December 12, 2024

Basics of biologics

Biological medications, or biologics for short, are a type of pharmaceuticals made from living systems like microorganisms, plant, or animal cells. Biologics are governed by US Food and Drug Administration (FDA) regulations, just like any other medications. They are often bigger, more complicated compounds than “small molecule” medications like aspirin. Typically, biologics are given via infusion or injection. In cancer care, the majority of biologics are administered under the strict supervision of a medical practitioner.

Read More: Biologic drug manufacturing

Since the 1980s, biologics have been employed in medicine and have been a component of cancer treatment for a very long time. There are several ways that biologics can be utilized to treat cancer. Immunotherapy is one method that supports the body’s immune system in combating cancerous cells. Certain biologics are engineered to impede the growth and advancement of tumors, or even facilitate the body’s recuperation from prior anti-cancer therapies.

Producing biologics

The process of creating duplicates of a specifically modified live cell yields biologics. The first step in this procedure is to cultivate the cells in a facility under strict supervision. The cells in this intricate system produce the proteins that will make up the medication. Following this phase of cell development, which can take several weeks and necessitates continuous observation, the medicine’s constituent protein is removed and refined until the ultimate biologic drug is achieved. The resultant product demonstrates the intricacy of biologics. A biologic can have more than 25,000 atoms in it, whereas a small molecule medication like aspirin can have as little as 21 atoms.

Every biologic dosage varies somewhat as it is difficult to ensure that every batch produced will be exactly the same as the previous due to the utilization of living cells in the biologics production process. This contrasts with tiny molecule medications, which are produced by identical copying operations in chemical processes. Owing to these minute changes, biologics producers invest large sums of money to guarantee that all patients will respond to their products in a predictable manner. They do this by using unique procedures that account for inherent variances and result in a consistently safe and efficient product.

Examining the distinction between a bottle of wine (a biologic stand-in) and a bottle of sports drink (a small molecule medication stand-in) will help you think about this. The biological process that turns grapes into wine is influenced by a variety of elements, such as the soil, the weather, and even the day the grapes were harvested. A vineyard makes great efforts to create a product of superior quality, even if variances could exist from year to year or from bottle to bottle. In contrast, a sports drink is made using a highly unique combination of components that can be exactly repeated in several factories across the nation, day after day, and year after year. Naturally, biologic medication manufacturers are subject to far stricter FDA regulations about product variability than wine producers are, and they must adhere to very strict guidelines. It’s not a perfect parallel, but it helps you appreciate the distinctions between biologics and small molecule medications.

FDA approval procedure for biologics

Biologics are subject to FDA regulation and approval, just like any other medication. Biologics are thoroughly evaluated in the lab before to approval, and they are subsequently put through additional testing in patient-centered clinical trials. The safety and effectiveness of the biologics are established using the data from these trials. The FDA pays special attention to the manufacturing processes involved to guarantee that a consistent product can be produced, given their complexity and potential for fluctuation.

The FDA will only approve a biologic if it finds that the sponsor, or maker, has demonstrated that the product is “safe, pure, and potent,” and that the production facilities follow good manufacturing procedures. “Purity” is ascertained by ensuring the product is devoid of “extraneous matter,” “potency” is ascertained by evaluating the biologic’s efficacy in treating the relevant condition, and “safety” is decided by weighing the product’s advantages against its hazards.

Biologics and cancer therapy

Because biologic medicines may target certain characteristics of cancer cells, they are valuable tools in the fight against cancer. Numerous biologics combat cancer by either directly or indirectly boosting the patient’s immune system. One of the most sophisticated biologics, monoclonal antibodies, can be utilized to identify and mark cancer cells for eradication by the immune system. These biologics often have fewer hazardous side effects, fewer or more tolerable adverse effects, and may not destroy as many healthy cells as traditional medication therapies.

Some biologics, like antibodies, function as supportive care and help lessen the negative effects of radiation or chemotherapy while others target cancer cells for death. Colony-stimulating factors (CSFs) are one family of biologics that promote bone marrow proliferation and division. Furthermore, CSFs can assist patients undergoing chemotherapy tolerate greater, more effective dosages of their therapies and boost the body’s supply of white blood cells that fight infections.

Basics of biosimilars

A biologic product created to be extremely similar to a reference product that was previously FDA-approved is referred to as a biosimilar. There must be no clinically significant variations between a biosimilar and the reference product.

If a biosimilar meets the reference product’s standards for potency, safety, and purity under the intended usage circumstances, it is deemed to be extremely comparable to the reference product. The producer conducts a battery of tests and studies aimed at comparing the biosimilar to the reference product in order to demonstrate the biosimilar’s safety, purity, and potency. The product must match the reference product’s mode of action (how it functions in the body), dosage form (such as liquid), method of administration (such as injection or infusion), and strength in order to be authorized by the FDA as a biosimilar.

There could be a few small variations between the reference product and the biosimilar, such as variations in the drug’s therapeutically inactive ingredients. When comparing the biosimilar to the reference product, the FDA assesses these variations to make sure the biosimilar’s efficacy remains unchanged.

Similar to the reference product, the FDA gives the biosimilar’s manufacturing process a lot of attention. Variations of a slight kind are anticipated. The FDA does, however, mandate that these differences be closely regulated, tracked, and maintained within allowable bounds.

A further prerequisite for biosimilars is that they must not differ from the reference product in any way that is clinically significant. This implies that a patient’s bodily reaction to the biosimilar will be identical to that of the reference medication. By contrasting elements like immunogenicity—the immune system’s reaction to the drug—pharmacokinetics—how the body absorbs, metabolizes, or excretes the drug—and pharmacodynamics—the impact the drug has on the body and the illness—the biosimilar’s manufacturer, or sponsor, demonstrates this.