Quality assessment and evaluation of interventions

The criteria developed by Alonso et al. (Reference Alonso, Dohoo, Lindahl, Verdugo, Akuku and Grace2016a) (Annex 1) was used to assess the quality of the reviewed publications (n = 56; 34 in Africa, 21 in Asia, and one from multiple continents). Sixty-eight percent and 71% of the papers were judged as acceptable, for the Africa-based and Asia-based publications, respectively, which is in the range of acceptable publications (as reported by Alonso et al., Reference Alonso, Dohoo, Lindahl, Verdugo, Akuku and Grace2016a). A total of 17 publications were of unacceptable quality, on the basis of either study designs or approaches that were inadequately described, or writing that was too poor to follow and understand, or conclusions that were unsubstantiated, which made data extraction moot. We did not assess the quality of reviewed abstracts (n = 14) although there were indications that some of the abstracts were of poor quality. In one case, the abstract was found to be too unspecific to even determine if the study was original or a review. The eight additionally added publications (described later) were all judged to have good quality.

For the evaluations, we sought to understand if these had been planned while designing the intervention, and if the activity was implemented by the group that had implemented the intervention. Evaluation was considered in advance (or was judged to have been planned based on the methodology presented) in 51 of the reports representing 73% (n = 70) of publications found using the protocol. In seven studies, the evaluation seemed not to have been planned for at the start of the intervention. In some cases, a separate group of researchers was involved in the project evaluation exercise; in others, the implementers also evaluated the intervention. It was often difficult to determine how long interventions lasted (i.e. time from start to end); we were not able to determine this in 12 of the studies. Randomized controlled trial (RCT) was not an inclusion criteria, so studies with control groups and those presenting before-and-after comparisons were included. However, in most cases, it was difficult to determine if a comparison group for the intervention existed. Surprisingly, 30 studies provided no comparison group, raising questions on what the authors had relied on to determine the significance of any change. In yet another case, authors presented results of a comparison between two different interventions, but no control group was provided, again raising concerns on how these two performed when compared to a control.

Impact was assessed either using ‘before-and-after’ data (in 27 out of 70 publications) or using mid-term data (as observed in two publications). There was a mention of randomness in 18 of the publications reviewed; however, it was not always clear at what level in the study these had been implemented (if in the selection of participants for surveys, and if it applied to all samplings in the study, or if it meant the actual random assignment to the intervention or the control groups, and if individual, or clustered assignment). Only one publication considered the effects of other interventions in both the analyses and interpretation of the findings.

Addition of selected publications

After the screening process was over, we realized important publications had not been identified and this prompted us to deviate from the protocol to manually add these. Eight publications were added after the review process. These studies, according to the authors, represented a high quality of evaluation, and relied on RCT design to assess effects arising from the interventions. These had not been detected in spite of the search syntax including the word ‘trial’. Six of the publications were from studies conducted in Africa, one in Asia, and one in multiple countries across the three regions. The eight studies focused on cattle (2), pigs or pork (2), equids (1), poultry (1), and both cattle and small ruminants (2). Thus, in total, 15 studies, including the seven from the search component, used an RCT design which allowed the researchers to draw causal inferences, supporting the claim that the intervention actually caused the reported outcomes.

Reference Olney, Bliznashka, Pedehombga, Dillon, Ruel and HeckertOlney et al. study: improving childhood nutrition

The study by Olney et al. (Reference Olney, Bliznashka, Pedehombga, Dillon, Ruel and Heckert2016) was implemented in Burkina Faso, involved women and aimed to improve their nutrition. The authors describe a large, well-designed, cluster-randomized trial of a 2-year intervention covering both agriculture and nutrition. Weaknesses were found in the manner in which data were analyzed and the way the results were presented, specifically: a failure to clearly report primary and secondary outcomes; making causal claims for secondary outcomes; multiple primary and secondary outcomes without adjusting significance levels for multiple comparisons; limited discussion of clinical significance; and making causal claims for sub-group analyses. Nonetheless, the study suggests, but does not demonstrate, that an integrated livestock-based intervention can have benefits on child and maternal health. Interestingly, another paper from the same study was not retrieved by our search syntax (Olney et al., Reference Olney, Pedehombga, Ruel and Dillon2015), likely because poultry was only a minor part of the intervention and was not mentioned in the title, keywords, or abstract; however, both papers are discussed here.

