to prevent
binding of virus to cells; and some inhibit the replication function of the HIV virus (Mayer et al.
2010).
Male circumcision is another approach. Studies have shown that the risk of transmission
of HIV is reduced by about half in MSM when the male is circumcised (Mayer et al. 2010).
Unfortunately, this did not hold for women in contact with circumcised men; no reduction in
infectiousness has been found in male-female interactions (Mayer et al. 2010)…
[The body of this paper was cut to protect the content from copying and
unregulated distribution]
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effective narrative-based HIV –prevention interventions to increase minorities’
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Centers for Disease Control and Prevention (CDC). (2011).High-impact HIV prevention.
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http://www.cdc.gov/hiv/strategy/dhap/pdf/nhas_booklet.pdf
Centers for Disease Control and Prevention (CDC). (2013). Sexually transmitted diseases
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http://www.cdc.gov/std/gonorrhea/default.htm
Chirenje, Z. M., Marrazzo, J., Parikh, U. M. (2010). Antiretroviral-based HIV prevention
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DuBois, S. N., Johnson, S. E., Mustanski, B. (2011). Examining racial and ethnic minority
differences among YMSM during recruitment for an online HIV prevention intervention
study. AIDS and Behavior, 16(6), 1430-1435.
El-Sadr, W. M., Affrunti, M., Gambel, T., Zerbe, A. (2010). Antiretroviral therapy: A promising
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Gasiorowicz, M., Stodola, J. (2011). HIV prevalence estimates and alignment among recent
diagnoses, targeted tests, and prevention services by demographic and racial/ethnic group
in Wisconsin. AIDS Education and Prevention, 23(3 Supplement), 7-16.
Harvey, S. M., Bird, S. T. (2001). Power in relationships and influencing strategies for condom
use: Exploring cultural beliefs among African American men. International Quarterly of
Community Health Education, 21, 147-162.
Hayden, E. C. (2011). HIV drug-prevention strategy carries risks. Nature, 476(7360), 260-261.
Hsu, J. ,Zinsou, C., Parkhurst, J., N’Dour, M., FOyet, L., Mueller, D. H. (2013). Comparative
costs and cost-effectiveness of behaviorual interventions as part of HIV prevention
strategies. Health Policy and Planning, 28(1), 20-29.
Jarlais, D. C. D., Cooper, H.L. F., Bramson, H., Deren, S., Hatzakis, A., Hagan, H. (2012).
Racial and ethnic disparities and implications for the prevention of HIV among persons
who inject drugs. Current Opinion on HIV and AIDS, 7(4), 354-361.
Lanier, Y., Sutton, M. Y. (2013). Reframing the context of preventative health care services and
prevention of HIV an dother sexually transmitted infections for young men: New
opportunities to reduce racial/ethnic sexual health disparities. American Journal of Public
Health, 103(2), 262-
Mayer, K H., Skeer, M., Mimiaga, M. J. (2010). Biomedical approaches to HIV prevention.
Alcohol Research and Health, 33(3), 195-
McIntosh, D. R. (2012). Cultural strategies for teaching HIV/AIDS prevention to American
Indians. Journal of Adult Education, 41(2), 12-
Miami-Dade (2013). Miami-Dade sexually transmitted disease (STD) control and prevention.
Miam-Dade County Health Department. Retrieved from:
http://www.dadehealth.org/std/STDintro.asp
State of Florida. (2011). Reported cases of STDs and the number of those cases identified as co-
infected with HIV. Florida Department of Health. Retrieved from:
http://www.doh.state.fl.us/Disease_ctrl/std/trends/florida/STDs_HIV_10.pdf
e632 www.thelancet.com/hiv Vol 6 September 2019
Viewpoint
The disconnect between individual-level and population-level
HIV prevention benefits of antiretroviral treatment
Stefan Baral, Amrita Rao, Patrick Sullivan, Nancy Phaswana-Mafuya, Daouda Diouf, Greg Millett, Helgar Musyoki, Elvin Geng, Sharmistha Mishra
In 2019, the HIV pandemic is growing and soon over 40 million people will be living with HIV. Effective population-
based approaches to decrease HIV incidence are as relevant as ever given modest reductions observed over the past
decade. Treatment as prevention is often heralded as the path to improve HIV outcomes and to reduce HIV
incidence. Although treatment of an individual does eliminate onward transmission to serodifferent partners
(unde tectable=untransmittable or U=U), population-level observational and experimental data have not shown a similar
effect with scale-up of treatment on reducing HIV incidence. This disconnect might be the result of little attention given
to heterogeneities of HIV acquisition and transmission risks that exist in people at risk for and living with HIV, even in
the most broadly generalised epidemics. Available data suggest that HIV treatment is treatment, HIV prevention is
prevention, and specificity of HIV treatment approaches towards people at highest risk of onward transmission drives
the intersection between the two. All people living with HIV deserve HIV treatment, but both more accurately estimating
and optimising the potential HIV prevention effects of universal treatment approaches necessitates understanding who
is being supported with treatment rather than a focus on treatment targets such as 90-90-90 or 95-95-95.
