1. Acute HIV and the North Carolina STAT Project
Past, Present and Future
Peter Leone, MD
Associate Professor of Medicine
University of North Carolina
Medical Director
North Carolina HIV/STD Prevention and Care

2. B D A C 9/10/05 Develops fever, ST, fatigue Local PMD gives Z-pack
8/15/05-8/30/05
A&B: Sex 3-4x D A
10/28/05
Develops fever, ST,
oral ulcers, thrush
Antibiotics given
Requests HIV test
8/30/05
A,B,C: 3-way
Partners B&C “steady”
Sex 1-2x/wk
7/28/05
Develops HA, Fever
Went to ER, LP, labs
DX: RMSF, doxycycline given
Symptoms worsen
2 Days later admitted
HIV Ab neg
Discharge Aseptic meningitis
Possible RMSF C
10/15/05
B,C,D have 3-way
9/30/05
Develops fever, LAD,ST
Local PMD gives Z-pack

3. B D
11/15/05
HIV+
(ELISA +
WB: I) A C

4. 12/1/05
HIV+ B D
11/15/05
HIV+
(ELISA +
WB: I) A C
12/1/05
HIV+

5. B D A C 12/1/05 HIV+ 11/15/05 HIV+ (ELISA + WB: I) 12/20/05 HIV+

6. 12/1/05
HIV+ B D
11/15/05
HIV+
(ELISA +
WB: I) A
12/20/05
HIV+ C
12/1/05
HIV+
5 infections could have been avoided if acute HIV infection considered at first presentation

7. Definition of Acute HIV Infection
Time period following infection with HIV during which HIV virus can be detected in blood but antibodies to HIV are not OR
Window period when routine HIV antibody tests (EIAs) are negative but HIV virus can be detected in blood

8. Primary HIV Infection
Definition: Acute HIV infection + recent infection with HIV.
Recent Infection: patients who are positive on HIV antibody testing (EIA), but have one of the following:
A recent prior negative HIV test or
Results of detuned antibody test suggesting recent infection.

9. Couthino et al., Bulletin of Mathematical Biology 2001

10. Detecting Acute HIV Infections
Symptoms
p24 Antigen
HIV RNA
HIV Ab Tests
Weeks Since Infection

11. PCR Testing of Pooled Sera to Identify Acute HIV Infection (seronegative, PCR positive)
Source: ISSTDR, 2007 11

12. How do we pick-up Acute HIV infection if routine antibody tests are negative?

13. Acute Retroviral Syndrome
40-90% of new HIV infections are symptomatic
Signs and symptoms typically begin 1-4 weeks following the exposure
Symptoms can last from days to several weeks, but usually <14 days
Pilcher C et al. N Engl J Med 2005;352:
Kahn JO, Walker BD. N Engl J Med. 1998;339:33-39
Schacker T, et al. Ann Intern Med. 1996;125:

14. Acute HIV Incubation Periods
31 Patients Average = 14 days
Range: 5-30 days
Sources: Pilcher, JAMA 2001; Borrow, Nat Med 1997; Schacker AIM 1996; Lindback, AIDS 2001 10 8 6
Frequency 4 2 7 14 21 28
Days from Sexual Exposure to Onset of Symptoms

15. Non-specific Mononucleosis-like Signs and Symptoms
Fever
Rash
Oral ulcer
Weight loss
Loss of appetite
Headache
Fatigue
Adenopathy
Sore throat/ pharyngitis
Muscle and/or joint pain
Diarrhea
GI upset/nausea/
vomiting

16. Common Signs & Symptoms
Study of 160 patients with primary HIV infection in 3 countries
% of patients
Vanhems P et al. AIDS 2000; 14:  

17. Acute HIV and Symptoms Schacker Kinloch-de Loes NC STD
Fever 93% 87% %
Fatigue
Pharyngitis
Headache
Rash
GI Symptoms
Schacker TW, et al., AIM :257-64

18. Common Mis-diagnoses Mononucleosis Rocky Mountain Spotted Fever
Strep throat
Influenza
“Viral illness”
Secondary syphilis

19. Primary HIV Infection: Pathogenesis
Symptoms
CD4 Cell Count (cells/mm³)
Plasma HIV RNA
CD4 Cell Count
4-8 Weeks
Up to 12 Years
2-3 Years
Primary
HIV Progression
AIDS

