The studies provided do not investigate bone broth or its components in relation to immune function; rather, they examine a range of topics in microbiology and immunology, including how specific bacteria evade immune defenses, how macrophages respond to various pathogens, and how immune cells like T cells and keratinocytes behave in different disease contexts. None of these studies are clinical trials, observational studies, or laboratory investigations of bone broth itself, and no findings from these papers can be meaningfully applied to claims about bone broth and immune support. The collective direction of the evidence base provided here is neutral in the sense that it addresses fundamental immune mechanisms rather than any dietary intervention. As a result, the research linked here does not support, refute, or otherwise inform conclusions about bone broth's effect on immune function, and any summary drawing such a connection would misrepresent what these studies actually investigated.
Citations from PubMed and preprint sources. Match score (0-100) reflects automated search ranking, not clinical appraisal.
| Title | Type | Year | Direction | Match |
|---|---|---|---|---|
| Multiple hypervirulent methicillin-sensitive<i>Staphylococcus aureus</i>linea... | Other | 2022 | Neutral | 90 |
| Tools for genetic manipulation of the endemic fungal pathogen, <i>Emergomyce... | Other | 2025 | Neutral | 85 |
| Increased circulating fibronectin, depletion of natural IgM and heightened EB... | Other | 2023 | Neutral | 85 |
| <i>Candida albicans</i> infection suppresses Lipopolysaccharide or <i>Pseudom... | Other | 2025 | Neutral | 80 |
| Clarifying the priming requirement and activator specificity for the NLRP3 in... | Other | 2025 | Neutral | 75 |
| Molecular determinants of brain-resident CD8<sup>+</sup> T cell formation and... | Other | 2025 | Neutral | 70 |
| STAMPS: Signal-peptide Transformer for Augmenting Mammalian Protein Secretion | Other | 2025 | Neutral | 65 |
| The unique lipopolysaccharide composition of <i>Salmonella</i> Typhimurium ST... | Other | 2025 | Neutral | 60 |
| The staphylococcal type VII secretion system delays macrophage cell death thr... | Other | 2025 | Neutral | 55 |
| PgtE protease enables virulent<i>Salmonella</i>to evade C3-mediated serum and... | Other | 2024 | Neutral | 50 |
| Engineering human protein switches for functional control of CARs and transcr... | Other | 2025 | Neutral | 45 |
| Spatially-distinct programming of macrophage diversity within the granulomas ... | Other | 2025 | Neutral | 40 |
| c-Myc inhibits macrophage antimycobacterial response in <i>Mycobacterium tube... | Other | 2025 | Neutral | 35 |
| Interleukin 10 controls the balance between tolerance, pathogen elimination a... | Other | 2025 | Neutral | 30 |
| Exploring the role of<i>E. faecalis</i>Enterococcal Polysaccharide Antigen (E... | Other | 2024 | Neutral | 25 |
| MiniCARbids: Minimalistic human binding domains specifically tailored to CAR ... | Other | 2025 | Neutral | 20 |
| Low protein diet protects liver function upon Salmonella infection by metabol... | Other | 2024 | Neutral | 15 |