Introduction
In 2019, we are at a pivotal time in the global HIV response
in that many people believe that the HIV pandemic is
over given the advances in HIV treatment.1 Yet the HIV
pandemic continues to grow as defined by numbers of
people living with HIV. Specifically, given the encouraging
decreases in overall mortality among people living with
HIV, in the context of universal treat ment as prevention,
approximately 930 000 more people annually (1·7 million
new infections minus 770 000 deaths of people living with
HIV) require anti retroviral therapy (ART) and many more
would need to change ART regimens. At the current rate
of new infections, over 40 million people will be living
with HIV by 2025.2 The global optimism about the HIV
pandemic has not been matched by decreases in new
HIV infections. New infections have declined by less than
2% per year since 2005, which means that between
1·8 and 2·5 million people acquired HIV in 2017.2,3 To
date, just over 60% of the 37·9 million people living with
HIV are on ART; of those 37·9 million, just over half
(20·1 million) are estimated to have achieved viral sup
pression.2 Taken together, these data suggest that an
estimated 18 million people living with HIV require ART
or improved ART regimens given increasing resistance
and concerns about drug quality.2,4
Treatment as prevention for HIV was con ceptualised
in response to both observational data5–7 and individually
randomised controlled trials8–10 that showed risk of HIV
transmission to one’s direct sexual partners were closely
linked to the viral load among people living with HIV.
If people with HIV had undetectable viral loads,
then risk of HIV transmission is zero—referred to as
undetectable=untransmittable (U=U).11 These trials
were followed by observational studies reinforcing
U=U, with no linked transmission events among
heterosexual and samesex male serodifferent couples
who reported condomless sex in the absence of HIV
preexposure prophylaxis.5–7,12
Given the consistent data supporting U=U, treatment
as prevention at the population level was expected to
reduce HIV incidence substantially through reductions in
onward transmissions at the population level. Although
the data on U=U at the individual level are clear, whether
treatment has decreased HIV incidence at the population
level in proportion to increases in coverage of effective
treatment is far less clear. However, a linear or dose
response effect between treatment and incidence re
ductions would require all people living with HIV to have
similar risks of onward transmission if they were not
virally suppressed. Data on the heterogeneities that exist in
every setting in onward HIV transmission risks in the
context of different sexual networks challenge the dose
response effects of treatment as prevention. These data are
further contextualised by rich literature in disparities and
inequities research showing that, often secondary
to structural determinants, neither treatment nor viral
suppression is equal among populations living with HIV.
Three largescale cluster randomised controlled trials did
not show incidence declines attributable to universal
access to ART. These experimental data complement
observational data showing sustained HIV incidence
despite increased HIV treatment across municipalities,
regions, and nationally in countries across income levels.
Here, we synthesise data supporting U=U for
serodifferent couples, treatment as prevention at the
population level, and potential reasons for the discon
nect in observed effect between these two intervention
strategies.
