ABSTRACT The Rare Diseases Clinical Research Network (RDCRN) was established to improve diagnosis, treatment, and research collaboration across rare diseases through collaborative, multi‐site, translational, and clinical research. Its governance framework promotes efficient data sharing and collaboration among research consortia, NIH representatives, and patient advocacy groups (PAGs). This infrastructure facilitates coordinated efforts to advance rare disease research through shared resources and communication. Prompted by the COVID‐19 pandemic's impact on rare disease patients, the RDCRN recognized cross‐consortia collaboration as a priority. Its policies promote data sharing while protecting participant confidentiality. PAGs participate in governance, study design, and regulatory discussions, helping to identify patient‐relevant priorities, improve recruitment and retention, and strengthen trust between researchers and patients. Cross‐consortia efforts have addressed challenges like biomarker identification and harmonization of clinical measures, leading to new methods and standardized data collection that benefit multiple rare diseases. Studies by teams focusing on different diseases have led to improved diagnostic tools by addressing overlapping disease presentations. The RDCRN offers scholars cross‐consortia opportunities for presentations, competitions, and NIH training collaborations, fostering growth and networking. Network meetings promote exchange and process standardization; pilot projects facilitate independent grant submissions, forming a pipeline of skilled investigators. The RDCRN fosters trust, shared vision, and open communication by cultivating a culture of mutual respect, shared learning, and collective problem solving. By engaging a wide range of stakeholders, it has aligned its research with patient needs, advancing innovation. Its high‐impact publications, effective mentoring programs, and pioneering cross‐consortia initiatives underscore the value of collaboration in rare disease research.
Chehade et al. (Sun,) studied this question.