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CGFNS Qualifying Exam Schedule

The CGFNS Qualifying Exam is offered four times a year during five-day “test windows.” Test windows include specific dates, times, and locations for applicants to take the Qualifying Exam®. Traditionally, exam dates are in the months of March, July, September, and November.

Once you successfully complete the credentials review, an email will be sent to you. This email serves as your Authorization to Test (ATT). You will then be provided with two test windows. You may select only one test window with a specific date, time, and location to take the Qualifying Exam®. If you choose more than one test window, your registration will be cancelled and you will receive notification that you are required to make a single test window selection.

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College of Nursing Sciences ATBU Teaching Hospital, Bauchi Admission into Basic Midwifery and Post Basic Nursing Programmes for 2020/2021 Academic Session

College of Nursing Sciences ATBU Teaching Hospital, Bauchi Admission into Basic Midwifery and Post Basic Nursing Programmes for 2020/2021 Academic Session

Applications are hereby invited from suitably qualified candidates for admission into Basic Midwifery and Post Basic Nursing programmes 2020/2021 Academic Session. Interested applicants should come to the College and obtain application pin number on payment of application fee of five thousand two hundred (N5,200) Naira only for Basic Midwifery and Six thousand two hundred (N6200) Naira only for Post Basic Nursing into TSA pay point of Abubakar Tafawa Balewa University Teaching Hospital (ATBUTH), Bauchi. The application forms will be available with effect from 26th October, to 11th December, 2020. Hard copies of the completed forms should be returned to the College on or before 11th December, 2020.




Requirements
Candidates for Basic Midwifery Must have five Credits in English, Mathematics, Biology, Chemistry and Physics in NECO, WAEC or NABTEB in not more than two sittings. NABTEB can only be combined with NABTEB. In addition to the Basic requirements mentioned above, post Basic candidate must be a registered Midwife.
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Entrance Exam
The entrance exams will be conducted on Saturday 12th December, 2020. Successful candidates will be invited for interview on 25th January, 2021. The entrance exams and interview will be conducted at College of Nursing Sciences AMU Teaching Hospital Bauchi.

Singed:

Management

Achievers University, Owo Undergraduate Admissions for 2020/2021 Academic Session

Achievers University, Owo Undergraduate Admissions for 2020/2021 Academic Session

Achievers University, Owo was approved and licensed by the Federal Government of Nigeria in 2007. It commenced academic activities on 2nd April, 2008. The University, which is situated in a serene and conducive environment, has matriculated 13 sets of students and graduated nine sets of ‘Achievers’ who are making their marks in all spheres of human endeavors.

Achievers University is fully residential, offering security-conscious accommodation for all students on campus, with a full complement of facilities for comfort and functionality.

The University hereby invites prospective students to apply for the following undergraduate programmes:
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A. COLLEGE OF SOCIAL AND MANAGEMENT SCIENCES (COSMAS)
B.Sc. Accounting
B.Sc. Business Administration
B.Sc. Economics
B.Sc. Mass Communication
B.Sc. Political Science
B.Sc. International Relations (including a three-month French language programme abroad)
B.Sc. Public Administration
B.Sc. Sociology
B.Sc. Criminology & Security Studies



B. COLLEGE OF NATURAL AND APPLIED SCIENCES (CONAS)
B.Sc. Microbiology
B.Sc. Industrial Chemistry
B.Sc. Biochemistry
B.Sc. Computer Science
B.Sc. Geology
B.M LS Medical Laboratory Science
B.NSc. Nursing Science
B.Sc. Plant Science and Biotechnology

C. COLLEGE OF ENGINEERING AND TECHNOLOGY (COET)
B.Eng. Electrical & Electronics Engineering
B.Eng. Computer Engineering
B.Eng. Telecommunications Engineering
B.Eng. Mechatronics Engineering
B.Eng. Biomedical Engineering

D. COLLEGE OF LAW (COL)
LL.B – Bachelor of Laws

All the programmes are approved and accredited by the National Universities Commission (NUC) and relevant professional regulatory agencies.

SCHOLARSHIP AWARD

The Governing Council of the University has approved free tuition for the first three academic sessions in the following programmes:

1. B.Sc. Accounting

2. B.Sc. Business Administration

3. B.Sc. Economics

4. B.Sc. Political Science

5. B.Sc. Public Administration

6. B.Sc. Sociology

7. B.Sc. Industrial Chemistry

8. B.Sc. Biochemistry

9. B.Sc. Geology

10. B.Sc. Plant Science and Biotechnology

GENERAL REQUIREMENTS FOR ADMISSION

A. UTME CANDIDATES

Candidates are required to have sat for the 2020 Unified Tertiary Matriculation Examination (UTME) with a minimum score of 160 as approved by NUC and JAMB.
Applicant must also obtain a minimum of five (5) credit passes at not more than two sittings in WAEC (SSCE)/ NECO (SSCE) or NABTEB. These should include English Language, Mathematics and any three other subjects relevant to the course of study. For LL.B., the five credit passes should include English Language and Literature in English.

B. DIRECT ENTRY CANDIDATES

(i.) DIRECT ENTRY CANDIDATES (200 LEVEL)

As for A (ii.) above, but with 2 passes at either A Level, JUPEB exam, HSC, ND or NCE, or ATS results in relevant discipline. Candidates are also expected to have purchased the Direct Entry JAMB form.