20. How do we pick-up Acute HIV infection if patients don’t have symptoms?

21. Our approach to Screening for AHI Specimen pooling
Advantages
Seamless (almost) incorporation into HIV testing
Reduced cost
No real change in specificity
Universal application
Disadvantages
Requires large testing volume
Small loss in sensitivity
Logistics
Time to Dx and locating patient

22. STAT Testing Protocol + - + - - + EIA/ Western Blot HIV RNA testing
HIV Positive + -
F/U Testing
(Ab + HIV RNA) - +
HIV Negative
Acute HIV

23. Pooling and HIV RNA testing
A B C D E F G H I
90 individual HIV antibody negative specimens
9 intermediate pools (10 specimens)
1 master pool (90 specimens)

24. Distribution of Viral Loads in Ab Negative VCT Specimens NC Testing Data 2002-2005 (n=58)16 14 12 10 n 8 6 4 2 2 3 4 5 6 7 8
log HIV RNA cp/ml

25. Low viral load specimens16 14 12 10 n 8 6 4 2 2 3 4 5 6 7 8
log HIV RNA cp/ml

26. STAT Index Case Protocol
EIA/Ab (+) and WB (+) or
EIA/Ab (-)
RNA (+)
STAT Case
Possible acute
HIV Infection
Confirmed Acute HIV +
STAT Notification
Confirmatory
Test
HIV Antibody
and RNA Testing
EIA or Ab (+)
EIA or Ab(-)
False
RNA
Positive
Repeat
Testing
Ab -
Immediate contact
Dr. Leone
UNC ID – on call
STAT
Post-Exposure
Protocol
Contact < 72 hrs
DIS Interview
Referral to Care
STAT
Contact Protocol
Contact < 8 weeks
Contact > 8 weeks
Routine Partner
Notification
Protocol 26

27. Notification of AHI in STAT 02-05
Time to notification improved to ~11 days from the time of testing (est. ~39D into 80D hyper-infectious period)

28. Disease Intervention Specialist Team UNC/Duke Collaborative
The STAT System
State Laboratory
Laboratory Identification
Disease Intervention Specialist Team
Notification, Interviews, Confirmatory Testing, Transportation to Clinic
UNC Weekly Case-Conference
(Surveillance, Lab, DIS, UNC Evaluation Teams)
Data collection
UNC/Duke Collaborative
Free Urgent clinical evaluation
Recruitment to studies
UNC Acute HIV Program
Research Database
UNC Specimen Repository
-surveillance/research testing

29. Screening and Tracing Active Transmission (STAT) Program
From , 79 cases identified
3 not located
1 refusal for PCRS
269 partners (from 75 AHI patients) identified within an 8-week exposure window
174 (65%) named
132 (76%) located
95 (35%) anonymous

30. STAT PCRS Outcomes ( )
46% (80) Counseled & Tested

31. Why focus on Acute HIV Infection?

32. HIV Epidemic in NC
7th leading cause of death for men and women ages in 2004
Approximately 10,600 HIV-infected NC residents were unaware of their status in 2005
HIV incidence in the US and NC is stable or increasing
NC ranked 2nd in the US for the number of AIDS cases from non-metropolitan areas

33. New Patients in the UNC ID Clinic
The median CD4 count was 202 cells/mm3 for patients initiating HIV care.
Majority (68%) initiated HIV care within 1 year of their first positive HIV test.
75% met guidelines for starting HIV treatment at their first visit.
NC DHHS- HIV/STD Prevention & Care Branch

34. HIV viremia during early infection
Peak viremia: gEq/mL
HIV RNA (plasma)
Ramp-up viremia
DT = 21.5 hrs
HIV Antibody
HIV p24 Ag
p24 Ag EIA -
Viral set-point: gEq/mL
HIV MP-NAT -
1st gen
HIV ID-NAT -
2nd gen
3rd gen
“blip” viremia 11 16 22 10 20 30 40 50 60 70 80 90
100

35. Primary HIV-1 Infection
1000
800
600
400
200
Early Opportunistic Infections
CD4 Cells +
Late Opportunistic Infections 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Infection
Time in Years

36. Earlier HIV Diagnosis Allows prompt entry into care
Initiation of ART prior to CD4 decline <200 improves mortality and morbidity
Management of STIs and other illness
Short-term behavioral changes can have a large impact on HIV spread
Improve natural history of disease with treatment during acute HIV infection?

