Catheter adapter having UV-C antimicrobial radiation source and access window within catheter lumen for intravenous therapy

The invention claimed is: 1. A vascular access device, comprising: a catheter adapter having a proximal end comprising a proximal opening, a distal end comprising a distal opening, and an interior lumen forming a fluid chamber interposed therebetween, the interior lumen being defined by a sidewall that extends between the proximal and distal ends, the proximal opening and the distal opening providing access to the interior lumen, the catheter adapter further comprising an access window that extends inwardly from the sidewall into the interior lumen and terminates at an access window endwall at a first radial position within the interior lumen, the access window comprising UV-C transparent material such that UV-C radiation incident upon the access window is transmitted through the access window and into the interior lumen; a catheter having a distal end configured to be inserted into a patient's vasculature and a proximal end that extends into the distal end of the catheter adapter; and a source of UV-C radiation positioned in proximity to the access window such that UV-C radiation is emitted from the source of UV-C radiation and into the interior lumen of the fluid chamber via the access window to repress pathogenic activity in the catheter adapter; wherein the first radial position to which the access window extends is radially spaced from a longitudinal axis of the catheter adapter to thereby allow an introducer needle to extend through the catheter adapter and the catheter. 2. The vascular access device of claim 1 , wherein the sidewall comprises a UV-C reflective material. 3. The vascular access device of claim 1 , wherein an exterior surface of the catheter adapter comprises a UV-C opaque material. 4. The vascular access device of claim 1 , wherein the access window has a cylindrical shape. 5. The vascular access device of claim 4 , wherein the source of UV-C radiation comprises a lamp, and wherein the lamp extends into the access window. 6. The vascular access device of claim 1 , further comprising a housing coupled to the catheter adapter around the access window, the housing containing the source of UV-C radiation. 7. The vascular access device of claim 6 , wherein the housing comprises a flange which extends along an exterior surface of the catheter adapter. 8. The vascular access device of claim 6 , wherein the housing contains one or more batteries for powering the source of UV-C radiation. 9. The vascular access device of claim 1 , wherein the source of UV-C radiation comprises an LED lamp. 10. The vascular access device of claim 1 , further comprising intravenous tubing, wherein the proximal end is coupled with the intravenous tubing, wherein a fluid pathway comprises the intravenous tubing, the fluid chamber, and the catheter, wherein fluid in the fluid pathway flows from the intravenous tubing to the catheter via the fluid chamber. 11. An intravenous catheter assembly comprising: a catheter adapter having a proximal end comprising a proximal opening, a distal end comprising a distal opening, and an interior lumen forming a fluid chamber interposed therebetween, the proximal opening and the distal opening providing access to the interior lumen, the interior lumen being defined by a sidewall that extends between the proximal and distal ends, the catheter adapter further comprising an access window that extends inwardly from the sidewall into the interior lumen and terminates at an access window endwall at a first radial position within the interior lumen, the access window comprising UV-C transparent material such that UV-C radiation incident upon the access window is transmitted through the access window and into the interior lumen; a catheter having a distal end configured to be inserted into a patient's vasculature and a proximal end that extends into the distal end of the catheter adapter, wherein the first radial position to which the access window extends is radially spaced from a longitudinal axis of the catheter adapter to thereby allow an introducer needle to extend through the catheter adapter and the catheter; and a source of UV-C radiation contained within the access window such that UV-C radiation is emitted from the source of UV-C radiation and into the interior lumen of the fluid chamber via the access window to repress pathogenic activity in the catheter adapter. 12. The intravenous catheter assembly of claim 11 , wherein the sidewall comprises a UV-C reflective material. 13. The intravenous catheter assembly of claim 11 , wherein an outer surface of the catheter adapter comprises a UV-C opaque material. 14. The intravenous catheter assembly of claim 11 , wherein the source of UV-C radiation is an LED. 15. A method for manufacturing a vascular access device, the method comprising: providing a catheter adapter having a proximal end comprising a proximal opening, a distal end comprising a distal opening, and an interior lumen forming a fluid chamber interposed therebetween, the proximal opening and the distal opening providing access to the interior lumen, the interior lumen being defined by a sidewall that extends between the proximal and distal ends; providing an access window that extends inwardly from the sidewall into the interior lumen and terminates at an access window endwall at a first radial position within the interior lumen, the access window comprising UV-C transparent material such that UV-C radiation incident upon the access window is transmitted through the access window and into an interior lumen of the fluid chamber; providing a catheter having a distal end configured to be inserted into a patient's vasculature and a proximal end that is contained within the distal end of the catheter adapter; and providing a source of UV-C radiation positioned in proximity to the access window such that UV-C radiation is emitted from the source of UV-C radiation and into the interior lumen of the fluid chamber via the access window to repress pathogenic activity in the catheter adapter; wherein the first radial position to which the access window extends is radially spaced from a longitudinal axis of the catheter adapter to thereby allow an introducer needle to extend through the catheter adapter and the catheter.