Unequivocal data supporting benefits of U=U
for individuals and serodifferent couples
A series of randomised controlled trials showed that
early ART initiation can have immediate and clinically
meaningful individuallevel benefits, including reductions
in morbidity and mortality among people living with HIV
and reductions in the rate of linked partner transmissions
Lancet HIV 2019; 6: e632–38
Published Online
July 19, 2019
http://dx.doi.org/10.1016/
S2352-3018(19)30226-7
Center for Public Health and
Human Rights, Department of
Epidemiology, Johns Hopkins
School of Public Health,
Baltimore, MD, USA
(S Baral MD, A Rao ScM);
Department of Epidemiology,
Laney Graduate School, Rollins
School of Public Health, Emory
University, Atlanta, GA, USA
(P Sullivan PhD); Research and
Innovation Office, North West
University, Potchefstroom,
South Africa
(N Phaswana-Mafuya PhD);
Enda Santé, Dakar, Senegal
(D Diouf MS); amfAR,
the Foundation for AIDS
Research, Washington, DC, USA
(G Millett MPH); National AIDS
and Sexually Transmitted
Infection Control Programme,
Ministry of Health, Nairobi,
Kenya (H Musyoki MPH);
Department of Medicine,
University of California,
San Francisco, CA, USA
(E Geng MD); and St Michael’s
Hospital, Li Ka Shing
Knowledge Institute, and
Department of Medicine,
Division of Infectious Disease,
University of Toronto, Toronto,
Canada (S Mishra PhD)
Correspondence to:
Dr Stefan Baral, Center for Public
Health and Human Rights,
Department of Epidemiology,
Johns Hopkins School of Public
Health, Baltimore, MD 21205,
USA
[email protected]
For more on treatment as
prevention see
http://www.cfenet.ubc.ca/
http://crossmark.crossref.org/dialog/?doi=10.1016/S2352-3018(19)30226-7&domain=pdf
www.thelancet.com/hiv Vol 6 September 2019 e633
Viewpoint
(figure 1). The TEMPRANO ANRS 12136 trial,9 done at
nine care centres in Abidjan, Côte d’Ivoire, between 2008
and 2012, found that among 2056 patients, early ART
initiation compared with deferred initiation reduced the
risk of death or severe HIVrelated illness by nearly 50%
(adjusted hazard ratio [HR] 0·56, 95% CI 0·41–0·76).
Early ART initiation (ie, ART started immediately after
randomisation) reduced HIVrelated illness even among
people with preART CD4 counts of 500 cells per µL or
more (0·56, 0·33–0·94).9 The START trial8 showed similar
results. In this trial,8 4685 patients were recruited between
2009 and 2013 from 35 countries and followed up for a
mean of 3·0 years. Adults living with HIV with a CD4
count of more than 500 cells per µL were randomly
assigned to start ART immediately or to defer initiation
until CD4 count decreased to 350 cells per µL, development
of AIDS, or development of another condition that
required the use of ART.8 Patients were followed up to
ascertain the primary endpoint of any serious AIDSrelated
event, serious event not related to AIDS, or allcause
mortality.8 Early initiation again showed individuallevel
benefits over starting therapy after CD4 count had declined
(eg, adjusted HR for morbidity or mortality 0·43, 95% CI
0·30–0·62).8
Between 2007 and 2010, the HPTN 052 trial10 randomly
assigned 1763 index participants living with HIV from
multiple lowincome, middleincome, and highincome
countries to early or deferred initiation to evaluate
differences in genetically linked new HIV infections in
previously HIVnegative partners.10 Compared with the
delayed ART group, early ART was associated with a
reduction in linked partner infection (HR 0·07, 95% CI
0·02–0·22).10 Of the 72 partner infections in which viral
linkage was possible, 46 were linked and 26 were unlinked.
Unlinked transmissions came from outside of the sero
different partnership being evaluated, providing early
insights into effectiveness challenges of this approach.10 Of
these 26 unlinked partner infections, they were distributed
relatively equally in both groups with 14 in the earlyART
group and 12 in the delayedART group, foreshadowing
limitations in HIV acquisition that happens outside
primary partnerships. The HPTN 052 trial10 showed
that 30% of partner infections could not be prevented
by treatment as prevention. Only twothirds of couples
enrolled into the study were available for final analysis of
effect, further reinforcing implementation challenges of a
universal treatment approach.
To complement these three experimental studies8–10
focused on leveraging HIV treatment to prevent trans
mission within serodifferent partnerships and preventing
HIVrelated morbidity and mortality, three large obser
vational studies evaluated HIV trans mission within
serodifferent couples during periods of condomless
sex and suppressed viral load of infected partners.
Two studies5,7 have followed both heterosexual and same
sex male HIV serodiff erent couples to track linked HIV
transmissions. In the Oppo sites Attract observational
cohort study,5 serodifferent gay male couples were
recruited from Australia, Brazil, and Thailand. Between
2012 and 2016, 343 couples had at least one followup
visit, with a total of 16 800 condomless anal intercourse
acts and 258 (75%) HIVpositive partners having viral
loads below 200 copies per mL. No linked transmissions
were observed.5 In the prospective, observational
PARTNER study,7 1166 sero different het erosexual and
male homo sexual couples who reported condomless
sexual activity between 2010 and 2014 were enrolled.7
Inclusion criteria included that the partner living with
HIV was to be virally suppressed for the couple to be
eligible.7 Male homosexual couples reported approxi
mately 22 000 condomless sex acts and heterosexual
couples reported about 36 000.7 Similarly, no phylo
genetically linked new infections were observed.7 Results
of the second phase of the PARTNER study were recently
published.6 No linked trans missions were found between
homosexual couples for nearly 77 000 condomless anal
intercourse acts, in which the partner living with HIV
was virally suppressed.6 Importantly, these prevention
benefits will only be sustained in the context of
programmes that address longterm treatment needs for
people living with HIV. Recent data from the USA
suggest that achieving sustained viral suppression,
especially among the most marginalised communities
living with HIV, might be a challenge yet to be overcome.18
Taken together, the observational data combined with the
efficacy data from the HPTN 052 trial10 do reinforce the
veracity of U=U and the efficacy for treatment to prevent
HIV transmission in the context of serodifferent HIV
partnerships.