B.NSc., candidates shall, in addition to A (ii.) above, hold at least two A Level passes (Grades A— E) in Biology/Zoology and any one of Chemistry or Physics; OR the Registered Nursing Diploma Certificate (RN) of the Nursing and Midwifery Council of Nigeria; OR a B.Sc. degree in any of the Biological Sciences at not lower than a Second Class Lower level.

B.Eng. programmes, candidates shall, in addition to A (ii.) above, hold at least two A Level passes, including Mathematics and Physics; OR National Diploma (Upper Credit) in Engineering.
L.B., candidates shall, in addition to A (ii.) above, have obtained two papers at Principal or Advanced level in HSC, GCE or JUPEB; OR an acceptable bachelor’s degree.



(II). DIRECT ENTRY CANDIDATES (300 LEVEL)

Candidates for these programmes should be holders of HND in their respective fields of study. HND in Electrical/Electronic Engineering, Statistics or Mathematics is acceptable for B.Sc. Computer Science. HND in Computer Engineering or Electrical & Electronics Engineering is acceptable for B.Eng. Electrical and Electrical Engineering, Computer Engineering, Mechatronic Engineering and Biomedical Engineering.

Professional certificates such as ACA, ACIB, ACIS, ACIN and ACTT are acceptable for B.Sc. Business Administration or B.Sc. Accounting. This is in addition to A (ii.) above.
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HOW TO APPLY

Candidates who did not choose Achievers University in the JAMB UTME and Direct Entry forms can process admissions by visiting the JAMB portal and changing their JAMB first choice institution to Achievers University. Application for admission can be fully processed online via the University website, www.achievers.edu.ng. Prospective students may also visit the University Registry to obtain admission forms and process admission.

Those who chose Achievers University as first choice are to pay a screening fee of N2,000 while those who did not choose the University as first choice should pay N7,500 to Ecobank Account No. 5282011354.

Please, note that candidates awaiting results can also apply.

NEW AT ACHIEVERS UNIVERSITY

The vision of Achievers University is “to produce a total person, morally sound, properly educated and entrepreneurially oriented, who would be useful to himself and the society …”.In line with this vision, Achievers University has a unique feature that gives parents and guardians extra value to the training of their children/wards during their course of study. Every student has the opportunity to earn a certificate in any of the following programmes:

Diploma in Law
Certificate in Computer Programming
Diploma in Computer Studies
Diploma in French Language
Diploma in Procurement Process
Diploma in Theology and Church History
Diploma in Library Studies
The programmes are designed for students to be more properly equipped for the labour market after graduation. For further enquiries, visit the University website, www.achievers.edu.ng or contact the following: Bayo: 0803-343-2195, Sola: 0803-370-8660, Alaba: 0803-706-2508, Bunmi: 0703-847-7064.

Signed:

Rev. Canon S. B. Oladimeji
Registrar

University of Jos Admission into Pre-Degree Science Programme 2020/2021 Academic Session

University of Jos Admission into Pre-Degree Science Programme 2020/2021 Academic Session

Applications are invited from suitably qualified candidates for admission into the Pre-Degree/ Remedial Science Programme of the University of Jos for the 2020/2021 Academic Session.

Candidates must possess WASC/SSCE/NECO/ GCE ‘O’ LEVEL results or its equivalent in the following Subjects: Mathematics or Further Mathematics, English Language, Chemistry, Physics and either Biology or Agric. Science or Geography or Technical Drawing or Fine Art to be eligible for admission.

The Pre-Degree Science course is strictly for science students, who want to study Medicine, Pharmacy, Nursing, Veterinary Medicine, Science Education, Medical Lab Science (MLS), Biochemistry, Science Lab Technology (SLT), Computer Science, Engineering, Agriculture or any single honors Degree course in Faculty of Natural Sciences and other science disciplines.
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METHOD OF APPLICATION

Application forms are available online on the University website: portal.unijos.edu.ng

Step 1: Account Creation and Activation

Visit portal.unijos.edu.ng
Click Programme Menu and select Remedial Sciences
Fill the online account creation form (Ensure to provide functional email, easy to remember password and phone number)
Select your program of choice (Remedial science)
Click on Register when completed to submit
(An activation link will be sent to the email you provided. Login to the email and click on the link to activate your account and proceed with the registration)



Step 2: Payment for the Application Form (N15,000)

Visit portal.unijos.edu.ng
Click on LOGIN
Enter your email and password and then click Log In (You will be logged in to your personalized dashboard)
Click on Application Charge and then click on Pay Application Charges. (A window containing payment details will be displayed.)
Select your preferred payment option (Bank Branch, Card, etc) and provide the details required
Follow the prompt through until payment is successful
Print the receipt upon successful payment. Also print the other copy of the receipt sent to your mail.

Step 3: Personal Information Registration

visits portal.unijos.edu.ng
Click on LOGIN
Type your email and password and then click Log In (You will be logged in to your personalized dashboard)
Click on My Profile
Click on Add/Edit Bio-Data
Complete the online registration. Ensure you enter all the information requested on all tabs: bio-data, result, sponsor, next of kin as well as passport and signature upload.
Click on SUBMIT once completed (a form will be generated for you. Print and keep for future reference)
In case of inquiry contact the Head of Department of Remedial Sciences, University of Jos on phone Number 08036843775 or the Secretary, on 08033661070

Signed:

Chief Monday M. Danjem
Registrar

Flexible Sigmoidoscopy: Overview, Indications, Procedure

Flexible Sigmoidoscopy: Overview, Indications, Procedure

Flexible sigmoidoscopy is a colorectal cancer screening technique that detects 50% to 60% of colon cancers. With flexible sigmoidoscopy, the inner lining of the rectum and the last 2 feet of the distal colon can be visualized; 60-cm sigmoidoscopy is preferred.

