Hydrogel-Based Drug Delivery Nanoparticles with Conventional Treatment Approaches for Cancer Tumors; A comparative study using MCDM Technique

Onakpojeruo, Efe Precious; Uzun, Berna; Ozsahin, Dilber Uzun

doi:10.21203/rs.3.rs-2116197/v1

Cited by 3 publications

(2 citation statements)

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“…Hydrogel-based therapy: The most cutting-edge, precise, and safe anticancer medication delivery method is this one. Hydrogels enable you to give targeted doses only to affected sites, in contrast to traditional cancer therapies that target both cancer and healthy cells [7]. The use of hydrogels in conjunction with chemotherapy, surgery, or radiation treatment is possible even though they cannot completely cover large tumors, particularly those that are larger than 10 cm [14].…”

Section: Mechanism and Control Surfacesmentioning

confidence: 99%

“…Researchers and scientists have successfully used hydrogels to circumvent the drawbacks of inefficient drug delivery systems and problematic localized drug administering systems [3]. Hydrogels have proven to be highly dependable and biocompatible materials that allow innovative design to simultaneously offer smart sensing and treatment [7]. Smart hydrogels can respond to environmental signals like temperature, pH, light, and ultrasound to create a controlled and sustained drug delivery environment that greatly improves the efficiency and convenience of the release of antitumor agents [8].…”

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confidence: 99%

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A comparison analysis using the MCDM technique using Hydrogel-Based Drug Delivery Nanoparticles as Traditional Therapeutic Approaches to Cancer Tumors

Rao¹

2023

jmc

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Uncontrolled division of abnormal cells in a particular region of the body leads to cancer, a disease that worsens or kills off cells. This could result in the recipient carrier dying. The majority of cancer patient deaths have been associated with the systematic administration of therapeutic agents (chemotherapy) and other conventional methods, which is the preferred treatment approach for cancer therapy. The mortality of this therapy is associated with side effects, off-target accumulation, toxicity, and rapid renal and hepatic clearance. Scientists have recently studied tumor site targeting and better retention of constant drug delivery to tumors in order to minimize side effects and toxicity-related challenges. Ingenious drug delivery methods for cancer therapy have been developed by scientists and researchers using water-containing polymers known as hydrogels. These drug transport systems' network-like structure and biological tissue-like consistency allow the drugs loaded into them to remain in a relatively stable condition. This study compares hydrogel-based drug delivery systems with other conventional cancer therapy approaches using the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) way of multicriteria decision making (MCDM). Based on specific criteria with given importance weights, a comparison is made. This study shows that by offering additional alternatives and criteria with availability and significance weights, the approach taken can be made more helpful and helpful in offering remedies to healthcare decision-makers facing ambiguous problems. Individual cancer sufferers' specific medical conditions.

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Section: Mechanism and Control Surfacesmentioning

confidence: 99%

mentioning

confidence: 99%