37. Public Health Benefit Acute HIV is the most infectious period
HIV RNA levels in the genital tract correspond to HIV RNA levels in the blood
Diagnosis is often missed even when patients are symptomatic with acute HIV infection

38. Plasma Viral Load and HIV Transmission Risk10 20 30
<400
400-
3500
3500-
10'000
10'000-
50'000
>50000
HIV-RNA load (cp/ml)
% partners infected
Rakai (Uganda)
453 HIV-disc. couples
11.6 % TR / year
Quinn 2000, NEJM 342:921

39. Wawer, et al, JID 2005, 191:1403

40. Viral Loads at Initial Detection Pilcher C et al
Viral Loads at Initial Detection Pilcher C et al. N Engl J Med 2005;352: 10
Median Viral Loads 9 8
209,183 7 6
Log HIV RNA cp/ml
29,347 5 4 3 2 1
Established HIV (n=66)
Acute HIV (n=21)

41. HIV transmission prob. per male-female act: fold-change relative to wk 16 (calculated after Chakraborty H, et al AIDS 2003) 16 14 12 10
Fold-change vs. wk 16 8 6
Based on our 4 2 1 2 4 8 12 16
Weeks from Testing Positive for AHI

42. Risk of Transmission 5 4 3 2 Acute Infection Asymptomatic Infection
Reflects Genital Viral Burden
(1/30-
1/200)
HIV RNA in Semen
(Log10 copies/ml) 4
(1/100-
1/1000) 3
(1/500 -
1/2000)
(1/1000 -
1/10,000) 2
Acute Infection
Asymptomatic Infection
HIV Progression
AIDS

43. Further Evidence That Primary HIV Infection Accounts for a Large Proportion of HIV Transmission
Source: ISSTDR, 2007 43

44. Public Health Benefit Identify HIV transmission networks
Allows real time prevention with index case and partners
Awareness of HIV status has been associated with decreased sexual risk behaviors

45. Lessons for Public Health
Acute HIV infection may be unexpectedly prevalent in common clinical scenarios
Immediate rather than deferred testing is key
HIV ELISA and HIV RNA
Sexual partners of acutely HIV infected individuals are at a markedly increased per-act risk of acquiring HIV

46. Lessons for Public Health
Linkage of acute HIV diagnosis with Emergent ID Consultation is paramount
Interpretation and counseling on test results
Extensive counseling of newly diagnosed patient
Facilitate linkage to care and services
Consideration of ART for interested patients
Acutely infected individuals provide public health officials with a unique opportunity to understand complex sexual networks

47. Screening and Tracing Active Transmission (STAT) Program
2003
2004
2005
2006
Total Tests (publicly-funded clinics)
107,733
118,998
128,708
140,100
Antibody positive
581
552
571
592
Antibody negative, RNA+ (acute) 22 21 15

48. November 1, 2002 – May 28, 2008 Number of True RNA Positives 108 2 22
TOTAL
2002
2003
2004
2005
2006
2007
2008
Number of True RNA Positives
108 2 22 21 15 16 11
Number of Community Index Cases
(acute and recent)
188 1 23 38 40 53 48

49. STAT Acutes by County (11/1/2002-2/1/2008)H H
Case Count 1
2 (Burke, Franklin, Pitt, Henderson, Onslow, Martin)
3 (Buncombe, New Hanover)
4 (Robeson)
8 (Cumberland)
12 (Forsythe, Guilford)
15 (Wake)
15 (Mecklenburg) H
Duke University Hospital H
UNC Hospitals 49

50. Testing Site November 2002- May 2005
Tests Ab AHI (%) % of AHI
HIV CTS , (2.9)
STD , (4.9)
FP ,
Prenatal/OB , (4.9)
Prison/Jail , (6.6)
Other , (3.9)

51. The STD/HIV Connection
Susceptibility:
Genital ulcers provide portal of HIV entry
Non-ulcerative STDs increase target cells
STD treatment has been shown to slow the spread of HIV infection (individual & community)
Infectiousness:
Presence of another STD increases amount of HIV in genital secretions
Treating STDs in PWHIV decreases
the amount of HIV they shed
how often they shed the virus