Figure 1: Experimental studies evaluating HIV treatment outcomes at the population level and individual level
Details of studies and comparisons are given in the main text. Blue lines represent studies with population-level
outcomes and red lines are studies with individual-level outcomes. aHR=adjusted hazard ratio. aRR=risk ratio.
IRR=incidence rate ratio. ART=antiretroviral therapy.
ANRS 12249
TasP13–15
Reduction in
population-level
incidence (aHR)
SEARCH16
Reduction in
3-year cumulative
population-level
incidence (aRR)
HPTN 071
(PopART)17
Reduction in
population-level
incidence (IRR)
TEMPRANO9
Reduction in
HIV morbidity
or mortality
(aHR)
START8
Reduction in
HIV morbidity
or mortality
(aHR)
HPTN 05210
Reduction in
linked-partner
infection (HR)
0
0·2
0·4
0·6
0·8
1·0
1·2
1·4
1·6
M
ea
su
re
o
f a
ss
oc
ia
ti
on
fo
r t
ria
ls
1·01
0·95 0·93
0·56
0·43
0·07
e634 www.thelancet.com/hiv Vol 6 September 2019
Viewpoint
Treatment as prevention as a population-based
approach
As of 2019, three fully powered cluster randomised trials
have measured the effect of universal testing and
treatment on populationlevel reductions in HIV
incidence (figure 1). The ANRS 12249 TasP study13–15 was a
cluster randomised trial designed to evaluate the effect of
early ART, irrespective of CD4 count, on HIV incidence
in specific clusters in northern KwaZuluNatal, South
Africa. Communities were randomly assigned either to
immediate offer of ART or to standard of care in South
Africa at the time (ART initiation at CD4 count ≤350 cells
per µL or WHO stage 3 or 4 until December, 2014, then
≤500 cells per µL from January, 2015), and no differences
were observed in populationlevel HIV incidence by
group (adjusted HR 1·01, 95% CI 0·87–1·17).14,15 In the
SEARCH study,16 32 communities in Kenya and Uganda
were randomly assigned to receive universal ART with a
multidisease model, which included patientcentred
interventions related to hypertension, diabetes, tubercu
losis, and HIV. The inter vention reduced annual
tuberculosis incidence and improved population HIV
viral suppression.16 Although HIV incidence declined
across all observed communities, no difference was
observed in 3year cumulative HIV incidence between
groups (adjusted risk ratio 0·95, 95% CI 0·77–1·17).16
Conclusions for nonsignificance associated with treat
ment included that new infections were coming from
outside the community, outbreaks of acute infection, and
the small subset of the population living with HIV who
were unsuppressed.16 Results from HPTN 071,17 also
known as PopART, were presented at the Conference on
Retroviruses and Opportunistic Infections 2019. The
study17 was designed as a communityrandomised trial
among 21 urban com munities across Zambia and South
Africa. Communities were randomly assigned to three
groups between 2013 and 2018: group A (full PopART
intervention, which was a combination prevention and
treatment intervention, and included immediate ART for
all individuals with HIV irrespective of CD4 count),
group B (PopART prevention intervention with ART per
local guidelines), and group C (standard of care).17
Incidence reductions were observed between the
prevention only (group B) and standard of care (adjusted
incidence rate ratio 0·70, 95% CI 0·55–0·88).17 However,
similar to the SEARCH study and ANRS 12249, HPTN 071
showed no reduction in incidence when comparing the
intervention group that included universal treatment
(group A) with standard of care (0·93, 0·74–1·18).17 Low
rates of linkage to care were seen across the study groups,
adding to the evidence that treatment interventions are
challenging to implement perfectly in trial settings;
challenges that would be amplified in realworld
programme settings with more restricted per person
intervention budgets than those in trials.
