Disease-modifying osteoarthritis drug

A disease-modifying osteoarthritis drug (DMOAD) is a drug that would inhibit or even reverse the progression of osteoarthritis.[1] Since the main hallmark of osteoarthritis is cartilage loss, a typical DMOAD would prevent the loss of cartilage and potentially regenerate it. Other DMOADs may attempt to help repair adjacent tissues by reducing inflammation. A successful DMOAD would be expected to show an improvement in patient pain and function with an improvement of the health of the joint tissues[2].

Approved for human use

There are currently no DMOADs approved for human use.

Drugs with undergoing human trials

Drug Mechanism of Action Status Investigator(s)
SM04690 / Lorecivivint[3] Wnt pathway inhibitor Phase 2 study completed, showing improvement in pain, function and joint space width.[4]

Phase 3 study started in May 2019.[5]

Samumed
KA34 / Kartogenin Induces MSCs to differentiate into chondrocytes[6] Phase 1 study started in May 2018 to evaluate safety of kartogenin in humans.[7] Calibr[8]
UBX0101 p53/MDM2 inhibitor, induces apoptosis of senescent cells to create a favourable healing environment[9] Phase 1 study complete in June 2019,[10] results were encouraging leading to plans for a phase 2 study. Unity Biotechnology
BMP7 Supports transcription of osteogenic genes[11] Phase 1 study completed in 2010.[12]

Phase 2 study completed in 2015,[13] suggesting the ability to prevent cartilage loss.

Ember Therapeutics[14]
FGF-18 / Sprifermin Promote chondrogenesis through fibroblast growth factor receptor FGFR3[15] Phase 2 study completed in 2017, with results failing to show improvement in pain or function. It did however show prevention of cartilage loss meaning it may be able to be used as a prevention. Merck

Nordic Biosience

TPX-100 23-amino acid peptide that induces articular cartilage proliferation[16] A study of 93 patients revealed only 10% of them observed an increase in articular cartilage thickness but ~60% decreased their use of pain medication.[17] OrthoTrophix
LNA043 Chondrogenesis enhancer[18] Phase 1 study started in 2015.[19] Novartis
GLPG1972 ADAMTS-5 inhibitor Phase 1 study completed in 2019.

Phase 2 study started in 2019.[20]

Galapagos
MIV-711 Cathepsin K inhibitor[21] Phase 2 study completed in 2019, showing prevention of cartilage damage but did not show reduction in patient pain.[22] Medivir
Invossa-K Cell/Gene therapy Human studies halted by FDA for false ingredient claim.[23][24] Kolon Life Science
Amniotic fluid allograft (ReNU, Palingen InovoFlo, AmnioFix, Clarix Flo) Note: Amniotic fluid is not a single drug and instead contains around 226 growth factors,[25] including BMP7.

Inflammation reducer[26] and cartilage growth enhancer.[27]

Initial 6 patient study in 2015 showed improvement in pain and function.[28] A randomised controlled trial of 200 patients completed in 2019,[29] also showing improved pain and function.

A 2019 non-randomised study in 20 patients showed improvement in joint tissue health.[30]

Organogenesis

Amnio Technology

MiMedx

Amniox Medical, Inc.

Drugs under investigation

Drug Mechanism of Action Status Investigator(s)
A2M Protect chondrocytes from damage A2M inhibited catabolic activity in rats.[31]

Note: Cytonics offers autologous A2M therapy in humans but no randomised human trials have been published to date. A human trial is underway at NYU.[32]

Cytonics
SS-31 Mitoprotective peptide Study done on 2 horses[33] showed protective effects in vivo. Cornell
TD-198946 Chondrogenic factor[34] Basic science studies being carried out. University of Tokyo[35]
M6495 ADAMTS-5 inhibitor[36] Shown to protect against cartilage breakdown in cartilage and synovial joint tissue explant models[37] Merck
B001-5 ADAMTS-5 and ADAM-17 inhibitor[38] To be submitted to FDA in early 2020.[38] Guangzhou Institutes of Biomedicine and Health
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References

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  2. "New targets in osteoarthritis are about more than just pain". Biocentury Innovations.
  3. Deshmukh, V.; Hu, H.; Barroga, C.; Bossard, C.; Kc, S.; Dellamary, L.; Stewart, J.; Chiu, K.; Ibanez, M.; Pedraza, M.; Seo, T. (2018-01-01). "A small-molecule inhibitor of the Wnt pathway (SM04690) as a potential disease modifying agent for the treatment of osteoarthritis of the knee". Osteoarthritis and Cartilage. 26 (1): 18–27. doi:10.1016/j.joca.2017.08.015. ISSN 1063-4584. PMID 28888902.
  4. Yazici, Y.; McAlindon, T. E.; Gibofsky, A.; Lane, N. E.; Clauw, D. J.; Jones, M. H.; Bergfeld, J.; Swearingen, C. J.; DiFrancesco, A.; Tambiah, J. R.; Hochberg, M. (2018-04-01). "Results from a 52-week randomized, double-blind, placebo-controlled, phase 2 study of a novel, intra-articular wnt pathway inhibitor (SM04690) for the treatment of knee osteoarthritis". Osteoarthritis and Cartilage. Abstracts from the 2018 OARSI World Congress on Osteoarthritis. 26: S293–S294. doi:10.1016/j.joca.2018.02.589. ISSN 1063-4584.
  5. Horsley, Erich (May 2, 2019). "Samumed Launches Phase 3 Lorecivivint (SM04690) Clinical Program in Knee Osteoarthritis". Samumed.
  6. Kwon, Ji Ye; Lee, Seung Hoon; Na, Hyun-Sik; Jung, KyungAh; Choi, JeongWon; Cho, Keun Hyung; Lee, Chang-Yong; Kim, Seok Jung; Park, Sung-Hwan; Shin, Dong-Yun; Cho, Mi-La (2018-09-14). "Kartogenin inhibits pain behavior, chondrocyte inflammation, and attenuates osteoarthritis progression in mice through induction of IL-10". Scientific Reports. 8 (1): 13832. Bibcode:2018NatSR...813832K. doi:10.1038/s41598-018-32206-7. ISSN 2045-2322. PMC 6138726. PMID 30218055.
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Disease-modifying Osteoarthritis Drug (DMOAD)

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