Reference Saenger, Torero and QaimSaenger et al. study: impact of milk quality information on behavior of dairy farmers

The authors evaluated the behavioral impact of sharing milk quality information with dairy farmers (Saenger et al., Reference Saenger, Torero and Qaim2014). As milk companies pay farmers based on the quality of milk, there is an incentive for them to under-report quality and therefore under-pay farmers. By introducing vouchers for third-party quality measurement, the company's credibility with dairy farmers was improved. However, <10% of farmers opted for this information, although it was easy, cheap, and credible. Treatment farmers (who received information on milk quality) fed their animals more concentrates than control farmers; output also increased (when milk collection center was controlled for in the analyses). Primary and secondary outcomes were not specified. Overall costs were also not specified. By linking farmers to third-party quality checkers, under-reporting of milk quality was ruled out and farmers were able to allocate their resources more efficiently leading to higher outputs (and better incomes). The extent and uptake of the benefits were difficult to evaluate from the paper.

Four studies had a primary focus on livestock disease control (although one also evaluated income and livestock product consumption).

Reference Henning, Morton, Pym, Hla and MeersHenning et al. study: Newcastle disease (ND) vaccination and improved chick management

A large RCT on village chickens in Myanmar compared ND vaccination and improved chick management with a control (Henning et al., Reference Henning, Morton, Pym, Hla and Meers2009). The management changes included confined rearing of chicks with the hen under locally-designed coops combined with supplementary feeding with a creep feeder. A nested trial compared serological titers to ND in vaccinated and non-vaccinated birds. The first trial had seven outcomes, and primary and secondary outcomes were not specified. Vaccination against ND did not decrease crude mortality: however, overall infection pressure from ND was found to be low. Management changes lowered mortality, more birds were sold, and an income increase of $US2.50 per month was observed. More households reported hatching chicks, and after a lag period of 7 months, they were also more likely to consume home-produced birds. External validity was addressed. Although multiple comparisons may be problematic, this study provides good evidence that chicken management leads to better animal health and livelihood outcomes.

Reference Crane, Khallaayoune, Scantlebury and ChristleyCrane et al. study: the effect of an anthelmintic program for working equids

A relatively large RCT was conducted on working equids in Morocco (Crane et al., Reference Crane, Khallaayoune, Scantlebury and Christley2011). The study was characterized by a large loss to follow-up. The intervention was an antihelmintic treatment program involving the use of ivermectin and fenbendazole. Primary and secondary outcomes were not specified but it appears the major hypothesized effect was increased body weight in the dewormed horses. Although the observed differences in body weight were not significant, a significant effect on body condition score was reported. At the early stages of the study, the treatment group was perceived to have an improved health status, increased ability of the horses to work, and reduced pruritus. There was no adjustment for multiple comparisons. Fecal egg count was numerically lower also in the untreated controls compared to other studies, which could have affected the ability to find effects. This study provides no conclusive evidence that deworming can lead to better health outcomes in equids.

Reference Madsen, Thien, Nga, Clausen, Dalsgaard and MurrellMadsen et al. study: control of fish-borne trematodes

A small, 2-year RCT was conducted on fish farms in Vietnam to control fish-borne zoonotic trematodes (Madsen et al., Reference Madsen, Thien, Nga, Clausen, Dalsgaard and Murrell2015). The intervention included reducing egg contamination through the treatment of people and domestic animals, mud removal to reduce snail density, and reduction of infection in the juvenile striped catfish and giant gourami. Primary outcomes were stated and not excessive in number (i.e. infection status of fish and intensity of infection). Information was not provided on the costs or the amount of help given to the 14 intervention farmers. Although trematode infection in juvenile fish was reduced, levels in adult fish, human exposure, or prevalence were not assessed. This study provides good evidence that intensive disease control measures can reduce zoonotic disease in fish but gives no evidence on the feasibility or human health impacts of these measures.