52. Potential impact of STI co-infection on detection of AHI
HIV/STI Co-Infection Event
HIV RNA +
4th gen. EIA
3rd gen. EIA
week 1
week 2
week 3
week 4 GC
Trichomoniasis
Chlamydia
Syphilis
HSV
ARS Symptoms
McCoy

53. STI Co-infections 23 clients (30%) had a concurrent STI STD Type N (%)
Men
(n=13)
Women
(n=10)
Gonorrhea 9
(39) 7
(54) 2
(20)
Trichomoniasis 5
(22)
(0)
(50)
Syphilis 4
(17)
(31)
Herpes 3
(13)
(15) 1
(10)
Chlamydia
(8)
Bacterial vaginosis -
(30)
GUD, unspecified
(4)
Other reported STD-related sx
(7)
(6)
McCoy

54. STI Co-infections by Race, Gender, and Risk Category
p = 0.03
STI Co-infection
This chart further breaks down our findings down by race, gender, and risk category.
Among MSM with acute HIV, all the co-infections occurred among non-Whites, a statistically significant difference. We didn’t have enough number to compare this for the other categories, but by frequencies along we can see that this trend held for heterosexual men. Among women, half of the non-white women were co-infected and about 2/3 of the white women.
We would expect there to be more STI co-infections among heterosexuals in our population, as they belong to a larger and more diffuse network. In addition, the prevalence of STIs among heterosexuals is likely much greater. MSM comprise a smaller network, so STIs may not spread as rapidly.
Similarly, by race, we know that in the South, non-whites are disproportionately impacted by sexually transmitted infections, and we see this in our data of new HIV infections.
MSM
Male Hetero
Female
McCoy 0-014

55. Missed Opportunities in STD Clinics
HIV testing not offered to all
Risk factors for HIV either not obtained or not recognized
HIV testing not integrated into STD services
Primary HIV Syndrome unrecognized by patients and clinicians
Diagnostic test for Acute HIV Infections is not ordered

56. NC HIV Testing in STD Clinics
HIV testing to be offered to all STD clients for each new visit regardless of when last HIV test performed
DHHS policy to offer opt-out HIV testing
2005 estimate ~52% of NC STD clinic clients tested for HIV
Wake County ( 2nd largest STD clinic in North Carolina) with ~80-85% with universal offering of HIV testing.
Wake County HIV testing increased to ~90% with opt-out approach

57. Acute HIV and North Carolina STAT57

58. Duke-UNC Acute HIV Infection Research Consortium
Research opportunities for patients with Acute and Recent HIV Infection:
“Treatment of Acute HIV Infection with Once Daily Atripla” (24 month treatment study which supplies Atripla)
“Longitudinal Assessment of Acute/Recent HIV Infection” (Adds to limited scientific knowledge currently available regarding acute/recent infection) 58

59. Duke-UNC Acute HIV Infection Research Consortium
3) “CHAVI 001: Acute HIV-1 Infection Prospective Cohort Study”
Acquire information to develop an HIV vaccine
The most relevant information may come from people with acute HIV infection and their partners 59

60. 2 7 CHAVI Index Cases by County of Residence, 6/2007-2/2008 n=18 2 1 2
Forsythe
Guilford
Durham
Halifax
Wake 1 2 2 1 U D 7 1 1 1 2
Randolph
Martin
Pitt
Key D
Duke University Hospital U
Cumberland
UNC Hospital 60

61. Other Partner Locations
CHAVI Partners By County of Residence, 6/2007-2/2008
n=58
Durham
Wake
Hertford
Bertie
Forsythe
Guilford
Granville
Northampton
Pasquotank 1 1 1 1 1 3 2 1 D U 17 1 1 1 1 9 1
Mecklenburg 1
Lee
Harnett
Craven
Martin
Scotland
Key D
Duke University Hospital U
Cumberland
UNC Hospitals
Other Partner Locations
“NC”: 3 SC: 1 GA: 2
WA: 1 Abroad: Unk: 6 61

62. Advatages to Dx and Care of AHI
1.An HIV diagnosis per se results in subsequent risk reduction
2. Initiation of HAART to reduce plasma and hence genital viral load thus reducing transmission potential
3. As we identify more undiagnosed HIV+ and more are successfully placed on HAART, transmission will shift even more to AHI
4. As frequency of HIV testing increases, we will idenitfy more AHI
5.Opportunity for short term behavior change (period of high infectivity of weeks)

