CN113082442A - Bionic nasal concha - Google Patents

Abstract

Translated fromChinese

本发明提供了一种仿生鼻甲，包括顺次相连的固定段、连接段及鼻甲段。固定段放置在患者的鼻前庭内；连接段穿过患者的鼻阀，一端连接鼻前庭内的固定段，另一端连接下鼻道的鼻甲段；鼻甲段放置在下鼻道模拟人体鼻甲。鼻甲段通过固定段固定在下鼻道，防止滑入鼻咽部。鼻甲段包括框架及框架内的内芯，将内芯包裹在框架内，便于将鼻甲段推入下鼻道，而存蓄有生理盐水的内芯对吸入的空气进行加湿，而经过仿生鼻甲的空气亦可与仿生鼻甲交换热量。实现了仿生鼻甲对吸入空气的加湿加温，有效改善空鼻症患者的症状。

The invention provides a bionic turbinate, comprising a fixed segment, a connecting segment and a turbinate segment which are connected in sequence. The fixed segment is placed in the patient's nasal vestibule; the connecting segment passes through the patient's nasal valve, one end is connected to the fixed segment in the nasal vestibule, and the other end is connected to the turbinate segment of the inferior meatus; the turbinate segment is placed in the inferior meatus to simulate the human turbinate. The turbinate segment is fixed to the inferior meatus by a fixed segment to prevent sliding into the nasopharynx. The turbinate segment includes a frame and an inner core in the frame, and the inner core is wrapped in the frame to facilitate pushing the turbinate segment into the lower meatus, while the inner core storing the normal saline humidifies the inhaled air, and the bionic turbinate Air can also exchange heat with the bionic turbinates. The humidification and heating of the inhaled air by the bionic turbinate is realized, and the symptoms of patients with empty nose syndrome are effectively improved.

Description

Bionic nasal concha

Technical Field

The invention relates to the technical field of medical appliances for otolaryngology, in particular to a bionic turbinate.

Background

The nasal cavity of human beings starts from the nostril and ends at the posterior nostril and is communicated with the nasopharynx. The nasal cavity is divided into a left cavity and a right cavity by the nasal septum, and each nasal cavity is divided into a nasal vestibule and an inherent nasal cavity. The surface of the nasal vestibule is covered with skin, the surface of the inherent nasal cavity is covered with mucosa and contains secretory glands and abundant blood vessels, particularly the inferior turbinate, the mucosa covered on the surface is thicker, and the blood vessels are abundant under the mucosa, so that the inhaled air can be heated and humidified, and the stimulation and damage caused by the fact that low-temperature and dry air is directly inhaled into the lower respiratory tract are avoided.

The excessive excision of nasal turbinates caused by different reasons or the atrophy of nasal turbinates caused by certain diseases can cause the reduction of nasal resistance and the weakening of the warming and humidifying functions of the nasal cavity, thereby causing 'nose-air disease'. The 'empty nose' patients have nasal obstruction, nasal cavity, nasopharynx and pharyngeal dryness, some patients have suffocation, concentration failure, fatigue, dysphoria, anxiety, depression, nasal discharge, bloody secretion, malodor, hyposmia and other symptoms, the life quality is obviously reduced, and some patients even suicide.

At present, the clinical treatment of the 'nose disease' mainly adopts an operation method, and the nasal cavity is reduced and the symptoms are improved by implanting a prosthesis. However, due to rejection of the implant material, the surgical effect is often not ideal, the surgical cost is high, and the patient is still required to suffer from the pain of the surgery, so that the method cannot be popularized.

In view of this, how to enable an empty nose patient to well humidify and warm air inhaled into a nasal cavity under the premise of avoiding an operation is a popular subject of research by a rhinologist in the recent years.

Disclosure of Invention

The invention aims to provide a bionic turbinate.

The invention aims to solve the problems that the nasal resistance of an empty nose patient is reduced, and the inhaled air is too low in temperature and dry.

In order to solve the problems, the invention is realized by the following technical scheme:

a bionic turbinate comprises a fixed section, a connecting section and a turbinate section which are connected in sequence, wherein the turbinate section is placed in the inferior nasal meatus of a patient, the turbinate section comprises a frame and an inner core accommodated in the frame, and the inner core is used for storing physiological saline; the fixing section is placed in the nasal vestibule of a patient, the fixing section is provided with a through hole, and the through hole is used for air circulation of the nasal cavity of the patient; the connecting section is connected between the turbinate section and the fixing section, and the connecting section penetrates through a nasal valve of a patient.