In 2016, the HIV Prevention Trials Network released a
statement in response to null results released by the
ANRS 12249 investigators at the International AIDS
Conference in Durban in 2016.19 Specifically, HPTN 07117
was to differ from ANRS 12249 in three important ways:
first, HPTN 071 would take place in urban communities
in which the hypothesis was that treatment as prevention
would be more effective than in the rural setting of
northern KwaZuluNatal; second, HPTN 071 would be
able to assess the full effect of the combination HIV
prevention package; and third, HPTN 071 would have
a longer followup period in which to assess the
intervention’s effect on incidence.19 That these differences
did not change the outcome is now clear with the release
of the HPTN 071 study17 results. The intervention did not
have differential effect in urban communities compared
with rural communities, and the longer followup period
and larger sample size than in ANRS 12249 did not
change HIV incidence outcomes. HPTN 07117 and
Figure 2: Numbers of new HIV infections and HIV treatment coverage in
Botswana, Rwanda, and Ethiopia 2010–17
ART=antiretroviral therapy.
2010 2011 2012 2013 2014 2015 2016 2017
0 0
5000 20
10 000
40
15 000
60
20 000
8025 000
30 000 100
N
um
be
r o
f n
ew
in
fe
ct
io
ns A
RT coverage (%
)
0 0
5000 20
10 000
40
15 000
60
20 000
8025 000
30 000 100
N
um
be
r o
f n
ew
in
fe
ct
io
ns A
RT coverage (%
)
0 0
5000 20
10 000
40
15 000
60
20 000
8025 000
30 000
Ethiopia
Rwanda
Botswana
100
N
um
be
r o
f n
ew
in
fe
ct
io
ns A
RT coverage (%
)
Year
New HIV infections
Coverage of people receiving ART
www.thelancet.com/hiv Vol 6 September 2019 e635
Viewpoint
SEARCH16 also provided insight into the potential for
HIV prevention strategies to reduce HIV incidence.
Group B of HPTN 07117 was the most effective, and
overall incidence was reduced in SEARCH16 but not more
so with universal access to ART. These data complement
results of the Ya Tsie trial20 in Botswana released in 2018.
Ya Tsie20 was a pairmatched community randomised trial
of nearly 9000 individuals from communities covering
about 10% of the population, and reported a significant
reduction in HIV incidence of at least 30% (incidence
ratio 0·65, 95% CI 0·46–0·90) associated with the
delivery of a combi nation HIV prevention and treatment
programme. The intervention included homebased
and mobile testing and linkagetocare support, with
treatment guidelines changing in both groups of the trial
over time, towards a treat all approach.20 Taken together,
these studies reinforce the fundamental usefulness
of HIV prevention in reducing populationlevel HIV
incidence.
Observational data from a range of settings provide
consistent conclusions across epidemic and income
settings. Estimates by UNAIDS for Botswana, Ethiopia,
and Rwanda show a marked increase in HIV treatment
coverage since 2010, but a plateau in new infections
(figure 2). Botswana, for example, has made substantial
improvements in treatment coverage, going from 45% of
those living with HIV on treatment in 2010 to just
over 80% as of 2017. During the same period, however,
Botswana has seen a plateau, or even a small increase in
annual new infections, from 12 000 to 14 000 (ie, 16% total
increase or about 2·7% annual increase). Although these
data focus on countries from across southern and eastern
Africa where HIV epidemics are most broadly generalised,
the same disconnect between treatment coverage and
numbers of new infections and HIV incidence have been
observed in highincome settings.21–24 In cities including
Vancouver, Sydney, and London, and across the USA and
the UK, the incidence rates have been sustained, especially
among gay men and other men who have sex with men in
the context of universal treatment policies.25–27 Where
observed, encouraging declines in HIV incidence have
been attributed to advances in HIV prevention including
preexposure prophylaxis and novel testing approaches to
address the most marginalised populations. Similar to the
experimental data, these observational data highlight the
underlying necessity of HIV prevention in decreasing
populationlevel HIV incidence.
Importance of understanding heterogeneity of
risks
Early modelling results projected the comparative
benefits of scaling up universal and early ART for
all people living with HIV.28,29 However, relying on
foundational work of epidemic theory might be
informative for estimating the potential effect of large
scale HIV treatment pro grammes moving forward.30,31
Coregroup theory posits that pre vention gaps among the
relatively few who are most at risk of acquisition and
transmission can sustain an epidemic.32,33 Implications of
this epidemic theory are two fold when considering
treatment as prevention. First, viral suppression within a
serodifferent partnership can avert an infection in a direct
partner, but also leads to indirect benefits to the partners’
partners (and any onward serial partners). These indirect
benefits stem from the way prevention among a relatively
few can protect many along a potential transmission
chain—especially if those few are at the highest risk of
acquisition and transmission.34,35 Intersecting individual
and structural determinants underlie heterogeneity in the
risks of acquisition and transmission, including through
biology (eg, greater mucosal tearing for anal vs vaginal
intercourse or differing cervical surface area exposure for
younger vs older women) or structural determinants
driving disparities in intervention uptake.36–40 This hetero
geneity can create pockets of residual trans mission that
might break a priori predictions of intervention effect.