63. Conclusion Make HIV testing routine
Opt-out HIV Testing for all STD clients
Screen all STD clients for AHI
Include AHI in the Differential Dx of Acute Viral Syndrome in all Sexually Active Adults

64. Conclusion AHI is a true Public Health Emergency!
AHI detection and case investigation puts identification of HIV at leading edge of transmission
Opportunity for both early diagnosis and prevention
Report all AHI cases within 24 hrs

65. laboratory

66. Given this VL distribution: Analytical vs. Clinical Sensitivity
LL, cp/ml
Ab- HIV
N=58
Se (Ab-)
All HIV
N=1437
Se (all)
1000 56
96.5
1435
99.9
3000 54
93.1
1433
99.7
5000 52
89.6
1431
99.6
10000 49
84.5
1428
99.4
Ab only
1379
95.9

67. Requirement for Analytical Sensitivity is Less Stringent than for VL Monitoring
To be recommended as part of (all) general HIV testing, a NAAT would likely need ~95% detection at viral loads the equivalent of 5,000 to 10,000 HIV RNA copies per mL
Better sensitivity required for effective analysis of pooled specimens

68. Detection of Acute HIV
Acute HIV infections (first 2-3 months) are estimated to account for as much as half of all HIV transmission (Wawer at al JID 2005)
They represent 0-10% of detectable infections presenting for HIV testing
Real-time recognition of acute infections creates opportunities for highly targeted treatment, prevention and surveillance activities

69. Detection of Acute HIV
“Detuned” assays can identify recent seroconversion, but with a 1-2 month delay from infection. These also do not identify additional cases over routine antibody tests.
Real-time diagnosis of acute HIV depends on the identification of HIV antigens (e.g., p24) or nucleic acids (NAAT) in the absence of HIV antibodies.

70. Pilcher, CD et al. JAMA 2002;288:216-221
The Gold Standard for Acute Screening is RNA Group Testing of Ab - Specimens
Ab screen - + - Ab
confirm +
NAAT
screen - +
Established
HIV Positive
Possible Acute HIV
HIV Negative
Pilcher, CD et al. JAMA 2002;288:

71. Testing to Identify Acute HIV
NAAT is highly sensitive and with pooling, may be made specific.
However, even pooled NAAT may be inefficient in high prevalence areas (>5%) and is technically demanding.
‘Fourth generation’ HIV ELISAs detect both antigen and antibody simultaneously
Easy to perform
Equipment available in most HIV laboratories

72. Window Periods for HIV Tests
Stekler J. et al CID 2007

73. Commercial Assays Comparative Timing of Detection of Acute HIV Infection
Source HPA -UK
= combined antigen-antibody
= immunometric
= Class specific antibody capture
= antiglobulin / indirect

74. Reducing time to case identification

75. Summary: Pooling vs. Individual NAAT
Pooled screening (even with ‘minipools’) makes testing possible by reducing costs and improving predictive value
More complex but more efficient for through put and cost
Single specimen NAAT screening should be reserved for situations where the pre-test likelihood of acute HIV infection is >/= 1% (e.g., suspected AHI, ?ED/urgent care screening)

76. Opportunities for New Technologies and Approaches
Need to reduce time to identification of AHI
NC median time to identification is ~9D
Fast Track can reduce time to 2-4 days
Current POC HIV tests only test for Ab
4th generation EIA can reduce time to Dx and reduce cost
Strategy may need to combine individual NAAT or discrepant POC 3rd generation EIA to identify AHI

77. Rapid Antibody Testing
The Good
Makes testing feasible in non-traditional settings
Highly effective for outreach situations (needle exchange, bathhouse testing, “street-corner” outreach)
Increases receipt of positive HIV test results
Where HIV results notification (PCRS) not in place
May increase requests for HIV testing
The Not So Good
Confidentiality
Cost 2-3x ELISA Ab tests
May defer resource allocation/personal to HIV negatives
May miss AHI
Requires Confirmation

78. Alternative Approaches
North Carolina AHI referral network
Educate community providers about AHI
Educate high risk community about AHI
Linkage of ED testing to ID clinic and local health departments…… strongly encourage partnerships . EDs will test if burden for referral to care is met.
Raise awareness of 3rd generation EIA +/ WB I as possible AHI

