Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-30 (of 62 Records) |
Query Trace: Anand A[original query] |
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Trends in syphilis case rates among women of reproductive age - United States, 2013-2022
Anand P , Quilter LAS , Learner ER , Barbee LA , Jackson DA . Sex Transm Dis 2024 We analyzed syphilis case notifications in reproductive age women during 2013-2022. Late/unknown duration syphilis grew faster after 2020 (45.8% versus 17.9% annual growth pre-2020). Increased screening, inaccurate staging, delayed diagnosis, or increased incidence following clinical and partner services gaps during 2020 may contribute to rises in late/unknown duration cases. |
Notes from the field: Trichophyton mentagrophytes genotype VII - New York City, April-July 2024
Zucker J , Caplan AS , Gunaratne SH , Gallitano SM , Zampella JG , Otto C , Sally R , Chaturvedi S , O'Brien B , Todd GC , Anand P , Quilter LAS , Smith DJ , Chiller T , Lockhart SR , Lyman M , Pathela P , Gold JAW . MMWR Morb Mortal Wkly Rep 2024 73 (43) 985-988 |
A pan-respiratory antiviral chemotype targeting a transient host multi-protein complex
Michon M , Müller-Schiffmann A , Lingappa AF , Yu SF , Du L , Deiter F , Broce S , Mallesh S , Crabtree J , Lingappa UF , Macieik A , Müller L , Ostermann PN , Andrée M , Adams O , Schaal H , Hogan RJ , Tripp RA , Appaiah U , Anand SK , Campi TW , Ford MJ , Reed JC , Lin J , Akintunde O , Copeland K , Nichols C , Petrouski E , Moreira AR , Jiang IT , DeYarman N , Brown I , Lau S , Segal I , Goldsmith D , Hong S , Asundi V , Briggs EM , Phyo NS , Froehlich M , Onisko B , Matlack K , Dey D , Lingappa JR , Prasad DM , Kitaygorodskyy A , Solas D , Boushey H , Greenland J , Pillai S , Lo MK , Montgomery JM , Spiropoulou CF , Korth C , Selvarajah S , Paulvannan K , Lingappa VR . Open Biol 2024 14 (6) 230363 We present a novel small molecule antiviral chemotype that was identified by an unconventional cell-free protein synthesis and assembly-based phenotypic screen for modulation of viral capsid assembly. Activity of PAV-431, a representative compound from the series, has been validated against infectious viruses in multiple cell culture models for all six families of viruses causing most respiratory diseases in humans. In animals, this chemotype has been demonstrated efficacious for porcine epidemic diarrhoea virus (a coronavirus) and respiratory syncytial virus (a paramyxovirus). PAV-431 is shown to bind to the protein 14-3-3, a known allosteric modulator. However, it only appears to target the small subset of 14-3-3 which is present in a dynamic multi-protein complex whose components include proteins implicated in viral life cycles and in innate immunity. The composition of this target multi-protein complex appears to be modified upon viral infection and largely restored by PAV-431 treatment. An advanced analog, PAV-104, is shown to be selective for the virally modified target, thereby avoiding host toxicity. Our findings suggest a new paradigm for understanding, and drugging, the host-virus interface, which leads to a new clinical therapeutic strategy for treatment of respiratory viral disease. |
Potential sexual transmission of antifungal-resistant trichophyton indotineae
Spivack S , Gold JAW , Lockhart SR , Anand P , Quilter LAS , Smith DJ , Bowen B , Gould JM , Eltokhy A , Gamal A , Retuerto M , McCormick TS , Ghannoum MA . Emerg Infect Dis 2024 30 (4) 807-809 We describe a case of tinea genitalis in an immunocompetent woman in Pennsylvania, USA. Infection was caused by Trichophyton indotineae potentially acquired through sexual contact. The fungus was resistant to terbinafine (first-line antifungal) but improved with itraconazole. Clinicians should be aware of T. indotineae as a potential cause of antifungal-resistant genital lesions. |
Poliovirus type 1 systemic humoral and intestinal mucosal immunity induced by monovalent oral poliovirus vaccine, fractional inactivated poliovirus vaccine, and bivalent oral poliovirus vaccine: A randomized controlled trial
Snider CJ , Zaman K , Wilkinson AL , Binte Aziz A , Yunus M , Haque W , Jones KAV , Wei L , Estivariz CF , Konopka-Anstadt JL , Mainou BA , Patel JC , Lickness JS , Pallansch MA , Wassilak SGF , Steven Oberste M , Anand A . Vaccine 2023 41 (41) 6083-6092 BACKGROUND: To inform response strategies, we examined type 1 humoral and intestinal immunity induced by 1) one fractional inactivated poliovirus vaccine (fIPV) dose given with monovalent oral poliovirus vaccine (mOPV1), and 2) mOPV1 versus bivalent OPV (bOPV). METHODS: We conducted a randomized, controlled, open-label trial in Dhaka, Bangladesh. Healthy infants aged 5 weeks were block randomized to one of four arms: mOPV1 at age 6-10-14 weeks/fIPV at 6 weeks (A); mOPV1 at 6-10-14 weeks/fIPV at 10 weeks (B); mOPV1 at 6-10-14 weeks (C); and bOPV at 6-10-14 weeks (D). Immune response at 10 weeks and cumulative response at 14 weeks was assessed among the modified intention-to-treat population, defined as seroconversion from seronegative (<1:8 titers) to seropositive (≥1:8) or a four-fold titer rise among seropositive participants sustained to age 18 weeks. We examined virus shedding after two doses of mOPV1 with and without fIPV, and after the first mOPV1 or bOPV dose. The trial is registered at ClinicalTrials.gov (NCT03722004). FINDINGS: During 18 December 2018 - 23 November 2019, 1,192 infants were enrolled (arms A:301; B:295; C:298; D:298). Immune responses at 14 weeks did not differ after two mOPV1 doses alone (94% [95% CI: 91-97%]) versus two mOPV1 doses with fIPV at 6 weeks (96% [93-98%]) or 10 weeks (96% [93-98%]). Participants who received mOPV1 and fIPV at 10 weeks had significantly lower shedding (p < 0·001) one- and two-weeks later compared with mOPV1 alone. Response to one mOPV1 dose was significantly higher than one bOPV dose (79% versus 67%; p < 0·001) and shedding two-weeks later was significantly higher after mOPV1 (76% versus 56%; p < 0·001) indicating improved vaccine replication. Ninety-nine adverse events were reported, 29 serious including two deaths; none were attributed to study vaccines. INTERPRETATION: Given with the second mOPV1 dose, fIPV improved intestinal immunity but not humoral immunity. One mOPV1 dose induced higher humoral and intestinal immunity than bOPV. FUNDING: U.S. Centers for Disease Control and Prevention. |
Assessing the mucosal intestinal and systemic humoral immunity of sequential schedules of inactivated poliovirus vaccine and bivalent oral poliovirus vaccine for essential immunization in Bangladesh: An open-label, randomized controlled trial
