CN103315713B - Negative-pressure wound treating system based on monitoring and managing of wound treating state - Google Patents

Abstract

This invention discloses a negative-pressure wound treating system based on monitoring and managing of a wound treating state, the system can detect the wound sate and make prompting according to the wound sate, and therefore a user can conveniently evaluate the recovery condition of a wound according to the wound sate to make a more reasonable and effective treating scheme, the user further can timely know abnormal conditions in the treating process according to the wound sate and perform effective processing, and medical negligence can be effectively reduced.

Description

A kind of negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring

Technical field

The embodiment of the present invention relates to medical instruments field, is specifically related to a kind of negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring.

Background technology

Negative pressure wound therapy device (Negative Pressure Wound Therapy Devices, NPWT) be a kind of medical apparatus and instruments of accelerating wound, by applying negative pressure to wound, promote the healing of wound, be widely used in the treatment of a series of Hard agglut wound, comprise acute, chronic, infected wound.

Existing negative pressure wound treating system generally includes negative pressure wound therapy device, wound external member and is used for collecting the container of wound transudate, can be called liquid-collecting bottle.Wherein, negative pressure wound therapy device is made up of, for createing the negative pressure of wound a negative pressure source and a controller; Wound external member is used for wound closure, manufactures negative pressure space.Referring to Fig. 1, is a kind of common negative pressure wound treating system shown in figure, and wherein, 101 is human body periwound skin tissue; 102 is wound implant, is used for covering human body wound; 103 is vascular closure thing, is arranged at the top of wound implant 102, for by vascular closure; 104 is connection tube; 105 is liquid-collecting bottle, for being collected the transudate from wound by connection tube 104; 106 is negative pressure source, is connected, for providing negative pressure with liquid-collecting bottle 105; 107 is controller, for controlling negative pressure source 106; 108 is negative pressure wound therapy device.

When wound does not occur to worsen, existing negative pressure wound treating system can realize accelerating wound well, but in wound treatment protocol, probably can there is the situation of wound deterioration, thus cause various untoward reaction, therefore over the course for the treatment of the supervision of Wound healing and bone regeneration state is become and be even more important, preferably can real time inspection wound status, to pinpoint the problems as early as possible and to handle accordingly.

But present wound treatment protocol is all through the isolated air of dressing wrapping mostly, doctor only could check wound when changing dressings, short then a couple of days in cycle of changing dressings normally, long then ten days first quarter moons, just be difficult to be found in time once wound deterioration over the course for the treatment of, time has been grown and will cause the symptoms such as wound infection rots, and affects therapeutic effect and even leads to grave consequences.And in the treatment, the subjective judgment Wound healing and bone regeneration effect of doctor when checking wound generally by means of oneself, so often causes judgement to have deviation or ambiguity.Therefore, in modern wound treatment protocol, be badly in need of a kind of technology or equipment, can help medical personnel solve this kind of can not accurate measurements Wound healing and bone regeneration state and the problem caused in real time.

Summary of the invention

Embodiments provide a kind of negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring, the granulation situation of wound can be detected, and make prompting according to the granulation situation of wound, thus user can be facilitated to judge assess wound recovery according to the granulation situation of wound, to formulate more rationally effective therapeutic scheme, also can according to the granulation situation of wound, unusual condition in timely understanding therapeutic process also effectively processes, thus reduces the generation of malpractice.

The negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring that the embodiment of the present invention provides, comprising:

Wound parts, for filling and wound closure, are communicated with liquid-collecting bottle by connection tube;

Collecting part, is connected with described wound parts, for collecting wound fluid;

Negative pressure wound therapy device, comprises negative pressure source and controller, is connected with described collecting part, for providing negative pressure;

Wound monitoring modular, is connected with monitoring management module with described wound parts, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module;

Monitoring management module, for the treatment of the Monitoring Data that described wound monitoring modular sends;

Reminder feature, for reminding according to the result of described monitoring management module;

Described collecting part comprises connection tube and liquid-collecting bottle, and one end of described connection tube is connected with described wound parts, and the other end is connected with described liquid-collecting bottle.

Alternatively,

Described wound parts comprise implant and closure, and described implant is for filling wound, and described closure is used for wound closure.

Alternatively,

Wound monitoring modular comprises color monitoring means and particle monitoring unit;

Described color monitoring means, for monitoring the granulation color at patient wound place, obtains wound color data;

Described particle monitoring unit, for monitoring the granulation granular size at patient wound place, obtains wound granular size data.