Furthermore, the frame is a tubular strip adapted to the lower nasal meatus, and a plurality of through holes are formed in the side wall of the frame.

Further, the inner wall of the frame is provided with a plurality of small columns towards the hollow inner center.

Further, the small columns are spirally arranged along the axial direction of the frame.

Further, the cross section of the frame is circular-like or elliptical-like or C-shaped; wherein, the shape of the inner core is matched with that of the frame.

Furthermore, the side wall of the frame is provided with an opening along the axial direction.

Further, the fixation section has a profile dimension that is larger than the patient's internal diameter of the nasal valve.

Furthermore, the fixed section is a circular ring, and the diameter of the circular ring is larger than the inner diameter of the nasal valve of the patient.

Furthermore, the fixed section also comprises a plurality of brackets, one end of each bracket is connected to the ring, and the other end of each bracket is connected to the circle center of the ring.

Further, the connecting section comprises at least one soft band connected between the fixing section and the turbinate section.

Compared with the prior art, the technical scheme and the beneficial effects of the invention are as follows:

(1) the bionic turbinate comprises a fixed section, a connecting section and a turbinate section which are connected in sequence. The fixed segment is placed in the nasal vestibule of a patient; the connecting section passes through a nasal valve of a patient, one end of the connecting section is connected with the fixed section in the nasal vestibule, and the other end of the connecting section is connected with the turbinate section of the inferior meatus; the turbinate section is placed on the lower nasal passage to simulate the turbinate of a human body. The turbinate section is fixed on the inferior nasal passage through the fixing section to prevent from sliding into the nasopharynx. The inner core in frame and frame is drawn together to the turbinate section, is convenient for push the turbinate section into nasal meatus down with the inner core parcel in the frame, and the inner core that stores normal saline carries out the humidification to inspiratory air, and the air through bionical turbinate also can exchange the heat with bionical turbinate. Realizes the humidification and heating of the bionic turbinate on the inhaled air, and effectively improves a series of problems caused by the empty nose disease.

(2) The small columns are spirally arranged on the inner wall of the frame, and a spiral channel is supported between the frame and the inner core by the small columns. Greatly prolongs the time of air passing through the nasal concha section, so that the air has sufficient time to absorb moisture and sufficient time to exchange heat with the frame, thereby better heating and humidifying the air.

(3) The side wall of the frame is provided with the opening along the axial direction, the inner core can be replaced more conveniently due to the arrangement of the opening, more inner cores with different cross sections can be placed on the frame, the cross section of the turbinate section can be changed, and the nasal concha section is suitable for being worn by the same patient under different scenes.

(4) The connecting section of the nasal cavity.

(5) The fixing section of the invention is a circular ring, and a bracket is arranged on the circular ring. The support has increased the stability of ring, when needs take out bionical turbinate simultaneously, when catching on the fixed segment, more has the impetus.

Drawings

Fig. 1 is a structural diagram of a bionic turbinate according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of a biomimetic turbinate according to a first embodiment of the present invention.

Fig. 3 is a structural diagram of a turbinate section according to a second embodiment of the invention.

Fig. 4 is a cross section of a turbinate section provided in a third embodiment of the invention.

Fig. 5 is a cross-section of yet another turbinate section provided in accordance with a third embodiment of the invention.

Fig. 6 is a cross-section of yet another turbinate section provided in accordance with a third embodiment of the invention.

Fig. 7 is a structural diagram of a bionic turbinate according to a fourth embodiment of the invention.

Fig. 8 is a structural diagram of a fixing section according to a fifth embodiment of the present invention.

Illustration of the drawings:

turbinate segment-1; frame-10; a through hole-11; -12, an opening; an inner core-13; pillar-14;

a fixed section-2; ring-20; bracket-21;

a connecting section-3; soft belt-30.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, a bionic turbinate is used for being placed in a nasal cavity of a human body and simulating a turbinate in the nasal cavity, so that air breathing into the nasal cavity is heated and humidified, and the damage of low-temperature and dry air to the throat and the lung is reduced.