79. Cost-effectiveness of the STAT Program: Decision Tree Analysis
The expected savings from averting new HIV cases offset 22% of the testing costs
Overall cost per QALY of $4,345
Conclusion: the program appears to be well below the cost effectiveness threshold of $50,000 which is often used as an indicator of good public health investment opportunities in the US.
Still, cost a barrier for new programs

80. Targeting NAAT Screening by Site
Over 2 years, at 135 public testing sites in NC, 325 acute and recent infections were identified among 224,124 testing clients (66% females, 4% MSM)
Only 1/3 acute clients had HIV symptoms at testing
There were no cases in 48 of 100 counties
Targeted Screening:
If NAAT used only in HIV C&T, STD, prison, and field visit sites in counties with  1 case, 95.4% of acute cases identified testing only 54.0% of the population with NAAT
Testing only in STD clinics identified 40.1% of cases while testing 41.4% of the population.

81. Targeting is necessary; but be wary of preconceptions
It is possible to construct a targeting algorithm for NAAT testing based on knowledge of local incidence, prevalence and individual risk factors associated with having recent infection
“Detuned” test results can be used to develop NAAT targeting criteria
A priori assumptions about who to test with NAAT are likely to be incorrect (i.e., limiting testing to only “high risk” clinics, or to symptomatic clients would be counterproductive)

82. Opportunities for New Approaches
Need to reduce time to identification of AHI
NC median time to identification is ~9D
Fast Track can reduce time to 2-4 days
We are implementing Fast track to all STD clinics based on symptoms and requiring STAT clinician approval

83. Fast Track Targeted AHI Testing :
Screen all clients for HIV Ab
Target
Problem: Which symptoms (fever?)
What time period (2-4 wks)?
What duration ( >2 days)?
Symptoms at best will detect 40%
- Targeted testing
Risk based ( i.e. MSM, anal/vaginal sex in past 2 weeks,etc )
Symptoms based (Fever + for >2 days within past 4 weeks)
Site based ( prevalence 0.5% or type STD,CTS, etc.)
Need for further research to define symptom screen and develop predictive models for targeted AHI testing

84. Opportunities for New Technology
Current POC HIV tests only test for Ab
4th generation EIA can reduce time to Dx and reduce cost
Plan to do real time side by side comparison of NAAT pooling with 4th generation assay
May need to combine individual NAAT or discrepant POC 3rd generation EIA to identify AHI

85. Biology

86. Jeffrey A. Anderson, MD-PhD University of North Carolina
Determining the Genetic Linkage of HIV-1 Subtype B Transmission Pairs: Analyses of Viral env Sequences From Donor and Recipient
Jeffrey A. Anderson, MD-PhD
University of North Carolina

87. Background DONOR RECIPIENT
A genetic bottleneck occurs during mucosal transmission, resulting in a subset of viruses responsible for transmission of HIV.
DONOR
RECIPIENT

88. Background
Determining the genetic composition of the transmitted virus is critical to developing insight into disease progression, HIV pathogenesis, and candidate vaccines.
Key questions:
From the donor quasispecies, what are the properties of the specific variant(s) being transmitted?
Are genital tract secretions a separate compartment from blood plasma?

89. 3 MSM Transmission pairs from CHAVI 001: Donor vs. Recipient
# of env amplicons
blood
# of env amplicons
semen
Sampling Time
Weeks
Post-infection
ELISA WB
Stage 9 11 +
Chronic 20 22 32 2 5 -
Fiebig 1/2
Fiebig 5/6 29 25 1
174 D1
150 R1
148 D2
40 R2 22 +
Chronic 36 2 4 - NA
Fiebig 1/2
Fiebig 5/6 43 29 9 11 +
Chronic 14 22 36 2 5
6-7 -
Fiebig 1/2
Fiebig 5/6 1 28 17
135 D3
81 R3
269 86

90. Experimental design
Identify patients with acute HIV-1 infection, and sexual partners through contact tracing
After informed consent, obtain blood plasma and semen/cervicovaginal lavage
Isolate HIV-1 viral RNA from blood/semen/CVL fluid
Generate a copy of the viral DNA and amplify by PCR
Direct DNA sequence analysis to determine characteristics of HIV

91. Chromatograms from a single DNA sequence

92. Donor env blood plasma populations are heterogeneous

93. Recipient env blood plasma populations are homogeneous
22 identical sequences
33 identical sequences 3 2 3 10 2 3 R1 R2 R3