Acquisition risks (susceptibility) and onward transmission
risks are intertwined but they are not synonymous, nor
are they static: onward transmission risk, in particular, is
dynamic over the sexual life course of individuals.41 Thus,
for an onward prevention benefit associated with HIV
treatment, the people living with HIV receiving treatment
must still be at risk for onward HIV trans mission but can
no longer transmit because they are virally suppressed.
The interventionspecific corollary to duration of time
experiencing high onward transmission risks is the
person time of viraemia before viral suppression, often
stemming from structural barriers to engagement in HIV
testing and ART initiation.42,43
Historically, most HIV transmission models of universal
test and treat in highprevalence epidemics, such as that
in South Africa, included some heterogeneity in risk
between a few groups (usually high, medium, and low).28,44
However, these early models of high prevalence settings
done before experimental treatment studies rarely
included a focus on key populations because they are a
smaller population and were assumed to be less relevant
in generalised epidemic settings.28,44,45 Thus, heterogeneity
has traditionally been collapsed within the number of risk
strata incorporated into these models. Heterogeneity has
been condensed further via assumptions about equal
reach and access of interventions among populations with
different transmission risks. For example, pretrial
modelling of the HPTN 071 study18 simulated heterosexual
HIV transmission and anticipated over 60% reduction in
HIV incidence in group A (homebased voluntary testing
and counselling with universal ART) relative to group C
(control group).44 The model included three levels of
heterogeneity drawing on the available data at the time
from demographic health surveys: low risk (on average
one partner every 10 years), medium risk (on average
one partner per year), and high risk (more than one
partner per year). Highrisk sexual prac tices were
calibrated to overall HIV prevalence in the total population,
e636 www.thelancet.com/hiv Vol 6 September 2019
Viewpoint
leading to 1·8–2·0 partners per year among a highrisk
group that comprised 18–23% of males and females.
Thus, the highrisk group subsumed the subset of women
engaged in sex work (whose number of partners in South
Africa range between four and 19 per day) and who
comprised 0·5–2·0% of the adult female population in
South Africa.36,46,47 Importantly, the intervention was also
assumed to reach each risk group equally. Although the
pretrial modelling did not include key populations, the
sensitivity analyses gave prescient insight hinting at the
importance of transmissions via sex with a subset of a
population that did not receive the intervention. In this
case, the anticipated effect of group A and group B was
reduced when the proportion of sex acts with individuals
outside the community went from 0% to 10%, and
especially when the number of partners increased in the
community as a whole after the intervention started.
Given the empirical data of sexual practices, engagement
in HIV prevention and treatment, and incidences of HIV
infections collected in the PopART study,17 modelling after
the trial of the HIV epidemic in the PopART study sites
and its interventions might provide crucial insights into
the role that heterogeneity has in explaining the absence
of populationlevel effectiveness attributable to universal
testing and treat ment alone.
Conclusion
The tools to end the HIV pandemic have existed for
several years. But in 2019, the HIV pandemic is not over
and, indeed, it is still growing and will likely do so for
many years. The populationlevel treatment as prevention
trials were well designed, well executed, and answered
key questions regarding the populationlevel prevention
benefits of universal HIV treatment. Their findings
should not be discounted, but rather, they should be
integrated into our understanding of the underlying HIV
transmission dynamics powering the HIV pandemic.
Successful application of tools to end the HIV pandemic
necessitates a thorough understanding of HIV acquisition
and onward transmission risks and effective implemen
tation to support sustained viral suppression among
people living with HIV and to prevent HIV acquisition
among those people at risk of infection. The latter is
crucial as treatment alone, as shown by both experimental
and observational data, remains necessary but insufficient
without primary prevention.
The expectation of one to one reduction in onward HIV
transmission is only applicable (or restricted) to fixed
serodifferent partnerships that are mutually monogamous
over time. Thus, U=U is additive across such partnerships
over time. If considerable heterogeneity exists in onward
transmission risks (eg, 30% of onward transmissions
stem from the unmet prevention needs of 2% of the
population) then equal distribution of treatment might
actually reinforce disparities and continue to underserve
those people at highest risk of onward HIV transmission.