INDICATIONS
● Rectal bleeding
● Positive Hemoccult test
● Mass on digital examination
● Lower abdominal pain and cramping
● Change in bowel habits
● Foreign body in the rectum
● Itching—anal or perianal
● Pain—anal or perianal



CONTRAINDICATIONS
● Acute abdomen
● Diverticulitis
● Cardiovascular or pulmonary disease
● Ileus
● Suspected perforation
● Megacolon
● Pregnancy
● Recent pelvic or abdominal surgery
● Coagulation disorders
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PROCEDURE
Flexible Sigmoidoscopy
Equipment
● Flexible sigmoidoscope—60 cm (Fig. 113.1)
● Light source
● Two pairs of gloves—nonsterile
● Suction
● K-Y jelly or 2% lidocaine jelly
● 4 × 4 gauze—nonsterile
● Absorbent pads—nonsterile
● Drape—nonsterile
● Culture tubes
● Emesis basin
● Sigmoidoscopy report sheet



Procedure
● Position the client in the left lateral decubitus position.
● Right leg flexed at the hip and knee
● Put on two pairs of gloves.
● Lubricate the second or third digit of the dominant hand.
● Perform a digital examination to dilate the sphincter.
● Lubricate the anus and the tip of the sigmoidoscope.
● Lubricate the distal half of the sigmoidoscope but not the lens.
● Remove the top pair of gloves and dispose of them.
● Separate the gluteal folds.
● Insert the scope gently 8 to 10 cm.
● Activate the light, suction, and air.
● With the right hand—Advance the scope.
● With the left hand—Work the controls on the scope.
● Open the colon by insufflating with a small amount of air, and advance the scope gently.
● Do not use too much air—this causes discomfort.
● Advance the scope using one of the following techniques
● Hook and pullout—used to straighten the colon
• Hook mucosal fold, and pull back to straighten the colon.
● Dither and torque—used to shorten the colon
• Alternate insertion with slow partial withdrawal to pleat the colon.
• Twist the sigmoid shaft clockwise or counterclockwise with a forward and/or backward motion.
• Observe for natural landmarks and abnormalities.
● Take a biopsy specimen of all abnormal areas and put in culture tube for biopsy.
● Withdraw the sigmoidoscope slowly, reinspecting the mucosa.
● When in the rectal vault, retroflex the tip of the scope to visualize the distal rectum.
● Straighten the tip, and gently withdraw the scope.
● Cleanse, sterilize, and store per manufacturer’s instructions.
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Client Instructions
● The following may be expected but will resolve quickly.
● Abdominal cramping if a biopsy specimen was obtained
● Feeling of fullness, distention, or flatus
● No bowel movement for several days
● Minor bleeding
● No special diet is recommended after the procedure.
● Watch for signs of infections, such as
● Elevated temperature
● Increased or prolonged rectal pain
● Green or yellow drainage



BIBLIOGRAPHY
Colodny CS. Procedures for your practice. Patient Care, April 1996:151–157.
Dominitz JA, McCormick LH, Rex DK. Latest approaches to prevention and screening.
Patient Care, April 1996:124–142.
National Cancer Institute. Fact Sheet—Tests to Detect Colorectal Cancer and Polyps. Date
unknown. http://www.cancer.gov/cancertopics/factsheet/detection/colorectal-screening.
Reilly HF. Primary care use of the flexible sigmoidoscope to detect colorectal cancer and its
precursors. Primary Care Cancer, 1994;14(5):41–45.
Flexible sigmoidoscopy. YouTube.
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Obtaining a Wound Culture

Wound Culture Test Overview

A wound culture is a test to find germs (such as bacteria or a fungus) that can cause an infection. A sample of skin, tissue, or fluid is added to a substance that promotes the growth of germs. If no germs grow, the culture is negative. If germs that can cause an infection grow, the culture is positive. The type of germ may be identified with a microscope or chemical tests. Sometimes other tests are done to find the right medicine for treating the infection. This is called sensitivity testing.

Most bacteria can grow in oxygen. They are called aerobic bacteria and usually are found in wounds close to the skin surface (superficial). Bacteria that cannot grow in the presence of oxygen (anaerobic) usually are found in deeper wounds and abscesses. A wound culture can find out whether bacteria are aerobic or anaerobic.

A fungal culture is done to find out if an infection is caused by a fungus. A viral culture can be done to find out whether an infection is caused by a virus.



Goal:
Identify organisms colonized within a wound so that antibiotics sensitive to the microorganisms can be prescribed, as needed.
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Procedure:

1. Identify the patient using two separate identifiers.
2. Close door or bed curtains and explain the procedure to the patient, if possible.
3. Verify order for culture noting site and type of culture. Label the specimen container and make sure the information includes the patient’s name, medical record number, date and time specimen is obtained, and site of the culture.
4. Perform hand hygiene and don gloves.
5. Remove soiled dressing. Observe drainage for amount, odor, and color.
6. Clear and remove exudate from around wound and cleanse with normal saline.
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Obtaining Aerobic Culture

1. Perform steps 1 through 6 above.
2. Using sterile swab from culture tube, insert swab deep into area of active drainage. Rotate swab to absorb as much drainage as possible.
3. Insert swab into culture tube, taking care not to touch the top or outside of the tube.
4. Crush ampule of medium and close container securely.
5. Continue with step 4 below.