Snider CJ , Zaman K , Estivariz CF , Aziz AB , Yunus M , Haque W , Hendley WS , Weldon WC , Oberste MS , Pallansch MA , Wassilak SGF , Anand A . Vaccine 2024 42 (22) 126216 In 2012, the Strategic Advisory Group of Experts on Immunization (SAGE) recommended introduction of at least one inactivated poliovirus vaccine (IPV) dose in essential immunization programs. We evaluated systemic humoral and intestinal mucosal immunity of a sequential IPV-bivalent oral poliovirus vaccine (bOPV) schedule compared with a co-administration IPV + bOPV schedule in an open-label, randomized, controlled, non-inferiority, inequality trial in Dhaka, Bangladesh. Healthy infants aged 6 weeks were randomized to either: (A) IPV and bOPV at 6 and bOPV at 10 and 14 weeks (IPV + bOPV-bOPV-bOPV); or (B) IPV at 6 and bOPV at 10 and 14 weeks (IPV-bOPV-bOPV). Of 456 participants enrolled and randomly assigned during May-August 2015, 428 (94%) were included in the modified intention-to-treat analysis (arm A: 211, arm B: 217). Humoral immune responses did not differ at 18 weeks between study arms: type 1 (98% versus 96%; p = 0.42), type 2 (37% versus 39%; p = 0.77), and type 3 (97% versus 93%; p = 0.07). Virus shedding one week after the bOPV challenge dose in arm B was non-inferior to arm A (type 1 difference = -3% [90% confidence interval: -6 - 0.4%]; type 3 difference: -3% [-6 to -0.2%]). Twenty-six adverse events including seven serious adverse events were reported among 25 participants including one death; none were attributed to study vaccines. An IPV-bOPV-bOPV sequential schedule induced comparable systemic humoral immunity to all poliovirus types and types 1 and 3 intestinal mucosal immunity as an IPV + bOPV-bOPV-bOPV co-administration schedule. |
A Pan-respiratory Antiviral Chemotype Targeting a Transient Host Multiprotein Complex (preprint)
Muller-Schiffmann A , Michon M , Lingappa AF , Yu SF , Du L , Deiter F , Broce S , Mallesh S , Crabtree J , Lingappa UF , Macieik A , Muller L , Ostermann PN , Andree M , Adams O , Schaal H , Hogan RJ , Tripp RA , Appaiah U , Anand SK , Campi TW , Ford MJ , Reed JC , Lin J , Akintunde O , Copeland K , Nichols C , Petrouski E , Moreira AR , Jiang IT , DeYarman N , Brown I , Lau S , Segal I , Goldsmith D , Hong S , Asundi V , Briggs EM , Phyo NS , Froehlich M , Onisko B , Matlack K , Dey D , Lingappa JR , Prasad MD , Kitaygorodskyy A , Solas D , Boushey H , Greenland J , Pillai S , Lo MK , Montgomery JM , Spiropoulou CF , Korth C , Selvarajah S , Paulvannan K , Lingappa VR . bioRxiv 2021 18 We present a small molecule chemotype, identified by an orthogonal drug screen, exhibiting nanomolar activity against members of all the six viral families causing most human respiratory viral disease, with a demonstrated barrier to resistance development. Antiviral activity is shown in mammalian cells, including human primary bronchial epithelial cells cultured to an air-liquid interface and infected with SARS-CoV-2. In animals, efficacy of early compounds in the lead series is shown by survival (for a coronavirus) and viral load (for a paramyxovirus). The drug target is shown to include a subset of the protein 14-3-3 within a transient host multi-protein complex containing components implicated in viral lifecycles and in innate immunity. This multi-protein complex is modified upon viral infection and largely restored by drug treatment. Our findings suggest a new clinical therapeutic strategy for early treatment upon upper respiratory viral infection to prevent progression to lower respiratory tract or systemic disease. Copyright The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under a CC-BY-NC-ND 4.0 International license. |
Immunogenicity of novel oral poliovirus vaccine type 2 administered concomitantly with bivalent oral poliovirus vaccine: an open-label, non-inferiority, randomised, controlled trial
Wilkinson AL , Zaman K , Hoque M , Estivariz CF , Burns CC , Konopka-Anstadt JL , Mainou BA , Kovacs SD , An Q , Lickness JS , Yunus M , Snider CJ , Zhang Y , Coffee E , Abid T , Wassilak SGF , Pallansch MA , Oberste MS , Vertefeuille JF , Anand A . Lancet Infect Dis 2023 23 (9) 1062-1071 BACKGROUND: Novel oral poliovirus vaccine type 2 (nOPV2) was developed by modifying the Sabin strain to increase genetic stability and reduce risk of seeding new circulating vaccine-derived poliovirus type 2 outbreaks. Bivalent oral poliovirus vaccine (bOPV; containing Sabin types 1 and 3) is the vaccine of choice for type 1 and type 3 outbreak responses. We aimed to assess immunological interference between nOPV2 and bOPV when administered concomitantly. METHODS: We conducted an open-label, non-inferiority, randomised, controlled trial at two clinical trial sites in Dhaka, Bangladesh. Healthy infants aged 6 weeks were randomly assigned (1:1:1) using block randomisation, stratified by site, to receive nOPV2 only, nOPV2 plus bOPV, or bOPV only, at the ages of 6 weeks, 10 weeks, and 14 weeks. Eligibility criteria included singleton and full term (≥37 weeks' gestation) birth and parents intending to remain in the study area for the duration of study follow-up activities. Poliovirus neutralising antibody titres were measured at the ages of 6 weeks, 10 weeks, 14 weeks, and 18 weeks. The primary outcome was cumulative immune response for all three poliovirus types at the age of 14 weeks (after two doses) and was assessed in the modified intention-to-treat population, which was restricted to participants with adequate blood specimens from all study visits. Safety was assessed in all participants who received at least one dose of study product. A non-inferiority margin of 10% was used to compare single and concomitant administration. This trial is registered with ClinicalTrials.gov, NCT04579510. FINDINGS: Between Feb 8 and Sept 26, 2021, 736 participants (244 in the nOPV2 only group, 246 in the nOPV2 plus bOPV group, and 246 in the bOPV only group) were enrolled and included in the modified intention-to-treat analysis. After two doses, 209 (86%; 95% CI 81-90) participants in the nOPV2 only group and 159 (65%; 58-70) participants in the nOPV2 plus bOPV group had a type 2 poliovirus immune response; 227 (92%; 88-95) participants in the nOPV2 plus bOPV group and 229 (93%; 89-96) participants in the bOPV only group had a type 1 response; and 216 (88%; 83-91) participants in the nOPV2 plus bOPV group and 212 (86%; 81-90) participants in the bOPV only group had a type 3 response. Co-administration was non-inferior to single administration for types 1 and 3, but not for type 2. There were 15 serious adverse events (including three deaths, one in each group, all attributable to sudden infant death syndrome); none were attributed to vaccination. INTERPRETATION: Co-administration of nOPV2 and bOPV interfered with immunogenicity for poliovirus type 2, but not for types 1 and 3. The blunted nOPV2 immunogenicity we observed would be a major drawback of using co-administration as a vaccination strategy. FUNDING: The US Centers for Disease Control and Prevention. |
Building communities of practice through case-based e-learning to prevent and manage TB among people living with HIV-India
