#intravenous cannula
Text
GST Corporation is a leading manufacturer and exporter of IV Cannula.
0 notes
Text
Why IV Cannulas are Essential in Modern Healthcare
In modern healthcare, IV cannulas play a crucial role in delivering vital medications and fluids directly into the bloodstream. Their importance cannot be overstated, as they provide a quick and efficient way to administer treatment to patients in need. In this blog post, we will explore benefits of IV cannulas and why they are essential in medical care today.
What are the IV cannulas?
First things first, let’s talk about what IV cannula actually are. An IV cannula, short for intravenous cannula, is a small, flexible tube used to administer medications and fluids directly into a patient’s bloodstream. This important medical device is inserted into a vein to provide quick and efficient access for delivering essential treatments. Understanding the basics of IV cannula is crucial for healthcare professionals to ensure proper patient care and treatment outcomes.
The Importance of IV Cannulas in Modern Healthcare
IV cannula represent a cornerstone of modern healthcare delivery, embodying the intersection of innovation, efficacy, and patient-centered care. Their versatility, reliability, and safety make them indispensable tools for healthcare providers across diverse clinical specialties, facilitating optimal patient outcomes and fostering a culture of excellence in healthcare delivery. As medical technology continues to advance, IV cannulas will undoubtedly remain essential components of the therapeutic armamentarium, shaping the future of patient care for generations to come.
Benefits of IV Cannulas in Patient Care
One of the biggest benefits of IV cannula is their versatility. They can be used for a wide range of treatments, including hydration, medication administration, blood transfusions, chemotherapy and more. They also allow for continuous monitoring of a patient’s condition, making it easier for healthcare providers to adjust their treatment plan as needed. Explore our high-quality IV cannula – crafted by industry-leading manufacturers at KDL.
Advancements in IV Cannula Technology
Thanks to advancements in medical technology, Intravenous needle have come a long way in recent years. New materials and designs have made them more comfortable for patients and easier for healthcare providers to insert. This means less pain and fewer complications for everyone involved.
Read More : The Benefits of Using Huber Needles for Long-Term IV Therapy
The Role of IV Cannulas in Preventing Infections
Infection control is a top priority in healthcare settings, and it play a key role in preventing the spread of harmful bacteria. By using sterile techniques and regularly changing IV sites, healthcare providers can reduce the risk of infections and keep patients safe during treatment.
IV Cannulas in Emergency Situations
When every second counts, it can be a lifesaver. In emergency situations like trauma or cardiac arrest, quick access to a patient’s bloodstream can mean the difference between life and death. It allows for rapid administration of critical medications and fluids, giving patients the best chance at recovery.
Conclusion: The Future of IV Cannulas in Healthcare
In conclusion, the future of IV cannulas in healthcare looks promising with advancements in technology and materials. Healthcare providers can expect improved patient comfort, reduced infection rates, and increased efficiency in delivering intravenous therapy. As the healthcare industry continues to evolve, it plays a crucial role in enhancing patient care and outcomes. Stay informed and embrace the latest innovations to ensure optimal use of IV cannulas in the ever-changing landscape of healthcare.
Source : Why IV Cannulas are Essential in Modern Healthcare
#IV Cannulas#Healthcare#medical technology#Healthcare Essentials#Medical Devices#Medication#iv cannula needle#intravenous cannula#iv cannula manufacturers
1 note
·
View note
Text
IV Cannula Medical Device for Therapy
IV cannula, also known as an intravenous catheter, is a small, flexible tube inserted into a patient's vein for various medical purposes. It allows healthcare providers to administer fluids, medications, and blood products directly into the bloodstream. The cannula is typically made from materials like plastic or Teflon to ensure flexibility and minimize the risk of irritation to the vein. Insertion requires sterile technique to prevent infections, and healthcare professionals carefully select the appropriate size (gauge) based on the patient's needs and vein size. Once inserted, the IV cannula provides a reliable route for continuous therapy or monitoring throughout the patient's treatment.
IV cannula, short for intravenous cannula, is a medical device used to administer fluids, medications, or blood products directly into a patient's bloodstream. It consists of a thin, flexible tube (cannula) typically made of plastic, with a sharp needle inside. The needle is used to puncture the skin and enter a vein, after which it is withdrawn, leaving the plastic cannula in place. This allows healthcare providers to deliver medications and fluids continuously or intermittently without needing to repeatedly puncture the skin
IV cannulas come in various sizes (gauges) depending on the intended use and patient condition. They are crucial in hospitals, clinics, and emergency settings where quick and reliable access to the bloodstream is necessary for treatments such as hydration, medication administration, blood transfusions, and chemotherapy.