Obtaining Anaerobic Culture

1. Perform steps 1 through 6 at beginning of procedure.
2. Using sterile swab from special anaerobic culture tube, insert swab deeply into draining body cavity.
3. a. Rotate swab gently and remove. Quickly place swab into inner tube of collection container.
b. Alternative method: Insert tip of syringe with needle removed into wound and aspirate 1 to 5 mL of exudate. Attach 21-gauge needle to syringe, expel all air, and inject exudate into inner tube of the culture container.
4. Send specimens in the pre-labeled containers with appropriate requisition immediately to the laboratory. Some agencies require that specimens be transported in clean plastic bags to further prevent transfer of microorganisms.
5. Clean and apply sterile dressings to the wound, as ordered.
6. Remove and discard gloves. Perform hand hygiene.
7. Document all relevant information on the patient’s chart. Include the location the specimen was taken from and the date and time. Record the wound’s appearance and the color, odor, amount, and consistency of drainage. Record
how the patient tolerated the procedure and any discomfort that he or she experienced.

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Bronchoscopy

Bronchoscopy

Description
Bronchoscopy allows direct visualization of the larynx, trachea, and bronchi through a flexible fiberoptic bronchoscope or a rigid metal bronchoscope. A more recent approach is the use of virtual bronchoscopy.

Although a flexible fiberoptic bronchoscope allows a wider view and is used more commonly, the rigid metal bronchoscope is required to remove foreign objects, excise endobronchial lesions, and control massive hemoptysis. A brush, biopsy forceps, or catheter may be passed through the bronchoscope to obtain specimens for cytologic examination.

Bronchoscopy may require fluoroscopic guidance for distal evaluation of lesions for a transbronchial biopsy in alveolar areas. However, the usual bronchoscopy procedure is as follows:

• With the patient sitting upright or lying supine, a local anesthetic is sprayed into the patient’s throat.
• Once the anesthetic takes effect, a bronchoscope is introduced through the patient’s mouth or nose.
• When the scope is just above the vocal cords, about 3 to 4 mL of 2% to 4% lidocaine is flushed through the
scope’s inner channel to the vocal cords to anesthetize deeper areas.
• The practitioner inspects the anatomic structure of the trachea and bronchi, observes the color of the mucosal lining, and notes masses or inflamed areas.
• Tissue specimens may be obtained from a suspect area; a bronchial brush to obtain cells from the surface of a lesion, and a suction apparatus to remove foreign bodies or mucus plugs may be used. Broncho alveolar lavage may be performed to diagnose the infectious causes of infiltrates in an immunocompromised patient or to remove thickened secretions.



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Purpose
• To visually examine a tumor, an obstruction, secretions, bleeding, or a foreign body in the tracheobronchial tree
• To help diagnose bronchogenic carcinoma, TB, interstitial pulmonary disease, and fungal or parasitic pulmonary infection by obtaining a specimen for bacteriologic and cytologic examination
• To remove foreign bodies, malignant or benign tumors, mucus plugs, and excessive secretions from the tracheobronchial tree

Normal Findings
• Trachea consisting of smooth muscle containing C-shaped rings of cartilage at regular intervals and lined with ciliated mucosa
• Bronchi appearing structurally similar to the trachea; the right bronchus slightly larger and more vertical than
the left
• Smaller segmental bronchi branching off the main bronchi

Abnormal Findings
• Bronchial wall abnormalities, such as inflammation, swelling, protruding cartilage, ulceration, tumors, and mucous gland orifice or submucosal lymph node enlargement
• Endotracheal abnormalities, such as stenosis, compression, ectasia (dilation of tubular vessel), irregular bron chial branching, and abnormal bifurcation due to diverticulum
• Abnormal substances in the trachea or bronchi, such as blood, secretions, calculi, and foreign bodies
• Evidence of interstitial pulmonary disease, bronchogenic carcinoma, tuberculosis (TB), or other pulmonary infections
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Nursing Implications
• Anticipate the need for additional testing, if indicated.
• Radiographic, bronchoscopic, and cytologic findings must be correlated with clinical signs and symptoms.

Interfering Factors
• Failure to place specimens in the appropriate containers

Precautions
• A patient with respiratory failure who can’t breathe adequately on his own should be placed on a ventilator before bronchoscopy.



Nursing Considerations
Before the Test
• Confirm the patient’s identity using two patient identifiers according to facility policy.
• Explain to the patient that bronchoscopy is used to examine the lower airways.
• Describe the procedure, including that it’s done in a darkened room. Tell him who will perform the test, and when and where it will occur.
• Explain to the patient that he’ll need to fast for 6 to 12 hours before the test and that he may receive an IV
sedative to help him relax.
• If the procedure isn’t being performed under general anesthesia, inform the patient that a local anesthetic will be sprayed into his nose and mouth to suppress the gag reflex. Warn him that the spray has an unpleasant taste and that he may experience discomfort during the procedure.
• Reassure the patient that his airway won’t be blocked during the procedure and that oxygen will be administered
through the bronchoscope.
• Make sure that the patient or a responsible family member has signed an informed consent form.
• Check the patient’s history for hypersensitivity to the anesthetic.
• Obtain the patient’s baseline vital signs.
• Administer the preoperative sedative.
• Have the patient remove his dentures, if appropriate, before he receives a sedative.