Reference Omore, McDermott, Arimi and KyuleOmore et al. study: mastitis control strategies

A moderate-sized RCT conducted in smallholder dairy farms in Kenya compared three mastitis control strategies: (a) improved udder hygiene; (b) treatment of subclinical cases; and (c) a combination of the two (Omore et al., Reference Omore, McDermott, Arimi and Kyule1999). Primary and secondary outcomes were not stated. Six different indicators of mastitis were assessed and two different methods of comparison were used. In one model, there was an 18% decrease in environmental pathogens under treatment c, but no adjustment was made for multiple comparisons. Information was given on the cost of strategies. This study provides no evidence that mastitis control leads to better health in animals or yields economic benefits in smallholder systems.

Our search strategy failed to detect eight RCTs, four focused on disease control, two on livestock production, and two on knowledge transfer. One of the report authors was a member of the research team in three of these studies.

Reference Bett, Randolph, Irungu, Nyamwaro, Kitala, Gathuma, Grace, Vale, Hargrove and McDermottBett et al. study: impact of tsetse repellant technology

A large, cluster-randomized trial among cattle owners in Kenya assessed the impact of a tsetse repellant technology on reduction in trypanosomosis (Bett et al., Reference Bett, Randolph, Irungu, Nyamwaro, Kitala, Gathuma, Grace, Vale, Hargrove and McDermott2010). One primary outcome was clearly stated. Unusually, the paper addressed the attractiveness of intervention to end-users and not just effectiveness. A reduction of at least 50% was considered as the threshold that would make the technology a viable alternative to other options, but only 18% was achieved. This was attributed to the fragility of the technology and greater susceptibility of cattle under field conditions compared to earlier station experiments. This study is good evidence that a novel technology, such as this tsetse repellant, does not substantially reduce trypanosomosis.

Reference Grace, Jost, Macgregor-Skinner and MarinerGrace et al. study: impacts of rational drug use information

This large, cluster-randomized control trial among smallholder farmers in Mali assessed the impact of rational drug use information (Grace et al., Reference Grace, Randolph, Diall and Clausen2008b). Primary outcomes were specified, and included improvement in farmer knowledge of trypanosomosis treatment at 2 weeks and 5 months, successful treatment of sick animals by farmers and improvement in herd hematocrit levels at 5 months. Improvements were significant but modest to moderate for the first two outcomes (i.e. change in knowledge and animal treatment). Ten secondary outcomes were also assessed, of which two were significantly better in the intervention group. Adjustment for multiple outcomes was not done. External validity was addressed. Costs of the intervention were not given, but it was designed to be low cost, as information could be bundled with drug treatments. This study provides good evidence that providing information to farmers can improve their knowledge, practice, and health outcomes in their cattle.

Reference Njenga, Njagi, Thumbi, Kahariri, Githinji, Omondi, Baden, Murithi, Paweska, Ithondeka, Ngeiywa, Dungu, Donadeu and MunyuaNjenga et al. study: immunogenicity and safety of a new Rift Valley fever (RVF) vaccine

A moderate-sized RCT was conducted on commercial farms in Kenya, to assess the immunogenicity and safety of a new RVF vaccine (Njenga et al., Reference Njenga, Njagi, Thumbi, Kahariri, Githinji, Omondi, Baden, Murithi, Paweska, Ithondeka, Ngeiywa, Dungu, Donadeu and Munyua2015). This was in response to concerns over the only existing commercial vaccine. The outcomes were clearly stated. The results show the new vaccine is safe to use and has high (>90%) immunogenicity in sheep and goats but moderate (>65%) immunogenicity in cattle. Although results were significant, immunogenicity was not satisfactory in cattle and further trials with different doses were recommended. The study provides good evidence on the safety and immunogenicity of the product but not on how protected the animals would be against infection.