Agarwal R , Agarwal U , Das C , Reddy RA , Pant R , Ho C , Kumar BR , Dabla V , Moonan PK , Nyendak M , Anand S , Puri AK , Mattoo SK , Sachdeva KS , Yeldandi VV , Sarin R . BMC Infect Dis 2022 22 (1) 967 BACKGROUND: Co-management of HIV-TB coinfection remains a challenge globally. Addressing TB among people living with HIV (PLHIV) is a key priority for the Government of India (GoI). In 2016, GoI implemented single-window services to prevent and manage TB in PLHIV. To strengthen HIV-TB service delivery, case-based e-learning was introduced to health care providers at Antiretroviral Therapy centres (ARTc). METHODS: We implemented a hub and spoke model to deliver biweekly, virtual, case-based e-learning at select ARTc (n=115), from four states of India-Delhi, Uttar Pradesh, Andhra Pradesh and Tamil Nadu. We evaluated feasibility and acceptability of case-based e-learning and its impact on professional satisfaction, self-efficacy, knowledge retention using baseline and completion surveys, session feedback, pre-and post-session assessments. We reviewed routine programmatic data and patient outcomes to assess practices among participating ARTc. RESULTS: Between May 2018 and September 2020, 59 sessions were conducted with mean participation of 55 spokes and 152 participants. For 95% and 88% of sessions80% of respondents agreed that topics were clear and relevant to practice, and duration of session was appropriate, respectively. Session participants significantly improved in perceived knowledge, skills and competencies (+8.6%; p=0.025), and technical knowledge (+18.3%; p=0.04) from baseline. Participating ARTc increased TB screening (+4.2%, p<0.0001), TB diagnosis (+2.7%, p<0.0001), ART initiation (+4.3%, p<0.0001) and TB preventive treatment completion (+5.2%, p<0.0001). CONCLUSION: Case-based e-learning is an acceptable and effective modus of capacity building and developing communities of practice to strengthen integrated care. E-learning could address demand for accessible and sustainable continuing professional education to manage complex diseases, and thereby enhance health equity. We recommend expansion of this initiative across the country for management of co-morbidities as well as other communicable and non-communicable diseases to augment the existing capacity building interventions by provide continued learning and routine mentorship through communities of practice. |
Therapeutic efficacies of artemether-lumefantrine and dihydroartemisinin-piperaquine for the treatment of uncomplicated Plasmodium falciparum and chloroquine and dihydroartemisinin-piperaquine for uncomplicated Plasmodium vivax infection in Ethiopia
Assefa A , Mohammed H , Anand A , Abera A , Sime H , Minta AA , Tadesse M , Tadesse Y , Girma S , Bekele W , Etana K , Alemayehu BH , Teka H , Dilu D , Haile M , Solomon H , Moriarty LF , Zhou Z , Svigel SS , Ezema B , Tasew G , Woyessa A , Hwang J , Murphy M . Malar J 2022 21 (1) 359 BACKGROUND: Routine monitoring of anti-malarial drugs is recommended for early detection of drug resistance and to inform national malaria treatment guidelines. In Ethiopia, the national treatment guidelines employ a species-specific approach. Artemether-lumefantrine (AL) and chloroquine (CQ) are the first-line schizonticidal treatments for Plasmodium falciparum and Plasmodium vivax, respectively. The National Malaria Control and Elimination Programme in Ethiopia is considering dihydroartemisinin-piperaquine (DHA/PPQ) as an alternative regimen for P. falciparum and P. vivax. METHODS: The study assessed the clinical and parasitological efficacy of AL, CQ, and DHA/PPQ in four arms. Patients over 6 months and less than 18 years of age with uncomplicated malaria mono-infection were recruited and allocated to AL against P. falciparum and CQ against P. vivax. Patients 18 years or older with uncomplicated malaria mono-infection were recruited and randomized to AL or dihydroartemisinin-piperaquine (DHA/PPQ) against P. falciparum and CQ or DHA/PPQ for P. vivax. Patients were followed up for 28 (for CQ and AL) or 42 days (for DHA/PPQ) according to the WHO recommendations. Polymerase chain reaction (PCR)-corrected and uncorrected estimates were analysed by Kaplan Meier survival analysis and per protocol methods. RESULTS: A total of 379 patients were enroled in four arms (n = 106, AL-P. falciparum; n = 75, DHA/PPQ- P. falciparum; n = 142, CQ-P. vivax; n = 56, DHA/PPQ-P. vivax). High PCR-corrected adequate clinical and parasitological response (ACPR) rates were observed at the primary end points of 28 days for AL and CQ and 42 days for DHA/PPQ. ACPR rates were 100% in AL-Pf (95% CI: 96-100), 98% in CQ-P. vivax (95% CI: 95-100) at 28 days, and 100% in the DHA/PPQ arms for both P. falciparum and P. vivax at 42 days. For secondary endpoints, by day three 99% of AL-P. falciparum patients (n = 101) cleared parasites and 100% were afebrile. For all other arms, 100% of patients cleared parasites and were afebrile by day three. No serious adverse events were reported. CONCLUSION: This study demonstrated high therapeutic efficacy for the anti-malarial drugs currently used by the malaria control programme in Ethiopia and provides information on the efficacy of DHA/PPQ for the treatment of P. falciparum and P. vivax as an alternative option. |
Co-administration of oral cholera vaccine with oral polio vaccine among Bangladeshi young children: A randomized controlled open label trial to assess interference
Islam MT , Date K , Khan AI , Bhuiyan TR , Khan ZH , Ahmed S , Hossain M , Khaton F , Zaman K , McMillan NAJ , Anand A , An Q , Zhang C , Weldon WC , Yu A , Luby S , Qadri F . Clin Infect Dis 2022 76 (2) 263-270 BACKGROUND: Cholera remains a public health threat for low- and middle-income countries, particularly in Asia and Africa. ShancholTM, an inactivated oral cholera vaccine (OCV) is currently in use globally. OCV and oral poliovirus vaccines (OPV) could be administered concomitantly but the immunogenicity and safety of coadministration among children aged 1-3 years is unknown. METHOD: We undertook an open-label, randomized, controlled, inequality trial in Dhaka city, Bangladesh. Healthy children aged 1-3 years were randomly assigned to one of the three groups: bivalent OPV (bOPV)-alone, OCV-alone, or combined bOPV+OCV and received vaccines on the day of enrollment and 28 days later. Blood samples were collected on the day of enrollment, day 28, and day 56. Serum poliovirus neutralizing antibodies and vibriocidal antibodies against V. cholerae O1 were assessed using microneutralization assays. RESULTS: A total of 579 children aged 13 years were recruited, 193 children per group. More than 90% of the children completed visits at day 56. Few adverse events following immunization were recorded and were equivalent among study arms. On day 28, 60% (90% Confidence interval, 53%-67%) and 54% (46%-61%) of participants with co-administration of bOPV+OCV responded to polioviruses type 1 and 3 respectively, compared to 55% (47%-62%) and 46% (38%-53%) in the bOPV-only group. Additionally, >50% of participants showed a 4-fold increase in vibriocidal antibody titre responses on day 28, comparable to the responses observed in OCV-only arm. CONCLUSIONS: Co-administration of bOPV and OCV is safe and effective in children aged 1-3 years and can be cost-beneficial. |
Head-to-head comparison of the immunogenicity of RotaTeq and Rotarix rotavirus vaccines and factors associated with seroresponse in infants in Bangladesh: a randomised, controlled, open-label, parallel, phase 4 trial