During the Test
• Place the patient in the supine position or have him sit upright in a chair.
• Tell the patient to remain relaxed with his arms at his sides and to breathe through his nose.
• Provide supplemental oxygen by nasal cannula, if necessary.
• Assist with tissue specimen collection, as indicated.
• After collection, place the specimens in their respective, properly labeled containers in accordance with laboratory and pathology guidelines, and send them to the laboratory at once.
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After the Test
• Monitor the patient’s vital signs per facility policy, or at least every 15 minutes until the patient is stable and then every 30 minutes for 4 hours, every hour for the next 4 hours, and then every 4 hours for 24 hours. Immediately notify the practitioner of adverse reactions to the anesthetic or sedative.
• Place the conscious patient in semi-Fowler’s position; place the unconscious patient on his side with his head slightly elevated to prevent aspiration.
• Provide an emesis basin, and instruct the patient to spit out saliva rather than swallow it. Observe sputum for
blood, and report excessive bleeding immediately.
• Tell the patient who has had a biopsy to refrain from clearing his throat and coughing, which may dislodge the clot at the biopsy site and cause hemorrhaging.
• Immediately report subcutaneous crepitus around the patient’s face and neck, because this may indicate tracheal or bronchial perforation.
• Restrict food and fluids to avoid aspiration until the gag reflex returns (usually in 1–2 hours). The patient
may then resume his usual diet, beginning with sips of clear liquid or ice chips.
• Reassure the patient that hoarseness, loss of voice, and sore throat are temporary. Provide lozenges or a soothing liquid gargle to ease discomfort when his gag reflex returns.

Nursing Alert
Watch for, listen for, and immediately report symptoms of respiratory diffi culty resulting from laryngeal edema or laryngospasm, such as laryngeal stridor and dyspnea. Observe for signs and symptoms of hypoxemia, pneumothorax, bronchospasm, and bleeding.

Reference:
Brunner & Suddarth’s (2010). Handbook of laboratory and Diagnostic Test. New York: Lippincott Williams & Wilkins

Monkeypox

WHO Monkeypox Key Facts

  • Monkeypox is a rare disease that occurs primarily in remote parts of Central and West Africa, near tropical rainforests.
  • The monkeypox virus can cause a fatal illness in humans and, although it is similar to human smallpox which has been eradicated, it is much milder.
  • The monkeypox virus is transmitted to people from various wild animals but has limited secondary spread through human-to-human transmission.
  • Typically, case fatality in monkeypox outbreaks has been between 1% and 10%, with most deaths occurring in younger age groups.
  • There is no treatment or vaccine available although prior smallpox vaccination was highly effective in preventing monkeypox as well.




Monkeypox is a rare viral zoonosis (a virus transmitted to humans from animals) with symptoms in humans similar to those seen in the past in smallpox patients, although less severe. Smallpox was eradicated in 1980.However, monkeypox still occurs sporadically in some parts of Africa.

Monkeypox is a member of the Orthopoxvirus genus in the family Poxviridae.

The virus was first identified in the State Serum Institute in Copenhagen, Denmark, in 1958 during an investigation into a pox-like disease among monkeys.

Outbreaks
Human monkeypox was first identified in humans in 1970 in the Democratic Republic of Congo (then known as Zaire) in a 9 year old boy in a region where smallpox had been eliminated in 1968. Since then, the majority of cases have been reported in rural, rainforest regions of the Congo Basin and western Africa, particularly in the Democratic Republic of Congo, where it is considered to be endemic. In 1996-97, a major outbreak occurred in the Democratic Republic of Congo.

In the spring of 2003, monkeypox cases were confirmed in the Midwest of the United States of America, marking the first reported occurrence of the disease outside of the African continent. Most of the patients had had close contact with pet prairie dogs.

In 2005, a monkeypox outbreak occurred in Unity, Sudan and sporadic cases have been reported from other parts of Africa. In 2009, an outreach campaign among refugees from the Democratic Republic of Congo into the Republic of Congo identified and confirmed two cases of monkeypox. Between August and October 2016, a monkeypox outbreak in the Central African Republic was contained with 26 cases and two deaths.

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Transmission
Infection of index cases results from direct contact with the blood, bodily fluids, or cutaneous or mucosal lesions of infected animals. In Africa human infections have been documented through the handling of infected monkeys, Gambian giant rats and squirrels, with rodents being the major reservoir of the virus. Eating inadequately cooked meat of infected animals is a possible risk factor.

Secondary, or human-to-human, transmission can result from close contact with infected respiratory tract secretions, skin lesions of an infected person or objects recently contaminated by patient fluids or lesion materials. Transmission occurs primarily via droplet respiratory particles usually requiring prolonged face-to-face contact, which puts household members of active cases at greater risk of infection. Transmission can also occur by inoculation or via the placenta (congenital monkeypox). There is no evidence, to date, that person-to-person transmission alone can sustain monkeypox infections in the human population.

In recent animal studies of the prairie dog-human monkeypox model, two distinct clades of the virus were identified – the Congo Basin and the West African clades – with the former found to be more virulent.




Signs and symptoms
The incubation period (interval from infection to onset of symptoms) of monkeypox is usually from 6 to 16 days but can range from 5 to 21 days.

