Search Results (173)

Avian reovirus (ARV) is a ubiquitous pathogen in commercial poultry, traditionally associated with viral arthritis, malabsorption syndrome, and growth retardation. In recent years, the rapid genetic diversification of ARV has raised increasing concerns regarding vaccine mismatch, immune dysregulation, and complex disease outcomes in vaccinated flocks. In this study, an integrated investigation combining large-scale field surveillance, molecular characterization, and controlled animal experiments was conducted to elucidate the epidemiological features of ARV and its impact on heterologous vaccine-induced protection. Epidemiological surveillance revealed widespread ARV circulation in commercial poultry flocks, with marked genetic divergence between contemporary field isolates and classical vaccine strains. Phylogenetic analysis based on the σC gene demonstrated that the majority of circulating strains clustered within emerging genotypes that were genetically distinct from vaccine-related lineages. Using a controlled infection–vaccination–challenge model, prior ARV infection was shown to significantly impair humoral immune responses induced by an inactivated Aviadenovirus hydropericardii (fowl adenovirus serotype 4, FAdV-4) vaccine, as evidenced by reduced FAdV-4-specific antibody levels. Importantly, ARV pre-infection compromised vaccine-mediated protection and was associated with enhanced FAdV-4 pathogenicity following challenge, resulting in increased mortality, aggravated clinical manifestations, and more pronounced pathological lesions. These findings indicate that prior ARV infection is associated with reduced FAdV-4 vaccine-induced humoral responses and partial loss of protective efficacy under controlled experimental conditions. Importantly, this study provides quantitative experimental evidence using a defined infection–vaccination–challenge interference model rather than proposing a previously unrecognized virus-virus interaction. These results underscore the necessity of enhanced ARV surveillance and optimized immunization strategies in modern poultry production systems. Full article

This study aimed to compare carcass composition and selected meat quality traits of guinea fowl (Numida meleagris) and common pheasant (Phasianus colchicus L.) reared under the production conditions applied in this experiment. The study material consisted of 32 birds, including 16 male common pheasants and 16 male guinea fowl, all slaughtered at 13 weeks of age. The analysis revealed significant differences (p < 0.05) between the two groups in carcass composition and several meat quality parameters. Under the given rearing conditions, guinea fowl were characterized by higher body and carcass weight, as well as weights of individual carcass components, compared to pheasants. They also showed higher carcass yield and greater proportions of certain elements, including leg muscles, skin with subcutaneous fat, and wings, whereas pheasants exhibited a higher proportion of breast muscles and neck. Guinea fowl had higher absolute masses of meat, fat, and bones, but a lower meat-to-fat ratio. No significant differences between groups were observed for the meat-and-fat-to-bone ratio or the meat-to-bone ratio. The highest protein content was recorded in the breast muscles of pheasants (27.1%), while the lowest was found in the leg muscle of guinea fowl (22.1%). Differences between the groups were also observed in intramuscular fat and water content in both breast and leg muscles, as well as in collagen content in the breast muscle. Regardless of group, breast muscles were characterized by higher protein content and lower fat and collagen levels than leg muscles. Differences were further noted in electrical conductivity (EC) and the a* and b* color parameters in both muscle types. Breast muscles exhibited lower pH and a* values but higher EC and L* values than leg muscles in both groups. Textural traits of the breast muscles, including cohesiveness, springiness, and chewiness, were higher in guinea fowl, whereas hardness and Warner–Bratzler shear force (WB) were lower compared to pheasants. However, these differences should be interpreted with caution, as the birds were reared under different feeding and management systems, which may have contributed to the observed variation. Overall, the results provide comparative data on carcass composition and meat quality of guinea fowl and pheasants under the studied production conditions. These findings may serve as a basis for further controlled studies designed to more clearly isolate species effects and to evaluate their potential relevance for poultry production. Full article