Velasquez-Portocarrero DE , Wang X , Cortese MM , Snider CJ , Anand A , Costantini VP , Yunus M , Aziz AB , Haque W , Parashar U , Sisay Z , Soeters HM , Hyde TB , Jiang B , Zaman K . Lancet Infect Dis 2022 22 (11) 1606-1616 BACKGROUND: A head-to-head comparison of the most widely used oral rotavirus vaccines has not previously been done, particularly in a high child mortality setting. We therefore aimed to compare the immunogenicity of RotaTeq (Merck, Kenilworth, NJ, USA) and Rotarix (GlaxoSmithKline, Rixensart, Belgium) rotavirus vaccines in the same population and examined risk factors for low seroresponse. METHODS: We did a randomised, controlled, open-label, parallel, phase 4 trial in urban slums within Mirpur and Mohakahli (Dhaka, Bangladesh). We enrolled eligible participants who were healthy infants aged 6 weeks and full-term (ie, >37 weeks' gestation). We randomly assigned participants (1:1), using block randomisation via a computer-generated electronic allocation with block sizes of 8, 16, 24, and 32, to receive either three RotaTeq vaccine doses at ages 6, 10, and 14 weeks or two Rotarix doses at ages 6 and 10 weeks without oral poliovirus vaccine. Coprimary outcomes were the rotavirus-specific IgA seroconversion in both vaccines, and the comparison of the rotavirus IgA seroconversion by salivary secretor phenotype in each vaccine arm. Seroconversion at age 18 weeks in the RotaTeq arm and age of 14 weeks in the Rotarix arm was used to compare the complete series of each vaccine. Seroconversion at age 14 weeks was used to compare two RotaTeq doses versus two Rotarix doses. Seroconversion at age 22 weeks was used to compare the immunogenicity at the same age after receiving the full vaccine series. Safety was assessed for the duration of study participation. This study is registered with ClinicalTrials.gov, NCT02847026. FINDINGS: Between Sept 1 and Dec 8, 2016, a total of 1144 infants were randomly assigned to either the RotaTeq arm (n=571) or Rotarix arm (n=573); 1080 infants (531 in the RotaTeq arm and 549 in the Rotarix arm) completed the study. Rotavirus IgA seroconversion 4 weeks after the full series occurred in 390 (73%) of 531 infants age 18 weeks in the RotaTeq arm and 354 (64%) of 549 infants age 14 weeks in the Rotarix arm (p=0·01). At age 14 weeks, 4 weeks after two doses, RotaTeq recipients had lower seroconversion than Rotarix recipients (268 [50%] of 531 vs 354 [64%] of 549; p<0·0001). However, at age 22 weeks, RotaTeq recipients had higher seroconversion than Rotarix recipients (394 [74%] of 531 vs 278 [51%] of 549; p<0·0001). Among RotaTeq recipients, seroconversion 4 weeks after the third dose was higher than after the second dose (390 [73%] of 531 vs 268 [50%] of 531; p<0·0001]. In the RotaTeq arm, rotavirus IgA seroconversion was lower in non-secretors than in secretors at ages 14 weeks (p=0·08), 18 weeks (p=0·01), and 22 weeks (p=0·02). Similarly, in the Rotarix arm, rotavirus IgA seroconversion was lower in non-secretors than in secretors at ages 14 weeks (p=0·02) and 22 weeks (p=0·01). 65 (11%) of 571 infants had adverse events in the RotaTeq arm compared with 63 (11%) of 573 infants in the Rotarix arm; no adverse events were attributed to the use of either vaccine. One death due to aspiration occurred in the RotaTeq arm, which was not related to the vaccine. INTERPRETATION: RotaTeq induced a higher magnitude and longer duration of rotavirus IgA response than Rotarix in this high child mortality setting. Additional vaccination strategies should be evaluated to overcome the suboptimal performance of current oral rotavirus vaccines in these settings. FUNDING: US Centers for Disease Control and Prevention. |
Appreciative inquiry and the co-creation of an evaluation framework for Extension for Community Healthcare Outcomes (ECHO) implementation: A two-country experience
Ghosh S , Struminger BB , Singla N , Roth BM , Kumar A , Anand S , Mtete E , Lusekelo J , Massawe I , Jarpe-Ratner E , Seweryn SM , Risley K , Moonan PK , Pinsker E . Eval Program Plann 2022 92 102067 Persistent gaps exist in healthcare workers' capacity to address HIV and tuberculosis in Asia and Africa due to constraints in resources and knowledge. Project ECHO (Extension for Community Healthcare Outcomes) leverages video-enabled technology to build workforce capacity and promote collaboration through mentorship and case-based learning. To understand current perceptions of ECHO participants and develop a comprehensive evaluation framework for ECHO implementation, we utilized modified appreciative inquiry guided focus group discussions (FGD) in India and Tanzania and called it SCORE (Strengths, Challenges, Opportunities, Results, and Evaluation). Content and thematic analysis of transcripts from FGDs and key-informant interviews triangulated perceptions of diverse stakeholders about ECHO implementation and identified key elements for development of the framework. The perceived strengths (S) were capacity building and establishing communities of practice. The perceived challenges (C) included securing resources, engaging leadership, and building systems for monitoring impact. Improved internet connectivity, addressing logistical challenges, encouraging session interactivity, and having strategic scale-up plans were perceived opportunities (O). Additionally, gathering measurable results (R) led to development of a comprehensive evaluation (E) framework. Contextualizing and facilitating SCORE with qualitative analysis of findings 6-12months post-ECHO implementation may serve as a best practice to assess mid-course corrections to improve ECHO implementation quality. |
Assessing the immunogenicity of three different inactivated polio vaccine schedules for use after oral polio vaccine cessation, an open label, phase IV, randomized controlled trial
Zaman K , Kovacs SD , Vanderende K , Aziz A , Yunus M , Khan S , Snider CJ , An Q , Estivariz CF , Oberste MS , Pallansch MA , Anand A . Vaccine 2021 39 (40) 5814-5821 BACKGROUND: After global oral poliovirus vaccine (OPV) cessation, the Strategic Advisory Group of Experts on Immunization (SAGE) currently recommends a two-dose schedule of inactivated poliovirus vaccine (IPV) beginning ≥14-weeks of age to achieve at least 90% immune response. We aimed to compare the immunogenicity of three different two-dose IPV schedules started before or at 14-weeks of age. METHODS: We conducted a randomized, controlled, open-label, inequality trial at two sites in Dhaka, Bangladesh. Healthy infants at 6-weeks of age were randomized into one of five arms to receive two-dose IPV schedules at different ages with and without OPV. The three IPV-only arms are presented: Arm C received IPV at 14-weeks and 9-months; Arm D received IPV at 6-weeks and 9-months; and Arm E received IPV at 6 and 14-weeks. The primary outcome was immune response defined as seroconversion from seronegative (<1:8) to seropositive (≥1:8) after vaccination, or a four-fold rise in antibody titers and median reciprocal antibody titers to all three poliovirus types measured at 10-months of age. FINDINGS: Of the 987 children randomized to Arms C, D, and E, 936 were included in the intention-to-treat analysis. At 10-months, participants in Arm C (IPV at 14-weeks and 9-months) had ≥99% cumulative immune response to all three poliovirus types which was significantly higher than the 77-81% observed in Arm E (IPV at 6 and 14-weeks). Participants in Arm D (IPV at 6-weeks and 9-months) had cumulative immune responses of 98-99% which was significantly higher than that of Arm E (p value < 0.0001) but not different from Arm C. INTERPRETATION: Results support current SAGE recommendations for IPV following OPV cessation and provide evidence that the schedule of two full IPV doses could begin as early as 6-weeks. |
Surveillance to Track Progress Toward Polio Eradication - Worldwide, 2019-2020.