The infection can be divided into two periods:

i. the invasion period (0-5 days) characterized by fever, intense headache, lymphadenopathy (swelling of the lymph node), back pain, myalgia (muscle ache) and an intense asthenia (lack of energy);
ii. the skin eruption period (within 1-3 days after appearance of fever) where the various stages of the rash appears, often beginning on the face and then spreading elsewhere on the body. The face (in 95% of cases), and palms of the hands and soles of the feet (75%) are most affected. Evolution of the rash from maculopapules (lesions with a flat bases) to vesicles (small fluid-filled blisters), pustules, followed by crusts occurs in approximately 10 days. Three weeks might be necessary before the complete disappearance of the crusts.

The number of the lesions varies from a few to several thousand, affecting oral mucous membranes (in 70% of cases), genitalia (30%), and conjunctivae (eyelid) (20%), as well as the cornea (eyeball).

Some patients develop severe lymphadenopathy (swollen lymph nodes) before the appearance of the rash, which is a distinctive feature of monkeypox compared to other similar diseases.

Monkeypox is usually a self-limited disease with the symptoms lasting from 14 to 21 days. Severe cases occur more commonly among children and are related to the extent of virus exposure, patient health status and severity of complications.

People living in or near the forested areas may have indirect or low-level exposure to infected animals, possibly leading to subclinical (asymptomatic) infection.

The case fatality has varied widely between epidemics but has been less than 10% in documented events, mostly among young children. In general, younger age-groups appear to be more susceptible to monkeypox.




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Diagnosis
The differential diagnoses that must be considered include other rash illnesses, such as, smallpox, chickenpox, measles, bacterial skin infections, scabies, syphilis, and medication-associated allergies. Lymphadenopathy during the prodromal stage of illness can be a clinical feature to distinguish it from smallpox.

Monkeypox can only be diagnosed definitively in the laboratory where the virus can be identified by a number of different tests:

  • enzyme-linked immunosorbent assay (ELISA)
  • antigen detection tests
  • polymerase chain reaction (PCR) assay
  • virus isolation by cell culture

Treatment and vaccine
There are no specific treatments or vaccines available for monkeypox infection, but outbreaks can be controlled. Vaccination against smallpox has been proven to be 85% effective in preventing monkeypox in the past but the vaccine is no longer available to the general public after it was discontinued following global smallpox eradication. Nevertheless, prior smallpox vaccination will likely result in a milder disease course.

Natural host of monkeypox virus
In Africa, monkeypox infection has been found in many animal species: rope squirrels, tree squirrels, Gambian rats, striped mice, dormice and primates. Doubts persist on the natural history of the virus and further studies are needed to identify the exact reservoir of the monkeypox virus and how it is maintained in nature.

In the USA, the virus is thought to have been transmitted from African animals to a number of susceptible non-African species (like prairie dogs) with which they were co-housed.

Prevention
Preventing monkeypox expansion through restrictions on animal trade
Restricting or banning the movement of small African mammals and monkeys may be effective in slowing the expansion of the virus outside Africa.

Captive animals should not be inoculated against smallpox. Instead, potentially infected animals should be isolated from other animals and placed into immediate quarantine. Any animals that might have come into contact with an infected animal should be quarantined, handled with standard precautions and observed for monkeypox symptoms for 30 days.

Reducing the risk of infection in people
During human monkeypox outbreaks, close contact with other patients is the most significant risk factor for monkeypox virus infection. In the absence of specific treatment or vaccine, the only way to reduce infection in people is by raising awareness of the risk factors and educating people about the measures they can take to reduce exposure to the virus. Surveillance measures and rapid identification of new cases is critical for outbreak containment.

Public health educational messages should focus on the following risks:

  • Reducing the risk of human-to-human transmission. Close physical contact with monkeypox infected people should be avoided. Gloves and protective equipment should be worn when taking care of ill people. Regular hand washing should be carried out after caring for or visiting sick people.
  • Reducing the risk of animal-to-human transmission. Efforts to prevent transmission in endemic regions should focus on thoroughly cooking all animal products (blood, meat) before eating. Gloves and other appropriate protective clothing should be worn while handling sick animals or their infected tissues, and during slaughtering procedures.




Controlling infection in health-care settings
Health-care workers caring for patients with suspected or confirmed monkeypox virus infection, or handling specimens from them, should implement standard infection control precautions.

Healthcare workers and those treating or exposed to patients with monkeypox or their samples should consider being immunized against smallpox via their national health authorities. Older smallpox vaccines should not be administered to people with comprised immune systems.

Samples taken from people and animals with suspected monkeypox virus infection should be handled by trained staff working in suitably equipped laboratories.

WHO response

WHO supports Member States with surveillance, preparedness and outbreak response activities in affected countries.

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Bone Marrow Aspiration and Biopsy

Bone Marrow Aspiration and Biopsy

Bone marrow aspiration is one of the diagnostic tools used to assess the status of the hematopoietic system. It involves extracting small amounts of myeloid tissue from a bony cavity (e.g., the sternum or iliac crest). The posterior-superior spine portion of the iliac crest is considered the first choice site because there is a higher percentage of success in obtaining quantities of bone marrow sufficient for diagnostic testing.

Bone marrow aspiration provides accurate information on the relative number of stem cells and their development and morphological structure. A follow-up technique, bone marrow biopsy, provides a more specific morphology of the bone.

