Answer:
Applications of liposome-based formulations and products cover a wide variety of delivery systems as they are able to incorporate a series classes of substances such as anticancer drugs, antiviral, antibacterial, hormones, enzymes, steroids, nucleotides, peptides, proteins and bronchodilators. Liposomes are characterized as an advanced technology to deliver active molecules to the site of action with reduced side effects and enhanced efficacy, which is particularly vital for tumors and inflammations therapy. Advanced liposome delivery undertakes a highly engineered approach that, by tailoring constituent bilayer lipid compositions, lamellarity, bilayer curvature, as well as surface modification, enables active or passive targeting with excellent precision. These modified liposomes can increase circulation time (e.g. stealth liposomes), improve delivery of poorly soluble drugs (e.g. pharmacosomes), and enhance their elasticity through skin penetration (e.g. transferosomes and ethosomes). With the advancement of technologies in medicine, liposomes are expected to play an even more important role in battling with difficulties in formulation development of drug delivery.
Explanation:
https://www.creative-biostructure.com/liposomes-in-drug-delivery-491.htm
Answer: B. taking the first complete cores of deep-sea sediments.
Explanation:
The Glomar Challenger was regarded as the first research vessel that was designed for drilling into the ocean and then take core samples from it.
Therefore, based on the options given, the Glomar Challenger (Joides Resolution) is known mainly for taking the first complete cores of deep-sea sediments.
Therefore, the correct option is B.
Dependent. Density dependent factors is what is being described.
Answer:
great danger
beacause lynx and bears can eat you alive