Comprises afixed section 2, a connectingsection 3 and aturbinate section 1 which are connected in sequence. Thefixed section 2 is placed in the nasal vestibule of a patient; the connectingsection 3 penetrates through a nasal valve of a patient, one end of the connecting section is connected with thefixing section 2 in the nasal vestibule, and the other end of the connecting section is connected with theturbinate section 1 of the inferior meatus; theturbinate section 1 is placed in the inferior meatus to simulate the turbinate of a human body. Theturbinate section 1 is fixed on the inferior nasal meatus through thefixing section 2, and theturbinate section 1 is prevented from sliding into the nasopharynx. The contour dimension of cannedparagraph 2 is greater than patient's nasal valve internal diameter to cannedparagraph 2 has seted up the through-hole, and the through-hole is used for the circulation of air of patient's nasal cavity, ensures that the patient breathes smoothly. It can be understood that thefixing section 2 of the invention adopts a foolproof design, i.e. thefixing section 2 can not pass through the nasal valve from any direction, thus ensuring that theturbinate section 1 connected with thefixing section 2 through the connectingsection 3 can not slide down towards the nasopharynx part, thereby causing foreign body of trachea.

In this embodiment, thefixing section 2 is acircular ring 20, the diameter of which is larger than the inner diameter of the nasal valve of the patient, so that thecircular ring 20 only moves in the nasal vestibule section and cannot pass through the nasal valve section, thereby preventing the turbinate section from sliding towards the nasopharynx part. The connectingsection 3 is a thin strip-shaped structure and penetrates through a nasal valve of a patient, and the ventilation of the nasal cavity is not affected. In other embodiments, the fixing section may also be in the shape of an ellipse, a semicircular ring, or the like, so that the fixing section cannot pass through the nasal valve of the patient.

Referring to fig. 2, the turbinate section comprises aframe 10 and aninner core 13 in the frame, wherein theinner core 13 is made of water-absorbing material and is used for storing physiological saline, so that air breathing into the nasal cavity can be humidified. Theframe 10 is a tubular strip adapted to the lower nasal passage and is made of a soft material having a certain deformation ability, such as medical silica gel, latex, etc., so as to improve the wearing comfort. Theinner core 13 is placed in the hollow accommodating cavity of theframe 10, and theframe 10 is provided with a plurality of throughholes 11, so that the contact area of theinner core 13 and air entering the nasal cavity is enlarged, and the air is more easily humidified by the turbinate section.

The inner wall of theframe 10 is provided with a plurality ofsmall columns 14 towards the hollow inner center thereof. Thecolumella 14 separates theframe 10 and theinner core 13, the air sucked into the nasal cavity partially enters from one end of thenasal concha section 1, passes through the space between theinner core 13 and the inner wall of theframe 10, namely the space supported by thecolumella 14, the air passes through the surface of theinner core 13, the moisture of theinner core 13 humidifies the air flowing through, and then flows out from the other end of the nasal concha section and enters the nasopharynx part and the lung.

Example two

Referring to fig. 3, this embodiment is further improved on the basis of the first embodiment, in this embodiment, thesmall columns 14 are arranged spirally along the axial direction of theframe 10, that is, thesmall columns 14 support a spiral channel between theframe 10 and theinner core 13. Part of air circulates to nasopharynx portion and lung behind this spiral passage, and this spiral passage has prolonged the time that the air passes through the turbinate section greatly for the air has abundant time to absorb moisture, has sufficient time to go to exchange the heat with the frame, thereby the better effect of heating the humidification to the air. And the spiral channel is arranged, so that the air is ceaselessly turned, and the inner core can well adsorb dust contained in the air.

EXAMPLE III

Referring to fig. 4 to 6, the present embodiment is further modified based on the first embodiment or the second embodiment, the cross section of theframe 10 in the present embodiment may be circular-like, elliptical-like or C-shaped to mainly adapt to the shape of the nasal cavity and the wearing comfort, and it can be understood that the shape of theinner core 13 is adapted to the shape of theframe 10.

Theopening 12 has been seted up on the lateral wall offrame 10, andopening 12 is seted up along the axial offrame 10, and the cross section offrame 10 is non-closed ring promptly, opens opening 12, is convenient for changeinner core 13 to the size of opening 12 changes the holding capacity offrame 10, makesframe 10 can place theinner core 13 of the cross section of equidimension not, and then changes the holistic cross section ofturbinate section 1, changes the size ofturbinate section 1 promptly. The same patient has different inspiratory volumes in different states, for example, the inspiratory volume is large during running exercise, so a bionic turbinate with a small cross section is needed, and the bionic turbinate with a large cross section is needed when the patient is in rest, sleep or cold and breathes slowly. Through the setting ofopening 12, be convenient for adjust the size of bionical turbinate cross section to adapt to different scenes.