OVERVIEW

Complications
● Potentially painful
● Potential hemorrhage at the site
● Risk of introducing infection to the bone, which can lead to osteomyelitis
● Retroperitoneal hemorrhage caused by penetration into the bowel cavity by too deep a penetration of the iliac crest
● Unsuccessful biopsy (known as dry tap)
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OPTIONS
● Bone marrow aspiration
● Bone marrow biopsy

RATIONALE
● To assess the hematopoietic system
● To evaluate hematopoietic abnormalities



INDICATIONS
● Unexplained anemia
● Unresolved neutropenia after withdrawal from antibiotic therapy
● Suspected metastatic disease
● Abnormal hematopoietic disorder (leukemia, idiopathic thrombocytopenia, pancytopenia)
● Lymphoproliferative disorders, including lymphoma
● Immunodeficiency disorders, including HIV
● Fever of unknown etiology
● Suspected unusual presentation of an infectious disorder (fungal, tuberculosis)
● Chromosomal analysis
● Bone marrow transplantation

CONTRAINDICATIONS
● Severe osteoporosis
● Hemophilia
● Known radiation to bone site

◗ Informed consent required

PROCEDURE

Bone Marrow Aspiration and Biopsy

Equipment
Prepackaged disposable kits are available.
● Gloves—sterile
● Povidone-iodine (Betadine)
● Fenestrated drape—sterile
● 3-mL syringe
● Two needles—21 gauge and 25 gauge, 1½ inch
● 1% or 2% lidocaine without epinephrine
● 10-mL syringe prepared with ethylenediamine tetra-acetic acid (EDTA) solution
rinse
● Complete blood count purple-top (EDTA) laboratory test tube
● No. 11 scalpel
● Bone marrow aspiration needle
● Jamshidi bone marrow biopsy needles (optional)
● Microscope glass slides
● Fixative specimen container
● 4 × 4 gauze—sterile
● Tape



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Procedure

BONE MARROW ASPIRATION—ILIAC CREST
● Position the client comfortably on abdomen. A pillow under the area of the procedure may relax the individual.
● Identify the posterior-superior landmarks.
● Cleanse the area of the aspiration and 3 inches surrounding with povidone-iodine.
● Open the bone marrow kit.
● Put on sterile gloves.
● Draw up lidocaine in the 3-mL syringe with the 25-gauge needle.
● Insert the needle intradermally at the site, and inject a small amount of lidocaine until a wheal has formed.
● Replace the 25-gauge needle with the 21-gauge needle, and penetrate deeper into the tissue until the periosteum of the site is felt. Inject approximately 1 mL into the area; then slowly withdraw while infiltrating the needle tract with the remaining solution.
● While waiting for local anesthetic to work (5 to 10 minutes), confirm that the obdurator of the biopsy needle is locked in place and the cap is secured.
● When the skin is anesthetized, use the No. 11 scalpel and make a small (0.25 cm or less) stab wound.
● Insert the biopsy needle at a 90-degree angle into the incision with the capped end in the palm of hand and the shaft between two fingers (usually index and middle fingers) until resistance of the periosteum is felt.
● Instruct the client that the next part of the procedure may cause a pressure sensation.
● Simultaneously begin to apply downward pressure and alternate clockwise and counterclockwise motions to penetrate the cortex of the bone.
● Continue this until penetration for approximately 1 cm until the “give” of the cortex is felt. Halt downward pressure, and advance approximately 1 to 2 mm farther to ensure placement in the marrow. The biopsy needle should be held in place by the skin and bone.
● Unlock the cap of the syringe, withdraw the obturator, and attach the EDTA-prepared 10-mL syringe.
● Counsel client that pain may be felt at this time and to remain as still as possible.
● Pull up on the plunger of syringe. This creates a vacuum, allowing bone marrow contents to be aspirated. If no material is withdrawn, advance the needle an additional 1 to 2 mm, and repeat aspiration.
● If still no response, withdraw the needle from that periosteum site, and try another site within the incision.
● Withdraw a minimum of 5 mL of marrow. A good specimen shows grossly visible bone spicules.
● Prepare the smears (may be performed by nonsterile assistant) in the following manner – Thinly spread the bone marrow aspiration material over one glass specimen slide and cover with second slide.
● Gently squeeze the two slides together, and allow any excess blood to drain off the slides.
● After excess blood is removed, roll the slides apart lengthwise.
• This allows thinning of any layering of the specimen.
● On successful aspiration, remove the needle, and apply pressure over the area using a quarter-folded 4 × 4 gauze and tape as a pressure dressing.
● Have the client remain supine for 1 hour with pressure dressing in place.
● After 1 hour, the client may get up and leave.