The assumption challenges the usefulness of targets such
as 909090 and 959595, which were designed with
a focus on coverage of all reproductiveage results,
regardless of risk, in specific geographical areas. However,
results from the previously mentioned trials are consistent
with core epidemic theory in that, from an HIV prevention
perspective, knowledge of for whom we are providing
treatment is more relevant than for how many people.48
A model leveraging data from southern Africa supported
this perspective by showing that if those people most
likely to be left behind are also the same people who
are most at risk of onward transmission, projections
could underestimate the potential effect of achieving and
surpassing UNAIDS treatment goals.49 Implementation
strategies of HIV treatment focused on addressing those
most marginalised will have key differences compared
with programmes and resources focused only on treatment
numbers. The HIV community often considers the
implemen tation strategies for HIV treatment as treatment
and HIV treatment as prevention to be the same. However,
the disconnect between populationlevel improvements
in treatment coverage and viral sup pression and HIV
incidence suggests the need for a separate set of
considerations for treatment as prevention. In this frame,
we leverage the concept of patientcentred medicine
to suggest that maximising the prevention effect of
HIV treatment programmes to support HIV prevention
outcomes necessitates understanding the individuals that
we are trying to support in treatment in contrast to treating
them as a general population.
The three cluster randomised controlled trials
evaluating treatment as prevention that we described in
this Viewpoint are unlikely to be surpassed in size
or comprehensiveness. Integrating these experimental
data into a large body of observational data from around
the world suggest that HIV treatment is treatment,
HIV prevention is prevention, and specificity of HIV …
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ce to the vaccine. Your campaign must educate and inform the audience on the benefits but also create for safe and open dialogue. A key metric of your campaign will be the direct increase in numbers.
Key outcomes: The approach that you take must be clear
Mechanical Engineering
Organic chemistry
Geometry
nment
Topic
You will need to pick one topic for your project (5 pts)
Literature search
You will need to perform a literature search for your topic
Geophysics
you been involved with a company doing a redesign of business processes
Communication on Customer Relations. Discuss how two-way communication on social media channels impacts businesses both positively and negatively. Provide any personal examples from your experience
od pressure and hypertension via a community-wide intervention that targets the problem across the lifespan (i.e. includes all ages).
Develop a community-wide intervention to reduce elevated blood pressure and hypertension in the State of Alabama that in
in body of the report
Conclusions
References (8 References Minimum)
*** Words count = 2000 words.
*** In-Text Citations and References using Harvard style.
*** In Task section I’ve chose (Economic issues in overseas contracting)"
Electromagnetism
w or quality improvement; it was just all part of good nursing care. The goal for quality improvement is to monitor patient outcomes using statistics for comparison to standards of care for different diseases
e a 1 to 2 slide Microsoft PowerPoint presentation on the different models of case management. Include speaker notes... .....Describe three different models of case management.
visual representations of information. They can include numbers
SSAY
ame workbook for all 3 milestones. You do not need to download a new copy for Milestones 2 or 3. When you submit Milestone 3
pages):
Provide a description of an existing intervention in Canada
making the appropriate buying decisions in an ethical and professional manner.
Topic: Purchasing and Technology
You read about blockchain ledger technology. Now do some additional research out on the Internet and share your URL with the rest of the class
be aware of which features their competitors are opting to include so the product development teams can design similar or enhanced features to attract more of the market. The more unique
low (The Top Health Industry Trends to Watch in 2015) to assist you with this discussion.
https://youtu.be/fRym_jyuBc0
Next year the $2.8 trillion U.S. healthcare industry will finally begin to look and feel more like the rest of the business wo
evidence-based primary care curriculum. Throughout your nurse practitioner program
Vignette
Understanding Gender Fluidity
Providing Inclusive Quality Care
Affirming Clinical Encounters
Conclusion
References
Nurse Practitioner Knowledge
Mechanics
and word limit is unit as a guide only.