Example four

Referring to fig. 7, the present embodiment is further improved on the basis of the first embodiment, the second embodiment or the third embodiment, and theconnection segment 3 of the present embodiment includes two soft belts. Two soft belts are symmetrically connected at one end of thering 20 and theframe 10, so that when thering 20 is hooked to pull theturbinate section 1, the stress of theturbinate section 1 is balanced, and the turbinate section is more easily and stably pulled out of the nasal cavity. In other embodiments, the connectingportion 3 may be three soft bands, forming a triangular pyramid between thering 20 and theframe 10, which is most stable as known, so that theturbinate section 1 can be pulled out of the nasal cavity via thefixation portion 2.

EXAMPLE five

Referring to fig. 8, the present embodiment is further improved on the basis of the first embodiment or the second embodiment or the third embodiment or the fourth embodiment, and thefixing section 2 of the present embodiment includes aring 20 and two ormore brackets 21 connected between thering 20 and the center of thering 20. Thesupport 21 improves the stability of thering 20 and plays a certain supporting role for thering 20. Moreover, when the bionic turbinate needs to be taken out, thering 20 is attached to the inner wall of the nasal vestibule, so that the force is poor no matter the bionic turbinate is hooked by hands or other instruments, the mucous membrane layer on the inner wall of the nasal vestibule is easy to be injured, and thebracket 21 between thering 20 and the circle center provides a good force point for a medical hook or a finger, so that the bionic turbinate is convenient to take out.

The bionic turbinate is used as follows: the surface of the turbinate section of the bionic turbinate is coated with medical lubricating oil, the turbinate section is gently pushed into the nasal cavity, the position is adjusted, the fixedsection 2 is fixed in the nasal vestibule, the connecting section penetrates through the nasal valve, and the turbinate section is positioned in the inferior nasal passage. Then, normal saline is dripped towards the turbinate section until the inner core is saturated with the normal saline. Then, the bionic turbinate humidifies and heats the inhaled air. After the normal saline in the inner core is volatilized, the normal saline is dripped again. The bionic turbinate can be taken out by hooking the fixed section with fingers or other instruments, so that the disinfection of the bionic turbinate and the replacement of the inner core are facilitated.

According to the bionic turbinate, the inner core is wrapped in the frame, so that the turbinate section is conveniently pushed into the lower nasal passage, the through hole and the columella are arranged on the frame, the contact area of air and the inner core is greatly increased, and the air humidifying effect of the bionic turbinate is better. And the arrangement of the fixed section ensures that the turbinate section is stably fixed on the inferior nasal meatus and is easy to take out, thereby greatly increasing the practical safety and convenience. The bionic turbinate has a simple structure, is convenient to use, can effectively solve series problems caused by the nose disease, and is worthy of being widely popularized.

While the above description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A biomimetic turbinate, comprising:

the nasal concha section is placed in the inferior nasal meatus of a patient and comprises a frame and an inner core accommodated in the frame, and the inner core is used for storing physiological saline;

the fixing section is placed in the nasal vestibule of a patient and provided with a through hole for air circulation of the nasal cavity of the patient;

a connecting section connected between the turbinate section and the fixation section, the connecting section passing through a nasal valve of the patient.

2. The biomimetic turbinate according to claim 1, wherein the frame is a tubular strip adapted to fit the inferior meatus, and a plurality of through holes are provided in a side wall of the frame.

3. The biomimetic turbinate according to claim 2, wherein the inner wall of the frame is provided with a plurality of small columns towards the hollow center thereof.

4. A biomimetic turbinate according to claim 3, wherein the pillars are arranged helically along the axial direction of the frame.

5. The biomimetic turbinate according to claim 1, wherein the frame is circular-like or elliptical-like or C-shaped in cross-section; wherein the shape of the inner core is matched with that of the frame.

6. The biomimetic turbinate according to claim 2, wherein the side wall of the frame is open along an axial direction thereof.

7. The biomimetic turbinate according to claim 1, wherein the fixed segment has a profile dimension greater than an inner diameter of a nasal valve of the patient.

8. The biomimetic turbinate according to claim 7, wherein the fixation section is a circular ring having a diameter greater than an inner diameter of a nasal valve of the patient.

9. The biomimetic turbinate according to claim 8, wherein the fixing section further comprises a plurality of supports, one end of each support is connected to the ring, and the other end of each support is connected to the center of the ring.

10. A biomimetic turbinate according to claim 1, wherein the connecting section comprises at least one soft strap connected between the fixation section and the turbinate section.

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