Key features of IV cannula
Needle: Initially used to access the vein and then withdrawn, leaving only the flexible cannula in place.
Gauge: Refers to the diameter of the cannula; smaller gauge numbers indicate larger diameters, allowing for different flow rates.
Wings and ports: Some cannulas include wings for stabilization and additional ports for attaching medications or fluids.
Proper insertion and care of IV cannulas are essential to prevent complications such as infection, infiltration (fluid leaking into surrounding tissues), and phlebitis (inflammation of the vein). Healthcare professionals undergo training to safely and effectively use IV cannulas, ensuring patient safety and comfort during treatment.
iv cannula safty
Ensuring the safety of IV cannula use is crucial to prevent complications and promote patient well-being. Here are several key aspects of IV cannula safety
Proper Insertion Technique: Correct technique during insertion minimizes the risk of complications such as infiltration (leakage of fluid into surrounding tissues), phlebitis (inflammation of the vein), and infection. Healthcare providers should follow aseptic techniques, including hand hygiene, wearing gloves, and using sterile equipment.Site Selection: Choosing an appropriate vein for cannulation is essential. Factors such as vein size, visibility, and condition (e.g., avoiding veins with thrombosis or sclerosis) should be considered to reduce the risk of complications during and after insertion.
Securement: Once the IV cannula is inserted, it should be securely fixed to the patient's skin to prevent accidental dislodgement, which can lead to leakage, infiltration, or the need for re-cannulation.
Monitoring: Regular assessment of the IV site and surrounding tissue is necessary to detect early signs of complications such as infiltration, phlebitis, or infection. Healthcare providers should also monitor for signs of fluid overload or other adverse reactions to IV therapy.
Patient Education: Patients should be informed about the purpose of the IV cannula, potential complications to watch for (e.g., swelling, redness, pain), and how to care for the site (e.g., keeping it dry and protected)
Documentation: Accurate documentation of the IV cannula insertion, site assessment, and any interventions or complications is essential for continuity of care and communication among healthcare providers
Staff Training and Protocols: Healthcare facilities should have clear protocols for IV cannulation, including staff training on insertion techniques, site care, and recognition of complications. Regular training updates ensure adherence to best practices and safety standards.By adhering to these safety measures, healthcare providers can minimize the risks associated with IV cannula use and promote optimal patient outcomes during intravenous therapy
IV cannulas come in various sizes (gauges) depending on their intended use and the patient's vein size. They are typically inserted into a vein by a trained healthcare professional, such as a nurse or doctor, using sterile technique to minimize the risk of infection. Proper care and monitoring are essential during and after insertion to ensure the cannula remains in place and functions correctly without causing discomfort or complications to the patient.
1 note
·
View note
Text
#Safety Intravenous Cannula#Safety Intravenous Cannula manufacturers in India#Safety Intravenous Cannula suppliers in India#Safety Intravenous Cannula Exporter in India
0 notes
Text
2 component Y infusion connector mold
China 2k mold maker, offer double component disposable IV connector, two tone closed IV cannula, double mold needle connector, dual color intravenous catheter
#2k disposable iv connector mold#multi shot closed iv cannula mold#rotary mold needle connector#pc tpr intravenous catheter mold#china mold#2 component mold#bi material mold#two color mold
0 notes
Text
Medical Tubing Market to Witness Healthy Growth with Relatively Higher Demand for Bulk Disposable Tubing Application| MarketsandMarkets™
Medical tubing is a type of tubing used in the medical field for a variety of purposes. It is typically made of silicone, polyurethane, latex, PVC, polyethylene, and other materials. It is used in a variety of medical applications including catheters, endoscopes, and medical devices. Medical tubing is used for transporting fluids, carrying medicines and other substances, and connecting medical…
View On WordPress
