The TSK Low Dead Space Hub 33G x 9mm is an innovative sharp needle with a patented design that minimizes the dead space in the needle hub, effectively reducing it to almost zero. This unique needle hub design offers remarkable cost savings, especially when administering high-cost drugs. Each pack includes 100 sharp needles, each with a 33G gauge and a length of 9mm. This generous quantity ensures an ample supply of needles for medical procedures and allows healthcare professionals to take full advantage of the cost-saving benefits provided by the Low Dead Space Hub design. One of the key benefits of the TSK Low Dead Space Hub needle is its ability to save up to 0.08ml of medication per needle. By minimizing the space left behind in the needle hub, this design helps to reduce medication waste, resulting in significant cost savings. With more precise and efficient drug delivery, healthcare providers can optimize medication usage and minimize unnecessary expenses. The TSK Low Dead Space Hub needle also minimizes product loss. Its unique hub design ensures that the intended dosage of medication is accurately delivered to the patient, reducing the potential for wastage. This feature is particularly important when administering toxins or other high-value drugs where precise dosing is critical. The TSK Low Dead Space Hub needle is specifically designed for use with toxins and is suitable for various other medical applications as well. Its patented design sets it apart from conventional needles, making it a valuable tool for healthcare professionals seeking to improve medication delivery, minimize waste, and achieve cost efficiencies. In summary, the TSK Low Dead Space Hub 33G x 9mm is a patented sharp needle with a design that significantly reduces dead space in the needle hub. With the potential to save up to 0.08ml per needle, it offers remarkable cost savings when administering high-cost drugs. This needle is ideal for healthcare providers looking to optimize medication usage, minimize waste, and ensure accurate dosing, particularly in the context of toxins or other valuable medications.