94. Phylogenetic analysis of D1/R1
Blood and semen populations are well-mixed

95. Phylogenetic analysis of D1/R1
Blood and semen populations are well-mixed
However, a subset of duplicated semen
amplicons suggests selective outgrowth * * * * * *

96. Phylogenetic analysis of D1/R1
Blood and semen populations are well-mixed
However, a subset of duplicated semen
amplicons suggests selective outgrowth
No blood amplicons were duplicated * * *
Unique
Duplicate * 42 21 11
Blood
Semen *
P < *

97. Phylogenetic analysis of D1/R1
Blood and semen populations are well-mixed
However, a subset of duplicated semen
amplicons suggests selective outgrowth
No blood amplicons were duplicated * * *
Unique
Duplicate * 42 21 11
Blood
Semen *
P <
4. R1 is clearly genetically linked to D1 semen
(99% nt identity), and did not arise from a
duplicated semen sequence *

98. Summary
Genetic linkage of 3 subtype B transmission pairs was confirmed by SGA and DNA sequence analysis.
All donor (D1-D3) populations had heterogeneous env populations, although D1 had low heterogeneity.
A single variant was transmitted to each recipient (R1-R3).
Semen populations were well-dispersed among blood populations.
Clusters of duplicated sequences in semen of D1 and D3 suggest outgrowth of specific variants.
These data suggest that semen sequences, in general, represent sequences present in blood; however, semen populations can be disrupted by selective outgrowth.
Analyses of additional transmission pairs are ongoing and will lead to a greater knowledge of:
compartmentalization of viral sequences within semen vs. blood
the specific viral variant(s) transmitted from donor to recipient
viral sequences important for HIV-1 vaccine design

99. Acknowledgments Ron Swanstrom and lab members Beatrice Hahn
Brandon Keele
Jesus Salazar
Susan Fiscus and lab
Julie Nelson
Myron Cohen
Lihua Ping
Kristen Dang and Christina Burch
CHAVI 001 Clinical Core
NC Dept. of Health and Human Services
DIS Training Program and Officers

101. North Carolina may have lower attribution of AHI on Transmission
27 individuals (12%) were in closely related (<1% divergence) clusters
Still, a 4-6 week period accounts for 10-15% of Transmission
Frost s et al. CROI 2007

102. Network Analysis: Project SNAP
Acutely/Recently infected MSM and high risk HIV-negative men recruited for in-depth ACASI interview and qualitative interview
Respondent driven sampling to derive sexual and social network (2 generations)
Better understanding of network formation, HIV/STD transmission, sex partner selection and Internet use among NC MSM

106. SPREAD THE WORD - NOT HIV
ACUTE
HIV
SYNDROME
If you have an STD, Get Tested for HIV.
Early Detection is Best!
Learn to Recognize IT. Tell a Friend.
Acute HIV is Easily Misdiagnosed.
IT CAN BE MISTAKEN FOR COMMON ILLNESSES
Common Symptoms of Acute HIV:
High Fever
Rash
Fatigue
Swollen Glands
Sore Throat
Nausea/Vomiting
Night Sweats
Symptoms usually appear about
2 weeks after exposure
What Puts You At Risk?
Unprotected Sex
Sharing Needles
The Acute HIV Program
If you suspect you may have Acute HIV, get tested at your Local Health Department or at your doctor’s office.
FREE Screening for acute HIV is done on all HIV tests done through the NC Health Departments
Screening for acute HIV can be done at your doctor’s office – ask for an HIV RNA test in addition to the standard HIV antibody test.
SPREAD THE WORD - NOT HIV

107. Conclusions
HIV antibody screening is a necessary first step in targeting prevention activities
Assays able to detect antibody-negative infections should be incorporated into current HIV screening/testing
NAAT may not be reasonable for low-risk ‘routine’ screening in well patients and low prevalence populations
Models for establishing criteria for targeting NAAT are need
4th generation EIAs may present an alternative for diagnosis of acute HIV infection and merit urgent large-scale clinical evaluations

108. Window Periods for HIV Tests
Stekler J. et al CID 2007

109. Tests to DX HIV Antibody ELISA $47 Western Blot $212 p24 Antigen $38
Individual HIV RNA PCR $218