Reference Banerjee, Duflo, Goldberg, Karlan, Osei, Parienté, Shapiro, Thuysbaert and UdryBanerjee et al. study: improving nutrition and economic status of poor households

This graduation-based program was a large, six-country RCT which tested the effect of a package of livestock-based interventions on a range of outcomes (Banerjee et al., Reference Banerjee, Duflo, Goldberg, Karlan, Osei, Parienté, Shapiro, Thuysbaert and Udry2015). The intervention was targeted to the ultra-poor population. There were 10,495 participants in Ethiopia, Ghana, Honduras, India, Pakistan, and Peru. The approach combined the transfer of a productive asset, usually livestock, with cash payments, training in livestock-keeping, follow-up visits, savings encouragement, and health education and/or services. The value of assets varied between sites, ranging from purchasing power parity (PPP) US$451 to PPP US$1228 per household. The primary goal was to substantially increase consumption among the very poor, which was achieved by the conclusion of the program and maintained 1 year later. Total costs varied from US$1455 per household in India to US$5962 in Pakistan, and estimated benefits were higher than the costs (except in Honduras where the chickens died), with a cost/benefit ratio as high as 433% in India. There were 10 primary outcomes, and this was not adjusted for in the analysis.

Reference Bandiera, Burgess, Das, Gulesci, Rasul and SulaimanBandiera et al. study: livestock asset transfer

A large RCT was conducted with ultra-poor households in Bangladesh (Bandiera et al., Reference Bandiera, Burgess, Das, Gulesci, Rasul and Sulaiman2017). This followed a similar approach to the above graduation-based program. There were six livestock asset bundles worth US$560 and an associated support package of the same value. On average, benefits were 5.4 times more than costs.

Reference Glass, Perrin, Kohli, Campbell and RemyGlass et al. study: livestock productive asset transfer

A moderate-sized RCT was conducted among rural households in the Congo (Glass et al., Reference Glass, Perrin, Kohli, Campbell and Remy2017). The intervention included two piglets, training in pig keeping, biweekly home visits by trained staff, support for association meetings, pig health services, and 50 kg of feed. Primary outcomes are not described and there were nine outcomes clustered as: economic (2); physical and mental health (4); and domestic violence related (3). Economic (2) and health benefits (three out of four) were seen but information is not given on the cost of the intervention. This study provides moderate evidence that giving people livestock assets and training them on management increases possession of these assets, and the more interesting finding, that this improves their health but does not affect domestic violence.

Two studies evaluated the methods for improving farmer knowledge.

1. (1) An RCT with smallholder farmers in Tanzania compared three different methods for imparting knowledge about mastitis (i.e., handout, meeting, or video) (Bell et al., Reference Bell, French, Karimuribo, Ogden, Bryant, Swai, Kambarage and Fitzpatrick2005). Five different combinations of methods were compared to the control. All showed an increase in knowledge of mastitis relative to the control. The village meeting was less effective and combining different methods had no advantage over the handout alone. This study provides good evidence that providing information to farmers improves their knowledge.

2. (2) A second intervention aimed to improve farmer knowledge was also not detected by the search strategy. A cluster-RCT was used to evaluate and compare the effectiveness of three methods for imparting knowledge about equid health amongst rural Ethiopian working equid users (Stringer et al., Reference Stringer, Bell, Christley, Tefera, Gebreab, Trawford, Reed, Pinchbeck, Tefera, Reed, Trawford and Pinchbeck2011). An audio program, a village meeting, and a handout all significantly improved knowledge relative to the control, with the audio program being the least effective.

Overall, six of the 15 individual RCTs did not find evidence that the intervention worked. These were: integrated programs and childhood nutrition; ND vaccination and reduced poultry mortality; RVF vaccination and immunity in cattle; equid deworming and improved body weight; mastitis interventions and reduced mastitis; tsetse control and reduced trypanosomosis. Two of the six studies focused on a near-term, easy to obtain, but unimportant change, which was to improve knowledge through access to information; one study, focused on intermediate outcomes (i.e. reducing fish disease through improved biosecurity), failed to address feasibility and lacked external validity; one study reported significant, but intermediate or surrogate outcomes (i.e. immunogenicity of RVF vaccine in goats); another study showed significant and meaningful outcomes (i.e. providing pigs improves assets and health), but it was not likely to be sustainable because of the high cost of the intervention. Only two studies presented interventions with outcomes that were meaningful, with improvements to animal health and human livelihoods, and were likely to be sustainable and scalable because of simplicity and low cost, involving improving poultry management and providing rational drug use information for farmer treatment of cattle, respectively.