This study examines the challenges faced by Pakistan during COVID‐19 pandemic and the policies taken by the Government of Pakistan to contain and control the spread of the pandemic. Pakistan is considered among those countries that have been severely affected by COVID‐19 due to insufficient health infrastructure. Moreover, the pandemic has affected the country socially and economically, which has slashed down GDP and overall wellbeing. However, the government has taken effective policy measures that enhanced the recovery rate of infected patients, for instance, out of 276,288 confirmed cases, 244,883 cases have been recovered. Currently, only 26,421 cases are active; it shows 88.6% recovery. Since the implementation of consistent plans, policies, and effective actions, the recovery rate has been ramping up, and infected cases have been getting down.
AbstractIntroductionFollowing HIV testing services (HTS), the World Health Organization recommends prompt linkage to prevention and treatment. Scale‐up of effective linkage strategies is essential to achieving the global 95‐95‐95 goals for maintaining low HIV incidence by 2030 and reducing HIV‐related morbidity and mortality. Whereas linkage to care including same‐day antiretroviral therapy (ART) initiation for all people with HIV is now routinely implemented in testing programmes, linkage to HIV prevention interventions including behavioural or biomedical strategies, for HIV‐negative individuals remains sub‐optimal. This review aims to evaluate effective post‐HTS linkage strategies for HIV overall, and highlight gaps specifically in linkage to prevention.MethodsUsing the five‐step Arksey and O'Malley framework, we conducted a scoping review searching existing published and grey literature. We searched PubMed, Cochrane Library, CINAHL, Web of Science and EMBASE databases for English‐language studies published between 1 January 2010 and 30 November 2023. Linkage interventions included as streamlined interventions—involving same‐day HIV testing, ART initiation and point‐of‐care CD4 cell count/viral load, case management—involving linkage coordinators developing personalized HIV care and risk reduction plans, incentives—financial and non‐financial, partner services—including contact tracing, virtual—like social media, quality improvement—like use of score cards, and peer‐based interventions. Outcomes of interest were linkage to any form of HIV prevention and/or care including ART initiation.ResultsOf 2358 articles screened, 66 research studies met the inclusion criteria. Only nine linkage to prevention studies were identified (n = 9/66, 14%)—involving pre‐exposure prophylaxis, voluntary medical male circumcision, sexually transmitted infection and cervical cancer screening. Linkage to care studies (n = 57/66, 86%) focused on streamlined interventions in the general population and on case management among key populations.DiscussionDespite a wide range of HIV prevention interventions available, there was a dearth of literature on HIV prevention programmes and on the use of messaging on treatment as prevention strategy. Linkage to care studies were comparatively numerous except those evaluating virtual interventions, incentives and quality improvement.ConclusionsThe findings give insights into linkage strategies but more understanding of how to provide these effectively for maximum prevention impact is needed.
Aflatoxins (AF) are a group of fungal toxins that contaminate foods and feeds with adverse health impact on human beings and animals. A total of sixty three (63) samples of Groundnut kernels from three (3) Agricultural zones of Sokoto State, were analysed for the presence of Aflatoxins B1 (AFB1), B2 (AFB2), G1 (AFG1) and G2 (AFG2) using High Performance Liquid Chromatography (HPLC). The Aflatoxin was detected in 82.5%, the total Aflatoxin concentration ranged between 0.9-646.0 μg/kg. All four types of AF were detected from all samples, out of the total samples analysed 38.10% contained AF levels above the Nigerian (20 μg/kg) limits for AF, while 66.7% samples had AF concentrations above the European Union maximum tolerance level of 2μg/kg for AFB1 and Total Aflatoxin(Tot AF) of 4μg/kg. The result shows that, there were significant (P > 0.05) differences between the samples analysed in the state, as regards to AFB1. The results also revealed that Groundnut kernel in the study area have high frequency of contamination (82.5%). However, awareness on danger of Aflatoxin contamination by all stakeholders is the key in effective management of the problem.Relevant quality control units must be reactivated to assess the quality of the Groundnut kernels from which other products are made.
AbstractThe reported usage of rational emotive behaviour therapy (REBT) in high performance sport is becoming more common in research literature. This research indicates that REBT is a useful and effective approach to performance psychology. However, applied professional practice reflections and insights remain sparse. The current paper brings together REBT practitioners who work predominantly in performance settings (i.e., sport) to answer three questions pertaining to their application of REBT. Practitioners were asked to respond to the following questions: (1) What do you consider to be among the main irrational beliefs that interfere with performance? (2) In your experience, which irrational beliefs impair one's ability to recover from a significant injury or major setback? (3) Can you describe the role of cognitive restructuring/change/reappraisal/disputation in applied work as it relates to performance? In the present paper, the practitioners' responses are collected and presented, following which common themes are drawn from the responses to form guidance for practitioners wishing to apply REBT in performance settings. It is hoped that the experiences of the included practitioners will be useful for those wishing to take an REBT approach to their performance psychology consultancy.
