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Electric nasal cavity sampling and spraying device

A technology of drug delivery device and nasal cavity, which is applied in the field of electric nasal cavity sampling drug delivery device, which can solve the problems of irritating nasal mucosa, high sampling risk, and small collection ratio, so as to achieve moist and comfortable washing, no damage to nasal mucosa, and collection of drug dosage big effect

Active Publication Date: 2015-11-18
南京润尼科博生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

3. After sampling, the virus sample will be trapped inside the fiber structure of the cotton swab sampling head, which is difficult to release and has a small collection ratio, so sometimes multiple sampling is required to reach the test volume
4. Because the epidermis of the nasal cavity is relatively weak, after the cotton swab is inserted into the nasal cavity, mechanical wiping will irritate the nasal mucosa. Improper force control will easily damage the nasal mucosa and cause bleeding
5. The quality of cotton swabs is uneven, improper operation may fall off, resulting in aspiration, and the risk of sampling is high
However, many nasal sprays are difficult to accurately reach the ideal site

Method used

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  • Electric nasal cavity sampling and spraying device
  • Electric nasal cavity sampling and spraying device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] An electric nasal cavity sampling dispenser, such as figure 1 As shown, it includes a washing liquid container 1, an upper cover 2, an electric control board 3, a water pressure pipe 4, a water introduction pipe 5, and an inner cover 6.

[0033] The rinsing liquid container 1 is a double-layer high borosilicate glass bottle with a volume of 200-250 ml. The upper part of the washing liquid container 1 is provided with an opening, and the cross section is a double-layer circular shape, a double-layer oval shape, or a double-layer rectangular shape.

[0034] The upper cover 2 is made of polypropylene, and the upper cover 2 is detachably connected to the opening of the washing liquid container 1, and the connection form is threaded connection, or connected by a buckle and a snap ring. A sealing ring is provided at the connection between the washing liquid container 1 and the upper cover 2. A tapered liquid outlet 21 is provided on the upper part of the upper cover 2, and the li...

Embodiment 2

[0040] The difference between this embodiment and the first embodiment is that the upper cover 2 is not separately provided with an internal thread, and an internal thread matching the washing liquid container 1 is provided through the inner cover 6 and is detachably connected to the washing liquid container 1.

Embodiment 3

[0042] The difference between this embodiment and embodiment 1 and embodiment 2 is that the electric nasal cavity sampling and applicator also includes a sampling disk (not shown in the figure). The center of the sampling disk is provided with a center hole, and the inner diameter of the center hole and the upper cover 2 or the outer wall of the tapered liquid outlet 21 is matched, and the central hole has an upwardly extending drainage edge that matches with the outer wall of the upper cover 2 or the tapered liquid outlet 21.

[0043] The method of use of the present invention is as follows:

[0044] 1. Wash your hands and prepare a cleaning solution in other containers. In this embodiment, physiological sea salt is used as an example, and the preparation temperature is about 37°C.

[0045] 2. Pour the adjusted sea salt water into the rinsing fluid container, and tighten the rinsing fluid container and the upper cover.

[0046] 3. Align the liquid outlet at the top of the upper cover...

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PUM

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Abstract

The invention discloses an electric nasal cavity sampling and spraying device which comprises a flushing fluid container, an upper cover, an electric control panel, a water pressing pipe and a water diversion pipe. The upper cover is detachably connected to an opening of the flushing fluid container. The upper portion of the upper cover is provided with a conical liquid outlet. The liquid outlet is connected with the water diversion pipe with the lower portion extending into the flushing fluid container. The electric control panel is connected to the inner side of the upper cover in a sealed waterproof mode. The electric control panel comprises a battery, a driving pump, a control unit and a switch assembly. The output end of the driving pump is connected with a water pressing pipe with the lower portion extending into the flushing fluid container. A charging port of the battery and a control button of the switch assembly are fixed to a slot formed in the upper cover in advance. The upper cover is provided with an inner cover for protecting the electric control panel. The inner cover is stuck to the upper cover in an interference fit mode. According to the electric nasal cavity sampling and spraying device, the output air pressure of the driving pump is electrically controlled, flushing fluid is pressed out by means of the pressure difference to flush the nasal cavity of a patient, and a virus sample flows out of the nasal cavity on the other side under the circulated flushing. Flushing is carried out through the flushing fluid, the patient feels more moist, more comfortable and moderate and has no drying or stimulation feeling, and the nasal mucosa is not damaged.

Description

Technical field [0001] The invention relates to a medical auxiliary device, in particular to an electric nasal cavity sampling and drug delivery device. Background technique [0002] Transmission through the respiratory tract is one of the main transmission routes of infectious diseases. Including SARS, bird flu, influenza A and other diseases that seriously endanger public health. Viruses, bacteria or other microorganisms transmitted through the respiratory tract are mostly excreted through respiratory secretions, transmitted through oral fluids, sneezing, contact, and transmitted through air droplets. The peak of infection is in autumn and winter and early spring. The droplets carrying pathogenic microorganisms adhere to the mucous membrane of the nasal cavity and then infect the patient. The detection of pathogens in the human nasal cavity or respiratory tract has important clinical significance. These tests require laboratory methods to sample and extract nasal secretions ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B10/02A61M31/00A61H35/04
Inventor 白向阳
Owner 南京润尼科博生物科技有限公司
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