Alternatively,

Described monitoring management module comprises receiving element, color processing unit and pellet treatment unit;

The Monitoring Data that described receiving element sends for receiving wound monitoring modular;

Described Monitoring Data comprises wound color data and wound granular size data;

Described color processing unit, for the treatment of wound color data, obtains color treatments result;

Described pellet treatment unit, for the treatment of wound granular size data, obtains particle disposal result;

Described result comprises color treatments result and particle disposal result.

Alternatively,

Described color processing unit comprises the first operator unit and the first contrast subunit;

Described first operator unit is used for according to wound color data, calculates wound color;

Described first contrast subunit is used for the wound color calculated and the color table preset to contrast, and obtains color treatments result.

Alternatively,

Described pellet treatment unit comprises the second operator unit and the second contrast subunit;

Described second operator unit is used for according to wound particle data, calculates wound granular size;

Described second contrast subunit is used for the wound granular size calculated and the particle threshold preset to contrast, and obtains particle disposal result.

Alternatively,

Described monitoring management module also comprises display unit, for showing described result.

Alternatively,

Described monitoring management module also comprises memory element, for storing described Monitoring Data by the interval preset.

Alternatively,

Described monitoring management module also comprises chart generation unit, for described Monitoring Data and result being processed into chart by the rule preset.

Alternatively,

Described monitoring management module also comprises clock unit, for recording the holdup time of dressing on wound.

Based on the negative pressure wound treating system of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention, comprising: wound parts, for filling and wound closure, being communicated with liquid-collecting bottle by connection tube; Collecting part, is connected with described wound parts, for collecting wound fluid; Negative pressure wound therapy device, comprises negative pressure source and controller, is connected with described collecting part, for providing negative pressure; Wound monitoring modular, is connected with monitoring management module with described wound parts, for monitoring the granulation situation at patient wound place and sending Monitoring Data to processing module; Monitoring management module, for the treatment of the Monitoring Data that described wound monitoring modular sends; Reminder feature, for reminding according to the result of described monitoring management; Described collecting part comprises connection tube and liquid-collecting bottle, and one end of described connection tube is connected with described wound parts, and the other end is connected with described liquid-collecting bottle.The negative pressure wound treating system that the embodiment of the present invention manages based on Wound healing and bone regeneration status monitoring, the granulation situation of wound can be detected, and make prompting according to the granulation situation of wound, thus user can be facilitated to judge assess wound recovery according to the granulation situation of wound, to formulate more rationally effective therapeutic scheme, also according to the granulation situation of wound, the unusual condition in therapeutic process can be understood in time and effectively process, thus reducing the generation of malpractice.

Accompanying drawing explanation

Fig. 1 is the structure chart of negative pressure wound treating system in prior art;

Fig. 2 is the negative pressure wound treating system first example structure figure based on the management of Wound healing and bone regeneration status monitoring in the embodiment of the present invention;

Fig. 3 is the negative pressure wound treating system second example structure figure based on the management of Wound healing and bone regeneration status monitoring in the embodiment of the present invention;

Fig. 4 is the structure chart based on the monitoring management module 305 of negative pressure wound treating system second embodiment of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention;

Fig. 5 is the local structural graph of wound detection module in wound based on the negative pressure wound treating system embodiment of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention;

In above-mentioned Fig. 1:

Human body periwound skin tissue 101, wound implant 102, vascular closure thing 103, connection tube 104, liquid-collecting bottle 105, negative pressure source 106, controller 107 and negative pressure wound therapy device 108.

Detailed description of the invention

Embodiments provide a kind of negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring, the granulation situation of wound can be detected, and make prompting according to the granulation situation of wound, thus user can be facilitated to judge assess wound recovery according to the granulation situation of wound, to formulate more rationally effective therapeutic scheme, also can according to the granulation situation of wound, unusual condition in timely understanding therapeutic process also effectively processes, thus reduces the generation of malpractice.

Refer to Fig. 2, comprise based on the first embodiment of the negative pressure wound treating system of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention:

Wound parts 201, for filling and wound closure, are communicated with liquid-collecting bottle 2022 by connection tube 2021;

Collecting part 202, is connected with wound parts, for collecting wound fluid;

Negative pressure wound therapy device 203, comprises negative pressure source 2031 and controller 2032, is connected with collecting part 202, for providing negative pressure;

Wound detection module 204, is connected with processing module 205 with wound parts 201, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module 205;

Monitoring management module 205, for the treatment of the Monitoring Data that wound detection module 204 sends;

Reminder feature 206, for reminding according to the result of monitoring management module 205;

Collecting part 202 comprises connection tube 2021 and liquid-collecting bottle 2022, and one end of connection tube 2021 is connected with implant 2011, and the other end is connected with liquid-collecting bottle 2022.

The negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring in the embodiment of the present invention, is provided with wound detection module 204, can detects the granulation situation of wound in wound.

After wound detection module 204 detects the pain degree of wound, Monitoring Data can be sent to monitoring management module 205, monitoring management module 205 can process Monitoring Data after receiving Monitoring Data, above-mentioned wound detection module 204 can be the combination of the multiple detecting unit of polytype, above-mentioned wound detection module 204 can for being evenly distributed on the small detection granule of wound, the information that above-mentioned monitoring information is detected respectively by multiple small detection granule forms, can reduce due to the inconsistent information gap brought of wound treatment situation as far as possible, after above-mentioned monitoring management module 205 pairs of Monitoring Data process, by the Monitoring Data after above-mentioned process compared with the threshold value preset, comparative result can be obtained.

After obtaining comparative result, reminder feature 206 can send prompting according to above-mentioned comparative result, and above-mentioned prompting can be sound prompting, can be also image light, not limit herein.

Based on the negative pressure wound treating system of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention, comprising: wound parts 201, for filling and wound closure, being communicated with liquid-collecting bottle 2022 by connection tube 2021; Collecting part 202, is connected with wound parts 201, for collecting wound fluid; Negative pressure wound therapy device 203, comprises negative pressure source 2031 and controller 2032, is connected with collecting part 202, for providing negative pressure; Wound monitoring modular 204, is connected with monitoring management module 205 with wound parts 201, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module 205; Monitoring management module 205, for the treatment of the Monitoring Data that wound monitoring modular sends; Reminder feature 206, reminds for the result according to monitoring management; Collecting part 202 comprises connection tube 2021 and liquid-collecting bottle 2022, and one end of connection tube 2021 is connected with wound parts, and the other end is connected with liquid-collecting bottle 2022.The negative pressure wound treating system that the embodiment of the present invention manages based on Wound healing and bone regeneration status monitoring, the granulation situation of wound can be detected, and make prompting according to the granulation situation of wound, thus user can be facilitated to judge assess wound recovery according to the granulation situation of wound, to formulate more rationally effective therapeutic scheme, also according to the granulation situation of wound, the unusual condition in therapeutic process can be understood in time and effectively process, thus reducing the generation of malpractice.

Simply describe the first embodiment of the negative pressure wound treating system that the present invention is based on the management of Wound healing and bone regeneration status monitoring above, below the second embodiment of the negative pressure wound treating system that the present invention is based on the management of Wound healing and bone regeneration status monitoring is described in detail, refer to Fig. 3, comprise based on negative pressure wound treating system second embodiment of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention:

Wound parts 301, for filling and wound closure, are communicated with liquid-collecting bottle 3022 by connection tube 3021;

Collecting part 302, is connected with wound parts, for collecting wound fluid;

Negative pressure wound therapy device 303, comprises negative pressure source 3031 and controller 3032, is connected with collecting part 302, for providing negative pressure;

Wound monitoring modular 304, is connected with monitoring management module 305 with wound parts 301, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module 305;

Monitoring management module 305, for the treatment of the Monitoring Data that wound monitoring modular 304 sends;

Reminder feature 306, for reminding according to the result of monitoring management module 305;

Collecting part 302 comprises connection tube 3021 and liquid-collecting bottle 3022, and one end of connection tube 3021 is connected with wound parts 301, and the other end is connected with liquid-collecting bottle 3022.

Wound parts 301 comprise implant 3011 and closure 3012, and implant 3011 is for filling wound, and closure 3012 is for wound closure.

Wound monitoring modular 304 comprises color monitoring means 3041 and particle monitoring unit 3042;

Color monitoring means 3041, for monitoring the granulation color at patient wound place, obtains wound color data;

Particle monitoring unit 3042, for monitoring the granulation granular size at patient wound place, obtains wound granular size data.

Monitoring management module 305 comprises receiving element 3051, color processing unit 3052 and pellet treatment unit 3053;

The Monitoring Data that receiving element 3051 sends for receiving wound monitoring modular;

Monitoring Data comprises wound color data and wound granular size data;

Color processing unit 3052, for the treatment of wound color data, obtains color treatments result;

Pellet treatment unit 3053, for the treatment of wound granular size data, obtains particle disposal result;

Result comprises color treatments result and particle disposal result.