The assessment may be re-attempted on two further occasions (maximum three attempts in total). All assessments must be resubmitted 3 days within receiving your unsatisfactory grade. You must clearly indicate “Re-su
Trigonometry
Article writing
Other
5. June 29
After the components sending to the manufacturing house
1. In 1972 the Furman v. Georgia case resulted in a decision that would put action into motion. Furman was originally sentenced to death because of a murder he committed in Georgia but the court debated whether or not this was a violation of his 8th amend
One of the first conflicts that would need to be investigated would be whether the human service professional followed the responsibility to client ethical standard. While developing a relationship with client it is important to clarify that if danger or
Ethical behavior is a critical topic in the workplace because the impact of it can make or break a business
No matter which type of health care organization
With a direct sale
During the pandemic
Computers are being used to monitor the spread of outbreaks in different areas of the world and with this record
3. Furman v. Georgia is a U.S Supreme Court case that resolves around the Eighth Amendments ban on cruel and unsual punishment in death penalty cases. The Furman v. Georgia case was based on Furman being convicted of murder in Georgia. Furman was caught i
One major ethical conflict that may arise in my investigation is the Responsibility to Client in both Standard 3 and Standard 4 of the Ethical Standards for Human Service Professionals (2015). Making sure we do not disclose information without consent ev
4. Identify two examples of real world problems that you have observed in your personal
Summary & Evaluation: Reference & 188. Academic Search Ultimate
Ethics
We can mention at least one example of how the violation of ethical standards can be prevented. Many organizations promote ethical self-regulation by creating moral codes to help direct their business activities
*DDB is used for the first three years
For example
The inbound logistics for William Instrument refer to purchase components from various electronic firms. During the purchase process William need to consider the quality and price of the components. In this case
4. A U.S. Supreme Court case known as Furman v. Georgia (1972) is a landmark case that involved Eighth Amendment’s ban of unusual and cruel punishment in death penalty cases (Furman v. Georgia (1972)
With covid coming into place
In my opinion
with
Not necessarily all home buyers are the same! When you choose to work with we buy ugly houses Baltimore & nationwide USA
The ability to view ourselves from an unbiased perspective allows us to critically assess our personal strengths and weaknesses. This is an important step in the process of finding the right resources for our personal learning style. Ego and pride can be
· By Day 1 of this week
While you must form your answers to the questions below from our assigned reading material
CliftonLarsonAllen LLP (2013)
5 The family dynamic is awkward at first since the most outgoing and straight forward person in the family in Linda
Urien
The most important benefit of my statistical analysis would be the accuracy with which I interpret the data. The greatest obstacle
From a similar but larger point of view
4 In order to get the entire family to come back for another session I would suggest coming in on a day the restaurant is not open
When seeking to identify a patient’s health condition
After viewing the you tube videos on prayer
Your paper must be at least two pages in length (not counting the title and reference pages)
The word assimilate is negative to me. I believe everyone should learn about a country that they are going to live in. It doesnt mean that they have to believe that everything in America is better than where they came from. It means that they care enough
Data collection
Single Subject Chris is a social worker in a geriatric case management program located in a midsize Northeastern town. She has an MSW and is part of a team of case managers that likes to continuously improve on its practice. The team is currently using an
I would start off with Linda on repeating her options for the child and going over what she is feeling with each option. I would want to find out what she is afraid of. I would avoid asking her any “why” questions because I want her to be in the here an
Summarize the advantages and disadvantages of using an Internet site as means of collecting data for psychological research (Comp 2.1) 25.0\% Summarization of the advantages and disadvantages of using an Internet site as means of collecting data for psych
Identify the type of research used in a chosen study
Compose a 1
Optics
effect relationship becomes more difficult—as the researcher cannot enact total control of another person even in an experimental environment. Social workers serve clients in highly complex real-world environments. Clients often implement recommended inte
I think knowing more about you will allow you to be able to choose the right resources
Be 4 pages in length
soft MB-920 dumps review and documentation and high-quality listing pdf MB-920 braindumps also recommended and approved by Microsoft experts. The practical test
g
One thing you will need to do in college is learn how to find and use references. References support your ideas. College-level work must be supported by research. You are expected to do that for this paper. You will research
Elaborate on any potential confounds or ethical concerns while participating in the psychological study 20.0\% Elaboration on any potential confounds or ethical concerns while participating in the psychological study is missing. Elaboration on any potenti
3 The first thing I would do in the family’s first session is develop a genogram of the family to get an idea of all the individuals who play a major role in Linda’s life. After establishing where each member is in relation to the family
A Health in All Policies approach
Note: The requirements outlined below correspond to the grading criteria in the scoring guide. At a minimum
Chen
Read Connecting Communities and Complexity: A Case Study in Creating the Conditions for Transformational Change
Read Reflections on Cultural Humility
Read A Basic Guide to ABCD Community Organizing
Use the bolded black section and sub-section titles below to organize your paper. For each section
Losinski forwarded the article on a priority basis to Mary Scott
Losinksi wanted details on use of the ED at CGH. He asked the administrative resident