Kathinzi Christine Mutewa, Njenga Peter Kariuki, Mutai Joseph Kiplangat
Jomo Kenyatta University of Agriculture and Technology, School of Public Health, Department of Environmental Health and Disease Control, Nairobi, Kenya.
Jomo Kenyatta University of Agriculture and Technology, School of Biological Sciences, Nairobi, Kenya.
Pan Afr Med J. 2025 May 29;51:26. doi: 10.11604/pamj.2025.51.26.46991. eCollection 2025.
viral load (VL) monitoring is a critical component of HIV management, yet systemic and logistical barriers compromise the quality and reliability of VL sample management in many low- and middle-income countries. In Machakos County, Kenya, these challenges persist, contributing to a relatively low viral suppression rate of 81% and achievement of UNAIDS 95-95-95 strategy. This study determined barriers to effective VL sample management in Machakos County, Kenya, with a focus on equipment maintenance, human resource capacity, and supply chain performance across public and private facilities.
a convergent parallel mixed-methods design was employed across 71 health facilities (61 public, 10 private) served by four VL hubs: Machakos Level 5, Matuu Level 4, Athi River Level 4, and Kangundo Level 4 hospitals. Quantitative data was collected from 205 healthcare workers using structured questionnaires. Descriptive statistics, Fisher's Exact Test, and Odds Ratios (OR) with 95% Confidence Intervals (CI) assessed associations between barriers and sample management outcomes. Qualitative data was obtained through 38 key informant interviews with clinicians from Comprehensive Care Clinics and Maternal and Child Health units (public n=32, private n=6). Transcripts were thematically analyzed using Braun and Clarke's framework, and a word cloud visualized common terms. Findings were triangulated for contextual depth. Ethical approval was obtained from the Kenya Medical Research Institute- Scientific Ethics Review Unit, with clearance from the Machakos County Department of Health. Informed consent was obtained and confidentiality were strictly maintained.
among the VL hubs assessed, 88.8% reported having a designated VL focal person, and 73.2% indicated that couriers had received some form of training. Despite these structural provisions, critical technical gaps persisted. Only 6.8% of facilities had calibrated centrifuges, 2.4% conducted preventive maintenance, and 2.4% calibrated their temperature monitoring devices-pointing to widespread neglect of equipment quality assurance protocols. Further, 58.5% of facilities reported incidents of sample freezing, often attributable to inconsistent cold chain practices. These deficits were not isolated but interrelated, collectively undermining the integrity of VL sample handling. Bivariate analysis revealed statistically significant associations between effective sample management and calibrated temperature devices (OR: 3.4; 95% CI: 1.6-7.0; p = 0.01), absence of sample freezing (OR: 2.8; 95% CI: 1.3-6.2; p= 0.03), and trained couriers (OR: 1.5; 95% CI: 0.9-2.7; p= 0.06), accentuating the importance of technical reliability alongside human resource readiness. The VL hubs with preventive maintenance showed significantly higher odds of effective sample management (OR: 4.5; 95% CI: 2.0-10.1; p< 0.001). Only 5.4% of facilities reported consistent availability of VL collection materials. Qualitative insights highlighted sporadic equipment servicing, recurrent stockouts, and poor coordination between facility-level operations and county logistics.
persistent systemic barriers-such as inadequate equipment maintenance and fragmented supply chain management-undermine the effectiveness of VL sample management in Machakos County. Strengthening technical quality protocols, institutionalizing regular equipment maintenance, and enhancing supply chain coordination through the National AIDS and STI Control Program (NASCOP) and county health departments are critical to improving diagnostic reliability and advancing Kenya's HIV viral suppression targets.
病毒载量(VL)监测是艾滋病毒管理的关键组成部分,但在许多低收入和中等收入国家,系统和后勤障碍损害了VL样本管理的质量和可靠性。在肯尼亚的马查科斯县,这些挑战依然存在,导致病毒抑制率相对较低,仅为81%,未达到联合国艾滋病规划署的95-95-95战略目标。本研究确定了肯尼亚马查科斯县有效进行VL样本管理的障碍,重点关注公共和私营医疗机构的设备维护、人力资源能力以及供应链绩效。
采用收敛平行混合方法设计,对由四个VL中心(马查科斯五级医院、马图四级医院、阿西河四级医院和坎贡多四级医院)服务的71家医疗机构(61家公立,10家私立)进行研究。使用结构化问卷从205名医护人员收集定量数据。描述性统计、费舍尔精确检验以及带有95%置信区间(CI)的比值比(OR)评估了障碍与样本管理结果之间的关联。通过对综合护理诊所和妇幼保健单位的临床医生进行38次关键信息访谈获得定性数据(公立n = 32,私立n = 6)。使用布劳恩和克拉克的框架对访谈记录进行主题分析,并通过词云展示常见词汇。对研究结果进行三角互证以加深背景理解。获得了肯尼亚医学研究所科学伦理审查单位的伦理批准,并得到了马查科斯县卫生部的许可。获得了知情同意并严格保密。
在评估的VL中心中,88.8%报告有指定的VL协调人,73.2%表示快递员接受过某种形式的培训。尽管有这些结构性安排,但关键的技术差距仍然存在。只有6.8%的医疗机构有经过校准的离心机,2.4%进行预防性维护,2.4%校准其温度监测设备,这表明广泛忽视了设备质量保证协议。此外,58.5%的医疗机构报告有样本冻结事件,这通常归因于冷链操作不一致。这些缺陷并非孤立存在,而是相互关联的,共同损害了VL样本处理的完整性。双变量分析显示,有效样本管理与校准的温度设备(OR:3.4;95% CI:1.6 - 7.0;p = 0.01)、无样本冻结(OR:2.8;95% CI:1.3 - 6.2;p = 0.03)以及经过培训的快递员(OR:1.5;95% CI:0.9 - 2.7;p = 0.06)之间存在统计学上的显著关联,突出了技术可靠性和人力资源准备的重要性。进行预防性维护的VL中心有效样本管理的几率显著更高(OR:4.5;95% CI:2.0 - 10.1;p < 0.001)。只有5.4%的医疗机构报告VL采集材料始终可用。定性分析结果突出了设备维修不及时、经常缺货以及机构层面操作与县级物流之间协调不佳的问题。
持续存在的系统性障碍,如设备维护不足和供应链管理分散,损害了马查科斯县VL样本管理的有效性。通过国家艾滋病和性传播感染控制项目(NASCOP)及县卫生部门加强技术质量协议、将定期设备维护制度化以及加强供应链协调,对于提高诊断可靠性和推进肯尼亚的艾滋病毒病毒抑制目标至关重要。