Color processing unit 3052 comprises the first operator unit 30521 and the first contrast subunit 30522;

First operator unit 30521, for according to wound color data, calculates wound color;

First contrast subunit 30522, for contrasting calculating wound color with the color table preset, obtains color treatments result.

Pellet treatment unit 3053 comprises the second operator unit 30531 and the second contrast subunit 30532;

Second operator unit 30531, for according to wound particle data, calculates wound granular size;

Second contrast subunit 30532, for contrasting calculating wound granular size with the particle threshold preset, obtains particle disposal result.

The monitoring management module 305 of the embodiment of the present invention comprises further:

Display unit 3054, for showing result.

Memory element 3055, for storing Monitoring Data by the interval preset.

Chart generation unit 3056, for being processed into chart by the rule preset by Monitoring Data and result.

Clock unit 3057, for recording the holdup time of dressing on wound.

The negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring in the embodiment of the present invention, is provided with wound detection module 304, can detects the granulation situation of wound in wound.

After wound detection module 304 detects the pain degree of wound, Monitoring Data can be sent to monitoring management module 305, monitoring management module 305 can process Monitoring Data after receiving Monitoring Data.Above-mentioned wound detection module 304 can be the combination of the multiple detecting unit of polytype, when wound detection module 304 is the combination of the multiple detecting unit of polytype, the multiple detecting unit of above-mentioned polytype such as can comprise color monitoring means 3041 and particle monitoring unit 3042; Above-mentioned color monitoring means 3041, for monitoring the granulation color at patient wound place, obtains wound color data; Above-mentioned particle monitoring unit 3042, for monitoring the granulation granular size at patient wound place, obtains wound granular size data.Above-mentioned wound detection module 304 can for being evenly distributed on the small detection granule of wound, the information that above-mentioned monitoring information is detected respectively by multiple small detection granule forms, and can reduce due to the inconsistent information gap brought of wound treatment situation as far as possible.After above-mentioned monitoring management module 305 pairs of Monitoring Data process, by the Monitoring Data after above-mentioned process compared with the threshold value preset, comparative result can be obtained.

It should be noted that, above-mentioned monitoring management module 305 pairs of Monitoring Data are carried out process and can be comprised color processing unit 3052 pairs of wound color data and process, obtain color treatments result, and pellet treatment unit 3053 pairs of wound granular size data process, obtain particle disposal result, above-mentioned color processing unit 3052 can be color sensor, and above-mentioned pellet treatment unit 3053 can be minitype particle analyser; Above-mentioned color processing unit 3052 pairs of wound color data are carried out process and can be comprised: the first operator unit 30521, according to wound color data, calculates wound color; Then the wound color calculated and the color table preset contrast by the first contrast subunit 30522, obtain color treatments result.Above-mentioned pellet treatment unit 3053 pairs of wound granular size data are carried out process and can be comprised: the second operator unit 30531, according to wound particle data, calculates wound granular size; Then the wound granular size calculated and the particle threshold preset contrast by the second contrast subunit 30532, obtain particle disposal result.Above-mentioned Monitoring Data and result can be stored by the interval preset by memory element 3055.

With a concrete example, the process that color processing unit 3052 pairs of wound color data process above is described below:

Suppose that upper table is the wound feature table that different wound Color pair is answered, wherein red, pink colour represents that Wound healing and bone regeneration is all right, yellow, black represents that Wound healing and bone regeneration situation is bad, after color processing unit 3052 pairs of wound color data process, obtain wound color for time yellow, the color treatments result of " treatment situation is bad " can be sent.

After obtaining comparative result, reminder feature 306 can send prompting according to above-mentioned comparative result, and above-mentioned prompting can be sound prompting, also can be that image light is reminded, not limit herein.It should be noted that, except being reminded by reminder feature 306, also display process result can be carried out by display unit 3054, such as by the rule preset, Monitoring Data and result can be processed into chart by chart generation unit 3056, then be shown by display unit 3054.

The clock unit 3057 of the embodiment of the present invention, be used for recording the holdup time of dressing on wound, display unit 3054 can show the above-mentioned holdup time, and reminder feature 306 can send prompting according to the holdup time of having recorded and reasonable holdup time.The therapeutic modality that different wounds accepts is different, dressing is also different from the reasonable holdup time of wound, the concrete reasonable holdup time should determine according to wound size, wound type, wound site, wound infection degree etc., such as diabetic foot neuropathy, granulation growth is comparatively slow, and dressing can be put and stay the relatively long time, and other case such as orthopaedics class, granulation growth phase is to comparatively fast, and the dressing holdup time should be relatively short.