BONE MARROW BIOPSY—USUALLY PERFORMED ON THE ILIAC CREST
● Position the client comfortably on abdomen. A pillow under the area of the procedure may relax the individual.
● Identify the posterior-superior landmarks.
● Cleanse the area of the aspiration and 3 inches surrounding with povidone-iodine.
● Open the bone marrow kit.
● Put on sterile gloves.
● Draw up lidocaine in the 3-mL syringe with the 25-gauge needle.
● Insert the needle intradermally at the site and inject a small amount of lidocaine until a wheal has formed.
● Replace the 25-gauge needle with the 21-gauge needle, and penetrate deeper into the tissue until the periosteum of the site is felt. Inject approximately 1 mL into the area; then slowly withdraw while infiltrating the needle tract with the remaining solution.
● While waiting for local anesthesia to work (5 to 10 minutes), confirm that the obdurator of the biopsy needle is locked in place and cap is secured.
● When the skin is anesthetized, use the No. 11 scalpel and make a small (0.25 cm or less) stab wound.
● Insert the biopsy needle at a 90-degree angle into the incision with the capped end in the palm of hand and the shaft between two fingers (usually index and middle fingers) until resistance of the periosteum is felt.
● Instruct patient that he or she may feel pain and pressure.
● Simultaneously begin to apply downward pressure and alternate clockwise and counterclockwise motions to penetrate the cortex of the bone.
● Continue this until penetration for approximately 1 cm until the “give” of the cortex is felt. Halt downward pressure, and advance approximately 1 to 2 mm farther to ensure placement in the marrow. The biopsy needle should be held in place by the skin and bone.
● When the biopsy syringe has been placed in the marrow, withdraw the needle 3 mm to have it placed in the cortex.
● Redirect the angle of the needle toward the anterior iliac spine, and advance it into the cortex until resistance decreases.
● Remove the obdurator and perform an alternate clockwise and counterclockwise motion for a distance of 2 cm.
● Proceed to rock the needle clockwise five times and then counterclockwise five times to ensure a good specimen.
● Change the angle approximately 15 degrees, and repeat previous step. This allows the specimen to be severed from the marrow.
● Cover the opening of bone marrow needle with your thumb and withdraw it.
● Insert the obturator and allow the specimen to be pushed out onto sterile 4 × 4 gauze.
● Prepare the smears (may be performed by nonsterile assistant) in the following manner
● Using a light touch, gently touch four glass slides to the specimen on the gauze.
● Place the specimen in a container with the fixative agent.
● On completion, remove needle, and apply pressure over the area using a quarter-folded sterile 4 × 4 gauze and tape as a pressure dressing.
● Have the client remain supine for 1 hour with pressure dressing in place.
● After 1 hour, client may get up and leave.



Client Instructions
● Infection rarely is associated with this procedure. Observe for signs and symptoms of infection, however, such as
● Increased redness and warmth at the site
● Red streaks
● Swelling with drainage
● Pus from site
● Contact your health-care provider if any of the following symptoms occur within 48 hours
● Fever
● Abdominal pain
● Unrelieved site pain
● Leave the pressure dressing on for 12 hours. After that time, the dressing may be removed and a standard dressing applied.
● Keep the site clean and dry for 24 hours.
● Avoid strenuous exercise for 48 hours.
● Pain is usually minimal and may be relieved with acetaminophen (Tylenol) or acetaminophen with codeine (Tylenol No. 3).
● Return to the office in 48 hours for recheck.

BIBLIOGRAPHY
McCance K, Huether S. Pathophysiology: The Biological Basis for Disease in Adults and
Children. St. Louis, MO: Mosby; 1996.
Paulman P. Marrow sampling. Am Fam Physician. 1989;40(6):85–87.
Pfenninger JL, Fowler GC. Procedures for Primary Care Physicians. St. Louis, MO: Mosby; 2011.
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Anoscopy: Overview, Indications, Procedure

Anoscopy: Overview, Indications, Procedure

Anoscopy is the direct visualization of the anus using a speculum. It is used to screen, diagnose, and evaluate perianal and anal problems.

OVERVIEW
Used in
● Emergency departments
● Primary care settings

RATIONALE
● To screen, diagnose, and evaluate perianal and anal problems

INDICATIONS
● Rectal or anal bleeding or unusual discharge
● Perianal or anal pain
● Hemorrhoids
● Rectal prolapse
● Digital examination that reveals a mass
● Perianal abscess and condyloma



CONTRAINDICATIONS
● Acute cardiovascular problems—may stimulate the vasovagal reaction
● Acute abdominal problems
● Unwilling patient
● Stenosis of the anal canal
◗ Informed consent required
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PROCEDURE
Anoscopy

Equipment
● Anoscope
● Light source
● Gloves—nonsterile
● Drape—nonsterile
● Water-soluble lubricant (K-Y jelly)
● Large cotton-tipped applicators—nonsterile
● Monsel’s solution—to control bleeding (ferric subsulfate)
● 4 × 4 gauze—nonsterile
● Biopsy forceps
● Container with 10% formalin

Procedure
● Position the client in the left lateral decubitus position.
● Drape the client.
● Put on gloves.
● Tell the client you are going to touch him or her by the rectum.
● Spread the gluteal fold and examine visually.
● Have the client bear down and observe for hemorrhoids or prolapse.
● Lubricate your second digit with K-Y jelly and perform a digital examination.
● Lubricate the anoscope with K-Y jelly.
● Have the client take slow, deep breaths to relax the sphincter.
● Insert the anoscope slowly and gently into the anus toward the umbilicus.
● Remove the obturator.
● Visualize the rectal mucosa, noting the vasculature, pectinate line, transitional zone, and drainage.
● Remove fecal matter and drainage with a large cotton swab if necessary.
● Obtain a biopsy specimen if needed using the biopsy forceps. Place the tissue specimen in a container with 10% formalin.
● If bleeding is present, apply Monsel’s solution and pressure.
● Remove anoscope gently, and observe the mucosa for any injury.



Client Instructions
● Slight bleeding is normal after this procedure because of the possibility of an abrasion, tearing of the mucosa or anus, or hemorrhoids.
● If slight bleeding persists for more than 2 days, notify your health-care provider.
● To decrease pain and swelling, sit in a tub of warm water for 10 to 15 minutes three times per day.

BIBLIOGRAPHY
Pfenninger JL, Fowler GC. Procedures for Primary Care Physicians. St. Louis, MO: Mosby;
2011.

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