Naphthyridine derivatives have emerged as privileged scaffolds with diverse pharmacological activities, particularly in anticancer and antiviral drug discovery. In this study, a series of naphthyridine-based derivatives (1–10b) was designed, synthesized, and structurally characterized using IR, ¹H/¹³C NMR, and mass spectrometry, and evaluated as dual-function antiproliferative and anti-fowlpox virus agents supported by integrated computational analyses. The synthesized compounds were screened for in vitro antiproliferative activity against HeLa, HCT-116, and MCF-7 cancer cell lines, as well as normal WI-38 lung fibroblasts. Several derivatives exhibited potent cytotoxic activity with enhanced selectivity toward cancer cells. Compound 5b showed the highest activity against HeLa cells, compound 1 was most effective against HCT-116 cells, while compounds 7 and 8 displayed remarkable activity against MCF-7 cells, with compound 7 surpassing doxorubicin and compound 8 demonstrating excellent selectivity toward normal cells. Mechanistic investigations revealed that compounds 7 and 8 acted as dual topoisomerase I/IIβ inhibitors, inducing G2/M cell cycle arrest and intrinsic apoptosis associated with caspase-9 activation and downregulation of topoisomerase II protein expression. Selected derivatives were further evaluated for antiviral activity against fowlpox virus using in ovo and in vivo SPF embryonated chicken egg models, where compounds 2 and 9a exhibited the highest therapeutic indices, comparable to ribavirin, and compound 9a markedly suppressed viral replication and titers in vivo. ADMET profiling, molecular docking, molecular dynamics simulations, and DFT calculations supported the experimental findings and identified compound 10a as the most favorable theoretical candidate. Overall, this integrated experimental–computational approach establishes naphthyridine derivatives as a rationally designed multifunctional chemotype for simultaneous anticancer and antiviral drug development. Full article

In recent years, outbreaks of inclusion body hepatitis (IBH) have been reported with increasing frequency worldwide. In Austria, the presence of fowl aviadenoviruses (FAdVs) and/or IBH has been documented sporadically. The present report describes a surge of natural IBH cases in fifteen Ross 308 broiler flocks. The clinical picture was characterized by the sudden onset of increased mortality in birds 3 to 15 days of age, persisting for approximately one week, resulting in cumulative flock mortality ranging from 2% to 27%. The main pathological findings were hepatitis with diffuse necrotic foci and petechial hemorrhages with intranuclear inclusion bodies by histology. FAdV was detected in liver samples from all affected flocks. Based upon partial hexon sequence analysis, FAdV serotype-11, species-D (FAdV-11, FAdV-D) was identified, showing complete sequence identity among broiler-derived strains and high identity with previous isolates from Austria and globally IBH-associated isolates. Furthermore, FAdV-11 DNA was detected in dead-in-shell embryos collected during the ongoing outbreak, originating from one suspect broiler breeder flock, confirming vertical transmission. Serological investigations of the suspect breeders confirmed the FAdV-11 infections within the studied timeframe. In conclusion, investigations confirmed vertical transmission of FAdV-11 and subsequent manifestation of IBH in broilers under field conditions, highlighting the epidemiological importance of broiler breeders in IBH outbreaks. Full article

Fowl adenoviruses (FAdVs) represent a major threat to poultry health, with serotypes FAdV-1 and FAdV-4 causing adenoviral gizzard erosion (AGE) and hepatitis-hydropericardium syndrome (HHS), respectively. A wide variety of afflicted birds, including chicken, pigeon, and psittacine species, have been reported to carry aviadenoviruses. The disease is highly contagious and spreads rapidly between flocks and farms through vertical and horizontal transmission. In this study, we implemented a multi-stage computational drug-discovery pipeline to identify natural inhibitors of the viral fiber proteins for both FAdV-1 and FAdV-4. A curated library of 7523 natural compounds from the African Natural Products Database (ANPDB) and the South African Natural Compounds Database (SANCDB) was subjected to ADMET-based filtering, molecular docking, ADMET prediction, and 500 ns molecular dynamics simulations against four structural targets: Fiber-1 and Fiber-2 of FAdV-4, and the Short and Long Fibers of FAdV-1. Three ligands, ANPDB_6449 (−10.3 kcal/mol), ANPDB_2908 (−10.2 and −10.0 kcal/mol), and SANCDB_245 (−9.2 kcal/mol), consistently emerged as strong candidates across the entire computational workflow. While ANPDB_2908 demonstrated notable multi-target capability by binding to fiber proteins from both FAdV-1 and FAdV-4, ANPDB_6449 and SANCDB_245 exhibited strong serotype-specific potential, supported by stable interaction profiles and favorable drug-likeness characteristics. Together, these compounds highlight promising natural scaffolds for the development of targeted antiviral interventions against pathogenic FAdV serotypes. Full article