Based on the negative pressure wound treating system of Wound healing and bone regeneration status monitoring management in the embodiment of the present invention, comprising: wound parts 301, for filling and wound closure, being communicated with liquid-collecting bottle 3022 by connection tube 3021; Collecting part 302, is connected with wound parts, for collecting wound fluid; Negative pressure wound therapy device 303, comprises negative pressure source 3031 and controller 3032, is connected with collecting part 302, for providing negative pressure; Wound monitoring modular 304, is connected with monitoring management module 305 with wound parts 301, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module 305; Monitoring management module 305, for the treatment of the Monitoring Data that wound monitoring modular 304 sends; Reminder feature 306, for reminding according to the result of monitoring management module 305; Collecting part 302 comprises connection tube 3021 and liquid-collecting bottle 3022, and one end of connection tube 3021 is connected with wound parts 301, and the other end is connected with liquid-collecting bottle 3022.The negative pressure wound treating system that the embodiment of the present invention manages based on Wound healing and bone regeneration status monitoring, the granulation situation of wound can be detected, and make prompting according to the granulation situation of wound, thus user can be facilitated to judge assess wound recovery according to the granulation situation of wound, to formulate more rationally effective therapeutic scheme, also according to the granulation situation of wound, the unusual condition in therapeutic process can be understood in time and effectively process, thus reducing the generation of malpractice.Simultaneously the adding of display unit 3054, memory element 3055, chart generation unit 3056 and clock unit 3057, can Wound healing and bone regeneration situation be presented to user better and further facilitate the use of user.

Above a kind of negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring provided by the present invention is described in detail, for one of ordinary skill in the art, according to the thought of the embodiment of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (8)

1., based on a negative pressure wound treating system for Wound healing and bone regeneration status monitoring management, it is characterized in that, comprising:

Wound parts, for filling and wound closure, are communicated with liquid-collecting bottle by connection tube;

Collecting part, is connected with described wound parts, for collecting wound fluid;

Negative pressure wound therapy device, comprises negative pressure source and controller, is connected with described collecting part, for providing negative pressure;

Wound monitoring modular, is connected with monitoring management module with described wound parts, for monitoring the granulation situation at patient wound place and sending Monitoring Data to monitoring management module;

Wound monitoring modular comprises color monitoring means and particle monitoring unit;

Described color monitoring means, for monitoring the granulation color at patient wound place, obtains wound color data;

Described particle monitoring unit, for monitoring the granulation granular size at patient wound place, obtains wound granular size data;

Monitoring management module, for the treatment of the Monitoring Data that described wound monitoring modular sends;

Described monitoring management module comprises receiving element, color processing unit and pellet treatment unit;

The Monitoring Data that described receiving element sends for receiving wound monitoring modular;

Described Monitoring Data comprises wound color data and wound granular size data;

Described color processing unit, for the treatment of wound color data, obtains color treatments result;

Described pellet treatment unit, for the treatment of wound granular size data, obtains particle disposal result;

Described result comprises color treatments result and particle disposal result;

Reminder feature, for reminding according to the result of described monitoring management module;

Described collecting part comprises connection tube and liquid-collecting bottle, and one end of described connection tube is connected with described wound parts, and the other end is connected with described liquid-collecting bottle.

2. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 1, is characterized in that,

Described wound parts comprise implant and closure, and described implant is for filling wound, and described closure is used for wound closure.

3. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 1, is characterized in that,

Described color processing unit comprises the first operator unit and the first contrast subunit;

Described first operator unit is used for according to wound color data, calculates wound color;

Described first contrast subunit is used for the wound color calculated and the color table preset to contrast, and obtains color treatments result.

4. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 1, is characterized in that,

Described pellet treatment unit comprises the second operator unit and the second contrast subunit;

Described second operator unit is used for according to wound particle data, calculates wound granular size;

Described second contrast subunit is used for the wound granular size calculated and the particle threshold preset to contrast, and obtains particle disposal result.

5. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to any one of claim 1 to 4, is characterized in that,

Described monitoring management module also comprises display unit, for showing described result.

6. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 5, is characterized in that,

Described monitoring management module also comprises memory element, for storing described Monitoring Data by the interval preset.

7. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 5, is characterized in that,

Described monitoring management module also comprises chart generation unit, for described Monitoring Data and result being processed into chart by the rule preset.

8. the negative pressure wound treating system based on the management of Wound healing and bone regeneration status monitoring according to claim 5, is characterized in that,

Described monitoring management module also comprises clock unit, for recording the holdup time of dressing on wound.