Tuma JN , Wilkinson AL , Diop OM , Jorba J , Gardner T , Snider CJ , Anand A , Ahmed J . MMWR Morb Mortal Wkly Rep 2021 70 (18) 667-673 When the Global Polio Eradication Initiative (GPEI) was established in 1988, an estimated 350,000 poliomyelitis cases were reported worldwide. In 2020, 140 wild poliovirus (WPV) cases were confirmed, representing a 99.99% reduction since 1988. WPV type 1 transmission remains endemic in only two countries (Pakistan and Afghanistan), but outbreaks of circulating vaccine-derived poliovirus (cVDPV) occurred in 33 countries during 2019-2020 (1,2). Poliovirus transmission is detected primarily through syndromic surveillance for acute flaccid paralysis (AFP) among children aged <15 years, with confirmation by laboratory testing of stool specimens. Environmental surveillance supplements AFP surveillance and plays an increasingly important role in detecting poliovirus transmission. Within 2 weeks of COVID-19 being declared a global pandemic (3), GPEI recommended continuing surveillance activities with caution and paused all polio supplementary immunization activities (4). This report summarizes surveillance performance indicators for 2019 and 2020 in 42 priority countries at high risk for poliovirus transmission and updates previous reports (5). In 2020, 48% of priority countries* in the African Region, 90% in the Eastern Mediterranean Region, and 40% in other regions met AFP surveillance performance indicators nationally. The number of priority countries rose from 40 in 2019 to 42 in 2020.(†) Analysis of 2019-2020 AFP surveillance data from 42 countries at high risk for poliovirus transmission indicates that national and subnational nonpolio AFP rates and stool specimen adequacy declined in many priority countries, particularly in the African Region, suggesting a decline in surveillance sensitivity and quality. The findings in this report can be used to guide improvements to restore a sensitive surveillance system that can track poliovirus transmission and provide evidence of interruption of transmission. |
Impact of COVID-19 Pandemic on Global Poliovirus Surveillance.
Zomahoun DJ , Burman AL , Snider CJ , Chauvin C , Gardner T , Lickness JS , Ahmed JA , Diop O , Gerber S , Anand A . MMWR Morb Mortal Wkly Rep 2021 69 (5152) 1648-1652 On January 30, 2020, the World Health Organization (WHO) declared coronavirus disease 2019 (COVID-19) a Public Health Emergency of International Concern (1). On March 24, 2020, the Global Polio Eradication Initiative (GPEI) suspended all polio supplementary immunization activities and recommended the continuation of polio surveillance (2). In April 2020, GPEI shared revised polio surveillance guidelines in the context of the COVID-19 pandemic, which focused on reducing the risk for transmission of SARS-CoV-2, the virus that causes COVID-19, to health care workers and communities by modifying activities that required person-to-person contact, improving hand hygiene and personal protective equipment use practices, and overcoming challenges related to movement restrictions, while continuing essential polio surveillance functions (3). GPEI assessed the impact of the COVID-19 pandemic on polio surveillance by comparing data from January to September 2019 to the same period in 2020. Globally, the number of acute flaccid paralysis (AFP) cases reported declined 33% and the mean number of days between the second stool collected and receipt by the laboratory increased by 70%. Continued analysis of AFP case reporting and stool collection is critical to ensure timely detection and response to interruptions of polio surveillance. |
Chronic kidney diseases in agricultural communities: report from a workshop
Mendley SR , Levin A , Correa-Rotter R , Joubert BR , Whelan EA , Curwin B , Koritzinsky EH , Gaughan DM , Kimmel PL , Anand S , Ordunez P , Reveiz L , Rohlman DS , Scammell MK , Wright RO , Star RA . Kidney Int 2019 96 (5) 1071-1076 In June 2018, the National Institute of Diabetes and Digestive and Kidney Diseases and the National Institute of Environmental Health Sciences sponsored a workshop to identify research gaps in an increasingly common form of chronic kidney disease in agricultural communities, often termed "CKDu." The organizers invited a broad range of experts who provided diverse expertise and perspectives, many of whom had never addressed this particular epidemic. Discussion was focused around selected topics, including identifying and mitigating barriers to research in CKDu, creating a case definition, and defining common data elements. All hypotheses regarding etiology were entertained, and meeting participants discussed potential research strategies, choices in study design, and novel tools that may prove useful in this disease. Achievements of the workshop included robust cross-disciplinary discussion and preliminary planning of research goals and design. Specific challenges in implementing basic and clinical research and interventions in low- and middle-income countries were recognized. A balanced approach to leveraging local resources and capacity building without overreaching was emphasized. |
Malaria case management and elimination readiness in health facilities of five districts of Madagascar in 2018
Anand A , Favero R , Dentinger C , Ralaivaomisa A , Ramamonjisoa S , Rabozakandraina O , Razafimandimby E , Razafindrakoto J , Wolf K , Steinhardt L , Gomez P , Rabary M , Andriamananjara MN , Mioramalala SA , Rakotovao JP . Malar J 2020 19 (1) 351 BACKGROUND: Madagascar's Malaria National Strategic Plan 2018-2022 calls for progressive malaria elimination beginning in low-incidence districts (< 1 case/1000 population). Optimizing access to prompt diagnosis and quality treatment and improving outbreak detection and response will be critical to success. A malaria elimination readiness assessment (MERA) was performed in health facilities (HFs) of selected districts targeted for malaria elimination. METHODS: A mixed methods survey was performed in September 2018 in five districts of Madagascar. Randomly selected HFs were assessed for availability of malaria commodities and frequency of training and supervision conducted. Health providers (HPs) and community health volunteers (CHVs) were interviewed, and outpatient consultations at HFs were observed. To evaluate elimination readiness, a composite score ranging from 0 to 100 was designed from all study tools and addressed four domains: (1) resource availability, (2) case management (CM), (3) data management and use, and (4) training, supervision, and technical assistance; scores were calculated for each HF catchment area and district based on survey responses. Stakeholder interviews on malaria elimination planning were conducted at national, regional and district levels. RESULTS: A quarter of the 35 HFs surveyed had no rapid diagnostic tests (RDTs). Of 129 patients with reported or recorded fever among 300 consultations observed, HPs tested 56 (43%) for malaria. Three-quarters of the 35 HF managers reviewed data for trends. Only 68% of 41 HPs reported receiving malaria-specific training. Of 34 CHVs surveyed, 24% reported that treating fever was no longer among their responsibilities. Among treating CHVs, 13 (50%) reported having RDTs, and 11 (42%) had anti-malarials available. The average district elimination readiness score was 52 out of 100, ranging from 48 to 57 across districts. Stakeholders identified several challenges to commodity management, malaria CM, and epidemic response related to lack of training and funding disruptions. CONCLUSION: This evaluation highlighted gaps in malaria CM and elimination readiness in Madagascar to address during elimination planning. Strategies are needed that include training, commodity provision, supervision, and support for CHVs. The MERA can be repeated to assess progress in filling identified gaps and is a feasible tool that could be used to assess elimination targets in other countries. |
