Capillary blood microsampling from the fingertip is a simple procedure that allows participants to draw their own blood in small, precise amounts. This can be done using a lancet for a quick finger-stick to produce a blood drop, which can be collected with a small, portable blood collection device. This approach makes it easy to collect blood samples anywhere, which opens the door for a host of innovations in health and wellness.
The use of finger-stick microsampling for quantitative blood sample collection is gaining traction in scientific research programs, as well as in the health and wellness industry. You may have seen a number of sample collection kits that are now available through different organizations for tracking your genealogy, fertility, or general health and wellness.
By using the easy-to-use microsampling devices in these remote kits to draw precise, small volumes of blood from a fingertip, participants in clinical trials and health programs can take advantage of more specific testing, precision medicine, and a whole lot more in the growing health and wellness sector.
With the help of technology, it has become easier for medical experts to find connections and innovations in health and medicine. Among the technological advances from which medical facilities have benefited is capillary blood sampling. Capillary blood samples can be dried on filter paper or a sampling device before transporting them to the lab, where they will be analyzed using a dried blood sampling workflow.
Capillary dried blood microsampling has been used in hospitals for newborn screening for decades in the form of the dried blood spot (DBS) card. However, it took some time for capillary blood sampling to be improved as a technique and applied in a wider range of uses. Over the years, scientists, field researchers, clinical trial managers, and others have come to discover its benefits.
Two big reasons to consider capillary blood sampling are:
Thanks to capillary blood sampling, many studies that previously required wet blood samples in tubes can now be done more easily and cost-effectively with a simple microsampling method.
Unlike conventional DBS cards, on which blood spots may dry unevenly with wide variation in sample volumes, volumetric samples are so accurate that the hematocrit bias is effectively eliminated. This means that volumetric blood microsamples can generate results that correlate with those from wet blood samples and plasma.
This convenient remote approach may help patients avoid extra trips to the lab or clinic for a blood draw and may help clinical trials recruit more study participants who can't easily travel to a hospital or research facility for clinical trial appointments.
The blood microsampling market is expected to grow rapidly in the next few years, and we are likely to see many new and exciting applications of microsampling in the health and wellness sectors in the future.
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