/ricerca/ansait/search.shtml?tag=
Mostra meno

Se hai scelto di non accettare i cookie di profilazione e tracciamento, puoi aderire all’abbonamento "Consentless" a un costo molto accessibile, oppure scegliere un altro abbonamento per accedere ad ANSA.it.

Ti invitiamo a leggere le Condizioni Generali di Servizio, la Cookie Policy e l'Informativa Privacy.

Puoi leggere tutti i titoli di ANSA.it
e 10 contenuti ogni 30 giorni
a €16,99/anno

  • Servizio equivalente a quello accessibile prestando il consenso ai cookie di profilazione pubblicitaria e tracciamento
  • Durata annuale (senza rinnovo automatico)
  • Un pop-up ti avvertirà che hai raggiunto i contenuti consentiti in 30 giorni (potrai continuare a vedere tutti i titoli del sito, ma per aprire altri contenuti dovrai attendere il successivo periodo di 30 giorni)
  • Pubblicità presente ma non profilata o gestibile mediante il pannello delle preferenze
  • Iscrizione alle Newsletter tematiche curate dalle redazioni ANSA.


Per accedere senza limiti a tutti i contenuti di ANSA.it

Scegli il piano di abbonamento più adatto alle tue esigenze.

Acousia Therapeutics to present its clinical Phase 2 PROHEAR study on hearing loss treatment ca

PressRelease

Acousia Therapeutics to present its clinical Phase 2 PROHEAR study on hearing loss treatment ca

PressRelease

Responsabilità editoriale di news aktuell

12 agosto 2024, 09:00

news aktuell

PressRelease - Responsabilità editoriale di news aktuell


Tübingen, Germany, August 12, 2024
Acousia Therapeutics GmbH, a Tübingen-based clinical stage biotech company focused on the enhancement and preservation of natural hearing, will be presenting the ACOU085 Phase 2 PROHEAR clinical study at the HansonWade 4th Inner Ear Disorders Therapeutics Summit in Boston (MA) from August 20–22, and at the 36th World Congress of Audiology from September 19–22, 2024.
The PROHEAR study is a placebo-controlled Phase 2a study with split-body design investigating the otoprotective efficacy of ACOU085 in patients with testicular cancer undergoing high-dose, cisplatin-based chemotherapy regimens (cis-Pt ≥300 mg/m2). Formally endorsed by the Study Group of the German Society of Otorhinolaryngology (DSZ-HNO), the PROHEAR study is being conducted across major university clinics in Germany under a CTA granted by the German Federal Institute for Drugs and Medical Devices (BfArM) and European Medicines Agency (EMA).

On August 21, Dr. Jonas Dyhrfjeld-Johnsen will be presenting the Phase 2 PROHEAR clinical study on ACOU085 at the industry-leading 4th Inner Ear Disorders Therapeutics Summit organized by HansonWade in Boston (MA) in the Discovering & Validating Brand-New Drug Targets For Noise-Induced, Age-Related & Chemically-Induced Deafness session. In addition, Dr. Dyhrfjeld-Johnsen will be chairing the Summit and participating in roundtable and panel discussions.

On September 22, Dr. Dyhrfjeld-Johnsen will be presenting the Phase 2 PROHEAR clinical study of ACOU085 to an international audience of clinical specialists at the 36th World Congress of Audiology in Paris, France during the Clinical Trials in Audiology and Otoneurology session.

“We are thrilled by the invitations to present our ongoing PROHEAR study testing the otoprotective efficacy of ACOU085 against cisplatin-induced hearing loss to the international clinical community and our industry peers. The great interest in our clinical development program is a reflection of the major unmet medical need and long-lasting health consequences facing patients suffering acute forms of hearing loss, such as the side effects induced by life-saving chemotherapy” said Dr. Jonas Dyhrfjeld-Johnsen, CDO and Managing Director of Acousia Therapeutics.

ACOU085 (INN: Bimokalner) is a first-in-class, small-molecule, etiology-agnostic otoprotective drug candidate delivered using standard, transtympanic administration of a proprietary, slow-release gel formulation. Ototoxic hearing loss is a typical, severe, and permanent side effect of cisplatin treatment and is a consequence of irreversible damage to the sensory cells in the inner ear, the so-called outer hair cells (OHCs). ACOU085 modulates a biologically validated target, the KCNQ4-encoded Kv7.4 potassium channel of the OHCs and has demonstrated significant potential to reduce cisplatin-induced hearing loss and preserve outer hair cells from ototoxicity in preclinical models.

Contact
Tim Boelke, M.D.
boelke@acousia.com
www.acousia.com
 

PressRelease - Responsabilità editoriale di news aktuell

Tutti i Press Release di Canale Salute e Benessere

Condividi

Guarda anche

O utilizza