RT @NeurosurgUCSF: Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland,…
RT @UCSFCancer: MT @neurosurgucsf: Led by @UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of t…
RT @UCSFCancer: MT @neurosurgucsf: Led by @UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of t…
RT @UCSFCancer: MT @neurosurgucsf: Led by @UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of t…
MT @neurosurgucsf: Led by @UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland, which secretes melatonin to regulate circadian rhythms. https://t.co/mw4xKL6YXt https://t.co/4UwcflyGU6
RT @NeurosurgUCSF: Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland,…
RT @NeurosurgUCSF: Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland,…
RT @NeurosurgUCSF: Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland,…
RT @NeurosurgUCSF: Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland,…
Led by UCSF neuropathologist David Solomon, our team recently identified genetic drivers of tumors of the pineal gland, which secretes melatonin to regulate circadian rhythms. Shown here, PPTID, a rare tumor characterized by recurrent KBTBD4 mutations. htt
Recurrent KBTBD4 small in-frame insertions and absence of DROSHA deletion or DICER1 mutation differentiate pineal parenchymal tumor of intermediate differentiation (PPTID) from pineoblastoma. #neuropath https://t.co/1RQiVMc3qu