#Asia Pacific medical tubing market#cannulas market#catheter market#catheter sizing#catheter tubing#COVID 19 impact on Medical Tubing Market#dialysis tubes market#gas tubes market#intravenous tubes market#iv extension tubing#iv tube#iv tubing market#medical tubing#Medical Tubing Demand#Medical Tubing Market#Medical Tubing Market Forecast#Medical Tubing Market Growth#medical tubing market Manufacutures#medical tubing market Share#Medical Tubing Market Size#medical tubing Price#nebulizer tubing#North America medical tubing market#Polyvinyl Chloride#pump tubes market#suction catheter#thoracic catheters market#tpn tubing
0 notes
Text
The global medical tubing market size is projected to reach USD 7.9 billion by 2026 growing at a CAGR of 10.0% from 2021 to 2026. The increasing demand for medical tubing in various healthcare segments coupled with stringent regulations concerning healthcare safety is driving the market for medical tubing. The increase in demand for medical tubing and the growing industrial development in the emerging economies, such as APAC and South America, are driving the market
#medical tubing market#iv tube#nebulizer tubing#catheter sizing#catheter tubing#iv extension tubing#tpn tubing#suction catheter#COVID 19 impact on Medical Tubing Market#thoracic catheters market#medical tubing#dialysis tubes market#intravenous tubes market#cannulas market#catheter market#pump tubes market#gas tubes market#iv tubing market#enteral feeding tube market
0 notes
Text
Research Log #P5-00436
FACILITY: [REDACTED]
DATE: [REDACTED]
CASE: #E2756895
ATTENDING: [REDACTED]
UNIT: WARD 92
OBJECTIVE: Behavioral Compliance Induction
TIME: [09:45:00]
SUBJECT #1138-B7 was brought to the operating theater, prepped and draped in the usual fashion. Intravenous access was established using a 20-gauge catheter inserted into the left antecubital vein. Electrodes were placed on the scalp for continuous EEG monitoring. Additional sensors were attached to record heart rate, respiratory rate, and galvanic skin response (GSR).
Subject presents as a 25 year old male, physically healthy, baseline vitals recorded WNL. Subject exhibited signs of anxiety and resistance, which were managed by the use of sedatives (2 mg Midazolam IV).
[09:53:11]: Subject questioned to establish baseline cognitive and physiological parameters. Orientation, recall, and basic comprehension intact.
[10:00:00]: Infusion of proprietary psychotropic agent PCA-35 initiated at a rate of 5 mL/min.
[10:03:48]: Subject displays signs of restlessness. Cortical activation indicated by increased uptake on EEG. Subject gives responses to verbal stimuli and reports a sensation of lightheadedness.
[10:04:25]: Subject complains of stinging sensation and bittersweet taste. Noted slight tremor in extremities and increased heart rate. GSR indicates heightened anxiety.
[10:05:13]: Subject questioned to establish cognitive and physiological parameters. Noted delayed responses. Subject struggles to follow simple instructions, becomes distracted, provides incoherent explanations of surroundings, misinterprets questions.
[10:09:32]: Subject begins to exhibit signs of altered perception, including auditory hallucinations and delirium. EEG shows increased theta wave activity. Physical agitation observed; restraints effective in maintaining Subject's position. Subject too agitated for cognitive and physiological testing.
[10:14:45]: Administration of compound #GS-P5R initiated at 12 L/min via inhalation mask to reduce anxiety and stabilize neural response. Infusion of PCA-35 increased to 7.5 mL/min.
[10:19:48]: Subject's responses to verbal and physical stimuli decrease significantly. Continued monitoring shows stable vitals but increased physical rigidity. Administered 1 mg Lorazepam IV to reduce muscle tension.
[10:24:22]: Subject’s speech becomes slurred and incoherent. Noted disorientation to stimuli, increased muscle laxity. Decrease in heart rate and blood pressure.
[10:33:14]: Subject enters a semi-catatonic state. Eyes remain open but unresponsive to visual stimuli. Pupils equal but dilated. EEG shows dominant delta wave activity.
[10:42:28]: Subject displays signs of decreased neural responsiveness. Decreased pupillary reaction, continued slow rolling movement of the eyes, jerky movement of the whole body (hypnic jerks). Persistent drooling noted.
[10:45:04]: Infusion of PCA-13 reduced to 1 mL/min. Administration of compound #GS-P5R reduced to 2 L/min via nasal cannula.
[10:50:34]: Subject engaged with repetitive commands in accordance to Behavioral Compliance Protocols. Verbal cues, electronic conditioning, and multi-sensory stimuli reinforcement prove ineffective. Subject remains largely non-reactive.