Sequential inactivated and oral poliovirus vaccine schedules: a balancing act
Zaman K , Anand A . Lancet Infect Dis 2020 20 (9) 999-1000 Inactivated poliovirus vaccine (IPV), developed by Jonas Salk and colleagues and licensed in 1955, was the first poliovirus vaccine.1 Salk IPV, a mixture of all three poliovirus types, was developed by inactivating wild polioviruses, a method that continues to be used for IPV production. Although multiple safeguards exist to prevent release of wild polioviruses from IPV production facilities, the continued use of Salk IPV poses a substantial risk for disease outbreak because of the potential for accidental release. The last case of indigenous wild poliovirus type 2 was reported in India in 1999.2 However, in 2000, and then again in 2002–03, wildtype 2 poliovirus was detected in multiple patients with acute flaccid paralysis in India.3 Genomic sequence analysis determined the type 2 poliovirus to be the MEF-1 strain, which is used for manufacturing IPV. The detection of the MEF-1 strain highlights the importance of using safer strains for IPV production, ideally those that are non-infectious to humans and stable enough to not acquire paralytic potential. |
Surveillance to track progress toward polio eradication - worldwide, 2018-2019
Lickness JS , Gardner T , Diop OM , Chavan S , Jorba J , Ahmed J , Gumede N , Johnson T , Butt O , Asghar H , Saxentoff E , Grabovac V , Avagyan T , Joshi S , Rey-Benito G , Iber J , Henderson E , Wassilak SGF , Anand A . MMWR Morb Mortal Wkly Rep 2020 69 (20) 623-629 Since the Global Polio Eradication Initiative (GPEI) was launched in 1988, the number of polio cases worldwide has declined approximately 99.99%; only two countries (Afghanistan and Pakistan) have never interrupted wild poliovirus (WPV) transmission (1). The primary means of detecting poliovirus circulation is through surveillance for acute flaccid paralysis (AFP) among children aged <15 years with testing of stool specimens for WPV and vaccine-derived polioviruses (VDPVs) (genetically reverted strains of the vaccine virus that regain neurovirulence) in World Health Organization (WHO)-accredited laboratories (2,3). In many locations, AFP surveillance is supplemented by environmental surveillance, the regular collection and testing of sewage to provide awareness of the extent and duration of poliovirus circulation (3). This report presents 2018-2019 poliovirus surveillance data, focusing on 40 priority countries* with WPV or VDPV outbreaks or at high risk for importation because of their proximity to a country with an outbreak. The number of priority countries rose from 31 in 2018 to 40 in 2019 because of a substantial increase in the number of VDPV outbreaks(dagger) (2,4). In areas with low poliovirus immunity, VDPVs can circulate in the community and cause outbreaks of paralysis; these are known as circulating vaccine derived polioviruses (cVDPVs) (4). In 2019, only 25 (63%) of the 40 designated priority countries met AFP surveillance indicators nationally; subnational surveillance performance varied widely and indicated focal weaknesses. High quality, sensitive surveillance is important to ensure timely detection and response to cVDPV and WPV transmission. |
New analytic approaches for analyzing and presenting polio surveillance data to supplement standard performance indicators
VanderEnde K , Voorman A , Khan S , Anand A , Snider CJ , Goel A , Wassilak S . Vaccine X 2020 4 100059 Background: Sensitive surveillance for acute flaccid paralysis (AFP) allows for rapid detection of polio outbreaks and provides essential evidence to support certification of the eradication of polio. However, accurately assessing the sensitivity of surveillance systems can be difficult due to limitations in the reliability of available performance indicators, including the rate of detection of non-polio AFP and the proportion of adequate stool sample collection. Recent field reviews have found evidence of surveillance gaps despite indicators meeting expected targets. Methods: We propose two simple new approaches for AFP surveillance performance indicator analysis to supplement standard indicator analysis approaches commonly used by the Global Polio Eradication Initiative (GPEI): (1) using alternative groupings of low population districts in the country (spatial binning) and (2) flagging unusual patterns in surveillance data (surveillance flags analysis). Using GPEI data, we systematically compare AFP surveillance performance using standard indicator analysis and these new approaches. Results: Applying spatial binning highlights areas meeting surveillance indicator targets that do not when analyzing performance of low population districts. Applying the surveillance flags we find several countries with unusual data patterns, in particular age groups which are not well-covered by the surveillance system, and countries with implausible rates of adequate stool specimen collection. Conclusions: Analyzing alternate groupings of administrative units is a simple method to find areas where traditional AFP surveillance indicator targets are not reliably met. For areas where AFP surveillance indicator targets are met, systematic assessment of unusual patterns ('flags') can be a useful prompt for further investigation and field review. |
Leprosy post-exposure prophylaxis with single-dose rifampicin: Toolkit for implementation
Barth-Jaeggi T , Cavaliero A , Aerts A , Anand S , Arif M , Ay SS , Aye TM , Banstola NL , Baskota R , Blaney D , Bonenberger M , Van Brakel W , Cross H , Das VK , Budiawan T , Fernando N , Gani Z , Greter H , Ignotti E , Kamara D , Kasang C , Komm B , Kumar A , Lay S , Mieras L , Mirza F , Mutayoba B , Njako B , Pakasi T , Richardus JH , Saunderson P , Smith CS , Staheli R , Suriyarachchi N , Shwe T , Tiwari A , Wijesinghe MSD , Van Berkel J , Plaetse BV , Virmond M , Steinmann P . Lepr Rev 2019 90 (4) 356-363 Objective: Leprosy post-exposure prophylaxis with single-dose rifampicin (SDRPEP) has proven effective and feasible, and is recommended by WHO since 2018. This SDR-PEP toolkit was developed through the experience of the leprosy postexposure prophylaxis (LPEP) programme. It has been designed to facilitate and standardise the implementation of contact tracing and SDR-PEP administration in regions and countries that start the intervention. Result(s): Four tools were developed, incorporating the current evidence for SDRPEP and the methods and learnings from the LPEP project in eight countries. (1) the SDR-PEP policy/advocacy PowerPoint slide deck which will help to inform policy makers about the evidence, practicalities and resources needed for SDR-PEP, (2) the SDR-PEP field implementation training PowerPoint slide deck to be used to train front line staff to implement contact tracing and PEP with SDR, (3) the SDR-PEP generic field guide which can be used as a basis to create a location specific field protocol for contact tracing and SDR-PEP serving as a reference for frontline field staff. Finally, (4) the SDR-PEP toolkit guide, summarising the different components of the toolkit and providing instructions on its optimal use. Conclusion(s): In response to interest expressed by countries to implement contact tracing and leprosy PEP with SDR in the light of the WHO recommendation of SDRPEP, this evidence-based, concrete yet flexible toolkit has been designed to serve national leprosy programme managers and support them with the practical means to translate policy into practice. The toolkit is freely accessible on the Infolep homepages and updated as required: https://www.leprosy-information.org/keytopic/leprosy-postexposure-prophylaxis-lpep-programme. |
Use of TaqMan Array card for the detection of respiratory viral pathogens in children under 5 years old hospitalised with acute medical illness in Ballabgarh, Haryana, India.
