Table 2.
Advantages and disadvantages of physical methods of nonviral gene delivery.
| Techniques | Advantages | Disadvantages |
|---|---|---|
| Microinjection | Allows delivery of large amount of genetic material, convenient, simple, cost-effective, less toxic, and reproducible | Special handling technique is required and cannot be used for large number of cells transfection |
| Needle injection | Simple to perform and requires small amount of DNA | Therapeutic efficacy is quite low and is difficult to conduct |
| Jet gun | Noninvasive, safe, and easily controllable | Causes local tissue damage and efficiency is low |
| Gene gun | Nontoxic, highly effective, and allows gene delivery to cells that are difficult to transfect | Limited to superficial cells and cannot be used for gene delivery to cells where deep penetration is required |
| Electroporation | Fast, effective, reproducible, and allows delivery of large quantities of DNA | Requires surgery, risk of DNA damage due to exposure to high voltage, and highly localized |
| Nucleofection | Fast and efficient in cases where cell membranes are difficult to permeate | Very limited application for in vivo gene delivery and can be highly toxic |
| Sonoporation | Noninvasive, capable of reaching deep tissues and organs, can be used for specific local targets, and capable of crossing blood–brain barrier | Efficiency is relatively low and target cells can be damaged |
| Hydrodynamic gene transfer | Simple and very efficient in deliver of gene to liver cells | Injection volume required is very large and clinically not feasible |
| Magnetoporation | Noninvasive and capable of reaching cells that are deep and demand complex transfection | Special equipment is required, preparation of magnetic vectors is complex, and magnetic reagent can cause toxicity after removal of magnetic field |
| Mechanical Massage | Simple, noninvasive, and easy to apply | Efficiency is low and application is not yet available for humans |