How Bioengineering Helps in Generating Healthy Skin

Healthy Skin

Wound healing is a biological process. If the wound healing process fails at some point, the wounds might turn to be chronic. As explained in Crepe Erase reviews, the wound healing process may become slower due to factors such as age and conditions like diabetes and obesity.

The skin plays a big role in promoting the overall wellbeing of the body. However, some skin diseases have not found treatment over the years. When the skin fails to heal fast from injuries, it becomes a distress to the patient.

Fortunately, patients of skin diseases can rest easy since recent studies show that bioengineering can regenerate the skin through stem cell techniques. Bioengineering entails using artificial tissues or organs to replace damaged body parts. Through biological and tissue engineering procedures, scientists are able to give solutions to skin diseases.

Bioengineering aims at maintaining the structural and functional role of the skin to patients with different genetic skin diseases. The following are ways in which Bioengineering helps to generate healthy skin.

  • Joins Epidermic Stem Cells into Skin

The skin contains epidemic stem cells that help it to renew itself naturally throughout one’s life. Through scientific researches, it has been found that using bioengineering techniques can help to regenerate the skin cells in the laboratory.

This happens through the combination of skin cells to create the generated skin. Through bioengineering, skincare goals are achieved. Some of the skins challenges that are overcome by bioengineering overcome include enhancement of angiogenesis, inhibition of scarring and regeneration of appendages, among others. Besides, it is believed to be effective in managing crepey skin.

  • Incorporation of Generated genes into Patients’ Genome

Patients with varying genetic skin diseases can greatly benefit from bioengineering. Researchers have found out that genetic skin diseases can heal by incorporating regenerated genes to the patients’ genome.

Once the therapeutic gene is incorporated in the patient’s genome, it takes the place of the absent gene. Also, the therapeutic gene can be used in place of a gene that is not working normally. The replacement of an absent or an abnormally working gene helps the skin to function naturally.

  • Isolation of Stem Cells from Netherton Syndrome Patients

According the recent studies, patients suffering from Netherton syndrome have been isolated from stem cells. Netherton syndrome is a genetic condition whose symptoms include excessive skin peeling, leading to the loss of the skin’s barrier function.

Netherton Syndrome patients experience dehydration and infections due to pathogens getting into their bodies through the skin. The neonatal mortality rate of Netherton syndrome patients is between ten and fifteen percent. It is the mutation of SPINK-5 gene that triggers the condition.

According to studies, SPINK-5 gene hinders the production of a skin-shedding control protein, which ensures that the skin sheds in the normal and natural way. By transferring a normal SPINK-5 gene to a Netherton Syndrome patient, normal skin peeling is experienced. That shows that the structure and function of the epidermis can be regenerated through the bioengineering technique.

Conclusion

Bioengineering has played a big role in wound care through the reduction of scars severity and restoring skin’s sensory function. Through bioengineering, patients with wounds recover faster and experience less pain. That way, their emotional and psychological health is promoted since their treatment sessions are reduced.

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