Gaur B , Saha S , Iuliano AD , Rai SK , Krishnan A , Jain S , Whitaker B , Winchell J , Lal RB , Broor S . Indian J Med Microbiol 2019 37 (1) 105-108 Historical specimens collected from hospitalized children were tested for the following 13 viruses: influenza A and B; respiratory syncytial virus (RSV); parainfluenza viruses 1-3; human metapneumovirus; rhinovirus; coronaviruses 229E, OC43, NL63 and HKU1 and Adenovirus using monoplex real-time reverse transcriptase polymerase chain reaction (rRT-PCR). They were retested using TaqMan Array Card (TAC), a micro-fluidic system, capable of simultaneous multi-pathogen testing, to evaluate its sensitivity and specificity against monoplex rRT-PCR. TAC showed high sensitivity (71%-100%) and specificity (98%-100%) for these viruses in comparison to monoplex rRT-PCR. Multi-specimen detection with high sensitivity and specificity makes TAC a potentially useful tool for both surveillance and outbreak investigations. |
Complex task to estimate immune responses to various poliovirus vaccines and vaccination schedules
Zaman K , Anand A . Lancet Infect Dis 2019 19 (10) 1043-1045 Since licensing of the first poliovirus vaccine in 1955, multiple types of live attenuated oral poliovirus vaccines (OPVs) and inactivated poliovirus vaccines (IPVs) have been tested or licensed for routine childhood vaccination schedules. IPVs have been manufactured by inactivating the three serotypes of different poliovirus seed strains, either the wild or the Sabin polioviruses, the latter of which is used for manufacturing OPVs.1 IPVs have also been used with different routes of administration and doses, and have been given at different ages. |
A mathematical model to describe survival among liver recipients from deceased donors with risk of transmitting infectious encephalitis pathogens
Smalley HK , Anand N , Buczek D , Buczek N , Lin T , Rajore T , Wacker M , Basavaraju SV , Gurbaxani BM , Hammett T , Keskinocak P , Sokol J , Kuehnert MJ . Transpl Infect Dis 2019 21 (4) e13115 BACKGROUND: Between 2002 and 2013, the organs of thirteen deceased donors with infectious encephalitis were transplanted, causing infections in 23 recipients. As a consequence, organs from donors showing symptoms of encephalitis (increased probability of infectious encephalitis (IPIE) organs) might be declined. We had previously characterized the risk of IPIE organs using data available to most transplant teams and not requiring special diagnostic tests. If the probability of infection is low, the benefits of a transplant from a donor with suspected infectious encephalitis might outweigh the risk and could be lifesaving for some transplant candidates. METHODS: Using organ transplant data and Cox Proportional Hazards models, we determined liver donor and recipient characteristics predictive of post-transplant or waitlist survival and generated 5-year survival probability curves. We also calculated expected waiting times for an organ offer based on transplant candidate characteristics. Using a limited set of actual cases of infectious encephalitis transmission via transplant, we estimated post-transplant survival curves given an organ from an IPIE donor. RESULTS: 54% (1,256) of patients registered from 2002-2006 who died or were removed from the waiting list due to deteriorated condition within 1 year could have had an at least marginal estimated benefit by accepting an IPIE liver with some probability of infection, with the odds increasing to 86% of patients if the probability of infection was low (5% or less). Additionally, 54% (1,252) were removed from the waiting list prior to their estimated waiting time for a non-IPIE liver and could have benefited from an IPIE liver. CONCLUSION: Improved allocation and utilization of IPIE livers could be achieved by evaluating the patient-specific trade-offs between (i) accepting an IPIE liver and (ii) remaining on the waitlist and accepting a non-IPIE liver after the estimated waiting time. This article is protected by copyright. All rights reserved. |
Immunogenicity of full and fractional dose of inactivated poliovirus vaccine for use in routine immunisation and outbreak response: an open-label, randomised controlled trial
Snider CJ , Zaman K , Estivariz CF , Yunus M , Weldon WC , Wannemuehler KA , Oberste MS , Pallansch MA , Wassilak SG , Bari TIA , Anand A . Lancet 2019 393 (10191) 2624-2634 BACKGROUND: Intradermal administration of fractional inactivated poliovirus vaccine (fIPV) is a dose-sparing alternative to the intramuscular full dose. We aimed to compare the immunogenicity of two fIPV doses versus one IPV dose for routine immunisation, and also assessed the immunogenicity of an fIPV booster dose for an outbreak response. METHODS: We did an open-label, randomised, controlled, inequality, non-inferiority trial in two clinics in Dhaka, Bangladesh. Healthy infants were randomly assigned at 6 weeks to one of four groups: group A received IPV at age 14 weeks and IPV booster at age 22 weeks; group B received IPV at age 14 weeks and fIPV booster at age 22 weeks; group C received IPV at age 6 weeks and fIPV booster at age 22 weeks; and group D received fIPV at 6 weeks and 14 weeks and fIPV booster at age 22 weeks. IPV was administered by needle-syringe as an intramuscular full dose (0.5 mL), and fIPV was administered intradermally (0.1 mL of the IPV formulation was administered using the 0.1 mL HelmJect auto-disable syringe with a Helms intradermal adapter). Both IPV and fIPV were administered on the outer, upper right thigh of infants. The primary outcome was vaccine response to poliovirus types 1, 2, and 3 at age 22 weeks (routine immunisation) and age 26 weeks (outbreak response). Vaccine response was defined as seroconversion from seronegative (<1:8) at baseline to seropositive (>/=1:8) or four-fold increase in reciprocal antibody titres adjusted for maternal antibody decay and was assessed in the modified intention-to-treat population (infants who received polio vaccines per group assignment and polio antibody titre results to serotypes 1, 2, and 3 at 6, 22, 23, and 26 weeks of age). The non-inferiority margin was 12.5%. This trial is registered with ClinicalTrials.gov, number NCT02847026. FINDINGS: Between Sept 1, 2016 and May 2, 2017, 1076 participants were randomly assigned and included in the modified intention-to-treat analysis: 271 in Group A, 267 in group B, 268 in group C, and 270 in group D. Vaccine response at 22 weeks to two doses of fIPV (group D) was significantly higher (p<0.0001) than to one dose of IPV (groups A and B) for all three poliovirus serotypes: the type 1 response comprised 212 (79% [95% CI 73-83]) versus 305 (57% [53-61]) participants, the type 2 response comprised 173 (64% [58-70]) versus 249 (46% [42-51]) participants, and the type 3 response comprised 196 (73% [67-78]) versus 196 (36% [33-41]) participants. At 26 weeks, the fIPV booster was non-inferior to IPV (group B vs group A) for serotype 1 (-1.12% [90% CI -2.18 to -0.06]), serotype 2 (0.40%, [-2.22 to 1.42]), and serotype 3 (1.51% [-3.23 to -0.21]). Of 129 adverse events, 21 were classified as serious including one death; none were attributed to IPV or fIPV. INTERPRETATION: fIPV appears to be an effective dose-sparing strategy for routine immunisation and outbreak responses. FUNDING: US Centers for Disease Control and Prevention. |
Notes from the field: Circulating vaccine-derived poliovirus type 1 and outbreak response - Papua New Guinea, 2018