[10:57:55]: Subject’s eyes remain unfocused with significant drooping. Attempts to direct gaze result in brief eye opening, followed by rapid drooping. Subject mumbles incoherently.
[10:58:06]: Speculum applied to maintain eyelid retraction for continuous observation and responsiveness testing. Subject demonstrates minimal resistance; remains in stuporous state. Droplets of propriety psychotic #3A administered to each eye. Immediate increase in pupil dilation and noticeable twitching observed.
[11:00:17]: Visual stimulus presented. Subject's eyes remain fixed and extremely dilated. Noted tremors in hands, erratic breathing patterns, increase in heart rate. Subject occasionally mumbles with extreme delay in response latency to verbal and physical testing.
[11:05:23]: Subject engaged with repetitive commands in accordance to Behavioral Compliance Protocols. Verbal cues, electronic conditioning, and multi-sensory stimuli reinforcement prove insignificant. Subject displays significant cognitive impairment, involuntary reflexes, significant drooling, and uncoordinated movements.
[11:10:19]: Increased auditory and visual stimuli introduced to enhance command comprehension of Behavioral Compliance Protocols. Subject displays signs of severe neural suppression. EEG findings variable and nonspecific, low voltage and slow irregular activity nonreactive to sensory stimuli.
[11:15:52]: Subject engaged with high-intensity visual stimuli (rapid flashing) and continuous auditory commands. Subject shows brief eye fixation on visual stimulus, with occasional facial twitching. Overall response is characterized by slow, inconsistent movements and frequent confusion. Subject’s attempts to respond are sporadic, sluggish, and incoherent.
[11:20:14]: Administered low-frequency auditory tones and ambient lighting. Subject displays intermittent eye tracking and reflexive vocalizations. Eyes lubricated to prevent irritation; speculum remains in place. Despite the high level of impairment, occasional partial compliance with commands noted.
[11:30:31]: Subject provided with 500 mL saline IV to maintain hydration. Subject engaged with repetitive commands in accordance to Compliance Protocols. Verbal cues, electronic conditioning, and multi-sensory stimuli reinforcement prove moderately effective as demonstrated by increased uptake seen on EEG. Noted severe motor function impairment, persistent drooling, disorientation.
[11:37:48]: Visual and auditory stimuli calibrated to induce deep trance state in preparation for Hypnotic Compliance Protocols. Subject's head and neck stabilized to ensure alignment with visual stimuli. Monitored vital signs remain stable but indicate persistent sedation effects. Subject remains largely unresponsive, exhibiting only involuntary reflexes and intense eye fixation on visual stimulus.
[12:00:00]: End of Behavioral Compliance Induction log. Subject's transition to hypnotic phase officially logged and observed.
TRANSFER OF CARE: [REDACTED]
#whump#whump community#medical whump#hospital whump#sedation whump#tw experimentation#drug whump#hypnosis#lab rat
47 notes
·
View notes
Text
TW: needles, medical
Needle whump tips from someone who has experienced all these flavours.
Intramuscular injections: These are the most common vaccine injections. They hurt a little going into the muscle but it's not super painful, especially when done fast. Sometimes it can be a little sore when the actual liquid goes into the tissue.
Subcutaneous injections: This is into the fat underneath the skin. A lot of medications are given this way. When done steadily, in the right spot, and with a small enough needle, these don't hurt.
Intravenous injection: These are into a vein. They can be finicky because veins are parallel to the skin surface and you have to go in at a really shallow angle and make sure not to go all the way through the vein. These can hurt a little more than the others but when done with proper technique, they're still not bad compared to most injuries.
Intravenous cannulation: This is very similar to an intravenous injection but there is a thin, flexible plastic tube (cannula) on the needle. You can barely see the tube and you can't feel it as it goes in because it's completely flush against the metal of the needle. Once the cannula is in, the needle is removed completely, leaving just the plastic in the vein. If they did this in your elbow (where they usually do for short term IV access), you can bend it fine with only mild pressure or maybe some discomfort where the plastic pushes against the skin. If they do it properly and secure it in place, you won't even feel it after a couple hours.