Fowl adenovirus serotype 4 (FAdV-4) is the major causative agent of hydropericardium-hepatitis syndrome (HHS), a disease responsible for considerable economic losses in poultry production. Although inactivated and live-attenuated vaccines reduce mortality, continued outbreaks highlight the need to optimize vaccination strategies. To address these limitations, we developed and evaluated a bivalent subunit vaccine composed of recombinant hexon-L1 and fiber-2 proteins, two major antigenic determinants associated with neutralization and pathogenicity. The proteins were expressed in Escherichia coli, purified under native conditions, confirmed for purity and antigenicity, and emulsified into a water-in-oil formulation. Chickens were immunized with either 10 μg or 20 μg doses, boosted after 14 days, and challenged with the homologous virulent FAdV-4 strain SDLC202009. The 20 μg dose conferred complete survival, eliminated histopathological lesions, prevented viral detection in tissues by PCR and immunohistochemistry, and fully blocked viral shedding. Similarly, the 10 μg dose induced a good protection with only minor pathological differences compared to the group treated with 20 μg. These results demonstrate that a bivalent hexon-L1 and fiber-2 subunit formulation elicits strong, dose-dependent humoral and tissue-level protection against homologous FAdV-4 challenge under the conditions tested. The experimental design did not include a monovalent fiber-2 comparator; therefore, conclusions regarding the relative contribution of each antigen are not drawn. Full article

Fowl adenoviruses are opportunistic emerging viruses that spread widely in fowls, infecting birds of all ages, including young broiler chicks. This study aims to genotype the current adenovirus strains associated with inclusion body hepatitis hydropericardium syndrome (IBH-HPS) among infected broilers in Upper Egypt and to evaluate their pathogenic features. In 2024, 100 tissue samples were collected across Assiut and Sohag governorates in Upper Egypt for genetic characterization and pathogenicity evaluation. FAdVs were detected in 22% (11/50) of flocks. Typical FAdV lesions of dead embryos were observed after seven days post egg inoculation. Regarding the PCR assay of the hexon gene, only 8 of 30 samples were confirmed positive at 897 bp, yielding a 26.6% positivity rate. The remaining samples were considered negative using established RT-qPCR protocols for other viral pathogens. Partial sequencing of the hexon gene revealed that FAdV isolates (n = 4) clustered within FAdV species-D serotype 2/11, as determined by phylogenetic analysis. The four isolates shared (98–99%) and (94–100%) nucleotide and amino-acid similarities to FAdV-D of Israeli strains (2019–2020) and contemporary Egyptian isolates (2022), respectively, and low genetic divergence (54–81%) in comparison with other documented species. The amino acid sequence alignment and 3D structure indicate that the four immunogenic HVRs are located in the L1 region of the hexon protein, and that the highly conserved ⁹¹GQMTT⁹⁵, a specific region for FAdV-D serotype 2/11, is present. Regarding pathogenicity, the gross and histopathological findings observed clearly demonstrate the systemic pathogenicity of FAdV-2/11 in the infected group, with a final mortality rate of 30% at seven days post-infection (dpi). The FAdV DNA in hepatic tissues and cloacal swabs was confirmed by the PCR method at 3 dpi and 5 dpi. These results emphasize the circulating of FAdV-2/11 species D in Upper Egypt and highlight the significant need for a single inactivated vaccine that effectively targets the relevant FAdV serotypes to achieve broader and more efficient protection. Full article

Egg yolk coloration influences consumer perceptions of table eggs. Red pepper (Capsicum annuum) is a known dietary source of carotenoids, which enhances yolk pigmentation, but its effects in silky fowl (SF) remain unexplored. We examined how dried red pepper flakes influence blood biochemical parameters and egg quality in SF hens. Sixty hens were divided into three groups: basal ration (control), low supplementation (3.5 mg/100 g), and high supplementation (7.0 mg/100 g). During a 35-day feeding period, eggs collected in the final week were maintained at 4 or 25 °C for quality evaluations. Haugh units and the yolk index were decreased significantly in eggs maintained at 25 °C compared with those in the day 0 and 4 °C samples, whereas the yolk carotenoid content decreased with the storage duration, particularly in the high-supplementation group. CIELAB parameters (L*, a*, a/b), except for b*, were more strongly associated with the ZEN-NOH Yolk Color Chart Score than the DSM Yolk Color Fan Score, particularly in the high-supplementation group. In addition, serum high-density lipoprotein cholesterol was increased, and triglyceride levels were decreased in the high-supplementation group. In conclusion, dietary red pepper flakes enhance yolk pigmentation and lipid metabolism in SF hens. Moreover, ZEN-NOH YCCS provides a reliable indicator of the yolk color after dietary carotenoid supplementation. Full article

