Abeona Therapeutics IncのROCEは-42.98%です。
使用資本利益率(ROCE)は、企業の収益性とその資本が使用される効率を測定する財務比率です。
Return on capital employed (ROCE) is the total amount of capital that a company has utilized in order to generate profits. It is the sum of shareholders' equity and debt liabilities. It can be simplified as total assets minus current liabilities.
ROCE is especially useful when comparing the performance of companies in capital-intensive sectors. ROCE considers debt and other liabilities as well compared to other fundamentals which only analyze profitability related to a company’s common equity. This provides a better indication of financial performance for companies with significant debt. For a company, the ROCE trend over the years is also an important indicator of performance. In general, investors tend to favor companies with stable and rising ROCE numbers over companies where ROCE is volatile and bounces around from one year to the next.
Instead of using capital employed at an arbitrary point in time, analysts and investors often calculate ROCE based on the average capital employed (ROACE), which takes the average of opening and closing capital employed for the time period.
abeona therapeutics inc. (nasdaq: $abeo), is a leading clinical-stage biopharmaceutical company focused on developing novel gene therapies for life-threatening rare genetic diseases. abeona was forged from the company’s close collaborations with key stakeholders all dedicated to transforming new biotechnology insights into breakthrough treatments for rare diseases. abeona's lead programs include abo-102 (aav-sgsh), an adeno-associated virus (aav) based gene therapy for sanfilippo syndrome type a (mps iiia) and eb-101 (gene-corrected skin grafts) for recessive dystrophic epidermolysis bullosa (rdeb). abeona is also developing abo-101 (aav-naglu) for sanfilippo syndrome type b (mps iiib), abo-201 (aav-cln3) gene therapy for juvenile batten disease (jncl), abo-202 (aav-cln1) for treatment of infantile batten disease (incl), eb-201 for epidermolysis bullosa (eb), abo-301 (aav-fancc) for fanconi anemia (fa) disorder and abo-302 using a novel crispr/cas9-based gene editing approach to gene t