Other tips:
It's important to realised that a lot of the pain we think of from vaccines is not actually the needle or the trauma from the needle. The majority of the pain comes from the reaction (essentially a mild, local allergic reaction to the vaccine contents)
Gauge matters. The higher the number, the smaller the needle. The smaller the needle, the less it hurts but the slower the injection. I use 27g needles for my medication injections and they barely hurt if I have a steady hand. When a 30g was used for my blood sugar, it just itched a little bit whilst the needle pricked. When I get blood drawn, they use a 22g or 20g needle because I have good veins. And that hurts a little more.
Any needle will become very dull after the first use. Sharp needles with proper technique barely hurt but dull needles basically tear your flesh and can hurt quite a bit.
#there are other types of injection obviously but these are the common ones and the ones I am familiar with#whump#whump prompt#needle#medical#injection
28 notes
·
View notes
Text
I'm going to be attempting to write something daily in May (wish me luck!). Could be a drabble, could be a hundred words on a WIP, I'm just trying to build a regular writing habit again. Today it comes in the flavour of a MediWhump May prompt.
Pe-series, Mac and Jack, Sandbox double drabble for the prompt 'IV/Cannula'.
“Hey, c’mon now, leave that alone.” Jack said, peeling away the wandering fingers that had once again started to pick at the adhesive securing the IV. Annoyed eyes, softened by exhaustion, glared at him briefly before slipping shut again.
He could go. He should go. There was no reason for him to be here. No reason at all. Except, the staff here were busy, too busy to keep an eye on a kid who was barely awake and very much did not want the cannula in the back of their hand. So here he was. Protector of the intravenous hydration. Had nothing to do with how he’d been scared to death when Macgyver had collapsed on him earlier. The worry that hadn’t quite left him, even after the prognosis of a full recovery with some rest and fluids.
Kid was his responsibility. That’s all it was. He wasn’t getting attached to his bomb nerd who apparently came with a distinct lack of self preservation. He was just making sure dehydration didn’t take him out before he shipped out, back to Texas in nine days and counting.
There was no reason for him to be here.
None at all.
And yet.
39 notes
·
View notes
Text
@sleeplesswork ❤️'d for a thing.
were donquixote doflamingo a more religious man (well, unless self-deification counted as religious) he would have assumed he woke up in hell.
it certainly felt that way; every bit of sensory information from the moment he became aware, was torture. a pulsing in his head. a feverish heat coating his body. a throat & mouth that had surely been stuffed to the brim with cotton, dry beyond belief. and his eyesーhis damned eyesーrendered useless without the aid of his glasses.
the room was a haze of blurry objects, things he couldn't quite see but the placement of which made the blonde come to the conclusion that he was in his bedroom, confirming it further to himself while rustling beneath a familiar quilted comforter. his comforter. his bed. how did he get here?
he tried to shift his arms from beneath the blanketsーto get his bearings, as if somehow touching his surroundings would help him understand everything he needed to knowーand felt the tug of a cannula in the dorsal side of his hand, the needle shifting nauseatingly underneath skin. in that moment, he became hyperaware of the tube he was attached to, his gaze falling to his right side and perceiving an intravenous pole stocked with a bag of fluids.
doflamingo tried to move again, to sit up somehow, and the throbbing in his head intensified. he forfeited that plan as a result, shutting his eyes tight to try and counteract the pressure, a groan rattling in his throat. in that moment, he heard something in the room with him shift, his barely lucid mind barely being able use observation haki to detect that something was a person.
❝ who…❞ his voice sounded foreign, even to his own ears. cracking with dryness and at a much lower volume than usual, indicating a lack of strength, a sensitivity to noise, or perhaps both. ❝ …who's there…? ❞
#sleeplesswork#sleeplesswork (law)#❛ && you'll find no 'ever after' here but that isn't what you came for. ❜ (v. corazon law)
2 notes
·
View notes
Text
IV Cannula vs IV Catheter: Understanding the Differences
In the medical field, intravenous (IV) access is a fundamental procedure used for administering fluids, medications, and blood products directly into the bloodstream. Two common devices used for this purpose are the IV cannula and the IV catheter. While these terms are often used interchangeably, they refer to different types of medical devices, each with its unique characteristics and applications. Understanding these differences is crucial for medical professionals to ensure appropriate use in patient care.
IV Cannula
An IV cannula, often simply referred to as a cannula, is a small, flexible tube that is inserted into a vein to provide access for intravenous therapy. Typically made of plastic, an IV cannula consists of a hollow needle with a thin, flexible tube that remains in the vein once the needle is withdrawn. The primary function of an IV cannula is to serve as a conduit for the infusion of fluids and medications.