Artificial intelligence models, which have begun to be used in every field of science in recent years, have also started to come to the forefront in the classification of avians using bones. This study aimed to identify breeds of domestic fowl (Gallus gallus domesticus L. 1758) using morphometric measurements obtained from the tarsometatarsus bone and machine learning. A total of 328 tarsometatarsus specimens from two different modern domestic fowl breeds were used. A model was developed by performing 10 different morphometric measurements on each tarsometatarsus, and 3280 data points were obtained. Before model development, data cleaning and necessary assessments were carried out, and gaps were identified. In pre-processing and data partitioning, 70% of the data was used for training, and 30% was reserved for testing the developed model. To determine the differences between breeds, evaluations were performed using classical supervised learning algorithms in machine learning. Random forest (RF), support vector machine with radial kernel (SVM-RBF), and the generalized linear model (GLM, logistic regression) were used for model development, while model validation was performed using cross-validation (CV) metrics. After model validation, variable importance, feature selection, correlation analysis, dimensionality reduction, and multicollinearity were performed. The developed model, using morphological measurements obtained from the tarsometatarsus, distinguishes between breeds with high accuracy. The discriminative signal is extremely strong, allowing multiple modeling strategies (tree-based, kernel-based, and linear) to perfectly distinguish between the two breeds. Among the morphometric measurements, Ac (extension of the trochlea metatarsi IV) and Bmit (breadth of the middle trochlea) were found to be the strongest distinguishing features. This developed model combines morphometric data and artificial intelligence to offer an innovative method for scaling, accelerating, or improving applications in science. By expanding the model’s database with measurements obtained from the tarsometatarsus bones of different breeds, it was demonstrated that breed differences can be quickly and accurately determined using a minimal number of measurements from tarsometatarsus bones. Full article

Chicken respiratory diseases represent multifactorial conditions resulting from viral, bacterial, mycoplasmal pathogens, and environmental factors, causing significant economic losses within the poultry industry. A specific respiratory disease characterized by breathing difficulties and bronchial occlusion due to caseous exudates is termed chicken bronchial obstruction. However, the absence of rapid, precise, and highly sensitive diagnostic methods for differentiation of primary respiratory disease pathogens or opportunistic pathogens, including avian influenza virus (AIV), infectious bronchitis virus (IBV), Pseudomonas aeruginosa (P. aeruginosa), and Escherichia coli (E. coli), constitutes a substantial challenge. This study developed a quadruplex droplet digital polymerase chain reaction (ddPCR) method that targeted the HA gene of H9 subtype AIV, the M gene of IBV, the Pal gene of P. aeruginosa, and the UidA gene of E. coli. Following the optimization of annealing temperature, sensitivity, and repeatability, the minimum detectable concentrations were determined as 3.02 copies/μL for the HA gene of H9 subtype AIV, 3.08 copies/μL for the M gene of IBV, 3.19 copies/μL for the Pal gene of P. aeruginosa, 3.39 copies/μL for the UidA gene of E. coli. No cross-reactivity was observed with Newcastle disease virus (NDV), H5 subtype AIV, H7 subtype AIV, fowl adenovirus serotype 4 (FAdV-4), infectious laryngotracheitis virus (ILTV), Avibacterium paragallinarum, Streptococcus, Salmonella, Pasteurella multocida, and Staphylococcus aureus. The method demonstrated excellent repeatability, with a coefficient of variation (CV) below 9%. The 185 clinical samples collected in Hebei Province China are tested by both quadruplex ddPCR and quadruplex qPCR method and the results compared. The sensitivity of the quadruplex ddPCR method (57.30%; 106/185) slightly exceeded that of the quadruplex qPCR method (49.73%; 92/185). Pathogens or opportunistic pathogens positive rates obtained via the quadruplex ddPCR were 40.00% for H9 subtype AIV, 33.51% for IBV, 24.32% for P. aeruginosa, and 27.57% for E. coli. In comparison, the positive rates of H9 subtypes AIV, IBV, P. aeruginosa, and E. coli from the quadruplex qPCR were 36.22%, 30.81%, 21.62%, and 24.32%, respectively. The coincidence rates between the two methods were 96.22% for H9 AIV, 97.30% for IBV, 97.30% for P. aeruginosa, and 96.76% for E. coli. These results demonstrated that the quadruplex ddPCR method represented a highly sensitive, specific, and rapid technique for identifying H9 subtype AIV, IBV, P. aeruginosa, and E. coli. Full article

