Bone Research

Bone Research Bone Research is an open access, fully peer-reviewed journal publishing the foremost progress and novel understanding of all aspects of bone science.

Bone Research highlights the breakthrough discoveries in basic and clinical aspects of bone biology, pathophysiology and regeneration, as well as other significant findings related to bone. The journal publishes original, high-quality, peer-reviewed papers including research articles, reviews, correspondence and comments.

 -eating cells rely on tiny   gates to dissolve bone. A systematic review of nearly 90 ion channels reveals the precise ...
29/05/2026

-eating cells rely on tiny gates to dissolve bone. A systematic review of nearly 90 ion channels reveals the precise machinery behind and rare genetic bone diseases, opening doors to that could control bone loss more effectively.👍
Bone Research
https://www.nature.com/articles/s41413-026-00513-9

A newly found stem cell crew builds facial   and tooth tissues. Removing them disrupts bone balance, revealing why   bon...
27/05/2026

A newly found stem cell crew builds facial and tooth tissues. Removing them disrupts bone balance, revealing why bones weaken and offering fresh targets for facial reconstruction.👍
Bone Research
https://www.nature.com/articles/s41413-026-00518-4

  fills bone marrow with   that rallies   cells to erode  . Blocking this fat-immune signal with  , or trimming marrow f...
22/05/2026

fills bone marrow with that rallies cells to erode . Blocking this fat-immune signal with , or trimming marrow fat directly, preserves bone, offering two concrete paths to treat obesity-related bone loss.👍
Bone Research
https://www.nature.com/articles/s41413-026-00509-5

22/05/2026

Periprosthetic joint infection (PJI) is a devastating complication following lower limb arthroplasty. What are characteristics associated with an increased risk of PJI following primary THA or TKA performed for arthritis?



https://ow.ly/Sn3g50Z1F7K

During  , a sharp   rise stays chronically overactive, accelerating   loss. An experimental drug effectively suppresses ...
20/05/2026

During , a sharp rise stays chronically overactive, accelerating loss. An experimental drug effectively suppresses this runaway hormonal activity, with bone-protective effects comparable to current FDA-approved drugs.😀
Bone Research
https://www.nature.com/articles/s41413-026-00510-y

  patients lacking Factor VIII face hidden   loss, not just bleeding. Replacing this clotting protein restores bone dens...
14/05/2026

patients lacking Factor VIII face hidden loss, not just bleeding. Replacing this clotting protein restores bone density, expanding hemophilia care from stopping bleeds to protecting health.👍
Bone Research
https://www.nature.com/articles/s41413-025-00485-2

Unwanted   growth in soft tissues after   is driven by a protein switch called   that amplifies  . Targeting it early co...
12/05/2026

Unwanted growth in soft tissues after is driven by a protein switch called that amplifies . Targeting it early could prevent this disabling condition while preserving normal tissue repair, offering a precision therapy for injury patients.👇
Bone Research
https://www.nature.com/articles/s41413-026-00512-w

The   contains a newly discovered network of     that drain brain fluid and control  . Rewriting long-held anatomy belie...
09/05/2026

The contains a newly discovered network of that drain brain fluid and control . Rewriting long-held anatomy beliefs, this hidden pathway could unlock targeted therapies for diseases, damage, and chronic back pain.👍
Bone Research
https://www.nature.com/articles/s41413-026-00508-6

TGF-β, a key signaling  , triggers fibrous   to block spinal cord repair. Blocking it cuts scar growth and creates a cle...
08/05/2026

TGF-β, a key signaling , triggers fibrous to block spinal cord repair. Blocking it cuts scar growth and creates a clear drug target to help spinal cord injury patients regain and motor function.👍
Bone Research
https://www.nature.com/articles/s41413-026-00507-7

Joint inflammatory cells release tiny biological vesicles that worsen cartilage damage and drive osteoarthritis. This fi...
30/04/2026

Joint inflammatory cells release tiny biological vesicles that worsen cartilage damage and drive osteoarthritis. This finding delivers new early diagnostic markers and builds targeted vesicle therapies to treat aging joint disease effectively.😀

Bone Research
https://www.nature.com/articles/s41413-025-00502-4

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