IV cannulas are categorized by size, which is determined by the gauge of the needle. Sizes range from 14 gauge (large) to 24 gauge (small), with smaller gauges being used for patients with smaller veins or for less viscous fluids. The choice of size depends on the specific needs of the patient and the type of therapy being administered.
IV Catheter
On the other hand, an IV catheter is a broader term that encompasses various types of devices used for intravenous access. It refers to any tube or catheter inserted into a vein to administer fluids or medications. Unlike an IV cannula, which specifically denotes a device with a needle that is withdrawn, an IV catheter may include devices such as central lines, peripheral lines, and other specialized access tools.
IV catheters can be categorized based on their insertion site and purpose. For instance, peripheral IV catheters are inserted into veins in the arms or hands and are typically used for short-term therapy. Central venous catheters, inserted into larger veins like the jugular or subclavian veins, are used for long-term treatments or for administering medications that require central circulation.
Key Differences
1. Design and Insertion: An I.V. cannula is designed with a needle that is removed once the device is in place, leaving a thin, flexible tube for infusion. An IV catheter, in contrast, may include a broader range of devices, including those that remain in place with various anchoring systems.
2. Application: IV cannulas are generally used for short-term access and are commonly found in emergency or routine medical procedures. IV catheters, due to their variety, can be used for both short-term and long-term access, depending on the specific needs of the treatment.
3. Types and Sizes: While IV cannulas are categorized mainly by gauge size, IV catheters include a wider range of designs and insertion sites. This makes IV catheters more versatile for different medical needs, from simple infusions to complex central venous access.
4. Duration of Use: IV cannulas are usually used for short durations, such as during a hospital stay or for specific procedures. IV catheters, especially central lines, can be used for extended periods, such as for ongoing treatments in chronic conditions.
Denex International: Leading the Way in IV Access Solutions
When it comes to high-quality IV access devices, Denex International stands out as a premier IV Cannula Manufacturer and IV Catheter Manufacturer in India. With a commitment to excellence and innovation, Denex International produces a range of IV cannulas and IV catheters designed to meet the highest standards of safety and efficacy.
Their products are engineered to ensure ease of use, reliability, and patient comfort, adhering to stringent quality controls and regulatory standards. Whether you are seeking an Ivcannula for routine infusions or a specialized IV catheter for complex treatments, Denex International provides solutions that healthcare professionals can trust.
In summary, while both IV cannulas and IV catheters serve the essential function of intravenous access, they differ in design, application, and usage duration. Understanding these differences helps in selecting the appropriate device for each patient’s needs. For top-quality IV access devices, Denex International remains a leading choice, delivering products that support effective and safe medical care.
Contact Details
Name- Denex International
Phone- 0124 4115465
Email- [email protected]
#iv cannula#iv catheter#iv cannula vs iv catheter#iv cannula manufacturer#iv catheter manufacturer#iv catheter exporter
0 notes
Text
Trident Mediquip is a leading manufacturer of intravenous cannulas, also known as IV catheters, in India. They are known for their state-of-the-art production facilities and adherence to international quality standards. Their IV cannulas are designed with features like sharp bevels for smooth insertion, flexible wings for easy fixation, and multiple sizes to accommodate varying patient needs. They are also committed to innovation and continuously invest in research and development activities to improve their products. Intravenous Cannula Manufacturers in India
0 notes
Text
Mastering ACF Cannulation: Your Guide to Becoming a Phlebotomist in the UK
Becoming a phlebotomist in the UK offers a rewarding career, allowing you to contribute directly to patient care and medical diagnostics. Phlebotomists are skilled healthcare professionals responsible for drawing blood from patients for tests, transfusions, research, and donations. A crucial skill for phlebotomists, particularly in hospital settings, is ACF cannulation — an essential technique that focuses on inserting a cannula into the Antecubital Fossa (ACF) vein for blood collection or intravenous therapy.
This article will walk you through the steps to become a phlebotomist in the UK, explain the role of ACF cannulation, and highlight the importance of mastering the ACF arm technique.
1 note
·
View note
Last Seen Blogs
sheena-snyder-blog
SHEENA SNYDER
bookloversreviewer
Untitled
jwmppmwj
題名未設定
blackowt0208
hiatus
jasongoldtrap
Jason Goldtrap blog