Research.
Every peer-reviewed study on fascia in one place — graded for strength of evidence, summarised in plain language for clinicians, researchers, and curious readers.
We grade studies from A to 1A+++ using the Fascia Research Database rubric — 1A+++ is the strongest.
Researchers behind the studies- A2011
Fascia and the mechanism of acupuncture
Steven Finando, Donna FinandoThis theoretical paper re-evaluates the mechanisms of acupuncture. The authors propose that fascia, the body's connective tissue network, is the structure that explains how acupuncture works. They argue for this model b…
fasciaacupunctureShamPlaceboMechanism - A++2011
Review of Evidence Suggesting That the Fascia Network Could Be the Anatomical Basis for Acupoints and Meridians in the Human Body
Yu Bai, Jun Wang, Jin-Peng Wu, Jing-Xing Dai, Ou Sha, David Tai Wai Yew, Lin Yuan, Qiu-Ni LiangThis narrative review explores the idea that the body's fascia network could be the physical structure behind traditional Chinese medicine's (TCM) meridians and acupoints. The authors examine anatomical, physiological,…
fasciaacupunctureacupoints - A2010
Fluorescent Nanoparticles for Observing Primo Vascular System Along Sciatic Nerve
Zhao-Feng Jia, Byung-Cheon Lee, Ki-Hoon Eom, Jin-Myung Cha, Jin-Kyu Lee, Zhen-Dong Su, Wen-Hui Yu, Pan Dong Ryu, Kwang-…In this animal study, researchers injected fluorescent nanoparticles into rats at an acupuncture point to trace their path. The particles traveled along the sciatic nerve, revealing a previously hard-to-detect structure…
fasciaacupunctureSCIATIC NERVEprimo vascular systemprimo-vessel - A2007
Connective Tissue Fibroblast Response to Acupuncture: Dose- Dependent Effect of Bidirectional Needle Rotation
Helene M Langevin, Nicole A Bouffard, David L Churchill, Gary J BadgerThis study on mouse tissue explored how connective tissue cells respond to back-and-forth rotation of an acupuncture needle. Researchers observed that fibroblasts, a type of connective tissue cell, changed shape by spre…
fasciaacupunctureFibroblastsneedle rotation - A2006
Subcutaneous Tissue Fibroblast Cytoskeletal Remodeling Induced by Acupuncture: Evidence for a Mechanotransduction-Based Mechanism
Helene M Langevin, Nicole A Bouffard, Gary J Badger, David L Churchill, Alan K HoweIn this mouse tissue study, researchers investigated how rotating an acupuncture needle affects fibroblasts in the connective tissue under the skin. They found that rotation caused the fibroblasts to actively change sha…
fasciacollagenfibroblastcytoskeletonmechanotransduction - A2005
An Introduction to Human Biophoton Emission
Roeland Van Wijk, Eduard P A Van WijkThis narrative review explores biophoton emission, the ultraweak light naturally produced by all living systems, including the human body. The authors compiled and analyzed existing research, which has investigated how…
acupuncturebiophotonsSkinultraweak photon emissionconsciousness - A2005
Dynamic fibroblast cytoskeletal response to subcutaneous tissue stretch ex vivo and in vivo
H M Langevin, N A Bouffard, G J Badger, J C Iatridis, A K HoweIn this animal study, researchers investigated how fibroblasts, the primary cells in connective tissue, respond to mechanical stretch. By stretching subcutaneous tissue from mice, both in tissue samples (ex vivo) and in…
Connective tissueTensegritymechanotransductionmusculoskeletal manipulationsacupuncture