DOLAR
18,5052
EURO
17,7179
ALTIN
963,32
BIST
3.276,47
Adana Adıyaman Afyon Ağrı Aksaray Amasya Ankara Antalya Ardahan Artvin Aydın Balıkesir Bartın Batman Bayburt Bilecik Bingöl Bitlis Bolu Burdur Bursa Çanakkale Çankırı Çorum Denizli Diyarbakır Düzce Edirne Elazığ Erzincan Erzurum Eskişehir Gaziantep Giresun Gümüşhane Hakkari Hatay Iğdır Isparta İstanbul İzmir K.Maraş Karabük Karaman Kars Kastamonu Kayseri Kırıkkale Kırklareli Kırşehir Kilis Kocaeli Konya Kütahya Malatya Manisa Mardin Mersin Muğla Muş Nevşehir Niğde Ordu Osmaniye Rize Sakarya Samsun Siirt Sinop Sivas Şanlıurfa Şırnak Tekirdağ Tokat Trabzon Tunceli Uşak Van Yalova Yozgat Zonguldak
İstanbul
Açık
28°C
İstanbul
28°C
Açık
Perşembe Açık
27°C
Cuma Az Bulutlu
25°C
Cumartesi Az Bulutlu
25°C
Pazar Az Bulutlu
23°C

How does Nanocargo breast cancer technology differ from current therapies?

The new prize-winning Nanocargo breast cancer technology developed in Poland has been widely praised – but how does it differ from current …

How does Nanocargo breast cancer technology differ from current therapies?
18.08.2022 16:17
A+
A-

The new prize-winning Nanocargo breast cancer technology developed in Poland has been widely praised – but how does it differ from current therapies?

In this week’s Futuris, we spoke to Dr Joanna Bauer, assistant professor of biomedical engineering at the Wrocław University of Science and Technology, to find out.

“Normally, when we have a patient with breast cancer, the first procedure is usually surgery. This is accompanied by chemotherapy and radiotherapy.

“The difference between this classic approach and our approach is that our approach is absolutely novel, because we direct our nanoparticles directly to the cancer.

Dr Joanna Bauer heads the team at Wroclaw University of Science and Technology

“This means that we do not need surgery at all, and these nanoparticles carry the medicine directly into the cancer. But they are also formulated in such a way that they recognise cells in an intelligent way, so they do not attach themselves to healthy cells.

“In addition to the fact that we apply a treatment, we also use light and a magnetic field, and it is this light and magnetic field that together cause us to overheat the cancer cells and thus destroy them, inside, without the need for surgery,” she explained.

Yorumlar

Henüz yorum yapılmamış. İlk yorumu yukarıdaki form aracılığıyla siz yapabilirsiniz.