Bauri M , Wilkinson AL , Ropa B , Feldon K , Snider CJ , Anand A , Tallis G , Boualam L , Grabovac V , Avagyan T , Reza MS , Mekonnen D , Zhang Z , Thorley BR , Shimizu H , Apostol LNG , Takashima Y . MMWR Morb Mortal Wkly Rep 2019 68 (5) 119-120 The last poliomyelitis cases reported in Papua New Guinea occurred in 1996. Papua New Guinea is one of 37 countries (or areas) of the World Health Organization Western Pacific Region that were certified free of indigenous wild poliovirus in 2000. On June 22, 2018, the National Department of Health confirmed an outbreak of poliomyelitis caused by circulating vaccine-derived poliovirus type 1 (cVDPV1) following isolation of genetically linked virus from a patient with paralysis and nonhousehold community contacts. The index patient was a boy aged 6 years from Lae, Morobe Province, with onset of paralysis on April 25 and history of having received 2 doses of Sabin oral poliovirus vaccine (OPV).* Genetic characterization of the isolate identified 14 nucleotide differences from the Sabin 1 strain in the VP1 coding region, suggesting circulation for >1 year. As of February 4, 2019, a total of 26 confirmed cases had been identified in nine of 22 provinces, including 19 in children aged <5 years, six in patients aged 5–14 years, and one in a patient aged 17 years. The most recent case onset was October 18, 2018 (Figure). Eighteen (69%) cases were linked to areas with large transient populations, including those near mines or plantations. |
Investigation of a case of suspected transfusion-transmitted malaria
Anand A , Mace KE , Townsend RL , Madison-Antenucci S , Grimm KE , Espina N , Losco P , Lucchi NW , Rivera H , Breen K , Tan KR , Arguin PM , White JL , Stramer SL . Transfusion 2018 58 (9) 2115-2121 BACKGROUND: Transfusion-transmitted malaria (TTM) is a rare occurrence with serious consequences for the recipient. A case study is presented as an example of best practices for conducting a TTM investigation. CASE REPORT: A 15-year-old male with a history of sickle cell disease developed fever after a blood transfusion. He was diagnosed with Plasmodium falciparum malaria and was successfully treated. The American Red Cross, New York State Department of Health, and the Centers for Disease Control and Prevention investigated the eight donors who provided components to the transfusion. The investigation to identify a malaria-positive donor included trace back of donors, serologic methods to identify donor(s) with a history of malaria exposure, polymerase chain reaction (PCR) testing, microsatellite analysis to identify the parasite in a donor and match its genotype to the parasite in the recipient, and reinterview of all donors to clarify malaria risk factors. RESULTS: One donor had evidence of infection with P. falciparum by PCR, elevated antibody titers, and previously undisclosed malaria risk factors. Reinterview revealed that the donor immigrated to the United States from Togo just short of 3 years before the blood donation. The donor was treated for asymptomatic low parasitemia infection. CONCLUSION: This investigation used standard procedures for investigating TTM but also demonstrated the importance of applying sensitive laboratory techniques to identify the infected donor, especially a donor with asymptomatic infection with low parasitemia. Repeat interview of all donors identified as having contributed to the transfused component provides complementary epidemiologic information to confirm the infected donor. |
The Leprosy Post-Exposure Prophylaxis (LPEP) programme: Update and interim analysis
Steinmann P , Cavaliero A , Aerts A , Anand S , Arif M , Ay SS , Aye TM , Barth-Jaeggi T , Banstola NL , Bhandari CM , Blaney D , Bonenberger M , Van Brakel W , Cross H , Das VK , Fahrudda A , Fernando N , Gani Z , Greter H , Ignotti E , Kamara D , Kasang C , Kömm B , Kumar A , Lay S , Mieras L , Mirza F , Mutayoba B , Njako B , Pakasi T , Saunderson P , Shengelia B , Smith CS , Stäheli R , Suriyarachchi N , Shwe T , Tiwari A , D Wijesinghe MS , Van Berkel J , Plaetse BV , Virmond M , Richardus JH . Lepr Rev 2018 89 (2) 102-116 Innovative approaches are required to further enhance leprosy control, reduce the number of people developing leprosy, and curb transmission. Early case detection, contact screening, and chemoprophylaxis currently is the most promising approach to achieve this goal. The Leprosy Post-Exposure Prophylaxis (LPEP) programme generates evidence on the feasibility of integrating contact tracing and single-dose rifampicin (SDR) administration into routine leprosy control activities in different settings. The LPEP programme is implemented within the leprosy control programmes of Brazil, Cambodia, India, Indonesia, Myanmar, Nepal, Sri Lanka and Tanzania. Focus is on three key interventions: tracing the contacts of newly diagnosed leprosy patients; screening the contacts for leprosy; and administering SDR to eligible contacts. Country-specific protocol adaptations refer to contact definition, minimal age for SDR, and staff involved. Central coordination, detailed documentation and rigorous supervision ensure quality evidence. Around 2 years of field work had been completed in seven countries by July 2017. The 5,941 enrolled index patients (89·4% of the registered) identified a total of 123,311 contacts, of which 99·1% were traced and screened. Among them, 406 new leprosy patients were identified (329/100,000), and 10,883 (8·9%) were excluded from SDR for various reasons. Also, 785 contacts (0·7%) refused the prophylactic treatment with SDR. Overall, SDR was administered to 89·0% of the listed contacts. Post-exposure prophylaxis with SDR is safe; can be integrated into the routines of different leprosy control programmes; and is generally well accepted by index patients, their contacts and the health workforce. The programme has also invigorated local leprosy control. |
Building on the HIV chronic care platform to address noncommunicable diseases in sub-Saharan Africa: a research agenda
Vorkoper S , Kupfer LE , Anand N , Patel P , Beecroft B , Tierney WM , Ferris R , El-Sadr WM . AIDS 2018 32 Suppl 1 S107-s113 OBJECTIVE: The remarkable progress made in confronting the global HIV epidemic offers a unique opportunity to address the increasing threat of noncommunicable diseases (NCDs). However, questions remain about how to enhance the HIV platforms to deliver integrated HIV and NCD care to people living with HIV (PLHIV) in sub-Saharan Africa (SSA). We aimed to develop a priority research agenda to advance this effort. METHODS: Researchers, policymakers, and implementers from the United States and SSA conducted three scoping reviews on HIV/NCD prevention and care focused on clinical, health system, and community levels. Based on the review findings and expert inputs, we conducted iterative consensus-development activities to generate a prioritized research agenda. RESULTS: Population-level data on NCD prevalence among PLHIV in SSA are sparse. The review identified NCD screening and management approaches that could be integrated into HIV programs in SSA. However, few studies focused on the effectiveness, cost, and best practices for integrated chronic care platforms, making it difficult to derive policy recommendations. To address these gaps, we propose a prioritized research agenda focused on developing evidence-based service delivery models, increasing human capacity through workforce education, generating data through informatics platforms and research, managing the medication supply chain, developing new financing and sustainability models, advancing research-informed policy, and addressing other crosscutting health system issues. CONCLUSION: Based on collaborative, interdisciplinary efforts, a research agenda was developed to provide guidance that advances efforts to adapt the current health system to deliver integrated chronic care for PLHIV and the population at large. |
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