OBJECTIVES: In sub-Saharan Africa (SSA) where HIV burden is highest, access to testing, a key entry point for prevention and treatment, remains low for adolescents (aged 10-19). Access may be hampered by policies requiring parental consent for adolescents to receive HIV testing services (HTS). In 2013, the WHO recommended countries to review HTS age of consent policies. Here, we investigate country progress and policies on age of consent for HIV testing. DESIGN: Comprehensive policy review. DATA SOURCES: Policies addressing HTS were obtained through searching WHO repositories and governmental and non-governmental websites and consulting country and regional experts. ELIGIBILITY CRITERIA: HTS policies published by SSA governments before 2019 that included age of consent. DATA EXTRACTION AND SYNTHESIS: Data were extracted on HTS age of consent including exceptions based on risk and maturity. Descriptive analyses of included policies were disaggregated by Eastern and Southern Africa (ESA) and Western and Central Africa (WCA) subregions. RESULTS: Thirty-nine policies were reviewed, 38 were eligible; 19/38 (50%) permitted HTS for adolescents ≤16 years old without parental consent. Of these, six allowed HTS at ≥12 years old, two at ≥13, two at ≥14, five at ≥15 and four at ≥16. In ESA, 71% (n=15/21) allowed those of ≤16 years old to access HTS, while only 24% (n=6/25) of WCA countries allowed the same. Maturity exceptions including marriage, sexual activity, pregnancy or key population were identified in 18 policies. In 2019, 63% (n=19/30) of policies with clear age-based criteria allowed adolescents of 12-16 years old to access HIV testing without parental consent, an increase from 37% (n=14/38) in 2013. CONCLUSIONS: While many countries in SSA have revised their HTS policies, many do not specify age of consent. Revision of SSA consent to HTS policies, particularly in WCA, remains a priority to achieve the 2025 goal of 95% of people with HIV knowing their status.
OBJECTIVES: In sub-Saharan Africa (SSA) where HIV burden is highest, access to testing, a key entry point for prevention and treatment, remains low for adolescents (aged 10–19). Access may be hampered by policies requiring parental consent for adolescents to receive HIV testing services (HTS). In 2013, the WHO recommended countries to review HTS age of consent policies. Here, we investigate country progress and policies on age of consent for HIV testing. DESIGN: Comprehensive policy review. DATA SOURCES: Policies addressing HTS were obtained through searching WHO repositories and governmental and non-governmental websites and consulting country and regional experts. ELIGIBILITY CRITERIA: HTS policies published by SSA governments before 2019 that included age of consent. DATA EXTRACTION AND SYNTHESIS: Data were extracted on HTS age of consent including exceptions based on risk and maturity. Descriptive analyses of included policies were disaggregated by Eastern and Southern Africa (ESA) and Western and Central Africa (WCA) subregions. RESULTS: Thirty-nine policies were reviewed, 38 were eligible; 19/38 (50%) permitted HTS for adolescents ≤16 years old without parental consent. Of these, six allowed HTS at ≥12 years old, two at ≥13, two at ≥14, five at ≥15 and four at ≥16. In ESA, 71% (n=15/21) allowed those of ≤16 years old to access HTS, while only 24% (n=6/25) of WCA countries allowed the same. Maturity exceptions including marriage, sexual activity, pregnancy or key population were identified in 18 policies. In 2019, 63% (n=19/30) of policies with clear age-based criteria allowed adolescents of 12–16 years old to access HIV testing without parental consent, an increase from 37% (n=14/38) in 2013. CONCLUSIONS: While many countries in SSA have revised their HTS policies, many do not specify age of consent. Revision of SSA consent to HTS policies, particularly in WCA, remains a priority to achieve the 2025 goal of 95% of people with HIV knowing their status.
AbstractIntroductionSocial network‐based testing approaches (SNAs) encourage individuals ("test promoters") to motivate sexual partners and/or those in their social networks to test for HIV. We conducted a systematic review to examine the effectiveness, acceptability and cost‐effectiveness of SNA.MethodsWe searched five databases from January 2010 to May 2023, and included studies that compared SNA with non‐SNA. We used random‐effects meta‐analysis to combine effect estimates. Certainty was assessed using the GRADE approach.ResultsWe identified 47 studies. SNA may increase uptake of HIV testing compared to non‐SNA (RR 2.04, 95% CI: 1.06–3.95, Low certainty). The proportion of first‐time testers was probably higher among partners or social contacts of test promoters using SNA compared to non‐SNA (RR 1.49, 95% CI: 1.22–1.81, Moderate certainty). The proportion of people who tested positive for HIV may be higher among partners or social contacts of test promoters using SNA compared to non‐SNA (RR 1.84, 95% CI: 1.01–3.35, Low certainty). There were no reports of any adverse events or harms associated with SNA. Based on six cost‐effectiveness studies, SNA was generally cheaper per person tested and per person diagnosed compared to non‐SNA. Based on 23 qualitative studies, SNA is likely to be acceptable to a variety of populations.DiscussionOur review collated evidence for SNA to HIV testing covering the key populations and the general population who may benefit from HIV testing. We summarized evidence for the effectiveness, acceptability and cost‐effectiveness of different models of SNA. While we did not identify an ideal model of SNA that could be immediately scaled up, for each setting and population targeted, we recommend various implementation considerations as our meta‐analysis showed the effectiveness might differ due to factors which include the testing modality (i.e. use of HIV self‐testing), type of test promoters, long or short duration of recruitment and use of financial incentives.ConclusionsSocial network‐based approaches may enhance HIV testing uptake, increase the proportion of first‐time testers and those testing positive for HIV. Heterogeneity among studies highlights the need for context‐specific adaptations, but the overall positive impact of SNA on HIV testing outcomes could support its integration into existing HIV testing services.