This study examined the protective impact of tributyrin on heat-stressed Taihe silky fowls, providing insight into oxidative status, inflammatory response, and mucosal barrier function. Three hundred chicks were randomly assigned to 6 treatments: control (CON, 24 ± 1 °C) fed with basal diet and 5 heat stress (HS) treatments (34 ± 1 °C for 8 h/d) fed with basal diet containing 0, 0.04, 0.08, 0.16, and 0.32% tributyrin. Heat stress elevated serum malondialdehyde (MDA), tumor necrosis factor α (TNF-α), interleukin 1β (IL-1β), D-lactate, and diamine oxidase levels, and decreased total antioxidant capacity (T-AOC) and superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), interleukin 4 (IL-4), interleukin 10 (IL-10), and immunoglobulin G (IgG) levels (p < 0.05). Compared with HS treatment, tributyrin reversed these serum changes (p < 0.05). Moreover, HS elevated jejunal and ileal MDA content and IL-1β mRNA abundance, decreased GSH-Px activity, villus height (VH), VH: crypt depth ratio, and mRNA abundance of IL-10, occludin, and zonula occludens-1 (ZO-1), and decreased cecal butyrate content (p < 0.05). Compared with HS treatment, tributyrin reduced jejunal and ileal MDA content and IL-1β mRNA abundance, increased GSH-Px activity, VH, and mRNA abundance of IL-4, IL-10, occludin, and ZO-1, and increased cecal butyrate content (p < 0.05). In conclusion, tributyrin enhanced antioxidant capacity, attenuated inflammatory responses, increased cecal butyrate content, and improved intestinal morphology and mucosal barrier function in cyclic heat-stressed Taihe silky fowls. Full article

Salmonella enterica serovar Gallinarum is a non-motile serovar and is the causative agent of fowl typhoid, and poses a major challenge to poultry production, particularly where rapid diagnostics are lacking. Existing methods are either time-consuming or fail to distinguish motile from non-motile serotypes. We developed a dual-target colorimetric LAMP that detects Salmonella spp. via invA and discriminates S. Gallinarum via TRX (a taxon-restricted sequence), using two separate singleplex reactions. Specificity testing confirmed 100% accuracy, with exclusive amplification of S. Gallinarum through TRX. Analytical sensitivity was comparable to real-time PCR, detecting down to 2.41 CFU/µL (invA) and 1.65 CFU/µL (TRX). Applied to cloacal swabs from experimentally infected chickens (n = 12), the assay consistently outperformed bacteriological culture, detecting up to 25% more positives during early infection when bacterial loads were low or cells were non-culturable. This dual-target LAMP provides a rapid, sensitive, and serovar-discriminating diagnostic tool with strong potential for point-of-care use and real-time surveillance in poultry farms, thereby improving sanitary control of fowl typhoid and reducing associated economic losses. Full article

The diseases caused by genotype VII Newcastle disease virus (NDV), H9N2 avian influenza virus (AIV), and fowl adenovirus serotype 4 (FAdV-4) continue to threaten the global poultry industry. However, no broad-spectrum vaccines provide simultaneous protection against these three pathogens. This study employed bioinformatics and immunoinformatics approaches to design a multi-epitope vaccine, named NFAF, which consists of B-cell, cytotoxic T lymphocyte (CTL) epitopes, and helper T lymphocyte (HTL) epitopes derived from hemagglutinin-neuraminidase (HN) and fusion (F) proteins of genotype VII NDV, hemagglutinin (HA) protein of H9N2, and Fiber2 protein of FAdV-4. The vaccine candidate was predicted to have non-allergenic properties, non-toxicity, high antigenicity, and favorable solubility. Each of its constituent antigenic epitopes has a high degree of conservation. Molecular docking demonstrated stable binding between NFAF and chicken Toll-like receptor (TLRs) and major histocompatibility complex (MHC) molecules. NFAF was expressed in soluble form in Escherichia coli and purified. Polyclonal antibodies against all three target viruses showed specific binding to NFAF. In vitro experiments revealed that NFAF effectively stimulated chicken peripheral blood mononuclear cells (PBMCs) and induced Th1, Th2, and pro-inflammatory cytokine production, confirming its immunogenicity, and increased the mRNA expression of the key signaling molecules MyD88 and NF-κB. These results suggested that NFAF could therefore be an efficacious multi-epitope vaccine against genotype VII NDV, H9N2, and FAdV-4 infections. Full article

