8 results ·
● Live web index
P
phgfoundation.org
article
https://www.phgfoundation.org/long-read/quantum-computing-the-future-of-healt…
In March 2026, the UK government announced further significant investment, committing £1 billion for procuring large-scale quantum computers and dedicating over £500 million to help companies scale and develop new quantum computing applications in areas including pharmaceuticals.’. The UK has begun to pioneer approaches to quantum scale-out and shared infrastructure, with initiatives such as Project Lyra focusing on developing quantum data-centre architectures and multi-node computing environments to enable industry-scale utility and scalable deployment. It is worth noting that federated data approaches can aid future large-scale efforts in multimodal quantum analysis, as they establish the necessary foundations for governance, interoperability, and distributed learning required to apply advanced computational methods, including quantum computing, across fragmented healthcare datasets. Investing in these near-term applications may be more appropriate for the healthcare sector while at-scale usable quantum computers are being developed. In healthcare research, areas such as protein folding, molecular modelling, and large-scale genomic analysis involving extremely complex and high-dimensional data are challenges that quantum computers are inherently better suited to address.
C
covingtondigitalhealth.com
article
https://www.covingtondigitalhealth.com/2025/06/quantum-computing-and-its-impa…
Quantum computing technologies have the potential to offer a more powerful, accurate and efficient alternative to classical computers, and can simulate more intricate chemical structures and interactions, leading to more optimized drug design. For example, quantum computing can be used to optimize the design of clinical trials; to enhance the data analysis and modelling process post-clinical trial by quickly detecting complex patterns and correlations; to monitor and adapt clinical trials in real-time, allowing for dynamic adjustments to protocols to maximize individual patient outcomes and address emerging safety concerns. Quantum computing technologies have the potential to enhance patient diagnosis and personalized care. Not only can quantum computing improve image reconstruction and quality, but it also has the potential to aid faster, more accurate and more precise image analysis and interpretation by considering multiple data points at the same time, when compared to classical computing methods.
F
forbes.com
article
https://www.forbes.com/councils/forbestechcouncil/2026/01/15/how-quantum-comp…
We identified three key applications of quantum computing in life sciences and healthcare: optimization, machine learning and simulations.
I
ibm.com
article
https://www.ibm.com/thought-leadership/institute-business-value/en-us/report/…
# Exploring quantum computing use cases for life sciences. Exploring quantum computing use cases for life sciences. , Global Life Sciences Leader, IBM Q Consulting. , Partner, Life Sciences and Healthcare, IBM Consulting. , Global Leader, Advanced Algorithms for Quantum Simulations, IBM Research. , Global Lead for Healthcare and Life Sciences, IBM Institute for Business Value. , Research Director, Quantum Computing and Emerging Technologies, IBM Institute for Business Value. IBM Quantum is your most passionate collaborator to advance foundational quantum computing research that will make real-world impact. ### IBM Life sciences industry solutions. Accelerating and scaling quantum computing by partnering with industries and fostering a growing ecosystem. IBM Quantum is your most passionate collaborator to advance foundational quantum computing research that will make real-world impact. ### IBM Life sciences industry solutions. #### Life sciences State of the Industry. Client facing deck about the state of the Life sciences industry and the major technology forces shaping it. Explore the IBM Institute for Business Value's data-driven predictions.
P
pmc.ncbi.nlm.nih.gov
official
https://pmc.ncbi.nlm.nih.gov/articles/PMC12096140/
Quantum computing is poised to revolutionize biomedicine and healthcare, offering computational advantages that surpass classical and artificial intelligence-
M
mckinsey.com
article
https://www.mckinsey.com/industries/life-sciences/our-insights/the-quantum-re…
Quantum computing (QC) is poised to transform the life sciences industry; McKinsey estimates potential value creation of $200 billion to $500
Q
qcshub.org
article
https://www.qcshub.org/article/four-ways-quantum-technologies-will-impact-hea…
As we move forwards, the adoption of quantum technologies will become increasingly common in healthcare, potentially making huge changes across every area, from
C
capgemini.com
article
https://www.capgemini.com/solutions/the-promise-of-quantum-in-life-sciences/
Quantum holds great promise within the life sciences industry, with potential applications for technologies such as quantum computing and quantum sensors.