AbstractIntroductionOf 37.7 million people living with HIV in 2020, 6.1 million still do not know their HIV status. We synthesize evidence on concurrent HIV testing among people who tested for other sexually transmitted infections (STIs).MethodsWe conducted a systematic review using five databases, HIV conferences and clinical trial registries. We included publications between 2010 and May 2021 that reported primary data on concurrent HIV/STI testing. We conducted a random‐effects meta‐analysis and meta‐regression of the pooled proportion for concurrent HIV/STI testing.ResultsWe identified 96 eligible studies. Among those, 49 studies had relevant data for a meta‐analysis. The remaining studies provided data on the acceptability, feasibility, barriers, facilitators, economic evaluation and social harms of concurrent HIV/STI testing. The pooled proportion of people tested for HIV among those attending an STI service (n = 18 studies) was 71.0% (95% confidence intervals: 61.0–80.1, I2 = 99.9%), people tested for HIV among those who were tested for STIs (n = 15) was 61.3% (53.9–68.4, I2 = 99.9%), people tested for HIV among those who were diagnosed with an STI (n = 13) was 35.3% (27.1–43.9, I2 = 99.9%) and people tested for HIV among those presenting with STI symptoms (n = 3) was 27.1% (20.5–34.3, I2 = 92.0%). The meta‐regression analysis found that heterogeneity was driven mainly by identity as a sexual and gender minority, the latest year of study, country‐income level and region of the world.DiscussionThis review found poor concurrent HIV/STI testing among those already diagnosed with an STI (35.3%) or who had symptoms with STIs (27.1%). Additionally, concurrent HIV/STI testing among those tested for STIs varied significantly according to the testing location, country income level and region of the world. A few potential reasons for these observations include differences in national STI‐related policies, lack of standard operation procedures, clinician‐level factors, poor awareness and adherence to HIV indicator condition‐guided HIV testing and stigma associated with HIV compared to other curable STIs.ConclusionsNot testing for HIV among people using STI services presents a significant missed opportunity, particularly among those diagnosed with an STI. Stronger integration of HIV and STI services is urgently needed to improve prevention, early diagnosis and linkage to care services.
AbstractIntroductionLearning one's HIV status through HIV testing services (HTS) is an essential step toward accessing treatment and linking to preventive services for those at high HIV risk. HTS may impact subsequent sexual behaviour, but the degree to which this varies by population or is true in the setting of contemporary HIV prevention activities is largely unknown. As part of the 2019 World Health Organization Consolidated Guidelines on HTS, we undertook a systematic review and meta‐analysis to determine the effect of HTS on sexual behaviour.MethodsWe searched nine electronic databases for studies published between July 2010 and December 2019. We included studies that reported on at least one outcome (condom use [defined as the frequency of condom use or condom‐protected sex], number of sex partners, HIV incidence, STI incidence/prevalence). We included studies that prospectively assessed outcomes and that fit into one of three categories: (1) those evaluating more versus less‐intensive HTS, (2) those of populations receiving HTS versus not and (3) those evaluating outcomes after versus before HTS. We conducted meta‐analyses using random‐effects models.Results and discussionOf 29 980 studies screened, 76 studies were included. Thirty‐eight studies were randomized controlled trials, 36 were cohort studies, one was quasi‐experimental and one was a serial cross‐sectional study. There was no significant difference in condom use among individuals receiving more‐intensive HTS compared to less‐intensive HTS (relative risk [RR]=1.03; 95% CI: 0.99 to 1.07). Condom use was significantly higher after receiving HTS compared to before HTS for individuals newly diagnosed with HIV (RR = 1.65; 95% CI: 1.36 to 1.99) and marginally significantly higher for individuals receiving an HIV‐negative diagnosis (RR = 1.63; 95% CI: 1.01 to 2.62). Individuals receiving more‐intensive HTS reported fewer sex partners at follow‐up than those receiving less‐intensive HTS, but the finding was not statistically significant (mean difference = −0.28; 95% CI: −3.66, 3.10).ConclusionsOur findings highlight the importance of using limited resources towards HTS strategies that focus on early HIV diagnosis, treatment and prevention services rather than resources dedicated to supplementing or enhancing HTS with additional counselling or other interventions.