Vaccination remains the primary strategy for controlling infectious diseases in farm animals. However, current conventional vaccines demonstrate clinical limitations including suboptimal immunogenicity and frequent booster requirements, which compromise disease management efficacy. This study presents an innovative vaccine platform combining yolk immunoglobulin (IgY) with inactivated antigens as co-immunization components. We developed two formulations targeting economically significant pathogens: avian Fowl Adenovirus Serotype 4 (FAdV-4) and Porcine Epidemic Diarrhea Virus (PEDV). For FAdV-4 vaccine evaluation in specific pathogen-free (SPF) chickens, the IgY-antigen complex demonstrated superior immunogenic properties compared to conventional inactivated vaccines. When administered as a single dose at 14 days of age, the experimental formulation elicited significantly stronger humoral responses as measured by both serum neutralization (SN₅₀) and ELISA. Notably, this vaccination strategy provided 100% protection against lethal FAdV-4 challenge from 0 h to 20 weeks post-vaccination, with complete absence of clinical disease manifestations. In PEDV assessment using mouse models, the IgY-antigen formulation induced significantly higher antibody titers than inactivated antigen alone at all post-immunization timepoints (p < 0.01). Comparative analysis revealed our dual-component platform enhanced both the intensity and rapidity of protective immune responses compared to traditional inactivated vaccines. These findings establish that the IgY-antigen co-immunization strategy represents a promising approach for developing new veterinary vaccines with improved protective efficacy. The platform’s ability to generate robust, rapid-onset immunity while maintaining single-dose effectiveness addresses critical limitations of current vaccine technologies. Full article

Chewing lice are among the most significant ectoparasites affecting poultry, causing irritation, anemia, and reduced productivity, thereby posing economic and welfare challenges for poultry farmers. Their impact is particularly pronounced in sub-Saharan Africa, where poultry production is predominantly free-range with limited biosecurity, which increases exposure to infestation. This review was conducted to determine the epidemiology of chewing lice species of poultry in sub-Saharan African countries. A search of peer-reviewed literature on the epidemiology of chewing lice species of poultry was conducted on four electronic databases from 1990 to 2024. Nineteen species of chewing lice, namely Menacanthus stramineus, Menacanthus cornutus, Menacanthus pallidulus, Menopon gallinae, Lipeurus caponis, Lipeurus tropicalis, Gallacanthus cornutus, Goniocotes gigas, Goniocotes gallinae, Goniocotes hologaster, Goniodes gigas, Goniodes meleagridis, Goniodes gallinae, Goniodes dissimilis, Cuclotogaster heterographus, Stenocrotaphus gigas, Columbicola columbae, Chelopistes meleagridis, and Amyrsidea powelli, were reported from six poultry species distributed across ten African countries. The identification of the chewing lice species was primarily based on microscopic examination of the morphological features, which resulted in the exclusion of some studies that failed to identify lice to the species level. Poultry species infested included chickens (Gallus gallus domesticus), turkeys (Meleagris gallopavo), ducks (Anas platyrhynchos), guinea fowls (Numida meleagridis), pigeons (Columba livia), and geese (Anser cygnoides). Nigeria recorded the highest number of chewing lice species. The genus Goniodes showed the highest species diversity, and M. stramineus was the most predominant species, reported in nine of the ten reviewed countries. Infestations were mostly reported in chickens compared to other poultry species, and the prevalence ranged from 1.28% in chickens in Ethiopia to 100% in chickens from Zimbabwe. Results from this review provide valuable insights into the species diversity and regional distribution patterns of chewing lice fauna, highlighting their dispersion and host associations. The review will serve as a valuable resource in the design of effective and sustainable prevention and control strategies of chewing lice, especially in free-range chickens reared by resource-poor communities in sub-Saharan Africa. Full article